産業用通信機器市場：製品（コンポーネント、ソフトウェア、サービス）、通信プロトコル（フィールドバス、産業用イーサネット、ワイヤレス）、業種（自動車、エンジニアリング/ファブリケーション）、地域別 - 2027年までの世界予測

Industrial Communication Market by Offering (Component, Software and Services), Communication Protocol (Fieldbus, Industrial Ethernet and Wireless), Vertical (Automotive, Engineering/Fabrication) and Region - Global Forecast to 2027

産業用通信機器市場は、2022年の188億米ドルから2027年には268億米ドルに達すると予測され、予測期間中の年平均成長率は7.4％と予想されています。工場のシステムは、より速いレスポンスタイム、より優れた効率性... もっと見る

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産業用通信機器市場は、2022年の188億米ドルから2027年には268億米ドルに達すると予測され、予測期間中の年平均成長率は7.4％と予想されています。工場のシステムは、より速いレスポンスタイム、より優れた効率性、そしてより高い信頼性を提供する必要があります。そのためには、最適な通信技術の選択、マルチプロトコル環境での運用、幅広い産業機器への対応が必要です。そのため、拡張性と相互運用性のあるプロトコルの必要性から、より新しい通信製品の開発が進められています。スマート・マニュファクチャリング製品やソリューションを提供している企業の顧客は現在、短期的な戦略として新規プロジェクトの実施を延期し、ビジネスとキャッシュフローの節約に集中しています。しかし、パンデミックの沈静化に伴い、企業はスマートマニュファクチャリング製品やソリューションを求め始めている。それでも、需要の増加は、COVID-19以前の時代に見積もられた需要水準には達しないかもしれません。それとは別に、これらの通信インターフェースやプロトコルが標準化されていないため、データの誤認識が発生する可能性があります。標準化の欠如は、システムの統合を複雑にし、無関係なシステムのプラグアンドプレイ機能の利用を妨げる。
"予測期間中、サービス向け市場のCAGRが最も高くなる"
ネットワークインフラの急速な変化とIIoTの採用拡大により、クラウドと仮想化の導入が進んでいます。これにより、ネットワーク管理者のネットワークインフラ管理へのプレッシャーが著しく高まっています。したがって、製造業では、ネットワーク管理の品質向上と運用コスト削減のために、ネットワークサービスのアウトソーシングを進めています。また、COVID-19以降、ほとんどの企業がリモートネットワーク監視サービスを採用しており、これが予測期間中のサービス市場を押し上げると予想される。
"ワイヤレス接続分野が予測期間を通じて最も高い成長率を示す"
産業用アプリケーションにおける無線接続の数は、ネットワークカバレッジ、伝送品質、帯域幅容量の改善により、過去数年間で大幅に増加しています。無線通信技術、特に無線ハイウェイアドレス型遠隔変換器（WHART）、セルラー、無線ローカルエリアネットワーク（WLAN）の進歩により、製造企業は世界のどこからでも資産を遠隔監視できるようになりました。ワイヤレスネットワークの人気は、これらの機能により過酷な環境下でも展開できるため、設置の速さと簡便さによって高まっています。これらの要因により、予測期間中、産業用通信市場における無線技術の採用が進むと予想されます。
"上下水道管理アプリケーションの市場は予測期間中に最も高いCAGRで成長する"
上下水道の処理業務では、信頼性の高いタイムリーなデータにより、効率性の向上とコスト削減を図ることができます。水位監視センサー、ACドライブ、コントローラーは水処理システムの重要な構成要素であり、これらの機器間の通信を容易にするために産業用通信ネットワークが使用されます。これらの要因が、予測期間中の上下水道向け産業用通信市場の成長を促進すると期待されています。
"APACの市場は予測期間中に最も高いCAGRで成長する"
アジア太平洋地域は、産業用通信の採用が世界的に最も急速に進んでいる地域の一つです。継続的な技術革新と様々な産業における自動化技術の採用の増加が、アジア太平洋地域の産業用通信市場の成長に繋がっています。アジア太平洋地域のいくつかの新興経済国の人口の多さと、より良いインフラと医療施設の必要性を考慮すると、この地域のIIoT市場にはより成長の機会があると予想されます。IIoTは、産業全体の状況を変える可能性があり、この地域の新興国の成長に貢献することができます。産業オートメーションは、効率的な通信ネットワークがオートメーションプロセスの監視と最適化に役立つため、主にネットワークインターフェースと通信デバイスに依存します。

二次調査で収集したいくつかのセグメントとサブセグメントの市場規模を決定し検証する過程で、産業用通信市場の主要な業界専門家に広範な一次インタビューを実施しました。本レポートの主要参加者の内訳は以下の通りです。
- 企業タイプ別企業タイプ別：Tier1 30%、Tier2 50%、Tier3 - 20
- 役職別役職別：Cレベル経営者-10%、役員-30%、その他-60
- 地域別：北米-25%、APAC-40%、ヨーロッパ-25%、RoW-10
本レポートでは、産業用通信市場における主要企業のプロファイルを、それぞれの市場ランキング分析とともに紹介しています。本レポートで紹介する主なプレイヤーは、Cisco（米国）、Siemens（ドイツ）、Rockwell Automation（米国）、Omron（日本）、Moxa（台湾）、Huawei Technologies（中国）、SICK（ドイツ）、Schneider Electric（フランス）、ABB（スイス）、Belden（米国）、GE Grid Solutions（フランス）。GE Grid Solutions（フランス）、Advantech（台湾）、HMS Networks（スウェーデン）、IFM Electronic（ドイツ）、三菱電機（日本）、Erisccon（スウェーデン）、Honeywell（アメリカ）、FANUC（日本）、AAEON（台湾）、Turck（アメリカ）、Bosch Rexoth（ドイツ）です。

調査対象範囲
この調査レポートは、産業用通信市場をオファリング、通信プロトコル、業種、地域などの基準で分類しています。産業用通信市場に関する主要な推進要因、阻害要因、課題、機会について説明し、2027年までの予測を行います（COVID-19の市場への影響に関する分析を含む）。また、産業用通信エコシステムに含まれる全企業のリーダーシップマッピングと分析も行っています。
レポート購入の主なメリット
本レポートは、同市場のリーダーや新規参入企業にとって、以下のようなメリットがあります。
1.本レポートでは、産業用通信市場を包括的にセグメント化し、異なる地域にわたるすべてのサブセグメントについて最も近い市場規模の予測を提供しています。
2.本レポートは、利害関係者が市場の鼓動を理解するのに役立ち、市場成長のための主要な推進要因、阻害要因、課題、機会に関する情報を提供します。
3.本レポートは、利害関係者が競合他社をより良く理解し、ビジネスにおける自社のポジションを向上させるためのより多くの洞察を得るのに役立つだろう。競争環境のセクションには、競合他社のエコシステム、製品の発売、取引、拡張が含まれます。
4.市場ランクの強さだけでなく、製品のフットプリントに基づいて、上位21社の分析は、利害関係者がこれらの主要なプレーヤーの市場のポジショニングを可視化するのに役立ちます。

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1 INTRODUCTION 21
1.1 STUDY OBJECTIVES 21
1.2 DEFINITION 21
1.2.1 INCLUSIONS AND EXCLUSIONS 22
1.3 STUDY SCOPE 23
1.3.1 MARKETS COVERED 23
FIGURE 1 INDUSTRIAL COMMUNICATION MARKET SEGMENTATION 23
1.3.2 GEOGRAPHIC SCOPE 24
1.3.3 YEARS CONSIDERED 24
1.4 CURRENCY 25
1.5 LIMITATIONS 25
1.6 STAKEHOLDERS 26
1.7 SUMMARY OF CHANGES 26
2 RESEARCH METHODOLOGY 27
2.1 RESEARCH DATA 27
FIGURE 2 INDUSTRIAL COMMUNICATION MARKET: RESEARCH DESIGN 27
2.1.1 SECONDARY AND PRIMARY RESEARCH 29
FIGURE 3 RESEARCH APPROACH 29
2.1.2 SECONDARY DATA 30
TABLE 1 LIST OF SECONDARY SOURCES 30
2.1.2.1 Key secondary sources 30
2.1.3 PRIMARY DATA 31
2.1.3.1 Primary interviews with experts 31
2.1.3.2 Key industry insights 32
2.1.3.3 Breakdown of primaries 32
2.2 MARKET SIZE ESTIMATION 33
2.2.1 BOTTOM-UP APPROACH 33
2.2.1.1 Approach for arriving at market size using bottom-up analysis 33
FIGURE 4 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 34
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY (APPROACH 2): BOTTOM-UP (SUPPLY-SIDE)—ILLUSTRATION OF REVENUE ESTIMATION OF COMPANIES FROM SALES OF INDUSTRIAL COMMUNICATION PRODUCTS AND SOLUTIONS 34
2.2.2 TOP-DOWN APPROACH 35
2.2.2.1 Approach for capturing market size using top-down analysis 35
FIGURE 6 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 35
FIGURE 7 MARKET SIZE ESTIMATION METHODOLOGY (APPROACH 1): TOP-DOWN (SUPPLY SIDE)—REVENUE GENERATED FROM INDUSTRIAL COMMUNICATION PRODUCTS AND SOLUTIONS SALES 35
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION 36
FIGURE 8 DATA TRIANGULATION 36
2.4 RESEARCH ASSUMPTIONS 37
2.5 RISK ASSESSMENTS 38
TABLE 2 LIMITATIONS AND ASSOCIATED RISKS 38
2.6 LIMITATIONS 38
3 EXECUTIVE SUMMARY 39
3.1 GROWTH RATE ASSUMPTIONS/GROWTH FORECAST 39
TABLE 3 MARKET GROWTH ASSUMPTIONS OVER THE YEARS 39
TABLE 4 INDUSTRIAL COMMUNICATION MARKET, 2018–2021 (USD BILLION) 40
TABLE 5 INDUSTRIAL COMMUNICATION MARKET, 2022–2027 (USD BILLION) 40
FIGURE 9 EFFECT OF COVID-19 ON INDUSTRIAL COMMUNICATION MARKET 41
3.2 POST-COVID-19 SCENARIO 41
TABLE 6 POST-COVID-19 SCENARIO: INDUSTRIAL COMMUNICATION MARKET,
2022–2027 (USD BILLION) 41
3.3 OPTIMISTIC SCENARIO (POST-COVID-19) 41
TABLE 7 OPTIMISTIC SCENARIO (POST-COVID-19): INDUSTRIAL COMMUNICATION MARKET, 2022–2027 (USD BILLION) 41
3.4 PESSIMISTIC SCENARIO (POST-COVID-19) 41
TABLE 8 PESSIMISTIC SCENARIO (POST-COVID-19): INDUSTRIAL COMMUNICATION MARKET, 2022–2027 (USD BILLION) 41
3.4.1 PRE-COVID-19 42
3.4.2 POST-COVID-19 42
3.4.3 INDUSTRIAL IMPACT 42
3.4.4 REGIONAL IMPACT 43
FIGURE 10 WATER & WASTEWATER MANAGEMENT SEGMENT TO EXHIBIT HIGHEST CAGR IN INDUSTRIAL COMMUNICATION MARKET FROM 2022 TO 2027 43
FIGURE 11 ASIA PACIFIC ACCOUNTED FOR LARGEST SHARE OF INDUSTRIAL COMMUNICATION MARKET IN 2022 44
4 PREMIUM INSIGHTS 45
4.1 ATTRACTIVE OPPORTUNITIES IN INDUSTRIAL COMMUNICATION MARKET 45
FIGURE 12 INCREASING DEMAND FOR INDUSTRIAL COMMUNICATION SOLUTIONS IN WATER & WASTEWATER MANAGEMENT TO DRIVE MARKET GROWTH DURING FORECAST PERIOD 45
4.2 INDUSTRIAL COMMUNICATION MARKET, BY OFFERING 46
FIGURE 13 INDUSTRIAL COMMUNICATION SERVICES MARKET TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 46
4.3 INDUSTRIAL COMMUNICATION MARKET, BY COMMUNICATION PROTOCOL
AND VERTICAL 46
FIGURE 14 INDUSTRIAL ETHERNET SEGMENT AND AUTOMOTIVE VERTICAL TO HOLD LARGEST SIZE OF GLOBAL INDUSTRIAL COMMUNICATION MARKET IN 2022 46
4.4 INDUSTRIAL COMMUNICATION MARKET, BY GEOGRAPHY 47
FIGURE 15 INDUSTRIAL COMMUNICATION MARKET IN ASIA PACIFIC TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 47
5 MARKET OVERVIEW 48
5.1 INTRODUCTION 48
5.2 MARKET DYNAMICS 48
FIGURE 16 INDUSTRIAL COMMUNICATION MARKET: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES 48
5.2.1 DRIVERS 49
FIGURE 17 INDUSTRIAL COMMUNICATION MARKET DRIVERS AND THEIR IMPACT 49
5.2.1.1 Growing need for scalable, faster, reliable, and interoperable communication protocols 49
5.2.1.1.1 Recent developments 50
5.2.1.2 Increasing use of digital twin to safely monitor smart manufacturing operations 50
5.2.1.2.1 Recent developments 50
5.2.1.3 Increasing use of machine-to-machine communication technology 51
5.2.1.3.1 Recent developments 51
5.2.1.4 Initiatives undertaken by governments of different countries to promote adoption of industrial automation 51
5.2.1.4.1 Recent developments 52
FIGURE 18 ANNUAL INSTALLATION OF INDUSTRIAL ROBOTS, BY COUNTRY, 2020 (THOUSAND UNITS) 52
5.2.2 RESTRAINTS 53
FIGURE 19 INDUSTRIAL COMMUNICATION MARKET RESTRAINT AND ITS IMPACT 53
5.2.2.1 Absence of standardization in industrial communication protocols and interfaces 53
5.2.3 OPPORTUNITIES 54
FIGURE 20 INDUSTRIAL COMMUNICATION MARKET OPPORTUNITIES AND THEIR IMPACT 54
5.2.3.1 5G is offering lucrative opportunities for growth of Industrial IoT 54
5.2.3.1.1 Recent developments 54
5.2.3.2 Upsurge in demand for wireless networks 54
5.2.4 CHALLENGES 55
FIGURE 21 INDUSTRIAL COMMUNICATION MARKET CHALLENGES AND THEIR IMPACT 55
5.2.4.1 Threats related to cybersecurity 55
5.2.4.2 Harsh field site conditions such as high-voltage transients, severe shocks and vibrations, and extremely high temperatures 55
5.3 VALUE CHAIN ANALYSIS 56
FIGURE 22 VALUE CHAIN ANALYSIS OF INDUSTRIAL COMMUNICATION MARKET 56
5.3.1 RESEARCH & DEVELOPMENT 57
5.3.2 COMPONENT MANUFACTURERS/ODMS 57
5.3.3 SYSTEM INTEGRATORS/SOLUTIONS PROVIDERS 57
5.3.4 MARKETING AND SALES 57
5.3.5 POST-SALES SERVICES 57
5.3.6 END-USER INDUSTRIES 57
5.4 TARIFF REGULATORY BODIES 58
5.4.1 ETHERCAT TECHNOLOGY GROUP (ETG) 58
5.4.2 INTERNATIONAL ELECTROTECHNICAL COMMISSION (IEC) 58
5.4.3 IEEE 58
5.4.4 INTERNATIONAL ORGANIZATION FOR STANDARDIZATION (ISO) 58
5.4.5 PROFIBUS USER ORGANIZATION (PNO) 58
5.5 TECHNOLOGY ANALYSIS 58
5.5.1 NEAR-FIELD COMMUNICATION (NFC) 59
5.5.2 TIME-SENSITIVE NETWORKING (TSN) 59
5.5.3 OPEN PLATFORM COMMUNICATION UNIFIED ARCHITECTURE (OPC UA) 59
5.5.4 VIRTUALIZATION 59
5.5.5 ADOPTION OF ETHERNET 59
5.6 USE CASES ANALYSIS 60
5.6.1 ADVANTECH’S EDGE SOLUTIONS TO ENABLE REAL-TIME OIL TANKER MONITORING 60
5.6.2 PULP MOLDING EQUIPMENT MANUFACTURER IMPLEMENTED ROCKWELL AUTOMATION’S SOLUTIONS 60
5.6.3 OSSID IMPROVES MACHINERY RELIABILITY AND PERFORMANCE USING MITSUBISHI ELECTRIC’S AUTOMATION PORTFOLIO 60
5.6.4 ADVANTECH PROVIDED WISE-PAAS END-TO-CLOUD IOT TOTAL SOLUTION FOR REMOTE VIDEO SURVEILLANCE AND DEVICE STATUS MONITORING AND CONTROL FOR AUTOMOTIVE INSPECTION CENTER 61
5.6.5 OPTIMA CONTROL SOLUTIONS (UK) AND ROCKWELL AUTOMATION (US) PROVIDED AN AUTOMATED MONITORING SOLUTION TO A BISCUIT MANUFACTURER 61
5.6.6 ADVANTECH (TAIWAN) PROVIDED A PLANT MONITORING SOLUTION FOR A WIND POWER PLANT 61
5.7 INDUSTRIAL COMMUNICATION ECOSYSTEM 62
FIGURE 23 INDUSTRIAL COMMUNICATION MARKET ECOSYSTEM 62
5.8 AVERAGE SELLING PRICE TRENDS 62
TABLE 9 PRICING ANALYSIS 62
5.9 NOTICEABLE PATENTS 63
TABLE 10 SOME PATENTS RELATED TO INDUSTRIAL COMMUNICATION 63
6 INDUSTRIAL COMMUNICATION MARKET, BY OFFERING 64
6.1 INTRODUCTION 65
FIGURE 24 INDUSTRIAL COMMUNICATION MARKET, BY OFFERING 65
FIGURE 25 COMPONENTS TO CONTINUE TO ACCOUNT FOR LARGER SIZE OF INDUSTRIAL COMMUNICATION MARKET DURING 2022–2027 65
TABLE 11 INDUSTRIAL COMMUNICATION MARKET, BY OFFERING,
2018–2021 (USD BILLION) 66
TABLE 12 INDUSTRIAL COMMUNICATION MARKET, BY OFFERING,
2022–2027 (USD BILLION) 66
6.2 COMPONENTS 67
TABLE 13 INDUSTRIAL COMMUNICATION MARKET, BY COMPONENT,
2018–2021 (USD MILLION) 67
TABLE 14 INDUSTRIAL COMMUNICATION MARKET, BY COMPONENT,
2022–2027 (USD MILLION) 67
6.2.1 SWITCHES 68
6.2.1.1 Switches are used to build network connections between different interconnected computers 68
6.2.2 GATEWAYS 68
6.2.2.1 Gateways are common connection points for regulating traffic between networks 68
6.2.3 ROUTERS & WAP 68
6.2.3.1 Routers examine destination IP address of data packets and use headers and forwarding tables to decide mode of packet transfer 68
6.2.4 CONTROLLERS & CONNECTORS 69
6.2.4.1 Ethernet controllers are widely popular controllers used in industrial communication 69
6.2.5 COMMUNICATION INTERFACES & CONVERTERS 69
6.2.5.1 Communication interfaces help in communicating with different network devices using certain protocols 69
6.2.6 POWER SUPPLY DEVICES 69
6.2.6.1 Power Management Integrated Circuits (pmics) are useful in communication power management 69
6.2.7 OTHERS 70
6.2.7.1 Other subcomponents include clocks, repeaters, isolators,
LED displays, and cables 70
6.3 SOFTWARE 70
6.3.1 NETWORKING MANAGEMENT SOFTWARE OPTIMIZE NETWORK EFFICIENCY AND MINIMIZE TOTAL COST OF OWNERSHIP 70
6.4 SERVICES 71
6.4.1 INDUSTRIAL COMMUNICATION SERVICES MAINLY INCLUDE INSTALLATION, NETWORK SECURITY, AND NETWORK MONITORING SERVICES 71
7 INDUSTRIAL COMMUNICATION MARKET, BY COMMUNICATION PROTOCOL 72
7.1 INTRODUCTION 73
FIGURE 26 INDUSTRIAL COMMUNICATION MARKET, BY COMMUNICATION PROTOCOL 73
FIGURE 27 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS COMMUNICATION PROTOCOL TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 74
TABLE 15 INDUSTRIAL COMMUNICATION MARKET, BY COMMUNICATION PROTOCOL, 2018–2021 (USD BILLION) 74
TABLE 16 INDUSTRIAL COMMUNICATION MARKET, BY COMMUNICATION PROTOCOL, 2022–2027 (USD BILLION) 74
7.2 FIELDBUS 75
7.2.1 FIELDBUS CAN WORK ON MULTIPLE TOPOLOGIES, SUCH AS STAR, RING, BRANCH, AND TREE 75
TABLE 17 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS, BY REGION,
2018–2021 (USD MILLION) 75
TABLE 18 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS, BY REGION,
2022–2027 (USD MILLION) 76
TABLE 19 NDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN NORTH AMERICA, BY COUNTRY, 2018–2021 (USD MILLION) 76
TABLE 20 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN NORTH AMERICA, BY COUNTRY, 2022–2027 (USD MILLION) 76
TABLE 21 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN EUROPE,
BY COUNTRY, 2018–2021 (USD BILLION) 77
TABLE 22 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN EUROPE,
BY COUNTRY, 2022–2027 (USD MILLION) 77
TABLE 23 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN ASIA PACIFIC,
BY COUNTRY, 2018–2021 (USD MILLION) 77
TABLE 24 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN ASIA PACIFIC,
BY COUNTRY, 2022–2027 (USD MILLION) 78
TABLE 25 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN ROW, BY REGION, 2018–2021 (USD MILLION) 78
TABLE 26 INDUSTRIAL COMMUNICATION MARKET FOR FIELDBUS IN ROW, BY REGION, 2022–2027 (USD MILLION) 78
7.2.2 PROFIBUS 79
7.2.2.1 PROFIBUS links automation systems and controllers with decentralized field devices 79
7.2.3 MODBUS 79
7.2.3.1 Modbus can run over different communication media, including wired media, wireless media, and optical networks 79
7.2.4 CC-LINK 79
7.2.4.1 CC-Link is an open industrial network protocol that integrates system control and communication 79
7.2.5 DEVICENET 80
7.2.5.1 Devicenet facilitates communication between field-level and high-level devices 80
7.2.6 CANOPEN 80
7.2.6.1 Canopen is a high-level communication protocol based on CAN protocol 80
7.2.7 OTHERS 80
7.3 INDUSTRIAL ETHERNET 81
7.3.1 INDUSTRIAL ETHERNET PROVIDES HIGH-SPEED CONNECTION BETWEEN COMMUNICATION NODES 81
TABLE 27 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET,
BY REGION, 2018–2021 (USD MILLION) 81
TABLE 28 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET,
BY REGION, 2022–2027 (USD MILLION) 81
TABLE 29 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET IN NORTH AMERICA, BY COUNTRY, 2018–2021 (USD MILLION) 82
TABLE 30 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET IN NORTH AMERICA, BY COUNTRY, 2022–2027 (USD MILLION) 82
TABLE 31 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET IN EUROPE, BY COUNTRY, 2018–2021 (USD MILLION) 82
TABLE 32 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET IN EUROPE, BY COUNTRY, 2022–2027 (USD MILLION) 83
TABLE 33 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET
IN ASIA PACIFIC, BY COUNTRY, 2018–2021 (USD MILLION) 83
TABLE 34 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET
IN ASIA PACIFIC, BY COUNTRY, 2022–2027 (USD MILLION) 83
TABLE 35 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET IN ROW, BY REGION, 2018–2021 (USD MILLION) 84
TABLE 36 INDUSTRIAL COMMUNICATION MARKET FOR INDUSTRIAL ETHERNET IN ROW, BY REGION, 2022–2027 (USD MILLION) 84
7.3.2 PROFINET 84
7.3.2.1 PROFINET supplements existing PROFIBUS technologies by providing faster data communication 84
7.3.3 ETHERNET/IP 84
7.3.3.1 Ethernet/IP is widely used in hybrid and process industries 84
7.3.4 ETHERCAT 85
7.3.4.1 Ethercat is specifically designed for fast control demand applications 85
7.3.5 MODBUS-TCP 85
7.3.5.1 MODBUS-TCP offers high level of interoperability for industrial communication network devices 85
7.3.6 POWERLINK 85
7.3.6.1 Ethernet Powerlink enables transfer of time-critical data in short duration 85
7.3.7 SERCOS III 85
7.3.7.1 SERCOS III provides low latency data transfer 85
7.3.8 CC-LINK IE 86
7.3.8.1 CC-Link IE supports flexible wiring topologies, such as star, ring,
and line configuration 86
7.4 WIRELESS 86
7.4.1 WIRELESS COMMUNICATION OFFERS HIGH BANDWIDTH FOR COMPLEX LOGISTICS AND PRODUCTION PROCESSES 86
TABLE 37 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL,
BY REGION, 2018–2021 (USD MILLION) 86
TABLE 38 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL,
BY REGION, 2022–2027 (USD MILLION) 87
TABLE 39 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL
IN NORTH AMERICA, BY COUNTRY, 2018–2021 (USD MILLION) 87
TABLE 40 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL
IN NORTH AMERICA, BY COUNTRY, 2022–2027 (USD MILLION) 87
TABLE 41 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL IN EUROPE, BY COUNTRY, 2018–2021 (USD MILLION) 88
TABLE 42 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL IN EUROPE, BY COUNTRY, 2022–2027 (USD MILLION) 88
TABLE 43 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL IN ASIA PACIFIC, BY COUNTRY, 2018–2021 (USD MILLION) 88
TABLE 44 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL IN ASIA PACIFIC, BY COUNTRY, 2022–2027 (USD MILLION) 89
TABLE 45 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL IN ROW, BY REGION, 2018–2021 (USD MILLION) 89
TABLE 46 INDUSTRIAL COMMUNICATION MARKET FOR WIRELESS PROTOCOL IN ROW, BY REGION, 2022–2027 (USD MILLION) 89
7.4.2 WLAN 90
7.4.2.1 WLAN provides wide area coverage and faster communication 90
7.4.3 ISA100.11A 90
7.4.3.1 ISA 100 operates in 2.4 MHz frequency range and can support up to 15 channels 90
7.4.4 CELLULAR 90
7.4.4.1 Cellular networks are ideal for IIot applications that require operations over long distances 90
7.4.5 ZIGBEE 91
7.4.5.1 Zigbee offers easy network expansion, low power consumption,
good coverage area, and reliable network structure 91
7.4.6 WHART 91
7.4.6.1 WHART is an open industry standard designed for particular wireless communication requirements 91
7.4.7 OTHERS 91
8 INDUSTRIAL COMMUNICATION MARKET, BY VERTICAL 92
8.1 INTRODUCTION 93
FIGURE 28 INDUSTRIAL COMMUNICATION MARKET, BY VERTICAL 93
FIGURE 29 AUTOMOTIVE TO ACCOUNT FOR LARGEST SHARE OF INDUSTRIAL COMMUNICATION MARKET DURING 2022–2027 94
TABLE 47 INDUSTRIAL COMMUNICATION MARKET, BY VERTICAL,
2018–2021 (USD MILLION) 95
TABLE 48 INDUSTRIAL COMMUNICATION MARKET, BY VERTICAL,
2022–2027 (USD MILLION) 95
8.2 AUTOMOTIVE 96
8.2.1 INCREASING PENETRATION OF INDUSTRIAL COMMUNICATION SOLUTIONS IN AUTOMOTIVE MANUFACTURING 96
8.3 ELECTRICAL & ELECTRONICS 97
8.3.1 INDUSTRIAL COMMUNICATION SOLUTIONS AID IN REDUCING DOWNTIME FOR ELECTRONICS MANUFACTURING 97
8.4 AEROSPACE & DEFENSE 98
8.4.1 RISING DEPLOYMENT OF INDUSTRIAL COMMUNICATION SOLUTIONS IN AEROSPACE & DEFENSE INDUSTRY TO ENSURE EFFECTIVE MANUFACTURING PROCESSES 98
8.5 OIL & GAS 99
8.5.1 INCREASING OFFSHORE OIL & GAS ACTIVITIES ARE LEADING TO RISING ADOPTION OF AUTOMATION SOLUTIONS 99
8.6 CHEMICALS & FERTILIZERS 99
8.6.1 INDUSTRIAL COMMUNICATION SOLUTIONS HELP IN ENSURING HIGH SAFETY LEVELS REQUIRED IN CHEMICAL INDUSTRY 99
8.7 FOOD & BEVERAGES 100
8.7.1 RAPID PENETRATION OF AUTOMATION IN FOOD & BEVERAGES INDUSTRY TO DRIVE DEMAND FOR INDUSTRIAL COMMUNICATION SOLUTIONS 100
8.8 PHARMACEUTICALS & MEDICAL DEVICES 101
8.8.1 PHARMACEUTICAL INDUSTRY IS EVOLVING THROUGH ADOPTION OF AUTOMATION AND SENSING TECHNOLOGIES 101
8.9 ENERGY & POWER 102
8.9.1 COMMUNICATION NETWORKS ARE ESSENTIAL FOR DATA RETRIEVAL IN ENERGY & POWER PLANTS 102
8.10 METALS & MINING 102
8.10.1 COMMUNICATION SOLUTIONS WILL AID IN ENSURING WORKER SAFETY IN MINING INDUSTRY 102
8.11 ENGINEERING/FABRICATION 103
8.11.1 NETWORKING TECHNOLOGIES ENSURE CONSISTENT, UNINTERRUPTED CONNECTIVITY FOR WORKERS IN FABRICATION PLANTS 103
8.12 WATER & WASTEWATER MANAGEMENT 103
8.12.1 LOW-COST, LOW-POWER SENSORS AND EDGE-COMPUTING DEVICES INCREASE EFFICIENCY IN WATER & WASTEWATER MANAGEMENT 103
8.13 OTHERS 104
8.13.1 INCORPORATION OF INDUSTRIAL COMMUNICATION SOLUTIONS TO ENHANCE PRODUCTIVITY IN PAPER & PULP INDUSTRY 104
9 INDUSTRIAL COMMUNICATION MARKET, BY GEOGRAPHY 105
9.1 INTRODUCTION 106
FIGURE 30 INDUSTRIAL COMMUNICATION MARKET IN CHINA TO WITNESS HIGHEST CAGR DURING 2022–2027 106
TABLE 49 INDUSTRIAL COMMUNICATION MARKET, BY REGION,
2018–2021 (USD BILLION) 107
TABLE 50 INDUSTRIAL COMMUNICATION MARKET, BY REGION,
2022–2027 (USD BILLION) 107
9.2 NORTH AMERICA 107
FIGURE 31 NORTH AMERICA: INDUSTRIAL COMMUNICATION MARKET SNAPSHOT 108
9.2.1 US 109
9.2.1.1 Ideal environment for innovation in us has facilitated massive advancements in industrial communication 109
9.2.2 CANADA 109
9.2.2.1 Growing investments in process and discrete industries to contribute to market growth 109
9.2.3 MEXICO 110
9.2.3.1 Mexico is evolving as major industrial hub in North America 110
9.3 EUROPE 110
FIGURE 32 EUROPE: INDUSTRIAL COMMUNICATION MARKET SNAPSHOT 111
9.3.1 UK 112
9.3.1.1 Increasing adoption of automation to fuel growth of industrial communication market in UK 112
9.3.2 GERMANY 112
9.3.2.1 Growing demand for industrial communication solutions in automotive industry 112
9.3.3 FRANCE 112
9.3.3.1 Government initiatives promote adoption of industrial communication solutions in France 112
9.3.4 SPAIN 113
9.3.4.1 Market growth in Spain is driven by automotive industry 113
9.3.5 ITALY 113
9.3.5.1 Smart factories in Italy fuel growth of industrial communication market 113
9.3.6 REST OF EUROPE 113
9.3.6.1 Increasing demand for industrial communication solutions in petroleum and mining industry 113
9.4 ASIA PACIFIC 114
FIGURE 33 ASIA PACIFIC: INDUSTRIAL COMMUNICATION MARKET SNAPSHOT 115
9.4.1 CHINA 116
9.4.1.1 Surging use of industrial communication solutions in automotive industry of China 116
9.4.2 JAPAN 116
9.4.2.1 Ongoing technological developments in different industries are leading to deployment of advanced and highly precise automation solutions 116
9.4.3 INDIA 116
9.4.3.1 Increasing government investments in industrial automation to propel the market growth 116
9.4.4 SOUTH KOREA 117
9.4.4.1 South Korea is among the globally leading manufacturers of robots 117
9.4.5 REST OF ASIA PACIFIC 117
9.4.5.1 Government initiatives to encourage smart manufacturing to fuel market growth 117
9.5 REST OF THE WORLD (ROW) 118
FIGURE 34 ROW: INDUSTRIAL COMMUNICATION MARKET SNAPSHOT 118
9.5.1 LATIN AMERICA 119
9.5.1.1 Rising deployment of factory automation solutions in different industries in Latin America 119
9.5.2 MIDDLE EAST & AFRICA 119
9.5.2.1 Increasing adoption of automation solutions in oil & gas industry of Middle East 119
10 COMPETITIVE LANDSCAPE 120
10.1 KEY PLAYER STRATEGIES/RIGHT TO WIN 120
FIGURE 35 STRATEGIES ADOPTED BY TOP 5 PLAYERS IN THE MARKET 120
10.2 OVERVIEW 121
10.3 TOP 5 COMPANY ANALYSIS 121
FIGURE 36 REVENUE ANALYSIS OF TOP 5 COMPANIES IN INDUSTRIAL COMMUNICATION MARKET, 2019–2021 121
10.4 MARKET SHARE ANALYSIS (2021) 121
TABLE 51 INDUSTRIAL COMMUNICATION MARKET: MARKET SHARE ANALYSIS 122
10.5 COMPANY EVALUATION QUADRANT, 2021 123
10.5.1 STAR 123
10.5.2 PERVASIVE 123
10.5.3 EMERGING LEADER 123
10.5.4 PARTICIPANT 123
FIGURE 37 INDUSTRIAL COMMUNICATION MARKET COMPANY EVALUATION QUADRANT, 2021 124
10.6 COMPETITIVE SCENARIO 125
TABLE 52 INDUSTRIAL COMMUNICATION MARKET: PRODUCT LAUNCHES, MARCH 2019−MAY 2022 125
TABLE 53 INDUSTRIAL COMMUNICATION MARKET: DEALS, MARCH 2019−MAY 2022 126
11 COMPANY PROFILES 128
(Business overview, Products/Solutions/Services offered, Recent developments & MnM View)*
11.1 KEY PLAYERS 128
11.1.1 CISCO 128
TABLE 54 CISCO: BUSINESS OVERVIEW 128
FIGURE 38 CISCO SYSTEMS: COMPANY SNAPSHOT 129
TABLE 55 CISCO: PRODUCTS OFFERED 130
TABLE 56 CISCO: PRODUCT LAUNCHES 131
TABLE 57 CISCO: DEALS 131
11.1.2 SIEMENS 133
TABLE 58 SIEMENS: BUSINESS OVERVIEW 133
FIGURE 39 SIEMENS: COMPANY SNAPSHOT 134
TABLE 59 SIEMENS: PRODUCTS OFFERED 134
TABLE 60 SIEMENS: PRODUCT LAUNCHES 135
11.1.3 ROCKWELL AUTOMATION 136
TABLE 61 ROCKWELL AUTOMATION: BUSINESS OVERVIEW 136
FIGURE 40 ROCKWELL AUTOMATION: COMPANY SNAPSHOT 137
TABLE 62 ROCKWELL AUTOMATION: PRODUCTS OFFERED 137
TABLE 63 ROCKWELL AUTOMATION: PRODUCT LAUNCHES 138
TABLE 64 ROCKWELL AUTOMATION: DEALS 138
11.1.4 OMRON 140
TABLE 65 OMRON: BUSINESS OVERVIEW 140
FIGURE 41 OMRON: COMPANY SNAPSHOT 141
TABLE 66 OMRON: PRODUCTS OFFERED 142
TABLE 67 OMRON: PRODUCT LAUNCHES 143
TABLE 68 OMRON: DEALS 143
11.1.5 MOXA 145
TABLE 69 MOXA: BUSINESS OVERVIEW 145
TABLE 70 MOXA: PRODUCTS OFFERED 145
TABLE 71 MOXA: PRODUCT LAUNCHES 146
TABLE 72 MOXA: DEALS 147
11.1.6 HUAWEI TECHNOLOGIES 148
TABLE 73 HUAWEI TECHNOLOGIES: BUSINESS OVERVIEW 148
FIGURE 42 HUAWEI TECHNOLOGIES: COMPANY SNAPSHOT 149
TABLE 74 HUAWEI TECHNOLOGIES: PRODUCTS OFFERED 149
TABLE 75 HUAWEI TECHNOLOGIES: PRODUCT LAUNCHES 150
TABLE 76 HUAWEI TECHNOLOGIES: DEALS 151
11.1.7 SICK 152
TABLE 77 SICK: BUSINESS OVERVIEW 152
FIGURE 43 SICK: COMPANY SNAPSHOT 153
TABLE 78 SICK: PRODUCTS OFFERED 153
TABLE 79 SICK: PRODUCT LAUNCH 154
TABLE 80 SICK: DEALS 154
11.1.8 SCHNEIDER ELECTRIC 155
TABLE 81 SCHNEIDER ELECTRIC: BUSINESS OVERVIEW 155
FIGURE 44 SCHNEIDER ELECTRIC: COMPANY SNAPSHOT 156
TABLE 82 SCHNEIDER ELECTRIC: PRODUCTS OFFERED 156
TABLE 83 SCHNEIDER ELECTRIC: DEALS 157
11.1.9 ABB 158
TABLE 84 ABB: BUSINESS OVERVIEW 158
FIGURE 45 ABB: COMPANY SNAPSHOT 159
TABLE 85 ABB: PRODUCTS OFFERED 159
TABLE 86 ABB: DEALS 160
11.1.10 BELDEN 161
TABLE 87 BELDEN: BUSINESS OVERVIEW 161
FIGURE 46 BELDEN: COMPANY SNAPSHOT 162
TABLE 88 BELDEN: PRODUCTS OFFERED 163
TABLE 89 BELDEN: PRODUCT LAUNCHES 164
TABLE 90 BELDEN: DEALS 164
11.1.11 GE GRID SOLUTIONS 166
TABLE 91 GE GRID SOLUTIONS: BUSINESS OVERVIEW 166
TABLE 92 GE GRID SOLUTIONS: PRODUCTS OFFERED 166
11.1.12 ADVANTECH 167
TABLE 93 ADVANTECH: BUSINESS OVERVIEW 167
FIGURE 47 ADVANTECH: COMPANY SNAPSHOT 168
TABLE 94 ADVANTECH: PRODUCTS OFFERED 169
TABLE 95 ADVANTECH: PRODUCT LAUNCH 169
TABLE 96 ADVANTECH: DEALS 170
11.1.13 HMS NETWORKS 171
TABLE 97 HMS NETWORKS: BUSINESS OVERVIEW 171
FIGURE 48 HMS NETWORKS: COMPANY SNAPSHOT 172
TABLE 98 HMS NETWORKS: PRODUCTS OFFERED 172
TABLE 99 HMS NETWORKS: PRODUCT LAUNCH 173
TABLE 100 HMS NETWORKS: DEALS 173
11.1.14 IFM ELECTRONIC 175
TABLE 101 IFM ELECTRONIC: BUSINESS OVERVIEW 175
TABLE 102 IFM ELECTRONIC: PRODUCTS OFFERED 175
TABLE 103 IFM ELECTRONIC: DEALS 176
11.1.15 MITSUBISHI ELECTRIC GROUP 177
TABLE 104 MITSUBISHI ELECTRIC: BUSINESS OVERVIEW 177
FIGURE 49 MITSUBISHI ELECTRIC GROUP: COMPANY SNAPSHOT 178
TABLE 105 MITSUBISHI ELECTRIC: PRODUCTS OFFERED 179
TABLE 106 MITSUBISHI ELECTRIC: PRODUCT LAUNCHES 179
11.1.16 ERICSSON 180
TABLE 107 ERICSSON: BUSINESS OVERVIEW 180
FIGURE 50 ERICSSON: COMPANY SNAPSHOT 181
TABLE 108 ERICSSON: PRODUCTS OFFERED 182
TABLE 109 ERICSSON: PRODUCT LAUNCHES 182
*Details on Business overview, Products/Solutions/Services offered, Recent developments & MnM View might not be captured in case of unlisted companies.
11.2 OTHER COMPANIES 183
11.2.1 HONEYWELL 183
11.2.2 FANUC 184
11.2.3 AAEON 185
11.2.4 TURCK 186
11.2.5 BOSCH REXROTH 187
12 APPENDIX 188
12.1 INSIGHTS OF INDUSTRY EXPERTS 188
12.2 DISCUSSION GUIDE 188
12.3 KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 192
12.4 AVAILABLE CUSTOMIZATIONS 194
12.5 RELATED REPORTS 194
12.6 AUTHOR DETAILS 195

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Table of Contents

Summary

The industrial communication marketis expected to grow from USD 18.8 billion in 2022 and is projected to reach USD 26.8 billion by 2027; it is expected to grow at a CAGR of 7.4% during the forecast period. A factory system should be capable of offering faster response times, better efficiency, and greater reliability. To achieve these benefits, designers must select the best communication technology, navigate a multiprotocol environment, and cover a wide range of industrial equipment. Therefore, the need for scalable and interoperable protocols are driving industry initiatives to develop a newer set of communication products.The clients of the companies offering smart manufacturing products and solutions are currently deferring the implementation of new projects as a short-term strategy and are concentrating on saving their business and cash flow. However, as the pandemic has subsided, companies are starting to demand smart manufacturing products and solutions. Still, the increased demands may not reach the demand levels estimated in the pre-COVID-19 era. Apart from this, The lack of standardization in these communication interfaces and protocols may result in the misrepresentation of data. The lack of standardization complicates the integration of systems and hinders the use of plug-and-play features for unrelated systems.
“Market for services to have highest CAGR during the forecast period”
Rapid changes in network infrastructure and the growing adoption of IIoT have led to the adoption of cloud and virtualization. This has significantly increased the pressure on network administrators to manage the network infrastructure. Hence, manufacturing industries are outsourcing network services to ensure better network management quality and reduced operating costs. Also, post-COVID-19, most companies are adopting remote network monitoring services, which is expected to boost the services market during the forecast period.
“Wireless connectivity segment to have highest growth throughout the forecast period”
The number of wireless connections in industrial applications has increased considerably over the past few years due to improved network coverage, quality of transmission, and bandwidth capacity. Advancements in wireless communication technologies, especially in wireless highway addressable remote transducer (WHART), cellular, and wireless local area networks (WLAN), are helping manufacturing companies to remotely monitor their assets from anywhere in the world. The popularity of wireless networks is increasing due to the speed and simplicity of installing them, as these features enable their deployment even in extreme environments. All these factors are expected to increase the adoption of wireless technology in the industrial communication market during the forecast period.
“Market for water & wastewater management application to grow at highest CAGR during the forecast period”
In water and wastewater treatment operations, reliable and timely data can improve efficiency and reduce costs. Outdated communication architectures are unable to keep up with existing SCADA applications in terms of the bandwidth, security features, scalability, and environmental ruggedness required to connect to remote areas.Water level monitoring sensors, AC drives, and controllers are the crucial components of water treatment systems, and an industrial communication network is used to facilitate communication among these devices. These factors are expected to fuel the growth of the industrial communication market for the water & wastewater vertical during the forecast period.
“Market in APAC to grow at highest CAGR during the forecast period”
Asia Pacific is one of the fastest-growing regions globally in terms of the adoption of industrial communication. Ongoing technological innovations and increasing adoption of automation technologies in various industries are leading to the growth of the industrial communication market in Asia Pacific.Considering the large population of some of the emerging economies in Asia Pacific and the need for better infrastructure and healthcare facilities, the IIoT market is expected to have more opportunities for growth in this region. IIoT can potentially change the entire industrial landscape and contribute to the growth of the emerging countries in this region. Industrial automation mainly depends on network interfaces and communication devices as an efficient communication network helps monitor and optimize the automation process.

In the process of determining and verifying the market size for several segments and subsegments gathered through secondary research, extensive primary interviews have been conducted with key industry experts in the industrial communicationmarketspace. The break-up of primary participants for the report has been shown below:
• By Company Type: Tier 1– 30%, Tier 2– 50%, and Tier 3 – 20%
• By Designation: C-level Executives– 10%, Directors– 30%, and Others – 60%
• By Region:North America–25%,APAC– 40%, Europe – 25%,and RoW – 10%
The report profiles key players in the industrial communication market with their respective market ranking analysis. Prominent players profiled in this report areCisco (US), Siemens (Germany), Rockwell Automation (US), Omron (Japan), Moxa (Taiwan), Huawei Technologies (China), SICK (Germany), Schneider Electric (France), ABB (Switzerland), Belden (US), GE Grid Solutions (France), Advantech (Taiwan), HMS Networks (Sweden), IFM Electronic (Germany), Mitsubishi Electric (Japan), Erisccon (Sweden), Honeywell (US), FANUC (Japan), AAEON (Taiwan), Turck (US), and Bosch Rexoth (Germany).

Research Coverage:
This research report categorizes the industrial communication marketon the basis ofoffering, communication protocol, vertical, and geography. The report describes the major drivers, restraints, challenges, and opportunities pertaining to the industrial communication market and forecasts the same till 2027 (including analysis of COVID-19 impact on the market). Apart from these, the report also consists of leadership mapping and analysis of all the companies included in the industrial communication ecosystem.
Key Benefits of Buying the Report
The report would help leaders/new entrants in this market in the following ways:
1. This report segments the industrial communication market comprehensively and provides the closest market size projection for all subsegments across different regions.
2. The report helps stakeholders understand the pulse of the market and provides them with information on key drivers, restraints, challenges, and opportunities for market growth.
3. This report would help stakeholders understand their competitors better and gain more insights to improve their position in the business. The competitive landscape section includes competitor ecosystem, product launches, deals, and expansions.
4. The analysis of the top 21 companies, based on the strength of the market rank as well asthe product footprint will help stakeholders visualize the market positioning of these key players.

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