プライベート5Gネットワーク：2024年から2030年の機会、課題、戦略、予測

Private 5G Networks: 2024-2030 Opportunities, Challenges, Strategies & Forecasts

iNET（インフラストラクチャー・ネットワークス）のパーミアン・ベースンの700 MHz LTEネットワーク、Tampnetの北海のオフショア4Gインフラ、リオ・ティントの西オーストラリア鉱業用のプライベートLTEネット... もっと見る

出版社	出版年月	電子版価格	ページ数	図表数	言語
SNS Telecom & IT SNSテレコム&IT	2024年5月17日	US$2,500 シングルユーザーライセンスライセンス・価格情報・注文方法はこちら	2,480	113	英語

日本語のページは自動翻訳を利用し作成しています。
実際のレポートは英文でご納品いたします。

サマリー

iNET（インフラストラクチャー・ネットワークス）のパーミアン・ベースンの700 MHz LTEネットワーク、Tampnetの北海のオフショア4Gインフラ、リオ・ティントの西オーストラリア鉱業用のプライベートLTEネットワークなど、初期導入は2010年代初頭にさかのぼる。しかし、ほとんどの国内市場では、3GPPで定義された5G規格に基づくプライベートセルラーネットワークまたはNPN（Non-Public Networks）は、PoC（概念実証）試験や小規模な配備から、インダストリー4.0や高度なアプリケーションシナリオの基礎を築くスタンドアロン5Gネットワークの本番グレードの実装に移行し始めているところです。

LTE技術と比較して、プライベート5Gネットワーク（地域によって5G MPN（モバイル・プライベート・ネットワーク）、5Gキャンパス・ネットワーク、ローカル5G、e-Um 5Gシステムとも呼ばれる）は、スループット、遅延、信頼性、可用性、接続密度の面ではるかに厳しい性能要件に対応できる。特に、5GのURLLC（超高信頼性低遅延通信）とmMTC（大規模マシン型通信）機能は、2030年代の6Gネットワークへの将来的な移行経路とともに、機械、ロボット、制御システム間の産業用グレードの通信において、物理的な有線接続に代わる実行可能な選択肢として位置づけられている。さらに、5Gは所有コストが比較的高いにもかかわらず、無線ノードあたりのカバー半径の広さ、拡張性、決定性、セキュリティ機能、モビリティのサポートにより、今後数年間で接続されるセンサーやその他のエンドポイントの数が大幅に増加すると予想されるIIoT（産業用IoT）環境において、干渉を受けやすい免許不要の無線技術に取って代わる可能性に強い関心が寄せられている。

工場、倉庫、鉱山、発電所、変電所、石油・ガス施設、港湾などの産業環境における5G接続の採用を加速させることを目的とした国家予算による指令のおかげで、中国が異常値であり、最も成熟した国内市場であることは注目に値する。背景を説明すると、中国最大の民間の5G設備は、特定の遅延、信頼性、セキュリティ要件に応じて、オンプレミスまたはエッジクラウドベースのコアネットワーク機能によってサポートされる数百から数千の専用RAN（無線アクセスネットワーク）ノードで構成される可能性がある。例えば、家電メーカーMideaの荊州工業団地では、屋内外の5G NRアクセス・ポイントを2,500台設置し、約104エーカーの敷地全体で作業員、機械、ロボット、車両を接続している。また、福建省を拠点とするメーカーWanhua Chemicalは最近、監視カメラやIoTセンサーを中心とする8,000台以上の5G RedCap（Reduced Capability）デバイスに対応するカスタマイズされた無線ネットワークを構築した。

米国、ドイツ、フランス、日本、韓国、台湾などのエンドユーザー企業がデジタル化と自動化の取り組みを強化する中、プライベート5Gネットワークは、生産ラインの迅速な再構成のためのワイヤレス接続された機械など、多様なユースケースをサポートするために徐々に導入されている、分散PLC（Programmable Logic Controller）環境、AMR（Autonomous Mobile Robots）およびAGV（Automated Guided Vehicles）によるイントラロジスティクス、AR（Augmented Reality）支援ガイダンスおよびトラブルシューティング、マシンビジョンベースの品質管理、製造車両のワイヤレス・ソフトウェア・フラッシュ、遠隔操作クレーン、無人採掘機器など、多様なユースケースをサポートするために、民間の5Gネットワークが徐々に導入されている、ドローンのBVLOS（Beyond Visual Line-of-Sight）操作、複雑な産業システムのデジタル・ツイン・モデル、ATO（Automatic Train Operation：自動列車運転）、踏切や駅のホームの安全性のためのビデオ分析、航空機エンジン部品の遠隔目視検査、フライトラインの整備作業のためのリアルタイム・コラボレーション、 XR（拡張現実）に基づく軍事訓練、NICU（新生児集中治療室）で乳児を見るための両親のバーチャル訪問、従来のソリューションではアクセスしにくい場所でのライブ放送制作、大規模なスポーツイベント時のオペレーションクリティカルな通信、和牛生産のための牛の肥育と繁殖の最適化などである。

スマートフォン以外のデバイスの種類の少なさ、出荷量の少なさによる5G IoTモジュールの高コスト、セルラーワイヤレスシステムに関するエンドユーザー組織の能力の低さ、新技術に対する保守性といった形で長引く萌芽的な問題にもかかわらず、早期導入者は、プライベートネットワークの専門家と協力して、または従来のモバイル事業者を介して、新しい共有およびローカルエリアのライセンスされた周波数オプションを使用して独自に構築されたネットワークに投資することにより、プライベート5Gの長期的な可能性を確信している。一部のプライベート5Gの導入は、実用的かつ具体的なメリット（特に効率向上、コスト削減、労働者の安全性）がますます明らかになる段階まで進んでいる。注目すべき例としては、以下が挙げられるが、これらに限定されるものではない：

テスラは、ドイツのブランデンブルクにあるギガファクトリー・ベルリン・ブランデンブルク工場の製造現場でプライベート5Gを導入し、同工場のGA（ジェネラル・アッセンブリー）工場における特定工程のオーバーサイクル問題を最大90％克服した。電気自動車メーカーは、プライベート5Gネットワークインフラを統合し、グローバルな製造施設全体で、生産、イントラロジスティクス、品質業務におけるインパクトの大きいユースケースに取り組んでいる。

ジョンディア社は、米国、南米、欧州の産業施設にプライベート5Gネットワークを導入することで、有線イーサネット接続への依存度を今後5年間で70％から10％に削減するという目標を着実に進めている。同様の取り組みとして、自動車用アルミダイカストのサプライヤーであるIKDは、600台の機械をつなぐ6マイルのケーブルをプライベート5Gネットワークに置き換え、ケーブルのメンテナンスコストをほぼゼロに抑え、製品の歩留まり率を10％向上させた。

ルフトハンザテクニックのハンブルク施設にある5Gキャンパス・ネットワークは、同社のエンジン・オーバーホール・ワークショップの両方で、バーチャル部品検査とボアスコープ検査のための信頼性の高い高解像度ビデオ・アクセスを提供することで、民間航空会社の顧客が物理的にサービスに立ち会う必要性を排除した。以前、免許不要のWi-Fi技術を使用してバーチャル検査を実施しようとしたところ、大きな金属構造物があるために効果がないことが判明しました。

EWG（東西ゲート）インターモーダル・ターミナルのプライベート5Gネットワークは、生産性を1時間当たり23～25個のコンテナから32～35個に向上させ、同施設の人件費関連の運営費を40％削減するとともに、20ミリ秒未満の待ち時間で遠隔操作されるため、クレーンオペレーターが怪我をする可能性を排除した。

リバプールのケンジントンの都心部にあるリバプール5Gクリエイト・ネットワークは、デジタル・ヘルス、教育、ソーシャル・ケア・サービスの大幅なコスト削減の可能性を実証している。5G接続の転倒防止システムにより、介護施設の入居者1人当たりの年間支出が1万ドルも削減されたという驚くべき結果や、リバプール市内の86の外科に適用した場合、英国のNHS（国民保健サービス）にとって年間22万ドルの節約に相当するGP（一般開業医）1件当たりのWAN（広域ネットワーク）接続料金が2600ドルも削減されたという結果などがある。

日本電気株式会社（NEC）は、掛川（静岡県）の新工場にイントラロジスティクス用のローカル5G対応自律搬送システムを導入し、生産効率を30％改善した。この製造施設のオンプレミス5Gネットワークはまた、工場フロアレイアウトの自由度を向上させ、それによってNECは変化する顧客ニーズ、市場需要の変動、生産調整に柔軟に対応できるようになった。

鹿屋市（鹿児島県）にある牛野中山の大隅牧場では、5Gの導入により、事故率、飼料ロス、管理コストを削減し、10％以上の人件費削減を実現した。5Gネットワークは、AI（人工知能）ベースの画像解析と自律巡回ロボットに無線接続を提供する。

CJロジスティクスは、韓国の利川（京畿）にあるイチリ・センターで、4万平方メートルの倉庫施設にあるインダストリー4.0アプリケーション用の300のWi-Fiアクセス・ポイントに代わってプライベート5Gネットワークを採用した結果、生産性が20％向上した。

台湾とタイの工場に産業用無線通信用のプライベート5Gネットワークを導入したデルタ電子は、5G接続のスマート生産ラインの導入後、直接労働者1人当たりの生産性と平方メートル当たりの生産高がそれぞれ69％と75％増加したと推定している。

台湾の屏東県におけるOpen RAN準拠のスタンドアロン・プライベート5Gネットワークは、5Gを搭載したUAV（無人航空機）、モバイルロボット、スマートグラス、AI対応画像認識などの活用により、害虫関連の農業損失を30％削減し、地元農場の収益全体を15％向上させた。

JDロジスティクス（オンライン小売業JD.comのサプライチェーンおよびロジスティクス部門）は、中国の北京と長沙（湖南省）にある同社のロジスティクスパークで、AGV通信を免許不要のWi-Fiシステムからプライベート5Gネットワークに移行して以来、パケットロスをほぼゼロにし、接続タイムアウトの可能性を70%という驚異的な削減を達成した。

世界最大の鉄鋼メーカーChina Baowu Steel Groupの事業部門であるBaosteelは、隣接する2つの工場に43サイトのプライベート5Gを導入したことで、手作業による品質検査を50%削減し、90%以上の鉄鋼欠陥検出率を達成した。

Dongyi Group Coal Gasification Company（東義集団石炭ガス化会社）は、中国・鹿梁（山西省）にある新安炭鉱で、必要な人員を50％削減し、生産効率を10％向上させた結果、年間100万ドル以上のコスト削減を達成した。

シノペック（中国石油化工集団公司）が中国広東省の広州製油所で防爆5Gネットワークを導入した結果、事故が20％、有害ガスの排出が30％減少し、年間400万ドル以上の経済効果が得られた。このソリューションは、巨大エネルギー企業の30以上の製油所で再現されている。

都市鉄道運行の安全性と効率性を高めるために官民ハイブリッド5Gネットワークを採用して以来、広州地下鉄高速輸送システムは、線路沿いの湛水やその他の危険をリアルタイムで特定するための5G対応デジタル知覚アプリケーションを使用して、保守コストを約20％削減した。

5G Advancedの最も技術的に先進的な機能の一部 ? 5Gの次の進化段階である5G Advancedの最も技術的に高度な機能の一部は、民間の無線設備でも試用されている。他の例としては、中国の自動車メーカーである長城汽車（Great Wall Motor）は、モバイル・アプリケーション・シナリオにおけるワイヤーの磨耗を防止する努力の一環として、自動車のルーフ生産ライン内のタイムクリティカルな産業制御に屋内5Gアドバンスト・ネットワークを使用している。

さらに、地政学的な貿易摩擦や制裁措置により、既存の電気通信機器サプライヤーが特定の国で事業を行うことが制限されていることを背景に、プライベート5Gネットワークは、国や地域の公共モバイルネットワークへの大規模な展開やベンダーの入れ替えに先立ち、制御された環境で国産の5Gネットワークインフラ製品をテストする手段として浮上している。例えば、ロシアの産業グループは、バンドn79（4.8～4.9GHz）の周波数帯で動作する国産の5G機器を使用して、生産拠点内のパイロットゾーンでプライベート5Gネットワークを試験的に導入している。

プライベート5Gの長期的な可能性を活用するため、多くの新しい代替サプライヤーも、産業用アプリケーションの特定のニーズに合わせた5Gインフラを開発している。例えば、衛星通信会社のGlobalstarは、インダストリー4.0オートメーション環境における高密度のプライベート無線配備に最適化された3GPPリリース16準拠のマルチポイント地上RANシステムを発表した一方、ドイツのエンジニアリングコングロマリットであるシーメンスは、自社工場や産業用顧客の工場で使用するための社内プライベート5Gネットワークソリューションを開発した。

SNS Telecom & ITは、垂直型産業向けのプライベート5Gネットワークへの年間投資額は2024年から2027年の間に年平均成長率約42%で成長し、最終的には2027年末までに約35億ドルに達すると予測している。この成長の大部分は、製造業やプロセス産業におけるインダストリー4.0アプリケーション向けに、地理的に限定されたエリアをカバーする高度にローカライズされた5Gネットワークによって牽引されるものの、5Gアドバンスが商業的に現実のものとなるにつれて、予測期間の後半には、公共安全、公益事業、鉄道通信向けの1GHz未満の広域重要通信ネットワークも、LTE、GSM-R、その他のレガシーナローバンド技術から5Gへの移行を開始すると予想される。ミッションクリティカルなネットワーク向けの機能としては、5G Advanced仕様の最初のセットを定義する3GPP Release 18で、帯域幅5MHz未満の専用周波数帯で動作する5G NR機器のサポートが追加され、公共安全ブロードバンド、スマートグリッドの近代化、FRMCS（Future Railway Mobile Communication System）向けに、500MHz未満、700MHz、850MHz、900MHz帯で動作するプライベート5Gネットワークへの道が開かれた。

プライベート5Gネットワーク：2024 機会、課題、戦略、予測」レポートは、プライベート5Gネットワーク市場について、バリューチェーン、市場促進要因、導入障壁、実現技術、運用・ビジネスモデル、垂直産業、アプリケーションシナリオ、主要動向、将来ロードマップ、標準化、周波数帯の利用可能性と割り当て、規制情勢、ケーススタディ、エコシステムプレーヤーのプロファイルと戦略など、詳細な評価を掲載しています。また、2024年から2030年までの世界と地域の市場規模予測も示している。予測は、3つのインフラサブマーケット、16の垂直産業、5つの地域市場をカバーしています。

本レポートには、本レポートに掲載されているすべての数値予測の定量データを網羅した関連Excelデータシート一式と、2024年第2四半期時点の世界のプライベートセルラー契約件数7,000件以上（うちプライベート5G設置件数2,200件以上）のデータベースが付属しています。

プライベート5Gの契約概要

以下は、16の垂直セクターにおける既存および計画中の民間5Gエンゲージメントの概要である：

農業：農業：日本では、鹿児島和牛の生産に向けた牛の肥育・繁殖の最適化を支援するため、遠隔操作のトラクターや農業機械からAI対応の画像解析や自律巡回ロボットまで、さまざまなアプリケーション・シナリオにスタンドアロンのローカル5Gネットワークが活用されている。同様の取り組みは、米国、ブラジル、台湾、その他の国でも進められている。

航空：香港、上海浦東・虹橋、東京成田、フランクフルト、ケルン・ボン、ブリュッセル、アムステルダム・スキポール、ウィーン、アテネ、オスロ、ヘルシンキ、サン・セバスチャン、DFW（ダラス・フォートワース）など、最も利用者の多い国際空港や国内空港の内部業務をサポートするために、プライベート5Gネットワークが導入されたり、試行されたりしている。デルタ航空、ルフトハンザテクニク、JAL（日本航空）は、航空機の整備業務に民間の5Gネットワークを活用しており、ANA（全日本空輸）は、航空訓練の効果を高めるために地域の5G接続を活用している。さらに、機内ブロードバンドや重要な空中通信のための国内および国境を越えたA2G（Air-to-Ground）ネットワーク（例えば、Gogo Business Aviationの5Gネットワーク）も、大きな牽引力を持ち始めている。

放送： CNN（Cable News Network）、BBC（British Broadcasting Corporation）、BT Media & Broadcast、RTE（Raidio Teilifis Eireann）、Media Broadcast、SWR（Sudwestrundfunk）、WDR（Westdeutscher Rundfunk Koln）、RTBF（Belgian Radio-Television of the French Community）、 RTVE（Radiotelevision Espanola）、SVT（Sveriges Television）、NRK（Norwegian Broadcasting Corporation）、TV 2、Yle（Yleisradio）、TVBS、TBN（Trinity Broadcasting Network）、WOWOW、CMG（China Media Group）、その他複数の放送事業者が、プライベート5Gネットワーク（仮設と固定設置の両方）を利用している。ライブ制作やその他のユースケースをサポートするために、仮設と固定設置の両方が利用されている。DAZNやU-NEXTなどのOTT（Over-the-Top）ストリーミング・サービス・プロバイダーも、スポーツ・イベント中のリアルタイム映像配信にポータブル5Gネットワークを利用し始めている。2024年のパリ・オリンピックでは、Orangeが提供するプライベート5Gソリューションが、有線配線が現実的でない場所からのライブ映像伝送に使用される予定だ。

建設建設：安藤ハザマ、熊谷組、大林組、清水建設、大成建設、竹中工務店、CSCEC（中国国家建設工程総公司）、Hoban Construction、Hip Hing Engineering、Gammon Construction、Hyundai E&C（Engineering & Construction）、Ferrovial、BAM Nuttall（Royal BAM Group）は、建設現場での生産性と作業員の安全性を高めるためにプライベート5Gネットワークを採用している企業の代表例である。

教育：高等教育機関は、キャンパス環境でのオンプレミス5Gネットワーク導入の最前線にいる。首都大学東京、テキサスA&M大学、ジョンズ・ホプキンス大学、パデュー大学、カルポリ（カリフォルニア工科大学）、ノースイースタン大学、UWM（ウィスコンシン大学ミルウォーキー校）、ネブラスカ大学リンカーン校、マクマスター大学、TUドレスデン（ドレスデン工科大学）、HSU/UniBw H（ヘルムート・シュミット大学）、RWTHアーヘン大学、TUカイザースラウテルン（カイザースラウテルン工科大学）、HOGENT（ゲント大学）、AGHクラクフ大学、Bia? ystok工科大学、CTU（プラハのチェコ工科大学）、リガ工科大学などは、実験的研究やスマートキャンパス関連のアプリケーションのためにプライベート5Gネットワークをホストしている多くの大学のひとつである。

林業：産業と環境の両面で林業の通信ニーズを満たすプライベート5Gネットワークに大きな関心が寄せられている。例えば、日本のケーブル事業者であるTST（トナミ衛星通信テレビ）は、山間部の林業環境における安全性と生産性を向上させるため、ローカル5G対応の遠隔機械制御と危険予測の実証実験に成功している。また、スウェーデンの新興企業AirForestryは、森林の伐採や間伐を空中から可能にする幅6メートルの電動ドローンをワイヤレスで制御できるプライベート5Gネットワークを試験的に導入している。その他の例では、SCA（Svenska Cellulosa Aktiebolaget）、Stora Enso、Fiskarhedenが、木材ターミナルや工場でのデジタル化と自動化を促進するために、ローカル5Gネットワークを展開している。

ヘルスケア VA Palo Alto、Boston Children's Hospital、Cleveland Clinic Mentor Hospital、長崎大学病院、Kwong Wah Hospital、West China Second University Hospital、SNUBH (Seoul National University Bundang Hospital)など、多くの病院でスマート・ヘルスケア・アプリケーションをサポートするために、専用の5Gキャンパス・ネットワークが導入されているか、導入が進んでいる、 SMC（サムスン医療センター）、梨花女子大学木洞病院、ベスレム・ロイヤル病院、CHUトゥールーズ（トゥールーズ大学病院）、フランクフルト大学病院、ヘリオス・パーク・ホスピタル・ライプツィヒ、UKD（デュッセルドルフ大学病院）、UKSH（シュレスヴィヒ・ホルシュタイン大学病院）、UKB（ボン大学病院）、OYS（オウル大学病院）、ホスピタル・ダス・クリニカス（サンパウロ）。

製造業自動車、航空宇宙、造船、製鉄、化学製造、エレクトロニクス、産業機械、その他のセクターの数多くのメーカーが、5G機器サプライヤーとともに、工場でのインダストリー4.0アプリケーションのためにプライベート5Gネットワークに投資している。主な例としては、ACOME、AGC、Airbus、Ansteel、ArcelorMittal、ASN (Alcatel Submarine Networks)、Atlas Copco、BASF、BMW、Bosch、Changan Automobile、China Baowu Steel Group、COMAC (Commercial Aircraft Corporation of China)、Continental、Delta Electronics、FAW、Ford、Foxconn、Gerdau、Glanbia、GM (General Motors)、Great Wall Motor、Gree、Haier、Holmen Iggesundなどが挙げられるが、これらに限定されない、ホンダ、インヴェンテック、INZUグループ、ジャクト、ジョン・ディア、KAI（韓国航空宇宙産業）、LGエレクトロニクス、LyondellBasell、メルセデス・ベンツ、Midea、ミーレ、ナヴァンティア、ネスレ、新日鉄、日産、NLMK、岡谷鋼機、ペガトロン、リコー、サーブ、三洋重工業、シュナイダーエレクトリック、シーメンス、ソルベイ、ステランティス、スタームスフス、サミット・スチール、テスラ、トヨタ、フォルクスワーゲン、ワールプール、Xショア、ヤラ・インターナショナル。

軍事：米国国防総省（DOD）のFutureG Officeが主導し、軍事基地や訓練施設でのプライベート5Gネットワーク、公共モバイルインフラでのネットワークスライシング、戦術的エッジでの戦闘員向けのポータブル5Gシステムの採用を加速するための複数のプログラムが進行中である。過去3年間で6億5,000万ドル以上の資金に支えられ、複数の米陸軍、海軍、海兵隊、空軍基地がすでにオンプレミスの5Gインフラをホストしており、2024年のNDAA（国防授権法）では特に、オープンRAN準拠のプライベート5Gネットワークを軍事施設に展開する戦略を策定するようDODに求めている。スペインの陸海軍は、移動中の陸軍旅団、装甲システム、ヘリコプター・メンテナンス・パーク、海軍基地、船舶、海上歩兵部隊向けにスタンドアロンのプライベート5Gネットワークを供給するため、携帯電話事業者のテレフォニカに総額1500万ドル相当の複数の契約を発注した。また、韓国軍は滑走路の安全管理やXRベースの訓練（小部隊戦術や銃器の分解・組立関連教育など）にプライベート5G設備を活用している。

鉱業：鉱業も民間5G導入のフロントランナーとして台頭しており、中国の石炭生産会社であるChina Shenhua Energy、Shaanxi Coal、China National Coal、Shandong Energyが初期の商業導入を主導している。Agnico Eagle Mines、Polymetal International、Nornickel (Norilsk Nickel)、SUEK、Zijin Mining、Canyon Coal、その他いくつかの鉱業グループも、特定の操業場所での生産性と作業安全性を向上させるために、専用の5Gインフラに投資している。さらに、オーストラリアの遠隔地における3.4～4.0GHzの周波数帯のAWL（Area-Wide Apparatus Licenses）が最近割り当てられたことで、BHP、リオ・ティント、フォーテスキュー、ロイ・ヒル、ノーザン・スター・リソーシズ、ニュークレスト・マイニング（ニューモント）、中信太平洋鉱業、アトラス・アイアン、アングロゴールド・アシャンティ、グレンコアなどが、既存のプライベートLTE設備を、高度なデジタル化と自動化のユースケースをサポートできるスタンドアロンの5Gネットワークに移行する取り組みに積極的に取り組んでいる。

石油・ガス：スペインの大手石油会社Cepsaは、ウエルバとカンポ・デ・ジブラルタルのエネルギーパークにインダストリー4.0アプリケーション用のプライベート5Gインフラを導入するために1400万ドルを費やしている。アラムコ（サウジアラビア石油会社）、CNOOC（中国海洋石油総公司）、PetroChina/CNPC（中国石油天然気集団公司）、Sinopec（中国石油化工集団）、大阪ガス、広島ガス、 PETRONAS（ペトロリアム・ナシオナル）、Gazprom Neft、Snam、TotalEnergies、PCK Raffinerie、PKN ORLEN、Petrobras（ブラジル石油公社）など、石油・ガス業界の多くの企業も5Gベースのプライベート・ワイヤレス・ネットワークに投資している。北海とメキシコ湾のオフショア・エネルギー産業向けのタンプネットのセルラーネットワークも、LTEからスタンドアロン5G技術へのアップグレードが進んでいる。

港湾・海上輸送：多くの港湾・ターミナル事業者は、AGV、遠隔操作クレーン、スマート荷役、予知保全などのアプリケーションに高速かつ低遅延の無線接続を提供するため、プライベート5Gネットワークを導入している。主な例としては、Hutchison Ports、PSA International、APM Terminals（Maersk）、COSCO Shipping Ports、CMPort（China Merchants Port Holdings）、SIPG（Shanghai International Port Group）、寧波・舟山港集団、天津港集団、珠海港集団、山東港集団、EUROGATE、VPA（Virginia Port Authority）、バルセロナ港湾局、タイン港、ABP（Associated British Ports）などが挙げられるが、これらに限定されない。海上輸送分野では、洋上5Gネットワークが導入され、航海中の旅客船と貨物船の両方に音声、データ、メッセージング、IoT接続サービスを提供している。

公共安全： 3GPPのリリース17および18仕様で定義された重要な公共安全関連の5G NR機能はまだ商用化されていないにもかかわらず、公共安全機関はすでに、この技術の広帯域幅と低遅延の特性を活用できるアプリケーション向けに5Gの実験を開始している。例えば台湾では、新竹市消防局の緊急対応車両が、災害地での緊急通信用に衛星バックホールのプライベート5Gネットワークを備えている。ノルウェーの航空救急車は、捜索救助活動中の状況認識を強化するため、同様の5GベースのプライベートNOW（Network-on-Wheels）システムを採用している。その他の早期採用例としては、麗水市緊急管理局、高雄市警察、PDRM（マレーシア王立警察）、ニュージーランド警察、Guardia Civil（スペイン民間警備隊）などがある。

鉄道： GSM-RからFRMCSへの移行は2020年代後半になると予想されているが、物流ターミナルにおけるAdif AVの専用5Gインフラ、阪神電鉄の踏切やホームの安全性向上のためのスタンドアロン・ローカル5G設備、自律機関車と鉄道制御システムを結ぶPOSCOのプライベート5Gネットワーク、広州地下鉄の5G + Smart Metroプロジェクト、中国国鉄グループの5G-Rプログラムなど、鉄道通信用の5Gベースのネットワークがいくつか導入されている。また、東京メトロ、DB（ドイツ鉄道）、SNCF（フランス国鉄）、Network Railなども、5G対応の鉄道接続プロジェクトを運用開始前に進めている。

公益事業： CNNC（中国核工業集団公司）は6,000万ドルのイニシアチブの一環として、原子力発電所のデジタル化と運用の自動化をサポートするため、物理的に分離されたプライベート5Gネットワークを構築している。EDF、Enel、Red Electrica、Efacec、SGCC (State Grid Corporation of China)、CSG (China Southern Power Grid)、関西電力、中部電力、北海道電力、九州電力、KEPCO (Korea Electric Power Corporation)、K-water (Korea Water Resources Corporation)、 Endeavour Energy、DEWA（Dubai Electricity & Water Authority）なども、発電所、変電所、送電線、洋上風力発電所の保守・監視を強化するために、民間の5G接続の利用を模索している。

倉庫管理・その他 Posten（ノルウェー郵政公社）、JD Logistics、Sinotrans、CJ Logistics、Yes24など多くの企業が、スマート倉庫アプリケーション向けにプライベート5Gインフラを導入している。プライベート5Gネットワークが採用されているその他の垂直セクターは、スポーツ、芸術、文化から、小売、接客、公共サービス、道路交通に及んでいる。水平的な観点では、屋内カバレッジ強化のためのエンタープライズRANシステムが比較的一般的で、エンドツーエンドのプライベートネットワークもオフィスビルやキャンパスで導入され始めている。BlackRock、Imagin'Office（Icade）、三井不動産、NAVER、WISTA Managementなどは、オフィス環境にオンプレミスのプライベート5Gネットワークを導入している企業である。

主な調査結果

本レポートの主な調査結果は以下の通りである：

SNS Telecom & ITは、垂直産業向けプライベート5Gネットワークへの年間投資額は2024年から2027年の間に年平均成長率約42%で成長し、最終的には2027年末までに約35億ドルに達すると予測している。この成長の大部分は、製造業やプロセス産業における高スループットかつ低遅延のインダストリー4.0アプリケーション向けに、地理的に限られたエリアをカバーする高度にローカライズされた5Gネットワークによって牽引される。

公共安全、公益事業、鉄道通信などの1GHz未満の広域重要通信ネットワークも、予測期間の後半にかけてLTE、GSM-R、その他のレガシー・ナローバンド技術から5Gへの移行が始まると予想される。5Gの次の進化段階である5G Advancedが商用化されるためである。

エンドユーザー企業がデジタル化と自動化の取り組みを強化する中、一部のプライベート5Gの導入は、実用的で具体的なメリットがますます明らかになる段階まで進んでいる。特に、プライベート5Gネットワークは、特定の製造、品質管理、イントラロジスティクス・プロセスの生産性と効率を20～90％向上させ、複合一貫輸送ターミナルでは最大40％のコスト削減、石油精製所では労働災害と有害ガスの排出をそれぞれ20％と30％削減し、地下採掘作業では必要な人員を50％削減した。

5G Advancedの最も技術的に進んだ機能のいくつかは、民間の無線設備でも試されている。他の例としては、中国の自動車メーカーである長城汽車（Great Wall Motor）が、モバイル・アプリケーション・シナリオにおけるワイヤーの磨耗を防止する取り組みの一環として、自動車のルーフ生産ライン内のタイムクリティカルな産業制御に屋内5Gアドバンスト・ネットワークを使用している。

さらに、地政学的な貿易摩擦や制裁措置により、既存の電気通信機器サプライヤーが特定の国で事業を行うことが制限されていることを背景に、プライベート5Gネットワークは、国や地域の公共モバイルネットワークへの大規模な展開やベンダーの入れ替えに先立ち、制御された環境で国産の5Gネットワークインフラ製品をテストする手段として浮上している。例えば、ロシアの鉄鋼メーカーNLMKグループは、バンドn79（4.8～4.9GHz）の周波数帯で動作する自社製の5G機器を使用し、リペツクの生産拠点内のパイロットゾーンでプライベート5Gネットワークのトライアルを行っている。

プライベート5Gの長期的な可能性を活用するため、多くの新しい代替サプライヤーも、産業用アプリケーションの特定のニーズに合わせた5Gインフラを開発している。例えば、衛星通信会社のGlobalstarは、インダストリー4.0オートメーション環境における高密度のプライベート無線配備に最適化された3GPPリリース16準拠のマルチポイント地上RANシステムを発表した一方、ドイツのエンジニアリングコングロマリットであるシーメンスは、自社工場や産業用顧客の工場で使用するための自社プライベート5Gネットワークソリューションを開発した。

周波数帯域の自由化イニシアティブ、特に共有およびローカルな周波数帯域免許の枠組みは、プライベート5Gネットワークの採用を加速させる上で極めて重要な役割を果たしている。米国、カナダ、英国、ドイツ、フランス、スペイン、オランダ、スイス、フィンランド、スウェーデン、ノルウェー、ポーランド、スロベニア、バーレーン、日本、韓国、台湾、香港、オーストラリア、ブラジルを含む複数の国の電気通信規制当局が、共有周波数帯とローカル・エリア・ライセンス周波数帯へのアクセスを解放しているか、または現在その過程にある。

ライセンスを受けた周波数帯、インフラ資産、セルラー・ネットワーキングの専門知識を最大限に活用することで、各国の携帯電話事業者は、共有周波数帯やローカル・エリア・ライセンス周波数帯が利用可能な国であっても、プライベート5Gネットワーク市場で大きな存在感を示し続けている。5G時代における垂直B2B（Business-to-Business）ビジネスチャンスへの重点の拡大により、移動体通信事業者は、産業および企業環境における安全で信頼性の高い無線接続のためのローカライズされた5Gネットワークから、オンプレミスの5Gインフラと広域カバレッジのための公衆モバイルネットワークリソースの専用スライスを統合するスライスされたハイブリッド公私ネットワークまで、多様なプロジェクトに積極的に関与している。

プライベート・ネットワーク・サービス・プロバイダーもまた、市場で成功を収めている。注目すべき例としては、Celona、Federated Wireless、Betacom、InfiniG、Ataya、Smart Mobile Labs、MUGLER、Alsatis、Telent、Logicalis、Telet Research、Citymesh、Netmore、RADTONICS、Combitech、Grape One、NS Solutions、OPTAGE、Wave-In Communication、LG CNS、SEJONG Telecom、CJ CNS、LG CNSなどが挙げられるが、これらに限定されるものではない、 SEJONG Telecom、CJ OliveNetworks、Megazone Cloud、Nable Communications、Qubicom、NewGens、Comsol、およびBoldyn Networks、American Tower、Boingo Wireless、Crown Castle、Freshwave、Digitaといった中立的なホスト・インフラ・プロバイダーのプライベート5G事業部。

NTT、Kyndryl、Accenture、Capgemini、EY（Ernst & Young）、Deloitte、KPMG、その他のグローバルなシステムインテグレーターは、戦略的技術提携により、プライベートセルラーの機会をいち早く掴んでいる。一方、AWS（アマゾン・ウェブ・サービス）、グーグル、マイクロソフトに代表されるハイパースケーラは、自社のクラウドとエッジ・プラットフォームを活用して、マネージド・プライベート5Gサービスを提供している。

ベンダーの多様性がインフラ売上に反映され始めているが、HPE（Hewlett Packard Enterprise）によるイタリアのモバイルコアテクノロジー・プロバイダーAthonetの買収に見られるように、大手企業は戦略的買収への投資を続けている。

サービス・プロバイダー・セグメントも統合とは無縁ではない。例えば、ボルディン・ネットワークスは最近、セルネックスのプライベート・ネットワーク事業部門を買収したが、この事業部門には、フィンランド、フランス、ドイツ、スペイン、スウェーデン、イギリスに拠点を持つプライベート4G/5Gのスペシャリスト、Edzcomが含まれている。

また、携帯電話事業者のTelstraは、Telstra Purple部門を通じて、産業用プライベート・ワイヤレス・ソリューション・プロバイダーのAqura Technologiesを買収した。

トピック

本レポートでは、以下のトピックを取り上げている：

プライベート5Gネットワークの紹介

バリューチェーンとエコシステム構造

市場促進要因と課題

プライベート5Gネットワークのシステムアーキテクチャと主要要素

プライベート5Gネットワークの運用モデルとビジネスモデル、ネットワーク規模、地理的範囲、その他の実用的側面

インダストリー4.0主導のワイヤレス接続要件、重要な通信ブロードバンドの進化、企業の変革など、プライベート5Gネットワークの採用を形作るテーマ

3GPPで定義されたURLLC、TSC、DetNet、NR-U、SNPN、PNI-NPN、MCX、RedCap、セルラーIoT、高精度測位、ネットワークスライシング、エッジコンピューティング、ネットワーク自動化機能などの実現技術とコンセプト

新しいクラスの専門ネットワーク事業者の出現、共有およびローカルエリア周波数ライセンス、プライベートNaaS（Network-as-a-Service）提供、IT/OTコンバージェンス、オープンRAN、vRAN、迅速な展開が可能な5Gシステムなどの主要トレンド

再構成可能なワイヤレス生産ライン、協調型モバイルロボット、自律型輸送システム、テザリングのないAR/VR/MR（拡張現実、仮想現実、複合現実）、UHD（超高精細）ビデオ伝送、マシンビジョン、デジタルツイン、ミッションクリティカルなグループ通信などの垂直産業とアプリケーションシナリオの分析

プライベート5Gネットワークの将来ロードマップ

16の業種にまたがる100のケーススタディを含む、世界中のプライベート5Gネットワーク導入のレビュー

世界60カ国以上における2,200以上のプライベート5G導入事例を追跡したデータベース

世界、地域、国別のスペクトル利用可能性、割り当て、利用状況

標準化、規制、共同イニシアチブ

1,800社を超えるエコシステム・プレイヤーのプロファイルと戦略

5G機器・チップセットサプライヤー、システムインテグレーター、プライベートネットワーク専門家、モバイルオペレーター、エンドユーザー企業への戦略的提言

2024年から2030年までの市場分析と予測

予測セグメント

市場予測は、以下のサブマーケットとそのサブカテゴリーごとに提供される：

インフラサブマーケット

5G NR RAN（無線アクセスネットワーク）

基地局RU（無線ユニット）

DUs/CUs（分散型および集中型ベースバンド・ユニット）

5GC（5Gコア）

UPF（ユーザ・プレーン機能）

制御プレーン機能

5Gトランスポート（フロントホール、ミッドホール、バックホール）

ファイバー＆ワイヤライン

マイクロ波

衛星通信

セルサイズ

小型セル

屋内

屋外

マクロセル

周波数範囲

サブ6 GHz

ミリ波

エンドユーザー市場

垂直産業

農業

航空

放送

建設

教育

林業

医療

製造業

軍事

鉱業

石油・ガス

港湾・海運

公共安全

鉄道

公益事業

倉庫・その他

オフィス、ビル、公共施設

地域市場

北米

アジア太平洋

欧州

中東・アフリカ

中南米

主な質問に対する回答

本レポートでは、以下の主要な質問に対する回答を提供している：

プライベート5Gネットワークの市場規模は？

その成長に影響を与えるトレンド、ドライバー、課題は何か？

2027年の市場規模と成長率は？

成長率が最も高いサブマーケット、垂直市場、地域はどこか？

各国におけるプライベート5Gネットワークの導入状況、およびこれらのネットワークの主なアプリケーションシナリオは？

プライベート5G接続は、農業、製造業、鉱業、石油・ガス業、運輸業、公益事業、倉庫業、その他の垂直産業のデジタルトランスフォーメーションをどのように促進しているのか？

生産性向上、コスト削減、労働者の安全性という観点から、プライベート5Gネットワークの実際的かつ定量化可能な利点は何か？

また、URLLC、TSC、RedCap、その他の3GPP定義のIIoT機能が広く採用されるのはいつ頃になるのでしょうか？

差別化されたサービス要件のためのネットワークスライシングは、プライベートセルラーネットワーキングのどの領域に適合するのか？

プライベート・エッジ・コンピューティングは、データ主権とセキュリティを強化しつつ、遅延の影響を受けやすいアプリケーションにどのように対応できるのか？

プライベート5Gネットワーク運用のための既存の周波数帯域と候補周波数帯域は？

CBRSやその他の調整された共有/ローカル周波数ライセンスフレームワークは、どのようにプライベート5Gネットワークの導入を加速させているのか？

mmWave周波数帯で運用されるプライベート5Gネットワークの見通しは？

5G NR-U（NR in Unlicensed Spectrum）の展開の見通しは？

産業環境におけるプライベート5GネットワークとWi-Fi 6/6E/7システムの比較は？

1GHz未満の重要通信LTEネットワークが5G技術への移行を開始するのはいつか？

衛星バックホールとデバイスへの直接アクセスNTN（Non-Terrestrial Network）は、リモート環境におけるプライベート5Gネットワークのリーチをどのように拡大できるのか？

通信インフラ大手、国内モバイル事業者、その他の既存事業者は、プライベート5G市場でどのように存在感を示しているのか？

マネージド・プライベート5Gサービス・プロバイダー、ニュートラル・ホスト・オペレーター、グローバル・システム・インテグレーター、ハイパースケーラー、その他の新規参入企業にはどのようなビジネスチャンスがあるのか？

エコシステムの主要プレーヤーは誰か、またその戦略は？

競争力を維持するために、5G機器サプライヤー、システムインテグレーター、プライベートネットワークの専門家、モバイルオペレーターはどのような戦略を取るべきか？

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Summary

このレポートでは、プライベート5Gネットワーク市場について、バリューチェーン、市場促進要因、導入障壁、実現技術、運用・ビジネスモデル、垂直産業、アプリケーションシナリオ、主要動向、将来ロードマップ、標準化、周波数帯の利用可能性と割り当て、規制情勢、ケーススタディ、エコシステムプレーヤーのプロファイルと戦略など、詳細な評価を掲載しています。

Report　Description

Private LTE networks are a well-established market and have been around for more than a decade, albeit as a niche segment of the wider cellular infrastructure segment ? iNET's (Infrastructure Networks) 700 MHz LTE network in the Permian Basin, Tampnet's offshore 4G infrastructure in the North Sea, Rio Tinto's private LTE network for its Western Australia mining operations and other initial installations date back to the early 2010s. However, in most national markets, private cellular networks or NPNs (Non-Public Networks) based on the 3GPP-defined 5G standard are just beginning to move beyond PoC (Proof-of-Concept) trials and small-scale deployments to production-grade implementations of standalone 5G networks, which are laying the foundation for Industry 4.0 and advanced application scenarios.

Compared to LTE technology, private 5G networks ? also referred to as 5G MPNs (Mobile Private Networks), 5G campus networks, local 5G or e-Um 5G systems depending on geography ? can address far more demanding performance requirements in terms of throughput, latency, reliability, availability and connection density. In particular, 5G's URLLC (Ultra-Reliable, Low-Latency Communications) and mMTC (Massive Machine-Type Communications) capabilities, along with a future-proof transition path to 6G networks in the 2030s, have positioned it as a viable alternative to physically wired connections for industrial-grade communications between machines, robots and control systems. Furthermore, despite its relatively higher cost of ownership, 5G's wider coverage radius per radio node, scalability, determinism, security features and mobility support have stirred strong interest in its potential as a replacement for interference-prone unlicensed wireless technologies in IIoT (Industrial IoT) environments, where the number of connected sensors and other endpoints is expected to increase significantly over the coming years.

It is worth noting that China is an outlier and the most mature national market thanks to state-funded directives aimed at accelerating the adoption of 5G connectivity in industrial settings such as factories, warehouses, mines, power plants, substations, oil and gas facilities and ports. To provide some context, the largest private 5G installations in China can comprise hundreds to even thousands of dedicated RAN (Radio Access Network) nodes supported by on-premise or edge cloud-based core network functions depending on specific latency, reliability and security requirements. For example, home appliance manufacturer Midea's Jingzhou industrial park hosts 2,500 indoor and outdoor 5G NR access points to connect workers, machines, robots and vehicles across an area of approximately 104 acres, steelmaker WISCO (Wuhan Iron & Steel Corporation) has installed a dual-layer private 5G network ? spanning 85 multi-sector macrocells and 100 small cells ? to remotely operate heavy machinery at its steel plant in Wuhan (Hubei), and Fujian-based manufacturer Wanhua Chemical has recently built a customized wireless network that will serve upwards of 8,000 5G RedCap (Reduced Capability) devices, primarily surveillance cameras and IoT sensors.

As end user organizations in the United States, Germany, France, Japan, South Korea, Taiwan and other countries ramp up their digitization and automation initiatives, private 5G networks are progressively being implemented to support use cases as diverse as wirelessly connected machinery for the rapid reconfiguration of production lines, distributed PLC (Programmable Logic Controller) environments, AMRs (Autonomous Mobile Robots) and AGVs (Automated Guided Vehicles) for intralogistics, AR (Augmented Reality)-assisted guidance and troubleshooting, machine vision-based quality control, wireless software flashing of manufactured vehicles, remote-controlled cranes, unmanned mining equipment, BVLOS (Beyond Visual Line-of-Sight) operation of drones, digital twin models of complex industrial systems, ATO (Automatic Train Operation), video analytics for railway crossing and station platform safety, remote visual inspections of aircraft engine parts, real-time collaboration for flight line maintenance operations, XR (Extended Reality)-based military training, virtual visits for parents to see their infants in NICUs (Neonatal Intensive Care Units), live broadcast production in locations not easily accessible by traditional solutions, operations-critical communications during major sporting events, and optimization of cattle fattening and breeding for Wagyu beef production.

Despite prolonged teething problems in the form of a lack of variety of non-smartphone devices, high 5G IoT module costs due to low shipment volumes, limited competence of end user organizations in cellular wireless systems and conservatism with regards to new technology, early adopters are affirming their faith in the long-term potential of private 5G by investing in networks built independently using new shared and local area licensed spectrum options, in collaboration with private network specialists or via traditional mobile operators. Some private 5G installations have progressed to a stage where practical and tangible benefits ? particularly efficiency gains, cost savings and worker safety ? are becoming increasingly evident. Notable examples include but are not limited to:

Tesla's private 5G implementation on the shop floor of its Gigafactory Berlin-Brandenburg plant in Brandenburg, Germany, has helped in overcoming up to 90 percent of the overcycle issues for a particular process in the factory's GA (General Assembly) shop. The electric automaker is integrating private 5G network infrastructure to address high-impact use cases in production, intralogistics and quality operations across its global manufacturing facilities.

John Deere is steadily progressing with its goal of reducing dependency on wired Ethernet connections from 70% to 10% over the next five years by deploying private 5G networks at its industrial facilities in the United States, South America and Europe. In a similar effort, automotive aluminum die-castings supplier IKD has replaced 6 miles of cables connecting 600 pieces of machinery with a private 5G network, thereby reducing cable maintenance costs to near zero and increasing the product yield rate by ten percent.

Lufthansa Technik’s 5G campus network at its Hamburg facility has removed the need for its civil aviation customers to physically attend servicing by providing reliable, high-resolution video access for virtual parts inspections and borescope examinations at both of its engine overhaul workshops. Previous attempts to implement virtual inspections using unlicensed Wi-Fi technology proved ineffective due to the presence of large metal structures.

The EWG (East-West Gate) Intermodal Terminal's private 5G network has increased productivity from 23-25 containers per hour to 32-35 per hour and reduced the facility's personnel-related operating expenses by 40 percent while eliminating the possibility of crane operator injury due to remote-controlled operation with a latency of less than 20 milliseconds.

The Liverpool 5G Create network in the inner city area of Kensington has demonstrated significant cost savings potential for digital health, education and social care services, including an astonishing $10,000 drop in yearly expenditure per care home resident through a 5G-connected fall prevention system and a $2,600 reduction in WAN (Wide Area Network) connectivity charges per GP (General Practitioner) surgery ? which represents $220,000 in annual savings for the United Kingdom's NHS (National Health Service) when applied to 86 surgeries in Liverpool.

NEC Corporation has improved production efficiency by 30 percent through the introduction of a local 5G-enabled autonomous transport system for intralogistics at its new factory in Kakegawa (Shizuoka Prefecture), Japan. The manufacturing facility's on-premise 5G network has also resulted in an elevated degree of freedom in terms of the factory floor layout, thereby allowing NEC to flexibly respond to changing customer needs, market demand fluctuations and production adjustments.

A local 5G installation at Ushino Nakayama's Osumi farm in Kanoya (Kagoshima Prefecture), Japan, has enabled the Wagyu beef producer to achieve labor cost savings of more than 10 percent through reductions in accident rates, feed loss, and administrative costs. The 5G network provides wireless connectivity for AI (Artificial Intelligence)-based image analytics and autonomous patrol robots.

CJ Logistics has achieved a 20 percent productivity increase at its Ichiri center in Icheon (Gyeonggi), South Korea, following the adoption of a private 5G network to replace the 40,000 square meter warehouse facility's 300 Wi-Fi access points for Industry 4.0 applications, which experienced repeated outages and coverage issues.

Delta Electronics ? which has installed private 5G networks for industrial wireless communications at its plants in Taiwan and Thailand ? estimates that productivity per direct labor and output per square meter have increased by 69% and 75% respectively following the implementation of 5G-connected smart production lines.

An Open RAN-compliant standalone private 5G network in Taiwan's Pingtung County has facilitated a 30 percent reduction in pest-related agricultural losses and a 15 percent boost in the overall revenue of local farms through the use of 5G-equipped UAVs (Unmanned Aerial Vehicles), mobile robots, smart glasses and AI-enabled image recognition.

JD Logistics ? the supply chain and logistics arm of online retailer JD.com ? has achieved near-zero packet loss and reduced the likelihood of connection timeouts by an impressive 70 percent since migrating AGV communications from unlicensed Wi-Fi systems to private 5G networks at its logistics parks in Beijing and Changsha (Hunan), China.

Baosteel ? a business unit of the world's largest steelmaker China Baowu Steel Group ? credits its 43-site private 5G deployment at two neighboring factories with reducing manual quality inspections by 50 percent and achieving a steel defect detection rate of more than 90 percent, which equates to $7 Million in annual cost savings by reducing lost production capacity from 9,000 tons to 700 tons.

Dongyi Group Coal Gasification Company ascribes a 50 percent reduction in manpower requirements and a 10 percent increase in production efficiency ? which translates to more than $1 Million in annual cost savings ? at its Xinyan coal mine in Lvliang (Shanxi), China, to private 5G-enabled digitization and automation of underground mining operations.

Sinopec's (China Petroleum & Chemical Corporation) explosion-proof 5G network at its Guangzhou oil refinery in Guangdong, China, has reduced accidents and harmful gas emissions by 20% and 30% respectively, resulting in an annual economic benefit of more than $4 Million. The solution is being replicated across more than 30 refineries of the energy giant.

Since adopting a hybrid public-private 5G network to enhance the safety and efficiency of urban rail transit operations, the Guangzhou Metro rapid transit system has reduced its maintenance costs by approximately 20 percent using 5G-enabled digital perception applications for the real-time identification of water logging and other hazards along railway tracks.

Some of the most technically advanced features of 5G Advanced ? 5G's next evolutionarily phase ? are also being trialed over private wireless installations. Among other examples, Chinese automaker Great Wall Motor is using an indoor 5G Advanced network for time-critical industrial control within a car roof production line as part of an effort to prevent wire abrasion in mobile application scenarios, which results in production interruptions with an average downtime of 60 hours a year.

In addition, against the backdrop of geopolitical trade tensions and sanctions that have restricted established telecommunications equipment suppliers from operating in specific countries, private 5G networks have emerged as a means to test domestically produced 5G network infrastructure products in controlled environments prior to large-scale deployments or vendor swaps across national or regional public mobile networks. For instance, Russian industrial groups are trialing private 5G networks in pilot zones within their production sites, using indigenously built 5G equipment operating in Band n79 (4.8-4.9 GHz) spectrum.

To capitalize on the long-term potential of private 5G, a number of new alternative suppliers have also developed 5G infrastructure offerings tailored to the specific needs of industrial applications. For example, satellite communications company Globalstar has launched a 3GPP Release 16-compliant multipoint terrestrial RAN system that is optimized for dense private wireless deployments in Industry 4.0 automation environments while German engineering conglomerate Siemens has developed an in-house private 5G network solution for use at its own plants as well as those of industrial customers.

SNS Telecom & IT estimates that annual investments in private 5G networks for vertical industries will grow at a CAGR of approximately 42% between 2024 and 2027, eventually accounting for nearly $3.5 Billion by the end of 2027. Although much of this growth will be driven by highly localized 5G networks covering geographically limited areas for Industry 4.0 applications in manufacturing and process industries, sub-1 GHz wide area critical communications networks for public safety, utilities and railway communications are also anticipated to begin their transition from LTE, GSM-R and other legacy narrowband technologies to 5G towards the latter half of the forecast period, as 5G Advanced becomes a commercial reality. Among other features for mission-critical networks, 3GPP Release 18 ? which defines the first set of 5G Advanced specifications ? adds support for 5G NR equipment operating in dedicated spectrum with less than 5 MHz of bandwidth, paving the way for private 5G networks operating in sub-500 MHz, 700 MHz, 850 MHz and 900 MHz bands for public safety broadband, smart grid modernization and FRMCS (Future Railway Mobile Communication System).

The “Private 5G Networks: 2024 ? 2030 ? Opportunities, Challenges, Strategies & Forecasts” report presents an in-depth assessment of the private 5G network market, including the value chain, market drivers, barriers to uptake, enabling technologies, operational and business models, vertical industries, application scenarios, key trends, future roadmap, standardization, spectrum availability and allocation, regulatory landscape, case studies, ecosystem player profiles and strategies. The report also presents global and regional market size forecasts from 2024 to 2030. The forecasts cover three infrastructure submarkets, 16 vertical industries and five regional markets.

The report comes with an associated Excel datasheet suite covering quantitative data from all numeric forecasts presented in the report, as well as a database of over 7,000 global private cellular engagements ? including more than 2,200 private 5G installations ? as of Q2’2024.

Summary of Private 5G Engagements

Below is a summary of existing and planned private 5G engagements across 16 vertical sectors:

Agriculture: In Japan, standalone local 5G networks are being utilized for application scenarios ranging from remote-controlled tractors and agricultural machinery to AI-enabled image analytics and autonomous patrol robots in support of optimizing cattle fattening and breeding for the production of Kagoshima Wagyu beef. Similar initiatives are also underway in the United States, Brazil, Taiwan and other national markets.

Aviation: Private 5G networks have been deployed or are being trialed to support internal operations at some of the busiest international and domestic airports, including Hong Kong, Shanghai Pudong and Hongqiao, Tokyo Narita, Frankfurt, Cologne Bonn, Brussels, Amsterdam Schiphol, Vienna, Athens, Oslo, Helsinki, San Sebastian and DFW (Dallas Fort Worth). Delta Air Lines, Lufthansa Technik and JAL (Japan Airlines) are leveraging private 5G networks for aircraft maintenance operations, while ANA (All Nippon Airways) is harnessing local 5G connectivity to enhance the effectiveness of aviation training. In addition, national and cross-border A2G (Air-to-Ground) networks ? for example, Gogo Business Aviation's 5G network ? for inflight broadband and critical airborne communications are also beginning to gain significant traction.

Broadcasting: CNN (Cable News Network), BBC (British Broadcasting Corporation), BT Media & Broadcast, RTE (Raidio Teilifis Eireann), Media Broadcast, SWR (Sudwestrundfunk), WDR (Westdeutscher Rundfunk Koln), RTBF (Belgian Radio-Television of the French Community), RTVE (Radiotelevision Espanola), SVT (Sveriges Television), NRK (Norwegian Broadcasting Corporation), TV 2, Yle (Yleisradio), TVBS, TBN (Trinity Broadcasting Network), WOWOW, CMG (China Media Group) and several other broadcast players are utilizing private 5G networks ? both temporary and fixed installations ? to support live production and other use cases. OTT (Over-the-Top) streaming service providers such as DAZN and U-Next are also beginning to rely on portable 5G networks for real-time video distribution during sports events. During the 2024 Paris Olympic Games, an Orange-supplied private 5G solution will be used for transmitting live footage from locations where wired cabling is impractical.

Construction: Hazama Ando Corporation, Kumagai Gumi, Obayashi Corporation, Shimizu Corporation, Taisei Corporation, Takenaka Corporation, CSCEC (China State Construction Engineering Corporation), Hoban Construction, Hip Hing Engineering, Gammon Construction, Hyundai E&C (Engineering & Construction), Ferrovial and BAM Nuttall (Royal BAM Group) are notable examples of companies that have employed the use of private 5G networks to enhance productivity and worker safety at construction sites.

Education: Higher education institutes are at the forefront of adopting on-premise 5G networks in campus environments. Tokyo Metropolitan University, Texas A&M University, Johns Hopkins University, Purdue University, Cal Poly (California Polytechnic State University), Northeastern University, UWM (University of Wisconsin-Milwaukee), University of Nebraska-Lincoln, McMaster University, TU Dresden (Dresden University of Technology), HSU/UniBw H (Helmut Schmidt University), RWTH Aachen University, TU Kaiserslautern (Technical University of Kaiserslautern), HOGENT (University College Ghent), AGH University of Krakow, Bia?ystok University of Technology, CTU (Czech Technical University in Prague) and Riga Technical University are among the many universities that are hosting private 5G networks for experimental research or smart campus-related applications.

Forestry: There is considerable interest in private 5G networks to fulfill the communications needs of the forestry industry for both industrial and environmental purposes. For example, Japanese cable operator TST (Tonami Satellite Communication Television) has successfully demonstrated local 5G-enabled remote machinery control and danger prediction to improve safety and productivity in mountainous forestry environments, while Swedish startup AirForestry is piloting a private 5G network to be able to wirelessly control six-meter wide electric drones that enable harvesting and thinning of the forest from the air. Among other examples, SCA (Svenska Cellulosa Aktiebolaget), Stora Enso and Fiskarheden are deploying local 5G networks to facilitate digitization and automation at timber terminals and mills.

Healthcare: Dedicated 5G campus networks have been installed or are being implemented to support smart healthcare applications in many hospitals, including VA Palo Alto, Boston Children's Hospital, Cleveland Clinic Mentor Hospital, Nagasaki University Hospital, Kwong Wah Hospital, West China Second University Hospital, SNUBH (Seoul National University Bundang Hospital), SMC (Samsung Medical Center), Ewha Womans University Mokdong Hospital, Bethlem Royal Hospital, CHU Toulouse (Toulouse University Hospital), Frankfurt University Hospital, Helios Park Hospital Leipzig, UKD (University Hospital of Dusseldorf), UKSH (University Hospital Schleswig-Holstein), UKB (University Hospital Bonn), OYS (Oulu University Hospital) and Hospital das Clinicas (Sao Paulo).

Manufacturing: Dozens of manufacturers across the automotive, aerospace, shipbuilding, steelmaking, chemical production, electronics, industrial machinery and other sectors ? along with 5G equipment suppliers themselves ? are investing in private 5G networks for Industry 4.0 applications at their factories. Prominent examples include but are not limited to ACOME, AGC, Airbus, Ansteel, ArcelorMittal, ASN (Alcatel Submarine Networks), Atlas Copco, BASF, BMW, Bosch, Changan Automobile, China Baowu Steel Group, COMAC (Commercial Aircraft Corporation of China), Continental, Delta Electronics, FAW, Ford, Foxconn, Gerdau, Glanbia, GM (General Motors), Great Wall Motor, Gree, Haier, Holmen Iggesund, Honda, Inventec, INZU Group, Jacto, John Deere, KAI (Korea Aerospace Industries), LG Electronics, LyondellBasell, Mercedes-Benz, Midea, Miele, Navantia, Nestle, Nippon Steel, Nissan, NLMK, Okaya Steel, Pegatron, Ricoh, Saab, SANY Heavy Industry, Schneider Electric, Siemens, Solvay, Stellantis, Sturmsfs, Summit Steel, Tesla, Toyota, Volkswagen, Whirlpool, X Shore and Yara International.

Military: Led by the U.S. DOD's (Department of Defense) FutureG Office, several programs are underway to accelerate the adoption of private 5G networks at military bases and training facilities, network slicing over public mobile infrastructure, and portable 5G systems for warfighters at the tactical edge. Supported by over $650 Million in funding over the past three years, multiple U.S. Army, Navy, Marine Corps and Air Force bases already host on-premise 5G infrastructure and the 2024 NDAA (National Defense Authorization Act) specifically requires the DOD to develop a strategy for deploying Open RAN-compliant private 5G networks at military installations. The Spanish Army and Navy have awarded multiple contracts ? collectively worth $15 Million ? to mobile operator Telefonica to supply standalone private 5G networks for army brigades on the move, armored systems and helicopter maintenance parks, naval bases, ships and marine infantry units. Among other examples, the Norwegian Armed Forces are utilizing a combination of defense-specific network slices and tactical private 5G networks to support their future mobile communications needs while the South Korean military is leveraging private 5G installations for runway safety management and XR-based training, including small unit tactics and firearm disassembly/assembly-related education.

Mining: The mining industry has also emerged as another frontrunner in private 5G adoption with initial commercial deployments led by Chinese coal producers China Shenhua Energy, Shaanxi Coal, China National Coal and Shandong Energy. Agnico Eagle Mines, Polymetal International, Nornickel (Norilsk Nickel), SUEK, Zijin Mining, Canyon Coal and several other mining groups have also invested in purpose-built 5G infrastructure for improving productivity and working safety in specific operational locations. In addition, with the recent allocation of AWLs (Area-Wide Apparatus Licenses) in the 3.4-4.0 GHz frequency range in remote areas of Australia, the likes of BHP, Rio Tinto, Fortescue, Roy Hill, Northern Star Resources, Newcrest Mining (Newmont), CITIC Pacific Mining, Atlas Iron, AngloGold Ashanti and Glencore are actively engaged in efforts to transition their existing private LTE installations to standalone 5G networks capable of supporting advanced digitization and automation use cases.

Oil & Gas: Spanish oil giant Cepsa is spending $14 Million to deploy private 5G infrastructure for Industry 4.0 applications at its Huelva and Campo de Gibraltar energy parks. Aramco (Saudi Arabian Oil Company), CNOOC (China National Offshore Oil Corporation), PetroChina/CNPC (China National Petroleum Corporation), Sinopec (China Petroleum & Chemical Corporation), Osaka Gas, Hiroshima Gas, PETRONAS (Petroliam Nasional), Gazprom Neft, Snam, TotalEnergies, PCK Raffinerie, PKN ORLEN, Petrobras (Petroleo Brasileiro) and many others in the oil and gas industry are also investing in 5G-based private wireless networks. Tampnet's cellular networks for the offshore energy industry in the North Sea and Gulf of Mexico are also being upgraded from LTE to standalone 5G technology.

Ports & Maritime Transport: Many port and terminal operators are deploying private 5G networks to provide high-speed and low-latency wireless connectivity for applications such as AGVs, remote-controlled cranes, smart cargo handling and predictive maintenance. Prominent examples include but are not limited to Hutchison Ports, PSA International, APM Terminals (Maersk), COSCO Shipping Ports, CMPort (China Merchants Port Holdings), SIPG (Shanghai International Port Group), Ningbo-Zhoushan Port Group, Tianjin Port Group, Zhuhai Port Group, Shandong Port Group, EUROGATE, VPA (Virginia Port Authority), Barcelona Port Authority, Port of Tyne and ABP (Associated British Ports). In the maritime transport segment, offshore 5G networks are being implemented to provide voice, data, messaging and IoT connectivity services for both passenger and cargo vessels while at sea.

Public Safety: Even though critical public safety-related 5G NR capabilities defined in the 3GPP's Release 17 and 18 specifications are yet to be commercialized, public safety agencies have already begun experimenting with 5G for applications that can benefit from the technology's high-bandwidth and low-latency characteristics. For example, in Taiwan, the Hsinchu City Fire Department's emergency response vehicle features a satellite-backhauled private 5G network for emergency communications in disaster zones. The Norwegian Air Ambulance is adopting a similar private 5G-based NOW (Network-on-Wheels) system for enhancing situational awareness during search and rescue operations. Other examples of early adopters include the Lishui Municipal Emergency Management Bureau, Kaohsiung City Police Department, PDRM (Royal Malaysia Police), New Zealand Police and Guardia Civil (Spanish Civil Guard).

Railways: Although the GSM-R to FRMCS transition is not expected until the late 2020s, several 5G-based networks for railway communications are being deployed, including Adif AV's dedicated 5G infrastructure at logistics terminals, Hanshin Electric Railway's standalone local 5G installation for improving safety at railroad crossings and platforms, POSCO's private 5G network that links autonomous locomotives and railway control systems, Guangzhou Metro's 5G + Smart Metro project and China State Railway Group's 5G-R program. Tokyo Metro, DB (Deutsche Bahn), SNCF (French National Railways), Network Rail and others are also progressing their 5G-enabled rail connectivity projects prior to operational deployment.

Utilities: As part of a $60 Million initiative, CNNC (China National Nuclear Corporation) is setting up physically isolated private 5G networks to support the digitization and automation of operations at its nuclear power plants. EDF, Enel, Red Electrica, Efacec, SGCC (State Grid Corporation of China), CSG (China Southern Power Grid), Kansai Electric Power, Chubu Electric Power, Hokkaido Electric Power, Kyushu Electric Power, KEPCO (Korea Electric Power Corporation), K-water (Korea Water Resources Corporation), Endeavour Energy, DEWA (Dubai Electricity & Water Authority) and others are also exploring the use of private 5G connectivity for enhancing the maintenance and monitoring of power plants, substations, transmission lines and offshore wind farms.

Warehousing & Others: Posten (Norwegian Postal Service), JD Logistics, Sinotrans, CJ Logistics, Yes24 and many others have installed private 5G infrastructure for smart warehousing applications. Additional vertical sectors where private 5G networks are being adopted extend from sports, arts and culture to retail, hospitality, public services and road transport. From a horizontal perspective, enterprise RAN systems for indoor coverage enhancement are relatively common and end-to-end private networks are also starting to be implemented in office buildings and campuses. BlackRock, Imagin'Office (Icade), Mitsui Fudosan, NAVER and WISTA Management are among the companies that have deployed on-premise private 5G networks in office environments.

Key Findings

The report has the following key findings:

Sub-1 GHz wide area critical communications networks for public safety, utilities and railway communications are also anticipated to begin their transition from LTE, GSM-R and other legacy narrowband technologies to 5G towards the latter half of the forecast period, as 5G Advanced ? 5G's next evolutionarily phase ? becomes a commercial reality.

As end user organizations ramp up their digitization and automation initiatives, some private 5G installations have progressed to a stage where practical and tangible benefits are becoming increasingly evident. Notably, private 5G networks have resulted in productivity and efficiency gains for specific manufacturing, quality control and intralogistics processes in the range of 20 to 90%, cost savings of up to 40% at an intermodal terminal, reduction of worker accidents and harmful gas emissions by 20% and 30% respectively at an oil refinery, and a 50% decrease in manpower requirements for underground mining operations.

Some of the most technically advanced features of 5G Advanced are also being trialed over private wireless installations. Among other examples, Chinese automaker Great Wall Motor is using an indoor 5G Advanced network for time-critical industrial control within a car roof production line as part of an effort to prevent wire abrasion in mobile application scenarios, which results in production interruptions with an average downtime of 60 hours a year.

In addition, against the backdrop of geopolitical trade tensions and sanctions that have restricted established telecommunications equipment suppliers from operating in specific countries, private 5G networks have emerged as a means to test domestically produced 5G network infrastructure products in controlled environments prior to large-scale deployments or vendor swaps across national or regional public mobile networks. For example, Russian steelmaker NLMK Group is trialing a private 5G network in a pilot zone within its Lipetsk production site, using indigenously built 5G equipment operating in Band n79 (4.8-4.9 GHz) spectrum.

Spectrum liberalization initiatives ? particularly shared and local spectrum licensing frameworks ? are playing a pivotal role in accelerating the adoption of private 5G networks. Telecommunications regulators in multiple national markets ? including the United States, Canada, United Kingdom, Germany, France, Spain, Netherlands, Switzerland, Finland, Sweden, Norway, Poland, Slovenia, Bahrain, Japan, South Korea, Taiwan, Hong Kong, Australia and Brazil ? have released or are in the process of granting access to shared and local area licensed spectrum.

By capitalizing on their extensive licensed spectrum holdings, infrastructure assets and cellular networking expertise, national mobile operators have continued to retain a significant presence in the private 5G network market, even in countries where shared and local area licensed spectrum is available. With an expanded focus on vertical B2B (Business-to-Business) opportunities in the 5G era, mobile operators are actively involved in diverse projects extending from localized 5G networks for secure and reliable wireless connectivity in industrial and enterprise environments to sliced hybrid public-private networks that integrate on-premise 5G infrastructure with a dedicated slice of public mobile network resources for wide area coverage.

New classes of private network service providers have also found success in the market. Notable examples include but are not limited to Celona, Federated Wireless, Betacom, InfiniG, Ataya, Smart Mobile Labs, MUGLER, Alsatis, Telent, Logicalis, Telet Research, Citymesh, Netmore, RADTONICS, Combitech, Grape One, NS Solutions, OPTAGE, Wave-In Communication, LG CNS, SEJONG Telecom, CJ OliveNetworks, Megazone Cloud, Nable Communications, Qubicom, NewGens and Comsol, and the private 5G business units of neutral host infrastructure providers such as Boldyn Networks, American Tower, Boingo Wireless, Crown Castle, Freshwave and Digita.

NTT, Kyndryl, Accenture, Capgemini, EY (Ernst & Young), Deloitte, KPMG and other global system integrators have been quick to seize the private cellular opportunity with strategic technology alliances. Meanwhile, hyperscalers ? most notably AWS (Amazon Web Services), Google and Microsoft ? are offering managed private 5G services by leveraging their cloud and edge platforms.

Although greater vendor diversity is beginning to be reflected in infrastructure sales, larger players are continuing to invest in strategic acquisitions as highlighted by HPE's (Hewlett Packard Enterprise) acquisition of Italian mobile core technology provider Athonet.

The service provider segment is not immune to consolidation either. For example, Boldyn Networks has recently acquired Cellnex's private networks business unit, which largely includes Edzcom ? a private 4G/5G specialist with installations in Finland, France, Germany, Spain, Sweden and the United Kingdom.

Among other examples, specialist fiber and network solutions provider Vocus has acquired Challenge Networks ? an Australian pioneer in private LTE and 5G networks, while mobile operator Telstra ? through its Telstra Purple division ? has acquired industrial private wireless solutions provider Aqura Technologies.

Topics Covered

The report covers the following topics:

Introduction to private 5G networks

Value chain and ecosystem structure

Market drivers and challenges

System architecture and key elements of private 5G networks

Operational and business models, network size, geographic reach and other practical aspects of private 5G networks

Industry 4.0-driven wireless connectivity requirements, critical communications broadband evolution, enterprise transformation and other themes shaping the adoption of private 5G networks

Enabling technologies and concepts, including 3GPP-defined URLLC, TSC, DetNet, NR-U, SNPN and PNI-NPN, MCX, RedCap, cellular IoT, high-precision positioning, network slicing, edge computing and network automation capabilities

Key trends such as the emergence of new classes of specialized network operators, shared and local area spectrum licensing, private NaaS (Network-as-a-Service) offerings, IT/OT convergence, Open RAN, vRAN and rapidly deployable 5G systems

Analysis of vertical industries and application scenarios such as reconfigurable wireless production lines, collaborative mobile robots, autonomous transport systems, untethered AR/VR/MR (Augmented, Virtual & Mixed Reality), UHD (Ultra High-Definition) video transmission, machine vision, digital twins and mission-critical group communications

Future roadmap of private 5G networks

Review of private 5G network installations worldwide, including 100 case studies spanning 16 verticals

Database tracking more than 2,200 private 5G installations in over 60 countries across the globe

Spectrum availability, allocation and usage across the global, regional and national domains

Standardization, regulatory and collaborative initiatives

Profiles and strategies of more than 1,800 ecosystem players

Strategic recommendations for 5G equipment and chipset suppliers, system integrators, private network specialists, mobile operators and end user organizations

Market analysis and forecasts from 2024 to 2030

Forecast Segmentation

Market forecasts are provided for each of the following submarkets and their subcategories:

Infrastructure Submarkets

5G NR RAN (Radio Access Network)

Base Station RUs (Radio Units)

DUs/CUs (Distributed & Centralized Baseband Units)

5GC (5G Core)

UPF (User Plane Function)

Control Plane Functions

5G Transport (Fronthaul, Midhaul & Backhaul)

Fiber & Wireline

Microwave

Satellite Communications

Cell Sizes

Small Cells

Indoor

Outdoor

Macrocells

Frequency Ranges

Sub-6 GHz

mmWave (Millimeter Wave)

End User Markets

Vertical Industries

Agriculture

Aviation

Broadcasting

Construction

Education

Forestry

Healthcare

Manufacturing

Military

Mining

Oil & Gas

Ports & Maritime Transport

Public Safety

Railways

Utilities

Warehousing & Others

Offices, Buildings & Public Venues

Regional Markets

North America

Asia Pacific

Europe

Middle East & Africa

Latin & Central America

Key Questions Answered

The report provides answers to the following key questions:

How big is the private 5G network opportunity?

What trends, drivers and challenges are influencing its growth?

What will the market size be in 2027, and at what rate will it grow?

Which submarkets, verticals and regions will see the highest percentage of growth?

What is the status of private 5G network adoption in each country, and what are the primary application scenarios of these networks?

How is private 5G connectivity facilitating the digital transformation of agriculture, manufacturing, mining, oil and gas, transportation, utilities, warehousing and other vertical industries?

What are the practical and quantifiable benefits of private 5G networks in terms of productivity improvement, cost reduction and worker safety?

What are the key characteristics of standalone private 5G connectivity, and when will URLLC, TSC, RedCap and other 3GPP-defined IIoT features be widely employed?

Where does network slicing for differentiated service requirements fit in the private cellular networking space?

How can private edge computing accommodate latency-sensitive applications while enhancing data sovereignty and security?

What are the existing and candidate frequency bands for the operation of private 5G networks?

How are CBRS and other coordinated shared/local spectrum licensing frameworks accelerating the uptake of private 5G networks?

What are the prospects of private 5G networks operating in mmWave spectrum?

What is the outlook for 5G NR-U (NR in Unlicensed Spectrum) deployments?

How do private 5G networks compare with Wi-Fi 6/6E/7 systems in industrial settings?

When will sub-1 GHz critical communications LTE networks begin their transition to 5G technology?

How can satellite backhaul and direct-to-device NTN (Non-Terrestrial Network) access expand the reach of private 5G networks in remote environments?

How are telecommunications infrastructure giants, national mobile operators and other incumbents asserting their presence in the private 5G market?

What opportunities exist for managed private 5G service providers, neutral host operators, global system integrators, hyperscalers and other new entrants?

Who are the key ecosystem players, and what are their strategies?

What strategies should 5G equipment suppliers, system integrators, private network specialists and mobile operators adopt to remain competitive?

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1 Chapter 1: Introduction

1.1 Executive Summary

1.2 Topics Covered

1.3 Forecast Segmentation

1.4 Key Questions Answered

1.5 Key Findings

1.6 Summary of Private 5G Engagements

1.7 Methodology

1.8 Target Audience

2 Chapter 2: An Overview of Private 5G Networks

2.1 An Introduction to the 3GPP-Defined 5G Standard

2.1.1 What is 5G?

2.1.2 5G Service Profiles

2.1.2.1 eMBB (Enhanced Mobile Broadband)

2.1.2.2 URLLC (Ultra-Reliable, Low-Latency Communications)

2.1.2.3 mMTC/mIoT (Massive Machine-Type Communications/Internet of Things)

2.1.3 5G Advanced & the Evolution to 6G

2.1.4 The Significance of Vertical Industries in the 5G Era

2.2 Why Utilize 5G for Private Wireless Networks?

2.2.1 Performance, Mobility, Reliability & Security Characteristics

2.2.2 Ability to Address Both Wide Area & Localized Coverage Needs

2.2.3 Variety of Frequency Bands, Bandwidth Flexibility & Spectral Efficiency

2.2.4 Interworking With Public Mobile Networks & Non-3GPP Technologies

2.2.5 3GPP Support for Industrial-Grade & Mission-Critical Applications

2.2.6 Future-Proof Transition Path Towards 6G Networks

2.2.7 Thriving Ecosystem of Chipsets, Devices & Network Equipment

2.2.8 Economic Viability of Deployment & Operational Costs

2.3 Key Themes Influencing the Adoption of Private 5G Networks

2.3.1 Industry 4.0-Driven Wireless Connectivity Requirements

2.3.2 Critical Communications Broadband Evolution

2.3.3 Localized Cellular Coverage for Enterprise Transformation Initiatives

2.3.4 Neutral Hosting, Smart Cities, Community Broadband & Other Themes

2.4 Practical Aspects of Private 5G Networks

2.4.1 5G Technology Deployment Modes

2.4.1.1 NSA (Non-Standalone) 5G

2.4.1.2 SA (Standalone) 5G

2.4.2 Spectrum Options

2.4.2.1 National Spectrum for Specific Applications

2.4.2.1.1 Defense & PPDR (Public Protection & Disaster Relief)

2.4.2.1.2 Utilities & Critical Infrastructure Industries

2.4.2.1.3 Aviation, Maritime & Railway Communications

2.4.2.1.4 Other Segments

2.4.2.2 Local Area Licensed Spectrum

2.4.2.2.1 Local Area Licenses for Enterprises & Vertical Users

2.4.2.2.2 Local Leasing of Public Mobile Operator Frequencies

2.4.2.2.3 ASA (Authorized Shared Access) & Light Licensing

2.4.2.3 Unlicensed Spectrum

2.4.2.3.1 Designated License-Exempt Bands

2.4.2.3.2 Opportunistic Unlicensed Access

2.4.3 Network Size & Geographic Reach

2.4.3.1 Wide Area Private Cellular Networks

2.4.3.2 Medium-Scale Local Area Networks

2.4.3.3 On-Premise Campus Networks

2.4.4 Operational Scenarios

2.4.4.1 Isolated NPNs (Non-Public Networks)

2.4.4.2 Public Mobile Operator-Integrated NPNs

2.4.4.2.1 Dedicated Mobile Operator RAN Coverage

2.4.4.2.2 Shared RAN With On-Premise Core

2.4.4.2.3 Shared RAN & Control Plane

2.4.4.2.4 NPNs Hosted By Public Networks

2.4.4.3 Virtual Sliced Private Networks

2.4.4.4 Hybrid Public-Private Networks

2.4.4.5 Shared Core Private Networks

2.4.4.6 Secure MVNO (Mobile Virtual Network Operator) Arrangements

2.4.4.7 Other Approaches

2.4.5 Business Models

2.4.5.1 Fully Independent Private Networks

2.4.5.2 Service Provider-Managed Private Networks

2.4.5.3 Hybrid Ownership, Management & Control

2.4.5.4 Private NaaS (Network-as-a-Service)

2.4.5.5 Other Business Models

2.5 The Value Chain of Private 5G Networks

2.5.1 Semiconductor & Enabling Technology Specialists

2.5.2 Terminal OEMs (Original Equipment Manufacturers)

2.5.3 RAN, Core & Transport Infrastructure Suppliers

2.5.4 Service Providers

2.5.4.1 Critical Communications, Industrial, OT & IT System Integrators

2.5.4.2 Pure-Play Private 5G Network Operators

2.5.4.3 National Mobile Operators

2.5.4.4 MVNOs

2.5.4.5 Neutral Hosts

2.5.4.6 Towercos (Tower Companies)

2.5.4.7 Cloud & Edge Platform Providers

2.5.4.8 Fixed-Line Service Providers

2.5.4.9 Fiber Network Operators

2.5.4.10 Satellite Communications Service Providers

2.5.5 End User Organizations

2.5.6 Other Ecosystem Players

2.6 Market Drivers

2.6.1 Growing Demand for High-Bandwidth & Low-Latency Wireless Applications

2.6.2 Endorsement From the Industry 4.0 & Critical Communications Sectors

2.6.3 Limited Public Cellular Coverage in Indoor, Industrial & Remote Environments

2.6.4 Availability of Suitable Spectrum Options for Private Use

2.6.5 Guaranteed Connectivity & QoS (Quality-of-Service) Control

2.6.6 Greater Levels of Network Security & Data Privacy

2.6.7 Operators' & Vendors' Desire for New Revenue Sources

2.6.8 Government-Funded 5G Innovation Initiatives

2.7 Market Barriers

2.7.1 Cost & ROI (Return-On-Investment) Justification

2.7.2 Technical Complexities of Network Deployment & Operation

2.7.3 Integration With Existing Infrastructure & Applications

2.7.4 Limited Scale Effects Due to Lack of Spectrum Harmonization

2.7.5 Competition From Non-3GPP Technologies & Solutions

2.7.6 5G Terminal Equipment-Related Challenges

2.7.7 Skills Gap & Shortage of Proficient Engineers

2.7.8 Conservatism & Slow Pace of Change

3 Chapter 3: System Architecture & Technologies for Private 5G Networks

3.1 Architectural Components of Private 5G Networks

3.2 UE (User Equipment)

3.2.1 Smartphones & Handportable Devices

3.2.2 Industrial-Grade Routers & Gateways

3.2.3 Mobile Hotspots & Vehicular Terminals

3.2.4 Fixed Wireless CPEs (Customer Premises Equipment)

3.2.5 Tablets & Notebook PCs

3.2.6 Smart Wearables

3.2.7 Cellular IoT Modules

3.2.8 Add-On Dongles

3.3 RAN (Radio Access Network)

3.3.1 NG-RAN ? 5G NR Access Network

3.3.1.1 gNBs ? 5G NR Base Stations

3.3.1.2 en-gNBs ? Secondary Node 5G NR Base Stations

3.3.1.3 ng-eNBs ? Next-Generation LTE Base Stations

3.3.2 Architectural Components of gNB Base Stations

3.3.2.1 RUs (Radio Units)

3.3.2.2 Integrated Radio & Baseband Units

3.3.2.3 DUs (Distributed Baseband Units)

3.3.2.4 CUs (Centralized Baseband Units)

3.4 Mobile Core

3.4.1 5GC (5G Core): Core Network for Standalone 5G Implementations

3.4.1.1 Access, Mobility & Session Management

3.4.1.1.1 AMF (Access & Mobility Management Function)

3.4.1.1.2 SMF (Session Management Function)

3.4.1.1.3 UPF (User Plane Function)

3.4.1.2 Subscription & Data Management

3.4.1.2.1 AUSF (Authentication Server Function)

3.4.1.2.2 AAnF (AKMA Anchor Function)

3.4.1.2.3 UDM (Unified Data Management)

3.4.1.2.4 UDR (Unified Data Repository)

3.4.1.2.5 UDSF (Unstructured Data Storage Function)

3.4.1.2.6 UCMF (UE Radio Capability Management Function)

3.4.1.2.7 5G-EIR (5G Equipment Identity Register)

3.4.1.3 Policy & Charging

3.4.1.3.1 PCF (Policy Control Function)

3.4.1.3.2 CHF (Charging Function)

3.4.1.4 Signaling & Routing

3.4.1.4.1 SCP (Service Communication Proxy)

3.4.1.4.2 SEPP (Security Edge Protection Proxy)

3.4.1.4.3 BSF (Binding Support Function)

3.4.1.5 Network Resource Management

3.4.1.5.1 NEF (Network Exposure Function)

3.4.1.5.2 NRF (Network Repository Function)

3.4.1.5.3 NSSF (Network Slice Selection Function)

3.4.1.5.4 NSSAAF (Network Slice-Specific & SNPN Authentication-Authorization Function)

3.4.1.5.5 NSACF (Network Slice Admission Control Function)

3.4.1.6 Data Analytics & Automation

3.4.1.6.1 NWDAF (Network Data Analytics Function)

3.4.1.6.2 AnLF (Analytics Logical Function)

3.4.1.6.3 MTLF (Model Training Logical Function)

3.4.1.6.4 DCCF (Data Collection Coordination Function)

3.4.1.6.5 ADRF (Analytics Data Repository Function)

3.4.1.6.6 MFAF (Messaging Framework Adaptor Function)

3.4.1.7 Location Services

3.4.1.7.1 LMF (Location Management Function)

3.4.1.7.2 GMLC (Gateway Mobile Location Center)

3.4.1.8 Application Enablement

3.4.1.8.1 AFs (Application Functions)

3.4.1.8.2 SMSF (Short Message Service Function)

3.4.1.8.3 CBCF (Cell Broadcast Center Function)

3.4.1.8.4 5G DDNMF (5G Direct Discovery Name Management Function)

3.4.1.8.5 TSCTSF (Time-Sensitive Communication & Time Synchronization Function)

3.4.1.8.6 TSN AF (Time-Sensitive Networking Application Function)

3.4.1.8.7 EASDF (Edge Application Server Discovery Function)

3.4.1.9 Multicast-Broadcast Support

3.4.1.9.1 MB-SMF (Multicast-Broadcast SMF)

3.4.1.9.2 MB-UPF (Multicast-Broadcast UPF)

3.4.1.9.3 MBSF (Multicast-Broadcast Service Function)

3.4.1.9.4 MBSTF (Multicast-Broadcast Service Transport Function)

3.5 Transport Network

3.5.1 Fronthaul: RU-to-DU Transport

3.5.2 Midhaul: DU-to-CU Transport

3.5.3 Backhaul: RAN-to-Core Transport

3.5.4 Physical Transmission Mediums

3.5.4.1 Fiber & Wireline Transport Technologies

3.5.4.1.1 Owned, Lit & Dark Fiber

3.5.4.1.2 Ethernet & IP-Based Transport

3.5.4.1.3 WDM (Wavelength Division Multiplexing)

3.5.4.1.4 PON (Passive Optical Network)

3.5.4.1.5 OTN (Optical Transport Network)

3.5.4.1.6 DOCSIS, G.fast & Other Technologies

3.5.4.2 Microwave & mmWave (Millimeter Wave) Wireless Links

3.5.4.2.1 Traditional Bands (6 ? 42 GHz)

3.5.4.2.2 V-Band (60 GHz)

3.5.4.2.3 E-Band (70/80 GHz)

3.5.4.2.4 W-Band (92 ? 114.25 GHz)

3.5.4.2.5 D-Band (130 ? 174.8 GHz)

3.5.4.3 Satellite Communications

3.5.4.3.1 GEO (Geostationary Earth Orbit)

3.5.4.3.2 MEO (Medium Earth Orbit)

3.5.4.3.3 LEO (Low Earth Orbit)

3.6 Services & Interconnectivity

3.6.1 End User Application Services

3.6.1.1 Generic Broadband, Messaging & IoT Services

3.6.1.2 IMS Core: VoNR (Voice Over NR) & MMTel (Multimedia Telephony)

3.6.1.3 5G MBS/5MBS (5G Multicast-Broadcast Services)

3.6.1.4 Group Communications & MCS (Mission-Critical Services)

3.6.1.5 IIoT (Industrial IoT), Cyber-Physical Control & Domain-Specific Connected Services

3.6.1.6 ProSe (Proximity-Based Services) for Direct D2D (Device-to-Device) Discovery & Communications

3.6.1.7 Vehicular, Aviation, Maritime & Railway-Related Applications

3.6.1.8 3GPP Service Frameworks for Vertical Industries

3.6.1.8.1 CAPIF (Common API Framework)

3.6.1.8.2 SEAL (Service Enabler Architecture Layer for Verticals)

3.6.1.8.3 EDGEAPP (Architecture for Enabling Edge Applications)

3.6.1.9 VAL (Vertical Application Layer) Enablers

3.6.1.9.1 V2X (Vehicle-to-Everything)

3.6.1.9.2 UAS (Uncrewed Aerial Systems)

3.6.1.9.3 5GMARCH/MSGin5G (Messaging in 5G)

3.6.1.9.4 FF (Factories of the Future)

3.6.1.9.5 PINAPP (Personal IoT Networks), XR (Extended Reality) & Others

3.6.2 Interconnectivity With 3GPP & Non-3GPP Networks

3.6.2.1 3GPP Roaming & Service Continuity

3.6.2.1.1 National & International Roaming

3.6.2.1.2 Service Continuity Outside Network Footprint

3.6.2.2 Non-3GPP Network Integration

3.6.2.2.1 N3IWF (Non-3GPP Interworking Function)

3.6.2.2.2 TNGF (Trusted Non-3GPP Gateway Function)

3.6.2.2.3 TWIF (Trusted WLAN Interworking Function)

3.6.2.2.4 NSWOF (Non-Seamless WLAN Offload Function)

3.6.2.2.5 W-AGF (Wireline Access Gateway Function)

3.6.2.2.6 IWF (Interworking Function) for LMR (Land Mobile Radio)

3.6.2.2.7 ATSSS (Access Traffic Steering, Switching & Splitting)

3.7 Key Enabling Technologies & Concepts

3.7.1 3GPP Support for NPNs (Non-Public Networks)

3.7.1.1 Types of NPNs

3.7.1.1.1 SNPNs (Standalone NPNs)

3.7.1.1.2 PNI-NPNs (Public Network-Integrated NPNs)

3.7.1.2 SNPN Identification & Selection

3.7.1.3 PNI-NPN Resource Allocation & Isolation

3.7.1.4 CAG (Closed Access Group) for Cell Access Control

3.7.1.5 Mobility, Roaming & Service Continuity

3.7.1.6 Interworking Between SNPNs & Public Networks

3.7.1.7 UE Configuration & Subscription-Related Aspects

3.7.1.8 Other 3GPP-Defined Capabilities for NPNs

3.7.2 Mobile Broadband Evolution

3.7.2.1 Massive MIMO, Beamforming & Advanced Antenna Systems

3.7.2.2 Air Interface Design & Optimizations

3.7.2.3 CA (Carrier Aggregation) & Multi-Carrier Operations

3.7.2.4 Expansion Into Higher Frequency Spectrum Bands

3.7.3 Industry 4.0 & Cellular IoT

3.7.3.1 URLLC Techniques: High-Reliability & Low-Latency Enablers

3.7.3.2 5G LAN (Local Area Network)-Type Service

3.7.3.3 Integration With IEEE 802.1 TSN (Time-Sensitive Networking) Systems

3.7.3.4 Native 3GPP Framework for TSC (Time-Sensitive Communications)

3.7.3.5 Support for IETF DetNet (Deterministic Networking)

3.7.3.6 5G NR Light: RedCap (Reduced Capability) UE Type

3.7.3.7 eMTC, NB-IoT & mMTC: Wide Area & High-Density IoT Applications

3.7.4 Critical Communications

3.7.4.1 MCX (Mission-Critical PTT, Video & Data)

3.7.4.2 QPP (QoS, Priority & Preemption)

3.7.4.3 IOPS (Isolated Operation for Public Safety)

3.7.4.4 Cell Site & Infrastructure Hardening

3.7.4.5 HPUE (High-Power User Equipment)

3.7.4.6 Other UE-Related Functional Enhancements

3.7.5 High-Precision Positioning

3.7.5.1 Assisted-GNSS (Global Navigation Satellite System)

3.7.5.2 RAN-Based Positioning Techniques

3.7.5.3 RAN-Independent Methods

3.7.6 Edge Computing

3.7.6.1 Optimizing Latency, Service Performance & Backhaul Costs

3.7.6.2 3GPP-Defined Features for Edge Computing Support

3.7.6.3 Public vs. Private Edge Computing

3.7.7 Network Slicing

3.7.7.1 Logical Partitioning of Network Resources

3.7.7.2 3GPP Functions, Identifiers & Procedures for Slicing

3.7.7.3 RAN Slicing

3.7.7.4 Mobile Core Slicing

3.7.7.5 Transport Network Slicing

3.7.7.6 UE-Based Network Slicing Features

3.7.7.7 Management & Orchestration Aspects

3.7.8 Network Sharing

3.7.8.1 Service-Specific PLMN (Public Land Mobile Network) IDs

3.7.8.2 DNN (Data Network Name)-Based Isolation

3.7.8.3 GWCN (Gateway Core Network): Core Network Sharing

3.7.8.4 MOCN (Multi-Operator Core Network): RAN & Spectrum Sharing

3.7.8.5 MORAN (Multi-Operator RAN): RAN Sharing Without Spectrum Pooling

3.7.8.6 DECOR (Dedicated Core) & eDECOR (Enhanced DECOR)

3.7.8.7 Roaming in Non-Overlapping Service Areas

3.7.8.8 Passive Sharing of Infrastructure Resources

3.7.9 E2E (End-to-End) Security

3.7.9.1 UE Authentication Framework

3.7.9.2 Subscriber Privacy

3.7.9.3 Air Interface Confidentiality & Integrity

3.7.9.4 Resilience Against Radio Jamming

3.7.9.5 RAN, Core & Transport Network Security

3.7.9.6 Security Aspects of Network Slicing

3.7.9.7 Application Domain Protection

3.7.9.8 Other Security Considerations

3.7.10 Shared & Unlicensed Spectrum

3.7.10.1 DSS (Dynamic Spectrum Sharing): LTE & 5G NR Coexistence

3.7.10.2 CBRS (Citizens Broadband Radio Service): Three-Tiered Sharing

3.7.10.3 LSA (Licensed Shared Access) & eLSA (Evolved LSA): Two-Tiered Sharing

3.7.10.4 AFC (Automated Frequency Coordination): License-Exempt Sharing

3.7.10.5 Local Area Licensing of Shared Spectrum

3.7.10.6 5G NR-U (NR in Unlicensed Spectrum)

3.7.11 Rapidly Deployable 5G Network Systems

3.7.11.1 NIB (Network-in-a-Box) Systems

3.7.11.2 Vehicular COWs (Cells-on-Wheels)

3.7.11.3 Aerial Cell Sites

3.7.11.4 Maritime Cellular Platforms

3.7.12 Direct Communications & Coverage Expansion

3.7.12.1 Sidelink for Direct Mode D2D Communications

3.7.12.2 UE-to-Network & UE-to-UE Relays

3.7.12.3 Indoor & Outdoor Small Cells

3.7.12.4 DAS (Distributed Antenna Systems)

3.7.12.5 IAB (Integrated Access & Backhaul)

3.7.12.6 Mobile IAB: VMRs (Vehicle-Mounted Relays)

3.7.12.7 NCRs (Network-Controlled Repeaters)

3.7.12.8 NTNs (Non-Terrestrial Networks)

3.7.12.9 ATG/A2G (Air-to-Ground) Connectivity

3.7.13 Cloud-Native, Software-Driven & Open Networking

3.7.13.1 Cloud-Native Technologies

3.7.13.2 Microservices & SBA (Service-Based Architecture)

3.7.13.3 Containerization of Network Functions

3.7.13.4 NFV (Network Functions Virtualization)

3.7.13.5 SDN (Software-Defined Networking)

3.7.13.6 Cloud Compute, Storage & Networking Infrastructure

3.7.13.7 APIs (Application Programming Interfaces)

3.7.13.8 Open RAN & Core Architectures

3.7.14 Network Intelligence & Automation

3.7.14.1 AI (Artificial Intelligence)

3.7.14.2 Machine & Deep Learning

3.7.14.3 Big Data & Advanced Analytics

3.7.14.4 SON (Self-Organizing Networks)

3.7.14.5 Intelligent Control, Management & Orchestration

3.7.14.6 Support for Network Intelligence & Automation in 3GPP Standards

4 Chapter 4: Key Vertical Industries & Applications

4.1 Cross-Sector & Enterprise Application Capabilities

4.1.1 Mobile Broadband

4.1.2 FWA (Fixed Wireless Access)

4.1.3 Voice & Messaging Services

4.1.4 High-Definition Video Transmission

4.1.5 Telepresence & Video Conferencing

4.1.6 Multimedia Broadcasting & Multicasting

4.1.7 IoT (Internet of Things) Networking

4.1.8 Wireless Connectivity for Wearables

4.1.9 Untethered AR/VR/MR (Augmented, Virtual & Mixed Reality)

4.1.10 Real-Time Holographic Projections

4.1.11 Tactile Internet & Haptic Feedback

4.1.12 Precise Positioning & Tracking

4.1.13 Industrial Automation

4.1.14 Remote Control of Machines

4.1.15 Connected Mobile Robotics

4.1.16 Unmanned & Autonomous Vehicles

4.1.17 BVLOS (Beyond Visual Line-of-Sight) Operation of Drones

4.1.18 Data-Driven Analytics & Insights

4.1.19 Sensor-Equipped Digital Twins

4.1.20 Predictive Maintenance of Assets

4.2 Vertical Industries & Specific Application Scenarios

4.2.1 Agriculture

4.2.1.1 Intelligent Monitoring of Crop, Soil & Weather Conditions

4.2.1.2 IoT & Advanced Analytics-Driven Yield Optimization

4.2.1.3 Sensor-Based Smart Irrigation Control Systems

4.2.1.4 Real-Time Tracking & Geofencing in Farms

4.2.1.5 Livestock & Aquaculture Health Management

4.2.1.6 Video-Based Remote Veterinary Inspections

4.2.1.7 Unmanned Autonomous Tractors & Farm Vehicles

4.2.1.8 Robots for Planting, Weeding & Harvesting

4.2.1.9 5G-Equipped Agricultural Drones

4.2.1.10 Connected Greenhouses & Vertical Farms

4.2.2 Aviation

4.2.2.1 Inflight Connectivity for Passengers & Cabin Crew

4.2.2.2 Connected Airports for Enhanced Traveler & Visitor Experience

4.2.2.3 Coordination of Ground Support Equipment, Vehicles & Personnel

4.2.2.4 ATM (Air Traffic Management) for Drones & Urban Air Mobility Vehicles

4.2.2.5 Wireless Upload of EFB (Electronic Flight Bag) & IFE (In-Flight Entertainment) Updates

4.2.2.6 Aircraft Data Offload for Operational & Maintenance Purposes

4.2.2.7 Video Surveillance of Airport Surface & Terminal Areas

4.2.2.8 5G-Enabled Remote Inspection & Repair of Aircraft

4.2.2.9 Navigation, Weather & Other IoT Sensors

4.2.2.10 Smart Baggage Handling

4.2.2.11 Asset Awareness & Tracking

4.2.2.12 Passenger Flow & Resource Management

4.2.2.13 Automation of Check-In & Boarding Procedures

4.2.2.14 Intelligent Airport Service Robots

4.2.3 Broadcasting

4.2.3.1 3GPP-Based PMSE (Program Making & Special Events)

4.2.3.2 Live AV (Audio-Visual) Media Production Using NPNs

4.2.3.3 Private 5G-Enabled Production in Remote Locations

4.2.3.4 Network Slicing for Contribution Feeds

4.2.3.5 Wire-Free Cameras & Microphones

4.2.3.6 Multicast & Broadcast Content Distribution

4.2.4 Construction

4.2.4.1 Wireless Connectivity for Construction Sites & Field Offices

4.2.4.2 Instantaneous Access to Business-Critical Applications

4.2.4.3 5G-Based Remote Control of Heavy Machinery

4.2.4.4 Autonomous Mobile Robots for Construction

4.2.4.5 IoT Sensor-Driven Maintenance of Equipment

4.2.4.6 Video Surveillance & Analytics for Site Security

4.2.4.7 Real-Time Visibility of Personnel, Assets & Materials

4.2.4.8 Aerial Surveying & Monitoring of Construction Sites

4.2.5 Education

4.2.5.1 Remote & Distance Learning Services

4.2.5.2 Mobile Access to Academic Resources

4.2.5.3 5G-Connected Smart Classrooms

4.2.5.4 Automation of Administrative Tasks

4.2.5.5 Personalized & Engaging Learning

4.2.5.6 AR/VR-Based Immersive Lessons

4.2.5.7 5G-Enabled Virtual Field Trips

4.2.5.8 Educational Telepresence Robots

4.2.6 Forestry

4.2.6.1 Wireless Connectivity for Forestry Operations & Recreation

4.2.6.2 5G-Facilitated Teleoperation of Forestry Equipment

4.2.6.3 Autonomous Harvesting & Milling Machinery

4.2.6.4 Real-Time Tracking of Equipment, Vehicles & Personnel

4.2.6.5 Cellular IoT Sensors for Biological & Environmental Monitoring

4.2.6.6 Wireless Cameras for Wildlife Observation, Conservation & Security

4.2.6.7 Early Wildfire Detection & Containment Systems

4.2.6.8 Drones for Search & Rescue Operations

4.2.7 Healthcare

4.2.7.1 5G-Connected Smart Hospitals & Healthcare Facilities

4.2.7.2 Wireless Transmission of Medical Imagery & Rich Datasets

4.2.7.3 Real-Time Monitoring of Patients in Acute & Intensive Care

4.2.7.4 Telehealth Video Consultations for Visual Assessment

4.2.7.5 Connectivity for AI-Based Healthcare Applications

4.2.7.6 AR Systems for Complex Medical Procedures

4.2.7.7 Remote-Controlled Surgery & Examination

4.2.7.8 Assisted Living & Rehabilitation Robotics

4.2.7.9 Immersive VR-Based Medical & Surgical Training

4.2.7.10 Connected Ambulances for EMS (Emergency Medical Services)

4.2.8 Manufacturing

4.2.8.1 Untethered Connectivity for Production & Process Automation

4.2.8.2 Wireless Motion Control & C2C (Control-to-Control) Communications

4.2.8.3 Cellular-Equipped Mobile Control Panels

4.2.8.4 Mobile Robots & AGVs (Automated Guided Vehicles)

4.2.8.5 Autonomous Forklifts & Warehouse Robotics

4.2.8.6 AR-Facilitated Factory Floor Operations

4.2.8.7 Machine Vision-Based Quality Inspection

4.2.8.8 Closed-Loop Process Control

4.2.8.9 Process & Environmental Monitoring

4.2.8.10 Precise Indoor Positioning for Asset Management

4.2.8.11 Remote Access & Maintenance of Equipment

4.2.9 Military

4.2.9.1 5G-Based Tactical Battlefield Communications

4.2.9.2 Smart Military Bases & Command Posts

4.2.9.3 ISR (Intelligence, Surveillance & Reconnaissance)

4.2.9.4 Command & Control of Weapon Systems

4.2.9.5 Remote Operation of Robotics & Unmanned Assets

4.2.9.6 AR HUD (Heads-Up Display) Systems

4.2.9.7 Wireless VR/MR-Based Military Training

4.2.9.8 Perimeter Security & Force Protection

4.2.10 Mining

4.2.10.1 Safety-Critical Communications in Remote Mining Environments

4.2.10.2 Wireless Control of Drilling, Excavation & Related Equipment

4.2.10.3 Automated Loading, Haulage & Train Operations

4.2.10.4 Video-Based Monitoring of Personnel & Assets

4.2.10.5 Underground Positioning & Geofencing

4.2.10.6 Smart Ventilation & Water Management

4.2.10.7 Real-Time Operational Intelligence

4.2.10.8 AR & VR for Mining Operations

4.2.11 Oil & Gas

4.2.11.1 Wireless Connectivity for Remote Exploration & Production Sites

4.2.11.2 Critical Voice & Data-Based Mobile Workforce Communications

4.2.11.3 Push-to-Video & Telepresence Conferencing for Field Operations

4.2.11.4 Cellular-Equipped Surveillance Cameras for Situational Awareness

4.2.11.5 IoT Sensor-Enabled Remote Monitoring & Automation of Processes

4.2.11.6 SCADA (Supervisory Control & Data Acquisition) Communications

4.2.11.7 Location Services for Worker Safety & Asset Tracking

4.2.11.8 AR Smart Helmets for Hands-Free Remote Assistance

4.2.11.9 Predictive Maintenance of Oil & Gas Facilities

4.2.11.10 Mobile Robots for Safety Hazard Inspections

4.2.12 Ports & Maritime Transport

4.2.12.1 Critical Communications for Port Workers

4.2.12.2 Automation of Port & Terminal Operations

4.2.12.3 5G-Connected AGVs for Container Transport

4.2.12.4 Remote-Controlled Cranes & Terminal Tractors

4.2.12.5 Video Analytics for Operational Purposes

4.2.12.6 Environmental & Condition Monitoring

4.2.12.7 Port Traffic Management & Control

4.2.12.8 AR & VR Applications for Port Digitization

4.2.12.9 Unmanned Aerial Inspections of Port Facilities

4.2.12.10 Private Cellular-Enabled Maritime Communications

4.2.12.11 Wireless Ship-to-Shore Connectivity in Nearshore Waters

4.2.12.12 5G-Facilitated Remote Steering of Unmanned Vessels

4.2.13 Public Safety

4.2.13.1 Mission-Critical PTT Voice Communications

4.2.13.2 Real-Time Video & High-Resolution Imagery

4.2.13.3 Messaging, File Transfer & Presence Services

4.2.13.4 Secure & Seamless Mobile Broadband Access

4.2.13.5 Location-Based Services & Enhanced Mapping

4.2.13.6 Multimedia CAD (Computer-Aided Dispatch)

4.2.13.7 Massive-Scale Video Surveillance & Analytics

4.2.13.8 Smart Glasses & AR Headgear for First Responders

4.2.13.9 5G-Equipped Police, Firefighting & Rescue Robots

4.2.13.10 5G MBS/5MBS in High-Density Environments

4.2.13.11 Sidelink-Based Direct Mode Communications

4.2.14 Railways

4.2.14.1 FRMCS (Future Railway Mobile Communication System)

4.2.14.2 Train-to-Ground & Train-to-Train Connectivity

4.2.14.3 Wireless Intra-Train Communications

4.2.14.4 Rail Operations-Critical Voice, Data & Video Services

4.2.14.5 ATO (Automatic Train Operation) & Traffic Management

4.2.14.6 Video Surveillance for Operational Safety & Security

4.2.14.7 Smart Maintenance of Railway Infrastructure

4.2.14.8 Intelligent Management of Logistics Facilities

4.2.14.9 Onboard Broadband Internet Access

4.2.14.10 PIS (Passenger Information Systems)

4.2.14.11 Smart Rail & Metro Station Services

4.2.15 Utilities

4.2.15.1 Multi-Service FANs (Field Area Networks)

4.2.15.2 Critical Applications for Field Workforce Communications

4.2.15.3 AMI (Advanced Metering Infrastructure)

4.2.15.4 DA (Distribution Automation) Systems

4.2.15.5 Microgrid & DER (Distributed Energy Resource) Integration

4.2.15.6 5G-Enabled VPPs (Virtual Power Plants)

4.2.15.7 Low-Latency SCADA Applications for Utilities

4.2.15.8 Teleprotection of Transmission & Distribution Grids

4.2.15.9 Video Monitoring for Critical Infrastructure Protection

4.2.15.10 Sensor-Based Detection of Water & Gas Leaks

4.2.15.11 AR Information Overlays for Repairs & Maintenance

4.2.15.12 Drone & Robot-Assisted Inspections of Utility Assets

4.2.15.13 Local Wireless Connectivity for Remote & Offshore Facilities

4.2.16 Warehousing & Other Verticals

5 Chapter 5: Spectrum Availability, Allocation & Usage

5.1 National & Local Area Licensed Spectrum

5.1.1 Low-Band (Sub-1 GHz)

5.1.1.1 200 ? 400 MHz

5.1.1.2 410 & 450 MHz

5.1.1.3 600 MHz

5.1.1.4 700 MHz

5.1.1.5 800 MHz

5.1.1.6 900 MHz

5.1.2 Mid-Band (1 ? 6 GHz)

5.1.2.1 1.4 GHz

5.1.2.2 1.6 GHz

5.1.2.3 1.8 GHz

5.1.2.4 1.9 GHz

5.1.2.5 2.1 GHz

5.1.2.6 2.3 GHz

5.1.2.7 2.4 GHz

5.1.2.8 2.5 GHz

5.1.2.9 2.6 GHz

5.1.2.10 3.4 GHz

5.1.2.11 3.5 GHz CBRS PAL Tier

5.1.2.12 3.7 ? 3.8 GHz

5.1.2.13 3.8 ? 4.2 GHz

5.1.2.14 4.6 ? 4.9 GHz

5.1.2.15 Other Bands

5.1.3 High-Band mmWave (Millimeter Wave)

5.1.3.1 26 GHz

5.1.3.2 28 GHz

5.1.3.3 37 GHz

5.1.3.4 Other Bands

5.2 License-Exempt (Unlicensed) Spectrum

5.2.1 Sub-1 GHz Bands (470 ? 790/800/900 MHz)

5.2.2 1.8 GHz DECT Guard Band

5.2.3 1.9 GHz sXGP Band

5.2.4 2.4 GHz (2,400 ? 2,483.5 MHz)

5.2.5 3.5 GHz CBRS GAA Tier

5.2.6 5 GHz (5,150 ? 5,925 MHz)

5.2.7 6 GHz (5,925 ? 7,125 MHz)

5.2.8 60 GHz (57 ? 71 GHz)

5.2.9 Other Bands

5.3 North America

5.3.1 United States

5.3.2 Canada

5.4 Asia Pacific

5.4.1 Australia

5.4.2 New Zealand

5.4.3 China

5.4.4 Hong Kong

5.4.5 Taiwan

5.4.6 Japan

5.4.7 South Korea

5.4.8 Singapore

5.4.9 Malaysia

5.4.10 Indonesia

5.4.11 Philippines

5.4.12 Thailand

5.4.13 Vietnam

5.4.14 Laos

5.4.15 Myanmar

5.4.16 India

5.4.17 Pakistan

5.4.18 Rest of Asia Pacific

5.5 Europe

5.5.1 United Kingdom

5.5.1.1 Great Britain

5.5.1.2 Northern Ireland

5.5.2 Republic of Ireland

5.5.3 France

5.5.4 Germany

5.5.5 Belgium

5.5.6 Netherlands

5.5.7 Switzerland

5.5.8 Austria

5.5.9 Italy

5.5.10 Spain

5.5.11 Portugal

5.5.12 Sweden

5.5.13 Norway

5.5.14 Denmark

5.5.15 Finland

5.5.16 Estonia

5.5.17 Czech Republic

5.5.18 Poland

5.5.19 Ukraine

5.5.20 Turkiye

5.5.21 Cyprus

5.5.22 Greece

5.5.23 Bulgaria

5.5.24 Romania

5.5.25 Hungary

5.5.26 Slovenia

5.5.27 Croatia

5.5.28 Russia

5.5.29 Belarus

5.5.30 Rest of Europe

5.6 Middle East & Africa

5.6.1 Saudi Arabia

5.6.2 United Arab Emirates

5.6.3 Qatar

5.6.4 Oman

5.6.5 Bahrain

5.6.6 Kuwait

5.6.7 Iraq

5.6.8 Jordan

5.6.9 Israel

5.6.10 Egypt

5.6.11 Algeria

5.6.12 Morocco

5.6.13 Tunisia

5.6.14 South Africa

5.6.15 Botswana

5.6.16 Zambia

5.6.17 Kenya

5.6.18 Ethiopia

5.6.19 Angola

5.6.20 Republic of the Congo

5.6.21 Gabon

5.6.22 Nigeria

5.6.23 Uganda

5.6.24 Ghana

5.6.25 Senegal

5.6.26 Rest of the Middle East & Africa

5.7 Latin & Central America

5.7.1 Brazil

5.7.2 Mexico

5.7.3 Argentina

5.7.4 Colombia

5.7.5 Chile

5.7.6 Peru

5.7.7 Ecuador

5.7.8 Bolivia

5.7.9 Dominican Republic

5.7.10 Bardados

5.7.11 Trinidad & Tobago

5.7.12 Suriname

5.7.13 Rest of Latin & Central America

6 Chapter 6: Standardization, Regulatory & Collaborative Initiatives

6.1 3GPP (Third Generation Partnership Project)

6.1.1 Release 15: 5G eMBB Capabilities, Introduction of Network Slicing & New Operating Bands

6.1.2 Release 16: 3GPP Support for NPNs, 5G URLLC, TSN, NR-U & Vertical Application Enablers

6.1.3 Release 17: NPN Enhancements, Edge Computing, TSC, Expansion of IIoT Features, RedCap & NTN Connectivity

6.1.4 Release 18: 5G Advanced, Further NPN Refinements, DetNet, Intelligent Automation, Spectrum Flexibility & XR Services

6.1.5 Releases 19, 20, 21 & Beyond: Succession From 5G Advanced to the 6G Evolution

6.2 450 MHz Alliance

6.2.1 Promoting 3GPP Technologies in the 380 ? 470 MHz Frequency Range

6.3 5G-ACIA (5G Alliance for Connected Industries and Automation)

6.3.1 Maximizing the Applicability of 5G Technology in the Industrial Domain

6.4 5GAIA (5G Applications Industry Array)

6.4.1 Advancing the Development of China's 5G Applications Industry

6.5 5G Campus Network Alliance

6.5.1 Supporting the Market Development of 5G Campus Networks in Germany

6.6 5GDNA (5G Deterministic Networking Alliance)

6.6.1 Industry Collaboration & Promotion of 5GDN (5G Deterministic Networking)

6.7 5GFF (5G Future Forum)

6.7.1 Accelerating the Delivery of 5G MEC (Multi-Access Edge Computing) Solutions

6.8 5G Forum (South Korea)

6.8.1 Expanding Convergence Between 5G Technology & Vertical Industries

6.9 5G Health Association

6.9.1 Interfacing 5G-Based Connectivity & Healthcare Applications

6.10 5G-MAG (5G Media Action Group)

6.10.1 5G-Based NPNs in Media Production

6.11 5GMF (Fifth Generation Mobile Communication Promotion Forum, Japan)

6.11.1 Initiatives Related to Local 5G Networks in Japan

6.12 5GSA (5G Slicing Association)

6.12.1 Addressing Vertical Industry Requirements for 5G Network Slicing

6.13 6G-IA (6G Smart Networks and Services Industry Association)

6.13.1 Private 5G-Related Projects & Activities

6.14 AGURRE (Association of Major Users of Operational Radio Networks, France)

6.14.1 Spectrum Access, Regulatory Framework & Industrial Ecosystem for Private Mobile Networks

6.15 APCO (Association of Public-Safety Communications Officials) International

6.15.1 Public Safety 5G-Related Advocacy Efforts

6.16 ATIS (Alliance for Telecommunications Industry Solutions)

6.16.1 Deployment & Operational Requirements of 5G-Based NPNs

6.16.2 Shared HNI & IBN Administration for CBRS Spectrum

6.16.3 Other Private 5G-Related Initiatives

6.17 BTG (Dutch Association of Large-Scale ICT & Telecommunications Users)

6.17.1 KMBG (Dutch Critical Mobile Broadband Users) Expert Group

6.18 B-TrunC (Broadband Trunking Communication) Industry Alliance

6.18.1 B-TrunC Standard for 3GPP-Based Critical Communications

6.19 CAMET (China Association of Metros)

6.19.1 Adoption of 3GPP Networks for Urban Rail Transit Systems

6.20 CEPT (European Conference of Postal and Telecommunications Administrations)

6.20.1 Common Spectrum Policies for Local 5G, PPDR Broadband & FRMCS

6.21 DSA (Dynamic Spectrum Alliance)

6.21.1 Promoting Unlicensed & Dynamic Access to Spectrum

6.22 Electricity Canada (Canadian Electricity Association)

6.22.1 PVNO & Dedicated Spectrum for Smart Grid Communications

6.23 ENTELEC (Energy Telecommunications and Electrical Association)

6.23.1 Policy Advocacy & Other Private 5G-Related Activities

6.24 EPRI (Electric Power Research Institute)

6.24.1 Research & Guidelines in Support of 3GPP-Based Utility Communications

6.25 ERA (European Union Agency for Railways)

6.25.1 Evolution of Railway Radio Communication Project

6.26 ETSI (European Telecommunications Standards Institute)

6.26.1 Technical Specifications for FRMCS, PPDR Broadband, MCX & TETRA-3GPP Interworking

6.26.2 Other Work Relevant to Private 5G Networks

6.27 EU-Rail (Europe’s Rail Joint Undertaking)

6.27.1 FRMCS-Related Research & Innovation Activities

6.28 EUTC (European Utilities Telecom Council)

6.28.1 Addressing 5G-Related Requirements for European Utilities

6.29 EUWENA (European Users of Enterprise Wireless Networks Association)

6.29.1 Catalyzing the Wider Adoption of 3GPP-Based Private Networks

6.30 EWA (Enterprise Wireless Alliance)

6.30.1 Supporting the Private Wireless Industry in the United States

6.31 free5GC

6.31.1 Open-Source 5GC Software

6.32 GSA (Global Mobile Suppliers Association)

6.32.1 Advocacy for Private Mobile Networks

6.33 GSMA (GSM Association)

6.33.1 Guidelines for 5G Private & Dedicated Networks

6.34 GUTMA (Global UTM Association)

6.34.1 ACJA (Aerial Connectivity Joint Activity) Initiative

6.35 ITU (International Telecommunication Union)

6.35.1 International & Regional Harmonization of 5G Spectrum

6.35.2 Defining the Role of IMT-2020 to Support Vertical Applications

6.36 JOTS (Joint Operators Technical Specification) Forum

6.36.1 NHIB (Neutral Host In-Building) Specification

6.37 JRC (Joint Radio Company)

6.37.1 Supporting 5G-Based Smart Grid Initiatives

6.38 KRRI (Korea Railroad Research Institute)

6.38.1 Functional Testing & Certification of 3GPP-Based Railway Communications Systems

6.39 LF (Linux Foundation)

6.39.1 Magma Mobile Core Software Platform

6.39.2 LF Networking's 5G Super Blueprint

6.39.3 LF Edge's Akraino Private 5G ICN (Integrated Cloud-Native) Blueprint

6.39.4 Other Projects Relevant to Private 5G Networks

6.40 MFA (Alliance for Private Networks)

6.40.1 Uni5G Technology Blueprints for Private 5G Networks

6.40.2 Network Identifier Program Supporting Private & Neutral Host Networks

6.41 MSSA (Mobile Satellite Services Association)

6.41.1 Advancing the Global Direct-to-Device NTN Ecosystem

6.42 NGA (Next G Alliance)

6.42.1 Building the Foundation for North American Leadership in 6G

6.43 NGMN (Next-Generation Mobile Networks) Alliance

6.43.1 Work Related to Private 5G & Network Slicing

6.44 NSC (National Spectrum Consortium)

6.44.1 Enhancing Spectrum Superiority & 5G Capabilities for Federal Users

6.45 OCP (Open Compute Project) Foundation

6.45.1 Initiatives Aimed at Open Designs for Telco Hardware

6.46 one6G Association

6.46.1 Driving 6G Innovation & Development Across Vertical Industries

6.47 ONF (Open Networking Foundation)

6.47.1 Aether Private 5G Connected Edge Platform

6.47.2 SD-RAN, SD-Core, OMEC & Other Relevant Projects

6.48 OnGo Alliance

6.48.1 Promoting 5G OnGo Wireless Network Technology

6.48.2 Technical Specifications & Guidelines for 5G NR-Based CBRS Networks

6.48.3 Product Certification Program Supporting Multi-Vendor Interoperability

6.49 OPC Foundation

6.49.1 OPC UA (Unified Architecture) Over 5G for Industry 4.0 Applications

6.50 Open RAN Policy Coalition

6.50.1 Promoting Policies to Drive the Adoption of Open RAN

6.51 Open5GCore

6.51.1 Vendor-Independent 5GC Implementation

6.52 Open5GS & NextEPC

6.52.1 Open-Source 5GC & EPC Software

6.53 OpenInfra (Open Infrastructure) Foundation

6.53.1 StarlingX Software Stack for Ultra-Low Latency Edge Applications

6.53.2 OpenStack Cloud Software & Other Projects

6.54 O-RAN Alliance

6.54.1 O-RAN Architecture Specifications

6.54.2 O-RAN SC (Software Community)

6.54.3 Testing & Integration Support

6.55 OSA (OpenAirInterface Software Alliance)

6.55.1 OAI (OpenAirInterface) 5G RAN, Core & MOSAIC5G Projects

6.56 PIA (PSBN Innovation Alliance)

6.56.1 PSBN (Public Safety Broadband Network) Governance in Canada's Ontario Province

6.57 PMeV (German Professional Mobile Radio Association)

6.57.1 Professional Broadband & 5G Campus Network-Related Activities

6.58 PSBTA (Public Safety Broadband Technology Association)

6.58.1 Public Safety 5G-Related Activities

6.59 PSCE (Public Safety Communication Europe)

6.59.1 Public Safety Broadband-Related Standardization Activities

6.59.2 BroadX Projects: Pan-European Interoperable Mobile Broadband System for Public Safety

6.60 Safe-Net Forum

6.60.1 Technical & Policy Guidance for 3GPP-Based Critical Communications Networks

6.61 SCF (Small Cell Forum)

6.61.1 Reference Blueprints for Private 5G Networks

6.61.2 Neutral Hosting, Edge Computing & Other Relevant Work

6.62 Seamless Air Alliance

6.62.1 Leading Global Standards for Inflight Connectivity

6.63 SimpleRAN

6.63.1 Ensuring Interoperability & Transparency in the vRAN Ecosystem

6.64 srsRAN Project

6.64.1 Open-Source 5G Software Suite

6.65 TCA (Trusted Connectivity Alliance)

6.65.1 5G SIM/eSIM Recommendations for Private Networks

6.66 TCCA (The Critical Communications Association)

6.66.1 CCBG (Critical Communications Broadband Group)

6.66.2 BIG (Broadband Industry Group)

6.66.3 SCADA, Smart Grid & IoT Group

6.66.4 Future Technologies Group

6.67 techUK

6.67.1 SPF (Spectrum Policy Forum)

6.68 TIA (Telecommunications Industry Association)

6.68.1 Defining Requirements for LMR-3GPP Interworking & Critical Broadband Capabilities

6.69 TIP (Telecom Infra Project)

6.69.1 5G Private Networks Solution Group

6.69.2 Neutral Host NaaS Solution Group

6.69.3 OpenRAN & Open Core Network Groups

6.69.4 Other Relevant Product & Solution Groups

6.70 TTA (Telecommunications Technology Association, South Korea)

6.70.1 Standardization Efforts for 3GPP-Based Public Safety, Railway & Maritime Communications

6.71 U.S. NIST (National Institute of Standards and Technology)

6.71.1 Public Safety Broadband & 5G-Related R&D Initiatives

6.72 U.S. NPSTC (National Public Safety Telecommunications Council)

6.72.1 Leadership for LMR-3GPP Interworking & Public Safety Broadband Communications

6.73 U.S. NTIA (National Telecommunications and Information Administration)

6.73.1 Wireless Innovation & Supply Chain Security

6.74 UBBA (Utility Broadband Alliance)

6.74.1 Championing the Advancement of Private Broadband Networks for Utilities

6.75 UIC (International Union of Railways)

6.75.1 FRMCS Program for the Replacement of GSM-R Networks

6.76 UK5G Innovation Network

6.76.1 Promoting Private 5G Adoption Projects, Testbeds & Trials

6.77 UNIFE (The European Rail Supply Industry Association)

6.77.1 UNITEL Committee: Development & Implementation of FRMCS

6.78 UTC (Utilities Technology Council)

6.78.1 Private 5G-Related Advocacy, Technology Development & Policy Efforts

6.79 UTCAL (Utilities Telecom & Technology Council America Latina)

6.79.1 Promoting Private 5G Networks for Latin American Utilities

6.80 VDMA (German Mechanical and Plant Engineering Association)

6.80.1 Guidelines for 5G in Mechanical & Plant Engineering

6.81 WBA (Wireless Broadband Alliance)

6.81.1 5G & Wi-Fi Convergence in Private 5G Networks

6.81.2 OpenRoaming for Private 5G

6.82 WhiteSpace Alliance

6.82.1 Promoting the Use of 3GPP, IEEE & IETF Standards for TVWS Spectrum

6.83 WInnForum (Wireless Innovation Forum)

6.83.1 CBRS Standards for the Implementation of FCC Rulemaking

6.83.2 6 GHz Unlicensed Sharing & Other Committees

6.84 XGP (eXtended Global Platform) Forum

6.84.1 Development & Promotion of the sXGP Unlicensed Service

6.85 Others

6.85.1 Vendor-Led Private 5G Alliances

6.85.2 National Government Agencies & Regulators

6.85.3 Regional & Country-Specific Associations

6.85.4 Global Industry Initiatives & Organizations

7 Chapter 7: Case Studies of Private 5G Networks

7.1 ABP (Associated British Ports): Shared Access License-Enabled Private 5G Network for Port of Southampton

7.1.1 Operational Model

7.1.2 Spectrum Type

7.1.3 Integrators & Suppliers

7.1.4 Deployment Summary

7.2 Adif AV (Alta Velocidad): Private 5G Infrastructure for Wireless Access in Strategic Logistics Terminals

7.2.1 Operational Model

7.2.2 Spectrum Type

7.2.3 Integrators & Suppliers

7.2.4 Deployment Summary

7.3 Agnico Eagle Mines: Streamlining Mining Operations With Industrial-Grade Private 5G Networks

7.3.1 Operational Model

7.3.2 Spectrum Type

7.3.3 Integrators & Suppliers

7.3.4 Deployment Summary

7.4 Airbus: Multi-Campus Private Cellular Network for Aircraft Manufacturing Facilities Across Europe

7.4.1 Operational Model

7.4.2 Spectrum Type

7.4.3 Integrators & Suppliers

7.4.4 Deployment Summary

7.5 ANA (All Nippon Airways): Local 5G-Powered Digital Transformation of Aviation Training

7.5.1 Operational Model

7.5.2 Spectrum Type

7.5.3 Integrators & Suppliers

7.5.4 Deployment Summary

7.6 ArcelorMittal: 5G Steel Project for Industrial Digitization & Automation

7.6.1 Operational Model

7.6.2 Spectrum Type

7.6.3 Integrators & Suppliers

7.6.4 Deployment Summary

7.7 ASE Group: 28 GHz mmWave 5G Network for Semiconductor Manufacturing

7.7.1 Operational Model

7.7.2 Spectrum Type

7.7.3 Integrators & Suppliers

7.7.4 Deployment Summary

7.8 ASN (Alcatel Submarine Networks): Private 5G Networks for Calais & Greenwich Production Sites

7.8.1 Operational Model

7.8.2 Spectrum Type

7.8.3 Integrators & Suppliers

7.8.4 Deployment Summary

7.9 BAM Nuttall: Accelerating Innovation at Construction Sites With Private 5G Networks

7.9.1 Operational Model

7.9.2 Spectrum Type

7.9.3 Integrators & Suppliers

7.9.4 Deployment Summary

7.10 Barcelona Port Authority: Standalone Private 5G Network for 500 Tenant Companies

7.10.1 Operational Model

7.10.2 Spectrum Type

7.10.3 Integrators & Suppliers

7.10.4 Deployment Summary

7.11 BASF: 5G Campus Networks for Real-Time Wireless Connectivity in Chemical Production Sites

7.11.1 Operational Model

7.11.2 Spectrum Type

7.11.3 Integrators & Suppliers

7.11.4 Deployment Summary

7.12 BBC (British Broadcasting Corporation): Portable 5G-Based NPN Solution for News Contribution

7.12.1 Operational Model

7.12.2 Spectrum Type

7.12.3 Integrators & Suppliers

7.12.4 Deployment Summary

7.13 BHP: Transitioning From Private LTE to Standalone 5G Networks for Advanced Digitization & Automation

7.13.1 Operational Model

7.13.2 Spectrum Type

7.13.3 Integrators & Suppliers

7.13.4 Deployment Summary

7.14 BlackRock: On-Premise Private 5G Network Installation for New York Global Headquarters

7.14.1 Operational Model

7.14.2 Spectrum Type

7.14.3 Integrators & Suppliers

7.14.4 Deployment Summary

7.15 BMW Group: Private 5G Networks for Autonomous Intralogistics in Production Plants

7.15.1 Operational Model

7.15.2 Spectrum Type

7.15.3 Integrators & Suppliers

7.15.4 Deployment Summary

7.16 Boston Children's Hospital: Scalable Hybrid Public-Private 5G Network for Connected Healthcare

7.16.1 Operational Model

7.16.2 Spectrum Type

7.16.3 Integrators & Suppliers

7.16.4 Deployment Summary

7.17 BT Media & Broadcast: Private 5G Networks for Live Sports Content Production

7.17.1 Operational Model

7.17.2 Spectrum Type

7.17.3 Integrators & Suppliers

7.17.4 Deployment Summary

7.18 Cal Poly (California Polytechnic State University): Converged Public-Private 5G Network

7.18.1 Operational Model

7.18.2 Spectrum Type

7.18.3 Integrators & Suppliers

7.18.4 Deployment Summary

7.19 China National Coal Group: Multi-Band 700 MHz & 2.6 GHz Private 5G Network for Dahaize Coal Mine

7.19.1 Operational Model

7.19.2 Spectrum Type

7.19.3 Integrators & Suppliers

7.19.4 Deployment Summary

7.20 CJ Logistics: Bolstering Fulfillment Center Productivity Using Private 5G Network

7.20.1 Operational Model

7.20.2 Spectrum Type

7.20.3 Integrators & Suppliers

7.20.4 Deployment Summary

7.21 Cleveland Clinic: Private 5G Network for Mentor Hospital

7.21.1 Operational Model

7.21.2 Spectrum Type

7.21.3 Integrators & Suppliers

7.21.4 Deployment Summary

7.22 Cologne Bonn Airport: Revolutionizing Internal Operations With Private 5G Campus Network

7.22.1 Operational Model

7.22.2 Spectrum Type

7.22.3 Integrators & Suppliers

7.22.4 Deployment Summary

7.23 COMAC (Commercial Aircraft Corporation of China): 5G-Connected Intelligent Aircraft Manufacturing Factories

7.23.1 Operational Model

7.23.2 Spectrum Type

7.23.3 Integrators & Suppliers

7.23.4 Deployment Summary

7.24 CSG (China Southern Power Grid): Harnessing Private Cellular Systems & 5G Network Slicing for Smart Grid Operations

7.24.1 Operational Model

7.24.2 Spectrum Type

7.24.3 Integrators & Suppliers

7.24.4 Deployment Summary

7.25 DB (Deutsche Bahn): Digitizing & Automating Rail Operations With 5G-Based FRMCS

7.25.1 Operational Model

7.25.2 Spectrum Type

7.25.3 Integrators & Suppliers

7.25.4 Deployment Summary

7.26 Delta Electronics: Private 5G Networks for Manufacturing Facilities in Taiwan & Thailand

7.26.1 Operational Model

7.26.2 Spectrum Type

7.26.3 Integrators & Suppliers

7.26.4 Deployment Summary

7.27 District of Ban Chang: 26 GHz mmWave Private 5G Network for Smart City Services

7.27.1 Operational Model

7.27.2 Spectrum Type

7.27.3 Integrators & Suppliers

7.27.4 Deployment Summary

7.28 Dongyi Group Coal Gasification Company: Hybrid Public-Private Network for Xinyan Coal Mine

7.28.1 Operational Model

7.28.2 Spectrum Type

7.28.3 Integrators & Suppliers

7.28.4 Deployment Summary

7.29 EHIME CATV: Gigabit-Grade FWA Service Using 28 GHz Local 5G Network

7.29.1 Operational Model

7.29.2 Spectrum Type

7.29.3 Integrators & Suppliers

7.29.4 Deployment Summary

7.30 Estonian Ministry of Defense: Private 5G Network for CR14 (Cyber Range 14)

7.30.1 Operational Model

7.30.2 Spectrum Type

7.30.3 Integrators & Suppliers

7.30.4 Deployment Summary

7.31 EUROGATE: 5G Campus Networks for the Digitization of Port Logistics

7.31.1 Operational Model

7.31.2 Spectrum Type

7.31.3 Integrators & Suppliers

7.31.4 Deployment Summary

7.32 EWG (East-West Gate) Intermodal Terminal: Private 5G Network for Smart Railway Logistics

7.32.1 Operational Model

7.32.2 Spectrum Type

7.32.3 Integrators & Suppliers

7.32.4 Deployment Summary

7.33 Ferrovial: Standalone Private 5G Network for Silvertown Tunnel Project

7.33.1 Operational Model

7.33.2 Spectrum Type

7.33.3 Integrators & Suppliers

7.33.4 Deployment Summary

7.34 Fiskarheden: Local 3.7 GHz License-Based Private 5G Network for Transtrand Sawmill

7.34.1 Operational Model

7.34.2 Spectrum Type

7.34.3 Integrators & Suppliers

7.34.4 Deployment Summary

7.35 Frankfurt University Hospital: Dedicated 5G Network for Secure Medical Messaging & Remote Diagnostics

7.35.1 Operational Model

7.35.2 Spectrum Type

7.35.3 Integrators & Suppliers

7.35.4 Deployment Summary

7.36 Fraport: Private 5G Campus Network for Future-Oriented Operations at Frankfurt Airport

7.36.1 Operational Model

7.36.2 Spectrum Type

7.36.3 Integrators & Suppliers

7.36.4 Deployment Summary

7.37 Fujitsu: Japan's First 5G Network Installation Based on 28 GHz Local 5G Spectrum

7.37.1 Operational Model

7.37.2 Spectrum Type

7.37.3 Integrators & Suppliers

7.37.4 Deployment Summary

7.38 Gerdau: Private 5G Network for Ouro Branco Steel Production Plant

7.38.1 Operational Model

7.38.2 Spectrum Type

7.38.3 Integrators & Suppliers

7.38.4 Deployment Summary

7.39 Gogo Business Aviation: 5G A2G Wireless Network for Inflight Connectivity

7.39.1 Operational Model

7.39.2 Spectrum Type

7.39.3 Integrators & Suppliers

7.39.4 Deployment Summary

7.40 Guangzhou Metro: 5G + Smart Metro Project for Urban Rail Transit

7.40.1 Operational Model

7.40.2 Spectrum Type

7.40.3 Integrators & Suppliers

7.40.4 Deployment Summary

7.41 Hanshin Electric Railway: Capitalizing on Local 5G for Safer & Efficient Railway Operations

7.41.1 Operational Model

7.41.2 Spectrum Type

7.41.3 Integrators & Suppliers

7.41.4 Deployment Summary

7.42 Helios Park Hospital: Enhancing Medical System Efficiency With Standalone 5G Campus Network

7.42.1 Operational Model

7.42.2 Spectrum Type

7.42.3 Integrators & Suppliers

7.42.4 Deployment Summary

7.43 Hip Hing Engineering: Dedicated 5G Network for Kai Tak Sports Park

7.43.1 Operational Model

7.43.2 Spectrum Type

7.43.3 Integrators & Suppliers

7.43.4 Deployment Summary

7.44 Hiroshima Gas: Local 5G-Powered Safety Operations at Hatsukaichi LNG Terminal

7.44.1 Operational Model

7.44.2 Spectrum Type

7.44.3 Integrators & Suppliers

7.44.4 Deployment Summary

7.45 HKIA (Hong Kong International Airport): 28 GHz Public-Private 5G Infrastructure Project

7.45.1 Operational Model

7.45.2 Spectrum Type

7.45.3 Integrators & Suppliers

7.45.4 Deployment Summary

7.46 Hoban Construction: 4.7 GHz Private 5G Network for Apartment Complex Worksite

7.46.1 Operational Model

7.46.2 Spectrum Type

7.46.3 Integrators & Suppliers

7.46.4 Deployment Summary

7.47 Hsinchu City Fire Department: Satellite-Backhauled Private 5G Network for PPDR Communications

7.47.1 Operational Model

7.47.2 Spectrum Type

7.47.3 Integrators & Suppliers

7.47.4 Deployment Summary

7.48 Hutchison Ports: Driving the Digitization & Automation of Ports Through Private 5G Networks

7.48.1 Operational Model

7.48.2 Spectrum Type

7.48.3 Integrators & Suppliers

7.48.4 Deployment Summary

7.49 Inventec Corporation: Standalone Private 5G Network for Taoyuan Guishan Plant

7.49.1 Operational Model

7.49.2 Spectrum Type

7.49.3 Integrators & Suppliers

7.49.4 Deployment Summary

7.50 IRFU (Irish Rugby Football Union): Enabling Fast In-Play Data Analysis With Private 5G Network

7.50.1 Operational Model

7.50.2 Spectrum Type

7.50.3 Integrators & Suppliers

7.50.4 Deployment Summary

7.51 Jacto: Private 5G Network for Paulopolis Agricultural Machinery Manufacturing Plant

7.51.1 Operational Model

7.51.2 Spectrum Type

7.51.3 Integrators & Suppliers

7.51.4 Deployment Summary

7.52 JBG SMITH Properties: National Landing Private 5G Infrastructure Platform

7.52.1 Operational Model

7.52.2 Spectrum Type

7.52.3 Integrators & Suppliers

7.52.4 Deployment Summary

7.53 JD Logistics: Migrating AGV Communications From Wi-Fi to Private 5G Networks

7.53.1 Operational Model

7.53.2 Spectrum Type

7.53.3 Integrators & Suppliers

7.53.4 Deployment Summary

7.54 John Deere: Employing Private 5G Networks to Unshackle Industrial Facilities From Cables

7.54.1 Operational Model

7.54.2 Spectrum Type

7.54.3 Integrators & Suppliers

7.54.4 Deployment Summary

7.55 Kansai Electric Power: Enhancing Power Station & Wind Farm Maintenance Using Local 5G Networks

7.55.1 Operational Model

7.55.2 Spectrum Type

7.55.3 Integrators & Suppliers

7.55.4 Deployment Summary

7.56 Kaohsiung City Police Department: Sliced Private 5G Network for Smart Patrol Cars

7.56.1 Operational Model

7.56.2 Spectrum Type

7.56.3 Integrators & Suppliers

7.56.4 Deployment Summary

7.57 Kawasaki Heavy Industries: Connecting Smart Factory Robotics With Local 5G Technology

7.57.1 Operational Model

7.57.2 Spectrum Type

7.57.3 Integrators & Suppliers

7.57.4 Deployment Summary

7.58 KEPCO (Korea Electric Power Corporation): Private 5G Networks for Substation Management

7.58.1 Operational Model

7.58.2 Spectrum Type

7.58.3 Integrators & Suppliers

7.58.4 Deployment Summary

7.59 Kumagai Gumi: Unleashing the Potential of Unmanned Construction Using Local 5G Networks

7.59.1 Operational Model

7.59.2 Spectrum Type

7.59.3 Integrators & Suppliers

7.59.4 Deployment Summary

7.60 Latvian Ministry of Defense: Camp ?da?i 5G Testbed for Defense Innovations

7.60.1 Operational Model

7.60.2 Spectrum Type

7.60.3 Integrators & Suppliers

7.60.4 Deployment Summary

7.61 Lishui Municipal Emergency Management: 5G-Enabled Natural Disaster Management System

7.61.1 Operational Model

7.61.2 Spectrum Type

7.61.3 Integrators & Suppliers

7.61.4 Deployment Summary

7.62 Liverpool 5G Create Project: Standalone Private 5G Network for Digital Health, Education & Social Care

7.62.1 Operational Model

7.62.2 Spectrum Type

7.62.3 Integrators & Suppliers

7.62.4 Deployment Summary

7.63 Lufthansa Technik: Industrial-Grade 5G Campus Network for Hamburg Engine Shops

7.63.1 Operational Model

7.63.2 Spectrum Type

7.63.3 Integrators & Suppliers

7.63.4 Deployment Summary

7.64 Mercedes-Benz Group: World's First 5G Campus Network for Automotive Production

7.64.1 Operational Model

7.64.2 Spectrum Type

7.64.3 Integrators & Suppliers

7.64.4 Deployment Summary

7.65 Midea Group: 5G-Connected Factories for Washing Machine Manufacturing

7.65.1 Operational Model

7.65.2 Spectrum Type

7.65.3 Integrators & Suppliers

7.65.4 Deployment Summary

7.66 Mitsubishi Electric: Local 5G-Based Industrial Wireless System for Factory Automation

7.66.1 Operational Model

7.66.2 Spectrum Type

7.66.3 Integrators & Suppliers

7.66.4 Deployment Summary

7.67 Narita International Airport: Local 5G Network for Self-Driving Shuttle Buses & Critical Communications

7.67.1 Operational Model

7.67.2 Spectrum Type

7.67.3 Integrators & Suppliers

7.67.4 Deployment Summary

7.68 Navantia: Digital Transformation of Shipyard Operations Using Dedicated 5G Infrastructure & Edge Computing

7.68.1 Operational Model

7.68.2 Spectrum Type

7.68.3 Integrators & Suppliers

7.68.4 Deployment Summary

7.69 NEC Corporation: Improving Production Efficiency With Local 5G-Connected Autonomous Transport System

7.69.1 Operational Model

7.69.2 Spectrum Type

7.69.3 Integrators & Suppliers

7.69.4 Deployment Summary

7.70 NLMK Group: Digitizing Steel Production & Mining Operations With Private Wireless Networks

7.70.1 Operational Model

7.70.2 Spectrum Type

7.70.3 Integrators & Suppliers

7.70.4 Deployment Summary

7.71 Norwegian Armed Forces: Defense-Specific Network Slices & Tactical Private 5G Systems

7.71.1 Operational Model

7.71.2 Spectrum Type

7.71.3 Integrators & Suppliers

7.71.4 Deployment Summary

7.72 PCK Raffinerie: Accelerating Oil Refinery Digitization With 5G Campus Network

7.72.1 Operational Model

7.72.2 Spectrum Type

7.72.3 Integrators & Suppliers

7.72.4 Deployment Summary

7.73 Port of Tyne: Advancing Smart Port Transformation With Private 5G Network

7.73.1 Operational Model

7.73.2 Spectrum Type

7.73.3 Integrators & Suppliers

7.73.4 Deployment Summary

7.74 POSCO: Leveraging Private 5G to Link Autonomous Locomotives & Railway Control Systems

7.74.1 Operational Model

7.74.2 Spectrum Type

7.74.3 Integrators & Suppliers

7.74.4 Deployment Summary

7.75 PSA International: Private 5G Networks for Container Terminal Operations

7.75.1 Operational Model

7.75.2 Spectrum Type

7.75.3 Integrators & Suppliers

7.75.4 Deployment Summary

7.76 Ricoh: Embracing Digital Innovation in Production Operations With Local 5G Networks

7.76.1 Operational Model

7.76.2 Spectrum Type

7.76.3 Integrators & Suppliers

7.76.4 Deployment Summary

7.77 Robert Bosch: Automating & Digitizing Manufacturing Facilities With Private 5G Networks

7.77.1 Operational Model

7.77.2 Spectrum Type

7.77.3 Integrators & Suppliers

7.77.4 Deployment Summary

7.78 ROKN (Republic of Korea Navy): Secure Private 5G Network for Second Fleet Operations

7.78.1 Operational Model

7.78.2 Spectrum Type

7.78.3 Integrators & Suppliers

7.78.4 Deployment Summary

7.79 Ryder Cup Golf Competition: Integrated Private 5G/Wi-Fi Network for Fans & Staff

7.79.1 Operational Model

7.79.2 Spectrum Type

7.79.3 Integrators & Suppliers

7.79.4 Deployment Summary

7.80 Sao Martinho: Pioneering Smart Agribusiness Innovations With Private 5G Networks

7.80.1 Operational Model

7.80.2 Spectrum Type

7.80.3 Integrators & Suppliers

7.80.4 Deployment Summary

7.81 SCA (Svenska Cellulosa Aktiebolaget): Local 5G Connectivity for Timber Terminals & Paper Mills

7.81.1 Operational Model

7.81.2 Spectrum Type

7.81.3 Integrators & Suppliers

7.81.4 Deployment Summary

7.82 SGCC (State Grid Corporation of China): Sliced Public-Private 5G & 5.8 GHz Private NR-U Networks

7.82.1 Operational Model

7.82.2 Spectrum Type

7.82.3 Integrators & Suppliers

7.82.4 Deployment Summary

7.83 Siemens: Independently Developed Private 5G Infrastructure for Industry 4.0 Applications

7.83.1 Operational Model

7.83.2 Spectrum Type

7.83.3 Integrators & Suppliers

7.83.4 Deployment Summary

7.84 Sinopec (China Petroleum & Chemical Corporation): 5G + Smart Petrochemical Project

7.84.1 Operational Model

7.84.2 Spectrum Type

7.84.3 Integrators & Suppliers

7.84.4 Deployment Summary

7.85 SMC (Samsung Medical Center): On-Premise Private 5G Network for Medical Education

7.85.1 Operational Model

7.85.2 Spectrum Type

7.85.3 Integrators & Suppliers

7.85.4 Deployment Summary

7.86 Snam: Hybrid 5G MPN (Mobile Private Network) for 23 Plants

7.86.1 Operational Model

7.86.2 Spectrum Type

7.86.3 Integrators & Suppliers

7.86.4 Deployment Summary

7.87 SNCF (French National Railways): Enabling Rail Innovations With 5G Technology

7.87.1 Operational Model

7.87.2 Spectrum Type

7.87.3 Integrators & Suppliers

7.87.4 Deployment Summary

7.88 Swedish Armed Forces: Tactical 5G Bubbles for Secure Military Communications

7.88.1 Operational Model

7.88.2 Spectrum Type

7.88.3 Integrators & Suppliers

7.88.4 Deployment Summary

7.89 TBN (Trinity Broadcasting Network): Private 5G Network for Broadcast Studio

7.89.1 Operational Model

7.89.2 Spectrum Type

7.89.3 Integrators & Suppliers

7.89.4 Deployment Summary

7.90 Tianjin Port Group: On-Premise 5G Infrastructure for Intelligent & Automated Port Operations

7.90.1 Operational Model

7.90.2 Spectrum Type

7.90.3 Integrators & Suppliers

7.90.4 Deployment Summary

7.91 Tokyo Metropolitan University: L5G (Local 5G) Project in Support of "Future Tokyo" Strategy

7.91.1 Operational Model

7.91.2 Spectrum Type

7.91.3 Integrators & Suppliers

7.91.4 Deployment Summary

7.92 U.S. DOD (Department of Defense): Expanding 5G-Enabled Communications & Warfighting Capabilities

7.92.1 Operational Model

7.92.2 Spectrum Type

7.92.3 Integrators & Suppliers

7.92.4 Deployment Summary

7.93 UKD (University Hospital of Dusseldorf): Improving Patient Care & Saving Lives With 5G Campus Network

7.93.1 Operational Model

7.93.2 Spectrum Type

7.93.3 Integrators & Suppliers

7.93.4 Deployment Summary

7.94 Ushino Nakayama: Transforming Kagoshima Wagyu Beef Production With Local 5G Connectivity

7.94.1 Operational Model

7.94.2 Spectrum Type

7.94.3 Integrators & Suppliers

7.94.4 Deployment Summary

7.95 VA Palo Alto Health Care System: Campus-Wide Private 5G Network for Clinical Care Applications

7.95.1 Operational Model

7.95.2 Spectrum Type

7.95.3 Integrators & Suppliers

7.95.4 Deployment Summary

7.96 Volkswagen Group: Private 5G for Smart Manufacturing & Intelligent Vehicle Development

7.96.1 Operational Model

7.96.2 Spectrum Type

7.96.3 Integrators & Suppliers

7.96.4 Deployment Summary

7.97 VPA (Virginia Port Authority): Private 5G Connectivity for Semi-Automated Container Terminals

7.97.1 Operational Model

7.97.2 Spectrum Type

7.97.3 Integrators & Suppliers

7.97.4 Deployment Summary

7.98 West China Second University Hospital (Sichuan University): Enabling Smart Healthcare With Private 5G Network

7.98.1 Operational Model

7.98.2 Spectrum Type

7.98.3 Integrators & Suppliers

7.98.4 Deployment Summary

7.99 WISCO (Wuhan Iron & Steel Corporation): Dual-Layer 2.1 GHz & 3.5 GHz Private 5G Network for Steel Plant

7.99.1 Operational Model

7.99.2 Spectrum Type

7.99.3 Integrators & Suppliers

7.99.4 Deployment Summary

7.100 X Shore: Empowering Electric Boat Manufacturing With Private 5G Network

7.100.1 Operational Model

7.100.2 Spectrum Type

7.100.3 Integrators & Suppliers

7.100.4 Deployment Summary

8 Chapter 8: Key Ecosystem Players

8.1 10T Tech

8.2 1NCE

8.3 1oT

8.4 2TEST (Alkor-Communication)

8.5 3D-P (Epiroc)

8.6 450connect

8.7 4K Solutions

8.8 4RF

8.9 6Harmonics/6WiLInk

8.10 6WIND

8.11 7P (Seven Principles)

8.12 A Beep/Diga-Talk+

8.13 A1 Telekom Austria Group

8.14 A10 Networks

8.15 A5G Networks

8.16 AAEON Technology (ASUS ? ASUSTeK Computer)

8.17 Aarna Networks

8.18 ABB

8.19 ABEL Mobilfunk

8.20 ABiT Corporation

8.21 ABS

8.22 Abside Networks

8.23 Accedian

8.24 AccelerComm

8.25 Accelink Technologies

8.26 Accelleran

8.27 Accenture

8.28 Access Spectrum

8.29 Accton Technology Corporation

8.30 Accuver (InnoWireless)

8.31 ACE Technologies

8.32 AceTel (Ace Solutions)

8.33 Achronix Semiconductor Corporation

8.34 ACOME

8.35 Actelis Networks

8.36 Action Technologies (Shenzhen Action Technologies)

8.37 Actiontec Electronics

8.38 Active911

8.39 Actus Networks

8.40 Adax

8.41 Adcor Magnet Systems

8.42 ADI (Analog Devices, Inc.)

8.43 ADLINK Technology

8.44 ADRF (Advanced RF Technologies)

8.45 ADT

8.46 Adtran

8.47 Advanced Energy Industries

8.48 AdvanceTec Industries

8.49 Advantech

8.50 Advantech Wireless Technologies (Baylin Technologies)

8.51 Aegex Technologies

8.52 Aerial Applications

8.53 Aeris

8.54 Aerostar International

8.55 Aethertek

8.56 Affarii Technologies

8.57 Affirmed Networks (Microsoft Corporation)

8.58 AFL Global

8.59 AFRY

8.60 Agile (Agile Interoperable Solutions)

8.61 AGIS (Advanced Ground Information Systems)

8.62 AGM Mobile

8.63 AH NET (MVM NET)

8.64 AI-LINK

8.65 AINA Wireless

8.66 Airbus/SLC (Secure Land Communications)

8.67 Airfide Networks

8.68 Airgain

8.69 AirHop Communications

8.70 Airlinq

8.71 Airspan Networks

8.72 Airtower Networks

8.73 Airwavz Solutions

8.74 AIS (Advanced Info Service)

8.75 AiVader

8.76 Akamai Technologies

8.77 Akoustis Technologies

8.78 Alaxala Networks Corporation (Fortinet)

8.79 ALBEDO Telecom

8.80 albis-elcon (UET ? United Electronic Technology)

8.81 Alcadis

8.82 Alea (Leonardo)

8.83 Alef (Alef Edge)

8.84 Alepo

8.85 Alibaba Group

8.86 Aliniant

8.87 Allbesmart

8.88 Allen Vanguard Wireless

8.89 Allerio

8.90 Allied Telesis

8.91 Allot

8.92 Alpha Networks

8.93 Alpha Wireless

8.94 Alsatis Reseaux

8.95 Alstom

8.96 Altaeros

8.97 Altair Semiconductor (Sony Semiconductor Israel)

8.98 ALTAN Redes

8.99 Altice Group

8.100 ALVIS (Argentina)

8.101 AM Telecom

8.102 Amantya Technologies

8.103 Amarisoft

8.104 Amazon/AWS (Amazon Web Services)

8.105 Ambra Solutions-ECOTEL

8.106 AMD (Advanced Micro Devices)

8.107 Amdocs

8.108 America Movil

8.109 American Tower Corporation

8.110 AMI (American Megatrends International)

8.111 AMIT Wireless

8.112 Ampere Computing

8.113 Amphenol Corporation

8.114 Ampleon

8.115 Amtele Communication

8.116 Andesat

8.117 ANDRO Computational Solutions

8.118 Anktion (Fujian) Technology

8.119 Anokiwave

8.120 Anritsu

8.121 ANS ? Advanced Network Services (Charge Enterprises)

8.122 Antenna Company

8.123 Anterix

8.124 Antevia Networks

8.125 Antna Antenna Technology

8.126 Aorotech

8.127 Apple

8.128 APRESIA Systems

8.129 APSTAR (APT Satellite Company)

8.130 APT (Asia Pacific Telecom)

8.131 aql

8.132 Aquila (Suzhou Aquila Solutions)

8.133 Aqura Technologies (Telstra Purple)

8.134 Arabsat

8.135 Arcadyan Technology Corporation (Compal Electronics)

8.136 Archos

8.137 Arctic Semiconductor (Formerly SiTune Corporation)

8.138 Arete M

8.139 Argela

8.140 ArgoNET

8.141 Aria Networks

8.142 Arista Networks

8.143 Arkessa (Wireless Logic Group)

8.144 Arm

8.145 Armour Communications

8.146 Arqit Quantum

8.147 ArrayComm (Chengdu ArrayComm Wireless Technologies)

8.148 Arrcus

8.149 Artemis Networks

8.150 Artiza Networks

8.151 Aruba (HPE ? Hewlett Packard Enterprise)

8.152 Arukona

8.153 Asavie

8.154 ASELSAN

8.155 AsiaInfo Technologies

8.156 AsiaSat (Asia Satellite Telecommunications Company)

8.157 Askey Computer Corporation (ASUS ? ASUSTeK Computer)

8.158 ASOCS

8.159 Aspire Technology (NEC Corporation)

8.160 ASR Microelectronics

8.161 AST SpaceMobile

8.162 ASTELLA (Astella Technologies)

8.163 ASTRI (Hong Kong Applied Science and Technology Research Institute)

8.164 ASUS (ASUSTeK Computer)

8.165 Asylon

8.166 AT&T

8.167 Ataya

8.168 ATDI

8.169 ATEL (Asiatelco Technologies)

8.170 Atel Antennas

8.171 Atesio

8.172 Athonet (HPE ? Hewlett Packard Enterprise)

8.173 ATL ? A Test Lab (Eurofins E&E ? Electrical and Electronics)

8.174 Atlas Telecom

8.175 AtlasEdge (Liberty Global/DigitalBridge Group)

8.176 ATN International

8.177 Atos

8.178 Atrinet

8.179 Attabotics

8.180 AttoCore

8.181 Auden Techno

8.182 Auray Technology (Auden Techno)

8.183 Avanti Communications

8.184 Avari Wireless

8.185 AVI

8.186 Aviat Networks

8.187 Avidyne Corporation

8.188 AVIWEST (Haivision)

8.189 AVM

8.190 AW2S ? Advanced Wireless Solutions and Services (SERMA Group)

8.191 AWTG

8.192 AXESS Networks (HISPASAT)

8.193 Axians (VINCI Energies)

8.194 Axiata Group

8.195 Axione

8.196 Axis Communications

8.197 Axon

8.198 Axtel

8.199 Axxcelera Broadband Wireless (Axxcss Wireless Solutions)

8.200 Axxcss Wireless Solutions

8.201 Azcom Technology

8.202 Azetti Networks

8.203 B+B SmartWorx (Advantech)

8.204 BAE Systems

8.205 Baicells

8.206 Ball Aerospace

8.207 Ballast Networks

8.208 BandRich

8.209 BandwidthX

8.210 Barrett Communications (Motorola Solutions)

8.211 BATS Wireless (Broadband Antenna Tracking Systems)

8.212 BAYFU (Bayerische Funknetz)

8.213 Baylin Technologies

8.214 BBB (BB Backbone Corporation)

8.215 BBK Electronics

8.216 BCDVideo

8.217 Beam Semiconductor

8.218 Beamlink

8.219 BearCom

8.220 BEC Technologies (Billion Electric)

8.221 becon

8.222 Beeper Communications

8.223 Beijer Electronics Group

8.224 Belden

8.225 BelFone

8.226 Bell Canada

8.227 Bellantenna

8.228 Benetel

8.229 BesoVideo

8.230 Betacom

8.231 Bharti Airtel

8.232 BHE (Bonn Hungary Electronics)

8.233 BICS (Proximus)

8.234 BinnenBereik (NOVEC)

8.235 Bird Technologies

8.236 BISDN (Berlin Institute for Software Defined Networks)

8.237 Bittium

8.238 BK Technologies

8.239 Black & Veatch

8.240 Black Box

8.241 BlackBerry

8.242 Blackned

8.243 BLiNQ Networks (CCI ? Communication Components Inc.)

8.244 Blu Wireless

8.245 Blue Arcus Technologies

8.246 Blue Wireless

8.247 Bluebird

8.248 Blueforce Development Corporation

8.249 BLUnet Schweiz (Axpo WZ-Systems)

8.250 Boeing/Aurora Flight Sciences

8.251 Boelink (Shanghai Boelink Communication Technology)

8.252 Boingo Wireless (DigitalBridge Group)

8.253 Boldyn Networks (Formerly BAI Communications)

8.254 Bombardier

8.255 Booz Allen Hamilton

8.256 Boston Dynamics

8.257 Bouygues Telecom

8.258 Boxchip

8.259 Branch Communications

8.260 BravoCom

8.261 Bredengen

8.262 Broadcom

8.263 BroadForward

8.264 Broadmobi ? Shanghai Broadmobi Communication Technology (Wutong Group)

8.265 Broadpeak

8.266 Broadtech

8.267 BSNL (Bharat Sanchar Nigam Limited)

8.268 BT Group

8.269 BTI Wireless

8.270 BubbleRAN

8.271 Bullitt Mobile

8.272 Bumicom Telecommunicatie

8.273 Bureau Veritas/7Layers

8.274 BVSystems (Berkeley Varitronics Systems)

8.275 BWT (BlueWaveTel)

8.276 BYD

8.277 B-Yond

8.278 C Spire

8.279 C Squared Systems

8.280 C3Spectra

8.281 CableFree (Wireless Excellence)

8.282 CableLabs

8.283 CACI International/LGS Innovations

8.284 Cadence Design Systems

8.285 CalAmp

8.286 CalChip Connect

8.287 Caliber Public Safety

8.288 Calix

8.289 Calnex Solutions

8.290 Caltta Technologies

8.291 Cambium Networks

8.292 Cambridge Consultants (Capgemini Invent)

8.293 CampusGenius

8.294 Canoga Perkins

8.295 Canonical

8.296 Capgemini Engineering

8.297 CapX Nederland

8.298 Carbyne

8.299 Casa Systems (Axyom & NetComm Portfolio)

8.300 CASIC (China Aerospace Science and Industry Corporation)

8.301 Casio Computer Company

8.302 Castor Marine

8.303 Catalyst Communications Technologies

8.304 Cavli Wireless

8.305 CBNG (Cambridge Broadband Networks Group)

8.306 CCI (Communication Components Inc.)

8.307 CCN (Cirrus Core Networks)

8.308 CCww (Communications Consultants Worldwide)

8.309 Cegeka

8.310 CeLa Link Corporation

8.311 Celfinet (Cyient)

8.312 CellAntenna Corporation

8.313 Cellcomm Solutions

8.314 Cellient

8.315 Celling 5G

8.316 CellMax Technologies (Rosenberger)

8.317 Cellnex Telecom

8.318 Cellwize (Qualcomm)

8.319 cellXica

8.320 cellXion

8.321 Celona

8.322 CelPlan Technologies

8.323 Centerline Communications

8.324 CENTRA Technology

8.325 CentralSquare Technologies

8.326 Ceragon Networks

8.327 Cerillion

8.328 CertusNet

8.329 CETC (China Electronics Technology Group Corporation)

8.330 CETIN Group

8.331 CEVA

8.332 CGI

8.333 Challenge Networks (Vocus)

8.334 Charter Communications

8.335 Cheerzing (Xiamen Cheerzing IoT Technology)

8.336 Chelton

8.337 Chemring Technology Solutions

8.338 Chengdu NTS

8.339 China All Access

8.340 China Mobile

8.341 China Satcom (China Satellite Communications)

8.342 China Telecom

8.343 China Unicom

8.344 Chunghwa Telecom

8.345 Cibicom

8.346 CICT ? China Information and Communication Technology Group (China Xinke Group)

8.347 Ciena Corporation

8.348 CIG (Cambridge Industries Group)

8.349 CIO (Connected IO)

8.350 Cirpack

8.351 Cisco Systems

8.352 Citymesh (Cegeka/DIGI Communications)

8.353 CitySwitch

8.354 CKH IOD (CK Hutchison)

8.355 Clavister

8.356 Clever Logic

8.357 CloudMinds

8.358 CMIoT (China Mobile IoT)

8.359 Cobham

8.360 COCUS

8.361 Codan Communications

8.362 Codium Networks

8.363 Cogisys

8.364 Cognizant

8.365 Cohere Technologies

8.366 Coherent (Formerly II-VI)

8.367 Coherent Logix

8.368 Coiler Corporation

8.369 Collinear Networks (EOS ? Electro Optic Systems)

8.370 Collins Aerospace (RTX Corporation)

8.371 Colt Technology Services

8.372 Com4 (Wireless Logic Group)

8.373 Comander (ANDRA)

8.374 Comarch

8.375 Comba Telecom

8.376 Combain Mobile

8.377 Comcast Corporation

8.378 Comcores

8.379 Comfone

8.380 COMLAB

8.381 CommAgility (E-Space)

8.382 CommandWear Systems

8.383 Commnet Wireless (ATN International)

8.384 Comms365

8.385 CommScope

8.386 Compal Electronics

8.387 Comprod

8.388 Comptek Technologies (Aero Wireless Group)

8.389 Comrod Communication Group

8.390 COMSovereign

8.391 Comtech Telecommunications Corporation

8.392 Comtest Wireless

8.393 Comtrend Corporation

8.394 Comviva (Tech Mahindra)

8.395 CONET Technologies

8.396 CONEXIO Corporation

8.397 CONGIV (ROBUR Industry Service Group)

8.398 Connect Tech

8.399 Connect44 Group

8.400 Connectivity Wireless Solutions (M/C Partners)

8.401 Consort Digital

8.402 Contela

8.403 Coolpad

8.404 CopaSAT

8.405 coreNOC

8.406 Cornerstone (CTIL)

8.407 Cornet Technology

8.408 Corning

8.409 Cortina Access

8.410 Cosemi Technologies

8.411 COSMOTE (OTE Group)

8.412 Council Rock

8.413 Coweaver

8.414 Cox Communications

8.415 Cradlepoint (Ericsson)

8.416 Creanord

8.417 CrisisGo

8.418 CROSSCALL

8.419 Crown Castle International Corporation

8.420 CRSC (China Railway Signal & Communication Corporation)/CASCO Signal

8.421 CS Corporation

8.422 CSG Systems International

8.423 CTG (Celestia Technologies Group)

8.424 CTL

8.425 CTS (Communication Technology Services)

8.426 CTS Corporation

8.427 Cubic Corporation

8.428 Cubic Telecom

8.429 Cumucore

8.430 Custom MMIC

8.431 CybertelBridge

8.432 Cyient

8.433 Cyrus Technology

8.434 D2 Technologies

8.435 DAEL Group

8.436 Daeyoun System Company

8.437 Dahua Technology

8.438 Dali Wireless

8.439 DAMM Cellular Systems

8.440 DATACOM

8.441 DataSoft

8.442 DBcom

8.443 dbSpectra

8.444 DeepSig

8.445 Dejero Labs

8.446 DEKRA

8.447 Dell Technologies

8.448 Delta Electronics

8.449 DENGYO (Nihon Dengyo Kosaku)

8.450 Dense Air (SIP ? Sidewalk Infrastructure Partners)

8.451 Deutsche Funkturm

8.452 DGS (Digital Global Systems)

8.453 Dialogic

8.454 Diamond Communications

8.455 Digi International

8.456 Digicert

8.457 Digis Squared

8.458 Digita (DigitalBridge Group)

8.459 Digital Ally

8.460 Digital Enhancement

8.461 DigitalBridge Group

8.462 DigitalRoute

8.463 Digitata

8.464 DigitGate (Nanjing DigitGate Communication Technology)

8.465 Dimetor

8.466 DISH Network Corporation

8.467 DKK (Denki Kogyo)

8.468 D-Link Corporation

8.469 DMI

8.470 Doodle Labs

8.471 Doogee

8.472 Doosan Corporation

8.473 DragonWave-X (COMSovereign)

8.474 Drakontas

8.475 DriveNets

8.476 Drone Aviation (COMSovereign)

8.477 DroneSense

8.478 Druid Software

8.479 DSBJ (Suzhou Dongshan Precision Manufacturing)

8.480 DT (Deutsche Telekom)

8.481 DTAC (Total Access Communication)

8.482 du (EITC ? Emirates Integrated Telecommunications Company)

8.483 Duons

8.484 Durabook (Twinhead International Corporation)

8.485 Duubee

8.486 DZS

8.487 Eahison Communication

8.488 EANTC

8.489 Eastcom (Eastern Communications)

8.490 Easycom (Shenzhen Easycom Electronics)

8.491 E-Band Communications (Axxcss Wireless Solutions)

8.492 e-BO Enterprises

8.493 ECE (European Communications Engineering)

8.494 EchoStar Corporation

8.495 Ecom Instruments (Pepperl+Fuchs)

8.496 Ecrio

8.497 Edgecore Networks (Accton Technology Corporation)

8.498 EdgeQ

8.499 Edgybees

8.500 edotco Group (Axiata Group)

8.501 EDX Wireless

8.502 Effnet

8.503 Eigencomm

8.504 eino

8.505 EION Wireless

8.506 Eir (Eircom)

8.507 Ekinops

8.508 Elbit Systems

8.509 Elefante Group

8.510 Element Materials Technology

8.511 E-Lins Technology

8.512 Elisa

8.513 Elisa Polystar

8.514 Elistair

8.515 Elsight

8.516 Elta Systems (IAI ? Israel Aerospace Industries)

8.517 Eltex

8.518 ELUON Corporation

8.519 ELVA-1

8.520 Emblasoft

8.521 Embraer

8.522 Embratel

8.523 Emerson

8.524 EMnify

8.525 EMS (Electronic Media Services)

8.526 Encore Networks

8.527 Endress+Hauser

8.528 Enea

8.529 ENENSYS Technologies

8.530 Energizer Mobile (Avenir Telecom)

8.531 EnerSys

8.532 Entel (United Kingdom)

8.533 Entropia

8.534 Entropy Solution

8.535 Eoptolink Technology

8.536 Epiroc

8.537 Equiendo

8.538 Eravant (SAGE Millimeter)

8.539 Ericsson

8.540 Errigal

8.541 ErvoCom

8.542 Eseye

8.543 Esharah Etisalat Security Solutions

8.544 E-Space

8.545 Estalky (K-Mobile Technology)

8.546 ETELM

8.547 eTera (Sinotech R&D Group)

8.548 Ethernity Networks

8.549 Etherstack

8.550 Etisalat Group (e&)

8.551 ETRI (Electronics & Telecommunications Research Institute, South Korea)

8.552 Etteplan

8.553 EUCAST

8.554 Eurofins E&E (Electrical and Electronics)

8.555 Eurotech

8.556 Eutelsat Group

8.557 Eventide Communications

8.558 Evolve Cellular

8.559 Exacom

8.560 Exaware

8.561 Excelerate Technology

8.562 EXFO

8.563 Exium

8.564 Expandium

8.565 Expeto

8.566 Extenet (DigitalBridge Group)

8.567 Extreme Networks

8.568 EY (Ernst & Young)

8.569 Eyecom Telecommunications Group

8.570 EZcon Network

8.571 F2G (Far-Together) Solutions

8.572 F5

8.573 Fairspectrum

8.574 Fairwaves

8.575 Faraday Technology Corporation

8.576 Fastback Networks (COMSovereign)

8.577 FCNT (Fujitsu Connected Technologies)-JEMS (Japan EM Solutions)

8.578 Federal Engineering

8.579 Federated Wireless

8.580 Fenix Group (Nokia)

8.581 Festo

8.582 FET (Far EasTone Telecommunications)

8.583 FIBERSTAMP

8.584 Fibocom

8.585 Fibrolan

8.586 Filtronic

8.587 Fingu (Wuhan Fingu Electronic Technology)

8.588 Fiplex Communications (Honeywell International)

8.589 Firecell

8.590 Fivecomm

8.591 Flash Networks

8.592 Flash Private Mobile Networks

8.593 Flectory

8.594 Fleet Complete

8.595 Flex

8.596 Flex Logix Technologies

8.597 Flightcell International

8.598 FLIR Systems

8.599 floLIVE

8.600 Flymotion

8.601 FMBE (FMB Engineering)

8.602 Forsk

8.603 Fortinet

8.604 Fortress Solutions

8.605 Four-Faith Communication Technology

8.606 Foxconn (Hon Hai Technology Group)

8.607 Franklin Wireless

8.608 Fraunhofer FOKUS (Institute for Open Communication Systems)

8.609 Fraunhofer HHI (Heinrich Hertz Institute)

8.610 Fraunhofer IIS (Institute for Integrated Circuits)

8.611 Fraunhofer IPT (Institute for Production Technology)

8.612 FreedomFi

8.613 Freeeway

8.614 Frequentis

8.615 Freshwave Group (DigitalBridge Group)

8.616 Frog Cellsat

8.617 FRTek

8.618 FSG (Field Solutions Group)

8.619 FTS ? Formula Telecom Solutions (Magic Software Group)

8.620 Fujikura

8.621 Fujitsu

8.622 Funk-Electronic Piciorgros

8.623 Funkwerk

8.624 Furukawa Electric

8.625 Furuno Electric

8.626 Future Technologies Venture

8.627 G REIGNS (HTC Corporation)

8.628 G+D (Giesecke+Devrient)

8.629 G3 Global

8.630 Galtronics (Baylin Technologies)

8.631 Gamma Nu

8.632 Gapwaves

8.633 Garderos

8.634 Gazprom Space Systems

8.635 GCT Semiconductor

8.636 GD (General Devices)

8.637 GE (General Electric)

8.638 Gemtek Technology

8.639 General Dynamics

8.640 Genesis Group

8.641 GENEViSiO (QNAP Systems)

8.642 Genew Technologies

8.643 Genmix Technology

8.644 Geotab

8.645 GeoTraq

8.646 Getac Technology Corporation

8.647 Gewei (Wuhan Gewei Electronic Technology)

8.648 GF (GlobalFoundries)

8.649 GIGABYTE Technology

8.650 Gigalane

8.651 GIGALIGHT

8.652 Gigamon

8.653 GigaTera Communications (KMW)

8.654 GigSky

8.655 Gilat Satellite Networks

8.656 GL Communications

8.657 Global Telecom

8.658 Globalgig

8.659 Globalstar

8.660 Globe Telecom

8.661 Gogo Business Aviation

8.662 Goodman Telecom Services

8.663 Goodmill Systems

8.664 Google (Alphabet)

8.665 Goosetown Communications

8.666 Gore (W. L. Gore & Associates)

8.667 GosuncnWelink Technology (Gosuncn Group)

8.668 Granite Telecommunications

8.669 Grape One (Sumitomo Corporation)

8.670 Green Communications

8.671 Green Packet

8.672 Greenet (Netherlands)

8.673 GreenPalm (Hangzhou GreenPalm Technology)

8.674 GrenTech

8.675 GridGears

8.676 Groundhog Technologies

8.677 GroupTalk

8.678 GS Lab (Great Software Laboratory)

8.679 GSI (GS Instech)/GST (GS Teletech)

8.680 Guavus (Thales)

8.681 Guerrilla RF

8.682 GXC (Formerly GenXComm)

8.683 HAAS Alert

8.684 Haier

8.685 Haivision

8.686 Halys

8.687 Hancom MDS

8.688 Handheld Group

8.689 Handsfree Group

8.690 Hansen Technologies

8.691 Hanswell

8.692 Hanwha Techwin

8.693 HAPSMobile

8.694 Harbor Max

8.695 HARMAN DTS (Digital Transformation Solutions)

8.696 HARTING

8.697 Harvilon (Shenzhen Harvilon Technology)

8.698 Hawk Networks (Althea)

8.699 Haystax Technology (Fishtech Group/Cyderes)

8.700 HBFEC (Hebei Far East Communication System Engineering)

8.701 HCL Technologies

8.702 Helios (Fujian Helios Technologies)

8.703 Hengxin (Jiangsu Hengxin Technology)

8.704 Henkel

8.705 Herystorm (Guangzhou Herystorm Technology)

8.706 Hexagon

8.707 Hexagon Communication (Suzhou Hexagon Communication Technologies)

8.708 HFCL

8.709 HFR Networks

8.710 HG Genuine (HGTECH ? Huagong Technology)

8.711 Highstreet Technologies

8.712 Hikvision (Hangzhou Hikvision Digital Technology)

8.713 Hilinks Technology

8.714 HipLink Software

8.715 Hisense

8.716 HiSilicon Technologies (Huawei)

8.717 HISPASAT

8.718 Hitachi

8.719 HKT (PCCW)

8.720 HKTech (Howking Tech)

8.721 HLS (HARD-LINE Solutions)

8.722 HMD Global

8.723 HMF Smart Solutions

8.724 HMS Networks

8.725 Hoimyung ICT

8.726 Hologram

8.727 Honeywell International

8.728 Hongdian Corporation

8.729 HONOR

8.730 Horizon Powered

8.731 Hoverfly Technologies

8.732 HP

8.733 HPE (Hewlett Packard Enterprise)

8.734 HQT (Shenzhen HQT Science and Technology)

8.735 HSC (Hughes Systique Corporation)

8.736 HTC Corporation

8.737 Huahuan (Beijing Huahuan Electronics)

8.738 Huaptec

8.739 Huawei

8.740 HUBER+SUHNER

8.741 HUCOM Wireless

8.742 Hughes Network Systems (EchoStar Corporation)

8.743 HXI (Renaissance Electronics & Communications)

8.744 Hypha (Wireless Innovation)

8.745 Hytec Inter

8.746 Hytera Communications

8.747 i.safe MOBILE

8.748 i2i Systems

8.749 iBASIS (Tofane Global)

8.750 IBM

8.751 IBO Technology Company

8.752 iBwave Solutions

8.753 iCana (Foxconn ? Hon Hai Technology Group)

8.754 Ice Norway (Lyse)

8.755 Icom

8.756 Iconec

8.757 iConNext

8.758 iDAQS

8.759 IDEMIA

8.760 IDY Corporation

8.761 IFLY Electronics

8.762 ifm

8.763 IIJ (Internet Initiative Japan)

8.764 IM Technology

8.765 Imec

8.766 IMPTT

8.767 InCoax Networks

8.768 Indra

8.769 iNET (Infrastructure Networks)

8.770 INEX Microtechnology

8.771 Infineon Technologies

8.772 Infinera

8.773 InfiNet Wireless

8.774 InfiniG

8.775 Infinite Electronics

8.776 Infomark Corporation

8.777 Infosys

8.778 Infovista

8.779 InHand Networks

8.780 Inmanta

8.781 Inmarsat (Viasat)

8.782 Innertron

8.783 InnoGence Technology (TROY Information)

8.784 InnoLight Technology

8.785 Innonet

8.786 Innovile

8.787 InnoWireless

8.788 Inrico Technologies

8.789 Inseego Corporation

8.790 Inspur

8.791 Insta Group

8.792 Instant Connect

8.793 INSYS icom (INSYS Microelectronics)

8.794 Intec E&C

8.795 Intel Corporation

8.796 Intelbras

8.797 Intelliport Solutions

8.798 Intelsat

8.799 Intenna Systems

8.800 InterDigital

8.801 INTERLEV

8.802 Interop Technologies

8.803 InterTalk Critical Information Systems

8.804 Intracom Telecom

8.805 Intrado Corporation

8.806 Intrepid Networks

8.807 Inventec Corporation

8.808 INWIT (Infrastrutture Wireless Italiane)

8.809 IoT4Net

8.810 IoTAS (IoT & Approval Solutions)

8.811 IP Infusion (ACCESS CO.)

8.812 IPAGEON

8.813 IPITEK (Integrated Photonics Technology)

8.814 IPLOOK Technologies

8.815 iPosi

8.816 Iradio Electronics

8.817 Iridium Communications

8.818 Irteya (Russia)

8.819 ISCO International

8.820 IS-Wireless

8.821 Italtel

8.822 ITCEN

8.823 ITRI (Industrial Technology Research Institute, Taiwan)

8.824 Itron

8.825 IWT (Innovative Wireless Technologies)

8.826 Jabil

8.827 JACS Solutions

8.828 JATONTEC (Jaton Technology)

8.829 JCI (Japan Communications Inc.)

8.830 JET Connectivity

8.831 Jezetek (Sichuan Jiuzhou Electric Group)

8.832 Jiaxun Feihong (Beijing Jiaxun Feihong Electrical)

8.833 Jinan USR IoT Technology (Mokuai/Wenheng)

8.834 JIT (JI Technology)

8.835 JMA Wireless

8.836 Johnson Controls

8.837 JOUAV

8.838 JPC Connectivity

8.839 JPS Interoperability Solutions

8.840 JQL Technologies

8.841 JRC (Japan Radio Company)

8.842 JSC Ingenium

8.843 JT IoT

8.844 Juniper Networks (HPE ? Hewlett Packard Enterprise)

8.845 Junkosha

8.846 Juvare

8.847 JVCKENWOOD Corporation

8.848 Kacific Broadband Satellites

8.849 Kaelus

8.850 Kaifa (Shenzen Kaifa Technology)

8.851 Kajeet

8.852 Kalmar (Cargotec)

8.853 Kaloom

8.854 Kalray

8.855 Katela Networks

8.856 KATIM

8.857 KBR

8.858 KBT (Kenbotong Technology)

8.859 KDDI Corporation

8.860 Key Bridge Wireless

8.861 Keysight Technologies

8.862 Khomp

8.863 Kiana Analytics

8.864 Kigen

8.865 Kindroid ? Shanghai Jinzhuo Technology (Kyland Technology)

8.866 Kirisun Communications

8.867 Kisan Telecom

8.868 KLA Laboratories

8.869 Klas Telecom

8.870 Klein Electronics

8.871 Kleos

8.872 KMW

8.873 Knightscope

8.874 Kolibri Systems

8.875 Komatsu

8.876 Konecranes

8.877 Kontron

8.878 KORE Wireless

8.879 KPN

8.880 KT Corporation

8.881 Kudelski Group

8.882 KUKA

8.883 Kumu Networks

8.884 K-Won/Hunter Technology

8.885 Kyland Technology

8.886 Kymeta Corporation

8.887 Kyndryl

8.888 Kyocera Corporation

8.889 Kyrio (CableLabs)

8.890 KZ TECH (KZ Broadband Technologies)

8.891 L3Harris Technologies

8.892 Laird Connectivity

8.893 Landis+Gyr

8.894 Landmark Dividend (DigitalBridge Group)

8.895 Lanner Electronics

8.896 Lantronix

8.897 Lattice Semiconductor

8.898 LCR Embedded Systems

8.899 Leenos Corporation

8.900 Leidos

8.901 Lekha Wireless Solutions

8.902 Lemko Corporation

8.903 Lenovo

8.904 Leonardo

8.905 Lextrum (COMSovereign)

8.906 LG Corporation

8.907 LG Uplus

8.908 Liberty Global

8.909 Lierda Science & Technology Group

8.910 Lifecycle Software

8.911 Ligado Networks

8.912 Lightron

8.913 Lime Microsystems

8.914 Lindsay Broadband

8.915 Linkem

8.916 Linksys

8.917 Linx Technologies

8.918 LIONS Technology

8.919 LIS (Laboratory of Infocommunication Networks)

8.920 Lisheng Fujian Communications

8.921 LITE-ON Technology Corporation

8.922 LitePoint (Teradyne)

8.923 LiveU

8.924 Lociva

8.925 Lockheed Martin Corporation

8.926 Logicalis (Datatec)

8.927 LogicTree IT Solutions

8.928 Longsung Technology (Sunsea AIoT Technology)

8.929 Lookout

8.930 LS Mtron

8.931 LS telcom

8.932 LTTS (L&T Technology Services)

8.933 Luceor

8.934 Lumen Technologies

8.935 Lumentum

8.936 Lumineye

8.937 LuxCarta

8.938 Luxoft (DXC Technology)

8.939 Lyfo

8.940 Lynk Global

8.941 M1

8.942 m3connect

8.943 M4PS (Mobility 4 Public Safety)

8.944 MACOM

8.945 Magnaquest Technologies

8.946 Maipu Communication Technology

8.947 Maja Systems

8.948 MantisNet

8.949 MarchNet

8.950 Marlink

8.951 Marquistech

8.952 Martin UAV

8.953 Marubeni Corporation

8.954 Marubun Corporation

8.955 Marvell Technology

8.956 MASMOVIL

8.957 Mathworks

8.958 Matrix Electronica/Webdyn (Flexitron Group)

8.959 MATRIXX Software

8.960 MatSing

8.961 Maven Wireless

8.962 Mavenir

8.963 Maxar Technologies

8.964 MaxComm

8.965 Maxis

8.966 MaxLinear

8.967 MC Technologies

8.968 MCLabs

8.969 MCP (Mission Critical Partners)

8.970 MCS Benelux

8.971 MD (MICRODRIVE)

8.972 Mdex (Wireless Logic Group)

8.973 MEASAT Satellite Systems

8.974 MECSware

8.975 Media Broadcast (freenet Group)

8.976 MediaTek

8.977 Meeami Technologies

8.978 MegaChips Corporation

8.979 MegaFon

8.980 Meglab (Epiroc)

8.981 MeiG Smart Technology

8.982 Meizu

8.983 Mentura Group

8.984 MER Group

8.985 Meta

8.986 Metanoia Communications

8.987 Metaswitch Networks (Microsoft Corporation)

8.988 Metawave Corporation

8.989 Metismake

8.990 MetTel

8.991 MHD (Muhan Digital)

8.992 MIC Nordic

8.993 MICAS-RF (MICAS Shenzhen Telecommunication)

8.994 MiCOM Labs

8.995 Micran

8.996 Microamp Solutions

8.997 Microchip Technology

8.998 Microlab (RF Industries)

8.999 MicroNova

8.1000 Microsoft Corporation

8.1001 Microwave Networks

8.1002 MikroTik

8.1003 Mikwave (Guangdong Mikwave Communication Tech)

8.1004 Milesight

8.1005 Milestone Systems

8.1006 Miliwave

8.1007 MiMOMax (Ubiik)

8.1008 MIPS

8.1009 MiTAC Computing Technology Corporation

8.1010 MitraStar Technology (Unizyx Holding Corporation)

8.1011 MITRE Corporation

8.1012 Mitsubishi Electric Corporation

8.1013 MKI (Mitsui Knowledge Industry)

8.1014 MOBI (Mobi Antenna Technologies)

8.1015 Mobil Group (Russia)

8.1016 Mobile Inform Group

8.1017 Mobile Mark

8.1018 Mobile Tornado

8.1019 Mobile Viewpoint

8.1020 MobileComm Professionals (UST)

8.1021 MobileDemand

8.1022 MobileIron

8.1023 MobileTek (Shanghai Mobiletek Communication)

8.1024 Mobileum

8.1025 Mobilicom

8.1026 Mobiveil

8.1027 Modular Mining Systems (Komatsu)

8.1028 Molex

8.1029 Monogoto

8.1030 Morningcore Technology (CICT ? China Information and Communication Technology Group)

8.1031 Morningstar Corporation

8.1032 Moseley Associates (Axxcss Wireless Solutions)

8.1033 MosoLabs (Sercomm Corporation)

8.1034 Motive Infrastructure Solutions

8.1035 Motorola Mobility (Lenovo)

8.1036 Motorola Solutions

8.1037 Mott MacDonald

8.1038 Movandi

8.1039 Moxa

8.1040 MP Antenna

8.1041 MRK Media

8.1042 MRT Technology (Suzhou)

8.1043 MSB (M S Benbow & Associates)

8.1044 MST Global ? Mine Site Technologies (Komatsu)

8.1045 MTI (Microelectronics Technology Inc.)

8.1046 MTI Wireless Edge

8.1047 MTN Group

8.1048 MTS (Mobile TeleSystems)

8.1049 MUGLER

8.1050 MultiTech (Multi-Tech Systems)

8.1051 Murata Manufacturing

8.1052 Mushroom Networks

8.1053 Mutualink

8.1054 MVI Group

8.1055 MW (Matrix Wave)

8.1056 MYCOM OSI

8.1057 Mynaric

8.1058 MYT Electronics

8.1059 N.A.T.

8.1060 Nable Communications

8.1061 NanoSemi (MaxLinear)

8.1062 Napatech

8.1063 Nash Technologies

8.1064 Nearby Computing

8.1065 NEC Corporation

8.1066 Nemergent Solutions

8.1067 Nemko

8.1068 Neolink Communications Technology

8.1069 NeoPlane

8.1070 Neoway Technology

8.1071 Neptune Communications

8.1072 Neragon Networks

8.1073 Net AI

8.1074 Neta?

8.1075 NETBEE (NET-Automation)

8.1076 NetCity (GEOS Telecom/GEOS Holding)

8.1077 Netcracker Technology (NEC Corporation)

8.1078 NetFoundry

8.1079 Netgear

8.1080 NetModule (Belden)

8.1081 Netmore Group

8.1082 NETSCOUT Systems

8.1083 Netsia (Argela)

8.1084 Netvision Telecom

8.1085 Neutral Wireless

8.1086 Neutroon Technologies

8.1087 New H3C Technologies (Tsinghua Unigroup)

8.1088 New Postcom Equipment

8.1089 NewEdge Signal Solutions

8.1090 NEXCOM International

8.1091 Nexign

8.1092 Nexpring

8.1093 NextEPC Korea (COONTEC)

8.1094 Nextivity

8.1095 NextNav

8.1096 NextWave

8.1097 Nextworks

8.1098 ng4T

8.1099 NGK Group (NGK Insulators)

8.1100 ng-voice

8.1101 NI (National Instruments)

8.1102 NICE

8.1103 NimbeLink

8.1104 Niral Networks

8.1105 Nitto Denko Corporation

8.1106 NKG (New Kinpo Group)

8.1107 Node-H

8.1108 Nokia

8.1109 Nomad Digital (Alstom)

8.1110 Nordic Semiconductor

8.1111 Northrop Grumman Corporation

8.1112 NOTION Information Technology

8.1113 Nova Labs (Helium)

8.1114 NOVEC

8.1115 NOVELSAT

8.1116 NRB (Network Research Belgium)

8.1117 NS Solutions Corporation

8.1118 Nsight

8.1119 NT (National Telecom)

8.1120 NTC Corporation (Japan)

8.1121 NTMore (Network Technology More)

8.1122 NTT DoCoMo

8.1123 NTT Group

8.1124 Nubia Technology (ZTE)

8.1125 NuRAN Wireless

8.1126 Nurlink Technology

8.1127 NVIDIA Corporation

8.1128 NXP Semiconductors

8.1129 Oasis Smart SIM

8.1130 Obvios

8.1131 Ocado Technology

8.1132 Oceus Networks

8.1133 Octasic

8.1134 O-Cubes

8.1135 ODN (Orbital Data Network)

8.1136 OE Solutions

8.1137 OFS Fitel (Furukawa Electric)

8.1138 OKI Electric Industry

8.1139 Omnispace

8.1140 Omnitele

8.1141 Omnitron Systems

8.1142 Omnitronics

8.1143 One2many (Everbridge)

8.1144 OneLayer

8.1145 OnePlus (BBK Electronics)

8.1146 OneSimCard

8.1147 OneWeb (Eutelsat Group)

8.1148 Onomondo

8.1149 Ontix

8.1150 Onwave

8.1151 Ooredoo

8.1152 Opanga Networks

8.1153 Open Valley

8.1154 Opencode Systems

8.1155 Openet (Amdocs)

8.1156 OPPO (BBK Electronics)

8.1157 O'Prueba Technology

8.1158 OPTAGE

8.1159 OptConnect

8.1160 Optical Zonu Corporation

8.1161 Opticoms

8.1162 Option

8.1163 Optiva

8.1164 OQ Technology

8.1165 Oracle Communications

8.1166 Orange

8.1167 ORBCOMM

8.1168 Ori Industries

8.1169 Orion Labs

8.1170 Oscilloquartz (Adtran)

8.1171 OV (Manx Telecom)

8.1172 OVHcloud

8.1173 P.I. Works

8.1174 PacStar (Pacific Star Communications)

8.1175 Padtec

8.1176 Palo Alto Networks

8.1177 Panasonic Connect

8.1178 Panda Electronics

8.1179 PanOptis

8.1180 Panorama Antennas

8.1181 Parallel Wireless

8.1182 Parsec Technologies

8.1183 Particle

8.1184 PAStech

8.1185 Patrocinium Systems

8.1186 Patton

8.1187 Pavlov Media

8.1188 PBE Axell (Formerly Axell Wireless)

8.1189 PCS Technologies

8.1190 PCTEL (Amphenol Corporation)

8.1191 PCTEST Lab (PCTEST Engineering Laboratory)

8.1192 Peatalk Corporation

8.1193 Pegatron Corporation

8.1194 Pei Tel Communications

8.1195 Pelion

8.1196 Penguin Solutions (SGH ? SMART Global Holdings)

8.1197 Pente Networks

8.1198 Pentonet

8.1199 Peplink (Plover Bay Technologies)

8.1200 Pepperl+Fuchs

8.1201 Pepro

8.1202 Peraso

8.1203 Peraton Labs

8.1204 Percepto

8.1205 Perle Systems

8.1206 PGE Systemy (PGE ? Polish Energy Group)

8.1207 Pharrowtech

8.1208 Phirst Technologies/xCraft Enterprises

8.1209 Phluido

8.1210 Phoenix Contact

8.1211 Phytium Technology (Tianjin Phytium Information Technology)

8.1212 PHYTunes

8.1213 Picocom

8.1214 Pierson Wireless

8.1215 Pivot Technology Services

8.1216 Pivotal Commware

8.1217 Pivotel Group

8.1218 Pivotone

8.1219 Pixavi (BARTEC)

8.1220 Platform9

8.1221 Pletronics

8.1222 Plextek

8.1223 Plintron

8.1224 Plus (Polkomtel)

8.1225 POCSTARS

8.1226 Pod Group (G+D ? Giesecke+Devrient)

8.1227 Polaris Networks (Motorola Solutions)

8.1228 Polaris Wireless

8.1229 Pollen Mobile

8.1230 Positron Access Solutions

8.1231 Potevio (CETC ? China Electronics Technology Group Corporation)

8.1232 PPC (Power Plus Communications)

8.1233 PPC Broadband (Belden)

8.1234 Precision OT (Optical Transceivers)

8.1235 PRESCOM

8.1236 PrioCom

8.1237 Proef

8.1238 Proptivity

8.1239 Proscend Communications

8.1240 PROSE Technologies

8.1241 PROTEI

8.1242 Proxim Wireless Corporation (SRA Holdings)

8.1243 Proximus

8.1244 Pryme Radio Products

8.1245 pSemi Corporation (Murata Manufacturing)

8.1246 PT INTI (PT Industri Telekomunikasi Indonesia)

8.1247 PT LEN Industri

8.1248 PTC

8.1249 Publicis Sapient

8.1250 Puloli

8.1251 Pulsara

8.1252 Pulse Electronics (YAGEO Corporation)

8.1253 PureSoftware

8.1254 Pycom

8.1255 PySENSE

8.1256 QCT (Quanta Cloud Technology)

8.1257 QinetiQ

8.1258 Qorvo

8.1259 QuadGen Wireless Solutions

8.1260 Qualcomm

8.1261 Quanta Computer

8.1262 Quantum Wireless

8.1263 Qucell Networks (InnoWireless)

8.1264 Quectel Wireless Solutions

8.1265 Quintel (Cirtek Holdings Philippines Corporation)

8.1266 Qulsar (VIAVI Solutions)

8.1267 Qwake Technologies

8.1268 Qwilt

8.1269 R Systems (Computaris International)

8.1270 R3 Solutions

8.1271 RACOM (Czech Republic)

8.1272 RACOM Corporation

8.1273 RAD

8.1274 RADCOM

8.1275 Radiall

8.1276 Radio Gigabit

8.1277 Radio IP Software

8.1278 RadioMobile

8.1279 Radisys (Reliance Industries)

8.1280 RADTONICS

8.1281 Radware

8.1282 RADWIN

8.1283 Rafael Advanced Defense Systems

8.1284 Raisecom

8.1285 Rajant Corporation

8.1286 Rakon

8.1287 Rakuten Symphony

8.1288 RAKwireless

8.1289 Range Networks (AMN ? Africa Mobile Networks)

8.1290 Ranger Systems

8.1291 Ranplan Wireless

8.1292 Rapid.Space (Nexedi)

8.1293 RapidDeploy

8.1294 RapidSOS

8.1295 Rapidtek Technologies

8.1296 Rave Mobile Safety

8.1297 Raycap

8.1298 RCS Telecommunications

8.1299 RCT (Remote Control Technologies)

8.1300 Ready Wireless

8.1301 Realme (BBK Electronics)

8.1302 Red Hat (IBM)

8.1303 Red Lion Controls (Spectris)

8.1304 RED Technologies

8.1305 RedZinc

8.1306 Reliance Jio Infocomm (Jio Platforms)

8.1307 REMEC Broadband Wireless Networks (Bridgewave Communications/SAGE SatCom)

8.1308 Renesas Electronics Corporation

8.1309 REPLY

8.1310 Rescue 42

8.1311 Responder Corp

8.1312 RF Connect

8.1313 RF DSP

8.1314 RF Industries

8.1315 RF MORECOM

8.1316 RF Window

8.1317 RF-Comm

8.1318 RFHIC Corporation

8.1319 RFI Technology Solutions (Tait Communications)

8.1320 RFS (Radio Frequency Systems)

8.1321 RFTech

8.1322 Ribbon Communications

8.1323 Ricon Mobile

8.1324 RigNet (Viasat Energy Services)

8.1325 RIMEDO Labs

8.1326 Rivada Networks

8.1327 Rivada Space Networks

8.1328 RKTPL (RK Telesystem Private Limited)

8.1329 Robert Bosch

8.1330 Robin.io (Rakuten Symphony)

8.1331 Robustel

8.1332 Rogers Communications

8.1333 Rogers Corporation

8.1334 Rohde & Schwarz

8.1335 Rohill

8.1336 Rolling Wireless (Fibocom)

8.1337 Rolloos (FMJ Group)

8.1338 Rosenberger

8.1339 Royole Corporation

8.1340 RSCC (Russian Satellite Communications Company)

8.1341 RSConnect

8.1342 RTX A/S

8.1343 RTX Corporation (Formerly Raytheon Technologies)

8.1344 RTx Technology

8.1345 RugGear

8.1346 RuggON Corporation

8.1347 Ruijie Networks

8.1348 RunEL

8.1349 Rushmere Technology

8.1350 S&T Iskratel (Kontron)

8.1351 Saab

8.1352 Saankhya Labs (Tejas Networks)

8.1353 SABIC

8.1354 SAC Wireless (Nokia)

8.1355 SAE IT-Systems (LACROIX Group)

8.1356 SAF Tehnika

8.1357 Safe-Com Wireless

8.1358 SafeMobile

8.1359 Safran

8.1360 Sagemcom

8.1361 SageRAN (Guangzhou SageRAN Technology)

8.1362 Saguna Networks (COMSovereign)

8.1363 SAI Technology

8.1364 SAIC (Science Applications International Corporation)

8.1365 Samji Electronics

8.1366 Samsung

8.1367 SAMWON FA

8.1368 Samyoung Celetra

8.1369 Sandvik

8.1370 Sandvine

8.1371 Sanechips Technology (ZTE)

8.1372 Sanjole

8.1373 San-tron

8.1374 Sanxing (Ningbo Sanxing Smart Electric)

8.1375 Sasken Technologies

8.1376 SaskTel

8.1377 Sateliot

8.1378 SatixFy

8.1379 Saviah Technologies

8.1380 Savox Communications

8.1381 SBA Communications

8.1382 Sceye

8.1383 Schneider Electric

8.1384 SEA ? Systems Engineering & Assessment (Cohort)

8.1385 Seamless Waves

8.1386 Sectra Communications

8.1387 Secured Communications

8.1388 SecureG

8.1389 Select Spectrum

8.1390 SEMPRE (Secure EMP-Resilient Edge)

8.1391 Semtech Corporation

8.1392 Senko Advanced Components

8.1393 Sensorview

8.1394 Senstar Corporation

8.1395 Sensus (Xylem)

8.1396 Sentient Energy (Koch Engineered Solutions)

8.1397 Sentinel Camera Systems

8.1398 Seong Ji Industrial

8.1399 SEONTECH

8.1400 Seowon Intech

8.1401 Sepura

8.1402 Sequans Communications

8.1403 Sercomm Corporation

8.1404 SES

8.1405 SETUP Protokolltester

8.1406 SGS

8.1407 Shannon Wireless (Zhejiang Shannon Communication Technology)

8.1408 Shared Access

8.1409 Sharp Corporation (Foxconn ? Hon Hai Technology Group)

8.1410 Shenglu (Guangdong Shenglu Telecommunication)

8.1411 Shenzhen CXD Science & Technology

8.1412 Shenzhen Recoda Technologies

8.1413 SIAE Microelettronica

8.1414 SICK

8.1415 Siemens

8.1416 Sierra Wireless (Semtech Corporation)

8.1417 Sigma Wireless

8.1418 Signal Information & Communication Corporation

8.1419 Signalchip

8.1420 Signalwing

8.1421 Silicom Connectivity Solutions

8.1422 Silicom SAS (France)

8.1423 SIMCom Wireless Solutions (Sunsea AIoT Technology)

8.1424 Simnovus

8.1425 Simoco Wireless Solutions

8.1426 Sinclair Technologies (Norsat International/Hytera Communications)

8.1427 Singtel

8.1428 Sinnwell (audius)

8.1429 SIRADEL

8.1430 SITA

8.1431 siticom (Logicalis)

8.1432 SiTime Corporation

8.1433 SITRONICS (Sistema)

8.1434 Sivers Semiconductors

8.1435 Siyata Mobile

8.1436 SK Telecom

8.1437 SK Telesys

8.1438 Skoltech (Skolkovo Institute of Science and Technology)

8.1439 SKY Perfect JSAT

8.1440 SkyFive

8.1441 Skylark Wireless

8.1442 Skylo Technologies

8.1443 Skytic Telecom

8.1444 Skyvera (TelcoDR)

8.1445 Skyworks Solutions

8.1446 SLA Corporation

8.1447 SM Optics (SIAE Microelettronica)

8.1448 Smart Communications (PLDT)

8.1449 Smart Mobile Labs

8.1450 Smartfren

8.1451 SmarTone

8.1452 SmartSky Networks

8.1453 SMAWave (Shanghai SMAWave Technology)

8.1454 Socionext

8.1455 SoftBank Group

8.1456 Softil

8.1457 Soitec

8.1458 Solectek Corporation/Cielo Networks

8.1459 SOLiD

8.1460 Solidtronic

8.1461 Soliton Systems

8.1462 Sonim Technologies

8.1463 Sony Group Corporation

8.1464 Sooktha

8.1465 Soracom

8.1466 Source Photonics

8.1467 Southern Linc

8.1468 Space Data Corporation

8.1469 SpaceBridge

8.1470 Spacecom

8.1471 SpaceX

8.1472 Spark New Zealand

8.1473 Spectra Group

8.1474 SpectraRep

8.1475 Spectre (Rostec)

8.1476 Spectronite

8.1477 Spectronn

8.1478 Spectrum Effect

8.1479 Speedcast

8.1480 Spideradio (Suzhou Spideradio Telecommunication Technology)

8.1481 SPIE Group

8.1482 Spirent Communications

8.1483 SPIRIT DSP

8.1484 SPL (Stratospheric Platforms Limited)

8.1485 Sporton International

8.1486 SQUAN

8.1487 Squire Technologies

8.1488 SRS (Software Radio Systems)

8.1489 SRTechnology

8.1490 SSC (Shared Spectrum Company)

8.1491 SSS Public Safety

8.1492 ST (STMicroelectronics)

8.1493 ST Engineering iDirect

8.1494 Star Microwave

8.1495 Star Solutions

8.1496 StarHub

8.1497 StarPoint (Beijing StarPoint Technology)

8.1498 STC (Saudi Telecom Company)

8.1499 Steep

8.1500 STEP CG

8.1501 STL (Sterlite Technologies Ltd.)

8.1502 Stop Noise

8.1503 sTraffic

8.1504 Strata Worldwide

8.1505 Streambox

8.1506 Streamwide

8.1507 Subex

8.1508 Sumitomo Electric Industries

8.1509 Summa Networks

8.1510 Summit Tech

8.1511 Sunsea AIoT Technology

8.1512 Sunwave Communications

8.1513 Supermicro (Super Micro Computer)

8.1514 SureSite Consulting Group

8.1515 SUSE

8.1516 Swisscom

8.1517 Swissphone

8.1518 Sylincom (Beijing Sylincom Technology)

8.1519 Synctechno

8.1520 Syniverse

8.1521 SYRTEM

8.1522 Systech Corporation

8.1523 System Innovation Group

8.1524 Systemics-PAB

8.1525 T&W (Shenzhen Gongjin Electronics)

8.1526 T2M

8.1527 TacSat Networks

8.1528 Tait Communications

8.1529 Taiwan Mobile

8.1530 TAIYO YUDEN

8.1531 Talia Communications (Commercis)

8.1532 Talk-IP International

8.1533 Talkpod Technology

8.1534 Tambora Systems

8.1535 Tampa Microwave (Thales)

8.1536 Tampnet

8.1537 Tango Networks

8.1538 Tango Tango

8.1539 Taoglas

8.1540 Tarana Wireless

8.1541 TASSTA

8.1542 Tata Elxsi

8.1543 Tatfook (Shenzhen Tatfook Technology)

8.1544 TCL Communication

8.1545 TCOM

8.1546 TCS (Tata Consultancy Services)

8.1547 TD Tech

8.1548 TDC NET

8.1549 TDCOMM

8.1550 TE Connectivity

8.1551 Teal Communications

8.1552 Tech Mahindra

8.1553 Techbros

8.1554 Tecom

8.1555 Tecore Networks

8.1556 Tejas Networks

8.1557 TEKTELIC Communications

8.1558 Telco Systems (BATM Advanced Communications)

8.1559 Telcoware

8.1560 Teldat

8.1561 Tele2

8.1562 Tele2 Russia (Rostelecom)

8.1563 Telecom26

8.1564 Teleena (Tata Communications MOVE)

8.1565 Telefield

8.1566 Telefonica Group

8.1567 Telekom Slovenije

8.1568 Telenor Group

8.1569 Telent

8.1570 Telesat

8.1571 Telespazio (Leonardo/Thales)

8.1572 Teleste

8.1573 teleSys Software

8.1574 Telet Research

8.1575 Televate

8.1576 Telewave

8.1577 TeleWorld Solutions (Samsung)

8.1578 Telia Company

8.1579 Telit Cinterion

8.1580 Telkomsel

8.1581 Tellabs

8.1582 Tellion

8.1583 Telna

8.1584 TELNET Redes Inteligentes

8.1585 TELOX (Telo Systems)

8.1586 Telrad Networks

8.1587 Telsasoft

8.1588 Telstra

8.1589 Teltonika

8.1590 Teltronic (Hytera Communications)

8.1591 Telus

8.1592 TEOCO

8.1593 Teracom

8.1594 Teradek

8.1595 TeraGo

8.1596 Tera-Pass

8.1597 Tessares

8.1598 TESSCO Technologies/Ventev

8.1599 Thaicom

8.1600 Thales

8.1601 ThinkRF

8.1602 Three Group Solutions (CK Hutchison)

8.1603 Thundercomm

8.1604 TI (Texas Instruments)

8.1605 Tianyi (Sichuan Tianyi Comheart Telecom)

8.1606 Tibco Telecoms

8.1607 TietoEVRY

8.1608 Tillman Global Holdings

8.1609 Tilson

8.1610 TIL-TEK Antennae

8.1611 TIM (Telecom Italia Mobile)

8.1612 Titan ICT

8.1613 Titan.ium Platform

8.1614 TJ Innovation

8.1615 TLC Solutions

8.1616 TM (Telekom Malaysia)

8.1617 T-Mobile US

8.1618 TMYTEK (TMY Technology)

8.1619 TNS (Transaction Network Services)

8.1620 TO21COMMS

8.1621 Tofane Global

8.1622 TOKIE (Irvees Technology)

8.1623 TOMIA

8.1624 Tongyu Communication

8.1625 Toshiba Corporation

8.1626 Totogi

8.1627 TowerJazz

8.1628 TPG Telecom

8.1629 TPL Systemes

8.1630 TP-Link Technologies

8.1631 Transatel (NTT Group)

8.1632 TransPacket

8.1633 Trialink (Russia)

8.1634 TriaSys Technologies Corporation

8.1635 TRIOPT

8.1636 Triorail

8.1637 Tropico (CPQD ? Center for Research and Development in Telecommunications, Brazil)

8.1638 TrueMove H (True Corporation)

8.1639 TRUMPF

8.1640 Truphone

8.1641 TRX Systems

8.1642 TSMC (Taiwan Semiconductor Manufacturing Company)

8.1643 Tsofun

8.1644 TST Systems (Thorcom Systems/Sonic Communications/Tioga Electronic Assembly)

8.1645 T-Systems International

8.1646 TTG International

8.1647 TTM Technologies

8.1648 Tupl

8.1649 Turk Telekom

8.1650 Turkcell

8.1651 TUSUR (Tomsk State University of Control Systems and Radioelectronics)

8.1652 TUV SUD

8.1653 Two Six Labs

8.1654 Tyler Technologies

8.1655 U.S. Cellular

8.1656 UANGEL

8.1657 UBCS

8.1658 Ubicquia

8.1659 Ubiik

8.1660 UBiqube

8.1661 Ubiquoss

8.1662 Ubiwhere

8.1663 U-Blox

8.1664 Ucloudy (Shanghai Ucloudy Information Technology)

8.1665 UCtel

8.1666 UfiSpace

8.1667 UL

8.1668 ULAK Communication

8.1669 Ultraband Technologies

8.1670 UMC (United Microelectronics Corporation)

8.1671 UMS (United Monolithic Semiconductors)

8.1672 UNIMO Technology

8.1673 UNISOC (Tsinghua Unigroup)

8.1674 UniStrong

8.1675 UNITAC Technology

8.1676 UniTTEC

8.1677 UROS

8.1678 URSYS

8.1679 US Digital Designs

8.1680 USI (Universal Scientific Industrial)

8.1681 Utility (Utility Associates)

8.1682 Utility Connect (Alliander/Stedin)

8.1683 UTStarcom

8.1684 V&M (Venus & Mercury) Telecom

8.1685 V5 Systems

8.1686 Valid (Brazil)

8.1687 Valid8

8.1688 Vantage Towers

8.1689 Vantiva (Formerly Technicolor)

8.1690 Vanu

8.1691 Vapor IO

8.1692 Vavitel (Shenzhen Vavitel Technology)

8.1693 VDI (Virginia Diodes, Inc.)

8.1694 Vector Data

8.1695 Veea

8.1696 VEON

8.1697 Verana Networks

8.1698 Verizon Communications

8.1699 Verkotan

8.1700 Versa Networks

8.1701 Vertel

8.1702 Vertical Bridge (DigitalBridge Group)

8.1703 Vertiv

8.1704 Verveba Telecom

8.1705 VHT (Viettel High Tech)

8.1706 Viasat

8.1707 VIAVI Solutions

8.1708 VIDA Technologies

8.1709 Vigilate

8.1710 VinSmart (Vingroup)

8.1711 Viper RF

8.1712 Viprinet

8.1713 ViPRO Corporation

8.1714 Virtual Access (Westermo Network Technologies)

8.1715 Virtusa Corporation

8.1716 Vislink Technologies

8.1717 Visual Labs

8.1718 Vital (New Zealand)

8.1719 VITES

8.1720 Vivo (BBK Electronics)

8.1721 VMware (Broadcom)

8.1722 VNL ? Vihaan Networks Limited (Shyam Group)

8.1723 Vodacom Group

8.1724 Vodafone Group

8.1725 VoerEir

8.1726 VoiceAge Corporation

8.1727 Voipfuture

8.1728 Volvo CE (Construction Equipment)

8.1729 Voxer

8.1730 VTT Technical Research Centre of Finland

8.1731 Vubiq Networks

8.1732 VVDN Technologies

8.1733 WAGO

8.1734 WAV4M

8.1735 WAVE (AGC)

8.1736 Wave1

8.1737 Wave-In Communication

8.1738 Wavelabs

8.1739 Wavesight

8.1740 Wavetel Technology

8.1741 Waycare

8.1742 WCCTV (Wireless CCTV)

8.1743 WDNA (Wireless DNA)

8.1744 Weaccess Group

8.1745 WebRadar

8.1746 Weidmuller

8.1747 Welotec

8.1748 Westell Technologies

8.1749 Wevercomm

8.1750 Wewins (Shenzhen Wewins Wireless)

8.1751 wgtwo ? Working Group Two (Cisco Systems)

8.1752 WH Bence Group

8.1753 Whale Cloud Technology (Alibaba Group)

8.1754 Whizz Systems

8.1755 Widelity

8.1756 WiFrost

8.1757 WIG (Wireless Infrastructure Group)

8.1758 Wildox (Shenzhen Happy Technology)

8.1759 Wilson Electronics

8.1760 Wilus

8.1761 WIN Connectivity (Wireless Information Networks)

8.1762 Wind River Systems

8.1763 Wind Tre

8.1764 Wingtech Technology

8.1765 WINITECH

8.1766 Winmate Communications

8.1767 Winncom Technologies

8.1768 Wipro

8.1769 Wireless Logic Group

8.1770 Wireless Technologies Finland

8.1771 Wireless Telecom Group

8.1772 WiSig Networks

8.1773 Wistron Corporation

8.1774 Wiwynn (Wistron Corporation)

8.1775 WM Systems

8.1776 WMS (Wireless Maritime Services)

8.1777 WNC (Wistron NeWeb Corporation)

8.1778 Wolfspeed

8.1779 WooriNet

8.1780 Workz

8.1781 World View

8.1782 WorldCell Solutions

8.1783 Wouxun (Quanzhou Wouxun Electronics)

8.1784 WTL (World Telecom Labs)

8.1785 WTW Electronic

8.1786 WWT (World Wide Technology)

8.1787 Wytec International

8.1788 Xantaro

8.1789 XAVi Technologies Corporation (Chicony Electronics)

8.1790 Xelera Technologies

8.1791 Xemex

8.1792 Xena Networks

8.1793 Xiamen Puxing Electronics Science & Technology

8.1794 Xiamen Sanan Integrated Circuit

8.1795 Xiaomi

8.1796 Xilinx (AMD ? Advanced Micro Devices)

8.1797 Xingtera

8.1798 Xinwei Group

8.1799 XINYI Information Technology

8.1800 XipLink

8.1801 XIUS

8.1802 YADRO (ICS Holding)

8.1803 YAGEO Corporation

8.1804 Yahsat (Al Yah Satellite Communications)/Thuraya

8.1805 YaleBTS

8.1806 Yanton (Quanzhou Yanton Electronics)

8.1807 YOFC (Yangtze Optical Fibre and Cable)

8.1808 Yokogawa Electric Corporation

8.1809 Yuge Technology (Shanghai Yuge Information Technology)

8.1810 Yunzhi Ruantong (Beijing Yunzhi Ruantong Information Technology)

8.1811 Zain Group

8.1812 ZaiNar

8.1813 Zaram Technology

8.1814 Z-Com

8.1815 Zealync

8.1816 Zebra Technologies

8.1817 Zeetta Networks

8.1818 Zello

8.1819 Zengyi Technology

8.1820 Zepcam

8.1821 ZeroEyes

8.1822 Zetron (Codan)

8.1823 Zhengkai Electronics (Jiangsu Zhengkai Electronics Technology)

8.1824 ZILLNK

8.1825 Zinwave (Wilson Electronics)

8.1826 Zioncom

8.1827 Zmtel (Shanghai Zhongmi Communication Technology)

8.1828 ZT Systems

8.1829 ZTE

8.1830 Zyxel (Unizyx Holding Corporation)

9 Chapter 9: Market Sizing & Forecasts

9.1 Global Outlook for Private 5G Networks

9.2 Infrastructure Submarkets

9.2.1 5G NR RAN

9.2.1.1 Base Station RUs

9.2.1.2 DUs/CUs

9.2.2 5GC

9.2.2.1 UPF

9.2.2.2 Control Plane

9.2.3 5G Transport

9.2.3.1 Fiber & Wireline

9.2.3.2 Microwave

9.2.3.3 Satellite Communications

9.3 Cell Sizes

9.3.1 Indoor Small Cells

9.3.2 Outdoor Small Cells

9.3.3 Macrocells

9.4 Frequency Ranges

9.4.1 Sub-6 GHz

9.4.2 mmWave

9.5 End User Markets & Verticals

9.5.1 Vertical Industries

9.5.1.1 Agriculture

9.5.1.2 Aviation

9.5.1.3 Broadcasting

9.5.1.4 Construction

9.5.1.5 Education

9.5.1.6 Forestry

9.5.1.7 Healthcare

9.5.1.8 Manufacturing

9.5.1.9 Military

9.5.1.10 Mining

9.5.1.11 Oil & Gas

9.5.1.12 Ports & Maritime Transport

9.5.1.13 Public Safety

9.5.1.14 Railways

9.5.1.15 Utilities

9.5.1.16 Warehousing & Others

9.5.2 Offices, Buildings & Public Venues

9.6 Regional Segmentation

9.6.1 North America

9.6.1.1 Infrastructure Submarkets

9.6.1.2 End User Markets & Verticals

9.6.2 Asia Pacific

9.6.2.1 Infrastructure Submarkets

9.6.2.2 End User Markets & Verticals

9.6.3 Europe

9.6.3.1 Infrastructure Submarkets

9.6.3.2 End User Markets & Verticals

9.6.4 Middle East & Africa

9.6.4.1 Infrastructure Submarkets

9.6.4.2 End User Markets & Verticals

9.6.5 Latin & Central America

9.6.5.1 Infrastructure Submarkets

9.6.5.2 End User Markets & Verticals

10 Chapter 10: Conclusion & Strategic Recommendations

10.1 Why is the Market Poised to Grow?

10.2 Future Roadmap: 2024 ? 2030

10.2.1 2024 ? 2026: Continued Spending on Standalone Private 5G Networks

10.2.2 2027 ? 2029: Widespread Adoption of Industrial-Grade 5G Advanced NPNs

10.2.3 2030 & Beyond: Towards Private 6G Connectivity for Future Applications

10.3 Reviewing the Real-World Benefits of Private 5G Networks

10.3.1 Efficiency Gains

10.3.2 Cost Savings

10.3.3 Worker Safety

10.4 Vendor & Solution Provider Landscape

10.4.1 Acquisitions, Consolidation & Partnerships

10.4.2 Industry 4.0 Connectivity Solutions From Alternative Private 5G Infrastructure Suppliers

10.4.3 Enabling the Testing of Domestically Produced 5G Network Equipment

10.4.4 National Mobile Operators Continue to Retain a Significant Presence

10.4.5 Emergence of New Classes of Private Network Service Providers

10.4.6 Opportunities for Global System Integrators & Hyperscalers

10.4.7 Startups Targeting Private 5G Security, Management & Orchestration Needs

10.5 IIoT Remains the Central Driver for Private 5G Investments

10.6 Reducing Reliance on Hard-Wired Cabling in Industrial & Enterprise Settings

10.7 Driving the Convergence of IT & OT Domains With Industrial-Grade 5G Connectivity

10.8 The Growing Role of 5G Network Slicing & Hybrid Public-Private Networks

10.9 China Serving as a Proving Ground for Large-Scale Private 5G Projects

10.10 Commercial Availability of Vertical Industry-Specific 3GPP Features

10.11 5G Advanced Trials for Time-Sensitive Industrial Control Applications

10.12 Spectrum Liberalization: Shared & Local Area Licensing Frameworks

10.13 Mid-Band 5G NR RAN Installations Dominate the Market

10.14 Prospects of Private 5G Networks in mmWave Spectrum

10.15 Preliminary Deployments of 5G NR-U Technology

10.16 Relationship Between Private 5G & Wi-Fi 6/6E/7 Systems

10.17 Overlap With Neutral Host Networks for In-Building Coverage

10.18 Synergies Between Private 5G Networks & Edge Computing

10.19 Open RAN & vRAN (Virtualized RAN) Adoption in Private 5G Infrastructure

10.20 SON & AI-Based Automation: Easing the Role of Enterprise IT Departments

10.21 Satellite Backhaul & Direct-to-Device NTN Access for Coverage Extension

10.22 Interconnectivity & Roaming in Private 5G Networks

10.23 Strategic Recommendations

10.23.1 5G Equipment & Chipset Suppliers

10.23.2 System Integrators & Private Network Specialists

10.23.3 National Mobile Network Operators

10.23.4 End User Organizations & Vertical Industries

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プライベート5Gネットワーク：2024年から2030年の機会、課題、戦略、予測

サマリー

目次

Summary

Table of Contents

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