光衛星通信市場：タイプ別（衛星間通信、地上衛星間通信）、コンポーネント別（トランスミッタ、レシーバ、アンプ、トランスポンダ、アンテナ、コンバータ）、用途別、レーザタイプ別、地域別 - 2028年までの世界予測

Optical Satellite Communication Market by Type (Satellite-to-Satellite, Ground-to-Satellite Communication), Component (Transmitter, Receivers, Amplifiers, Transponders, Antenna, Converter), Application, Laser Type and Region - Global Forecast to 2028

光衛星通信市場は、2023年に2億8,200万米ドルと評価され、2023年から2028年までのCAGRは32.1%で、2028年には1億1,300万米ドルに達すると予測されている。過去数十年にわたり、光衛星通信業界は、ユースケースの拡... もっと見る

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光衛星通信市場は、2023年に2億8,200万米ドルと評価され、2023年から2028年までのCAGRは32.1%で、2028年には1億1,300万米ドルに達すると予測されている。過去数十年にわたり、光衛星通信業界は、ユースケースの拡大、コスト効率の向上、世界のデジタルデバイド解消への影響拡大など、進化を続けてきた。高精細ビデオストリーミング、バーチャルリアリティ、モノのインターネット(IoT)デバイスなどのデータ集約型アプリケーションの台頭により、効率的で大容量の通信チャネルが求められている。光通信は膨大なデータ量を管理できるため、有力な選択肢となっている。衛星間通信では、軌道上の衛星間でより高速なデータ転送を可能にする光通信が研究されている。これは、宇宙探査、地球観測、科学研究などのミッションに不可欠である。レーザー技術、光学部品、変調技術のすべてが向上しており、光衛星通信をより現実的でコスト効率の高いものにしている。こうした進歩が参入障壁を下げ、市場拡大を後押ししている。
民間企業や新興企業は、商業衛星サービスから宇宙観光に至るまで、様々な用途で光衛星通信の価値を認識している。これは投資と技術革新を増加させ、この分野を前進させる一助となっている。
光衛星通信は、ますます地上光ネットワークと統合されつつある。この統合は、衛星と地上ネットワーク間のスムーズなデータフローを可能にすることで、通信インフラ全体を改善する可能性を秘めている。FSO、すなわち自由空間光通信は、自由空間（空気または真空）を通じてデータを転送するために光を用いる方法である。この技術は、衛星間、衛星と地上局間、さらには航空機と衛星間の高速通信リンクを構築する目的で研究されている。

用途別では、通信・セルラーバックホール分野が予測期間2023-2028年に最も高い値を記録すると予測されている。
より大容量の光ファイバやマイクロ波ラインを含むバックホール技術の進歩は、より効率的なデータ転送と低遅延を可能にし、光衛星通信にとって重要なコンポーネントとなっている。2020年のCOVID-19の流行により、リモートワークやオンラインコラボレーションソリューションの導入が加速している。その結果、堅牢で高速な接続に対するニーズが高まり、通信ネットワークはバックホール容量の拡大を迫られている。2021年には、5Gネットワークの実装が順調に進んでおり、約束された高速データレートと最小の遅延を提供するために、より小さなセルからなる高密度ネットワークが必要とされ、光衛星通信はそのようなサービスの実装において重要な役割を果たすことは間違いない。
レーザタイプ別では、2023-2028年の予測期間中、GaAsレーザセグメントが市場をリードする。
そのユニークな特徴から、ガリウムヒ素(GaAs)レーザは、光衛星通信の特定のアプリケーションでこのカテゴリを支配している。GaAsは化合物半導体材料であり、ダイオードレーザや垂直共振器面発光レーザ(VCSEL)などのレーザの構築に使用されてきた。GaAsレーザーは、光通信用途に適した近赤外領域の発光が可能であることが基本的な利点である。また、GaAsレーザーは温度安定性が高く、それなりに高い温度でも性能を大幅に劣化させることなく動作させることができる。これらの特性により、GaAsレーザーは温度変化のある宇宙環境での使用に適している。

光衛星通信市場では、2023年から2028年にかけて北米市場が最も大きなシェアを占めると予測されている。
北米では、通信、テレビ、気象監視、危機管理、その他のビジネスが衛星通信に広く依存している。これらの産業では、信頼できる高速通信の必要性が、光衛星通信技術の利用を後押ししている可能性がある。北米では、大学、研究機関、営利企業が技術を推進するために頻繁に連携している。このような協力的な環境は、光衛星通信のような革新的な技術の開発と受け入れを加速させる可能性を秘めている。北米は航空宇宙・防衛産業が盛んで、特に衛星技術に重点を置いている。確立された企業、研究機関、政府機関のすべてが、光通信を含む高度な衛星通信技術の開発と展開に貢献してきた。
光衛星通信市場の主要参入企業のプロファイルの内訳：

- 企業タイプ別：ティア1：35%、ティア2：45%、ティア3：20
- 役職別Cレベル：35%、ディレクターレベル：25%、その他：40
- 地域別北米40％、欧州20％、アジア太平洋30％、中東・アフリカ5％、中南米5

主要企業：Ball Corporation（米国）、Minaric AG（スイス）、Atlas space operations, INC（米国）、SpaceMicro（米国）、Tesat Spacecom GMBH（ドイツ）など。

調査範囲
この調査レポートは、さまざまなセグメントとサブセグメントにわたる光衛星通信市場を対象としています。タイプ、コンポーネント、アプリケーション、レーザタイプ、地域に基づくさまざまな部分にわたって、この市場の規模と成長の可能性を推定することを目的としている。また、この調査には、市場の主要企業の詳細な競合分析、企業プロフィール、製品や事業の提供に関する主な見解、最近の動向、採用した主要な市場戦略も含まれています。
本レポートを購入する理由
本レポートは、光衛星通信市場全体の収益数に最も近い近似値に関する情報を提供し、市場リーダー/新規参入者に役立ちます。本レポートは、利害関係者が競争状況を理解し、自社のビジネスをより良く位置づけ、適切な市場参入戦略を計画するためのより多くの洞察を得るのに役立ちます。また、本レポートは、関係者が市場脈拍を理解し、主要な市場促進要因、阻害要因、課題、機会に関する情報を提供するのに役立ちます。市場の成長は、通信アプリケーション用の低軌道（LEO）衛星と衛星群の打ち上げの増加、レーザーベースの衛星接続の使用の増加、量子鍵配布、衛星間リンク（ISL）の需要の増加に起因することができる。本レポートは、以下のようなポイントに関する洞察を提供している：

- 市場促進要因：市場促進要因：量子鍵配布の需要増加、セキュア通信の必要性など、本レポートで取り上げているその他の促進要因。

- 市場浸透：市場トップ企業が提供する光衛星通信に関する包括的情報

- 製品開発/イノベーション：光衛星通信市場における今後の技術、研究開発活動、新製品発表に関する詳細な洞察

- 市場開発：有利な市場に関する包括的な情報 - 当レポートは、様々な地域の光衛星通信市場を分析しています。

- 市場の多様化：光衛星通信市場における新製品、未開拓の地域、最近の開発、投資に関する網羅的な情報

- 競合評価：光衛星通信市場における主要企業の市場シェア、成長戦略、製品、製造能力に関する詳細な評価

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1 INTRODUCTION 29
1.1 STUDY OBJECTIVES 29
1.2 MARKET DEFINITION 30
1.3 INCLUSIONS AND EXCLUSIONS 30
TABLE 1 OPTICAL SATELLITE COMMUNICATION MARKET: INCLUSIONS AND EXCLUSIONS 30
1.4 MARKET SCOPE 31
1.4.1 MARKETS COVERED 31
FIGURE 1 OPTICAL SATELLITE COMMUNICATION MARKET SEGMENTATION 31
1.4.2 YEARS CONSIDERED 31
1.4.3 REGIONAL SCOPE 32
1.5 LIMITATIONS 32
1.6 CURRENCY CONSIDERED 32
1.7 USD EXCHANGE RATES 33
1.8 MARKET STAKEHOLDERS 33
2 RESEARCH METHODOLOGY 34
2.1 RESEARCH DATA 34
FIGURE 2 REPORT PROCESS FLOW 34
FIGURE 3 OPTICAL SATELLITE COMMUNICATION MARKET: RESEARCH DESIGN 35
2.1.1 SECONDARY DATA 35
2.1.1.1 Key data from secondary sources 36
2.1.2 PRIMARY DATA 36
2.1.2.1 Key data from primary sources 37
2.1.2.2 Breakdown of primaries 37
FIGURE 4 BREAKDOWN OF PRIMARY INTERVIEWS: BY COMPANY TYPE, DESIGNATION, AND REGION 37
2.2 FACTOR ANALYSIS 38
2.2.1 INTRODUCTION 38
2.2.2 DEMAND-SIDE INDICATORS 38
2.2.3 SUPPLY-SIDE INDICATORS 38
2.2.4 RECESSION IMPACT ANALYSIS 39
2.3 MARKET SIZE APPROACH 39
2.3.1 BOTTOM-UP APPROACH 39
2.3.1.1 Market size estimation and methodology 39
TABLE 2 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 39
FIGURE 5 MARKET SIZE ESTIMATION METHODOLOGY: BOTTOM-UP APPROACH 40
2.3.2 TOP-DOWN APPROACH 40
FIGURE 6 MARKET SIZE ESTIMATION METHODOLOGY: TOP-DOWN APPROACH 40
2.4 DATA TRIANGULATION 41
FIGURE 7 DATA TRIANGULATION 41
2.5 RESEARCH ASSUMPTIONS 42
FIGURE 8 RESEARCH ASSUMPTIONS 42
2.6 RESEARCH LIMITATIONS 42
2.7 RISK ANALYSIS 43
3 EXECUTIVE SUMMARY 44
FIGURE 9 GROUND-TO-SATELLITE COMMUNICATION TERMINALS TO HAVE HIGHER CAGR DURING FORECAST PERIOD 44
FIGURE 10 TRANSPONDERS SEGMENT TO GROW AT HIGHEST CAGR DURING FORECAST PERIOD 45
FIGURE 11 GOVERNMENT AND DEFENSE SEGMENT TO DOMINATE MARKET DURING FORECAST PERIOD 45
FIGURE 12 GAAS-BASED LASERS TO HAVE HIGHEST MARKET SHARE DURING FORECAST PERIOD 46
FIGURE 13 NORTH AMERICA TO ACCOUNT FOR LARGEST SHARE OF OPTICAL SATELLITE COMMUNICATION MARKET IN 2023 47
4 PREMIUM INSIGHTS 48
4.1 ATTRACTIVE GROWTH OPPORTUNITIES IN OPTICAL SATELLITE COMMUNICATION MARKET 48
FIGURE 14 INCREASING USE OF OPTICAL SATELLITES FOR SECURED COMMUNICATION TO DRIVE MARKET 48
4.2 OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE 48
FIGURE 15 SATELLITE-TO-SATELLITE COMMUNICATION PAYLOADS TO LEAD MARKET DURING FORECAST PERIOD 48
FIGURE 16 SMALL SATELLITES TO HAVE HIGHEST MARKET SHARE DURING FORECAST PERIOD 49
4.3 OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION 49
FIGURE 17 EARTH OBSERVATION AND REMOTE SENSING TO REGISTER HIGHEST CAGR DURING FORECAST PERIOD 49
4.4 OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT 50
FIGURE 18 TRANSPONDERS SEGMENT TO ACCOUNT FOR LARGEST MARKET SHARE DURING FORECAST PERIOD 50
4.5 OPTICAL SATELLITE COMMUNICATION MARKET, BY LASER TYPE 50
FIGURE 19 GAAS-BASED LASERS TO DOMINATE MARKET DURING FORECAST PERIOD 50
5 MARKET OVERVIEW 51
5.1 INTRODUCTION 51
5.2 MARKET DYNAMICS 52
FIGURE 20 OPTICAL SATELLITE COMMUNICATION MARKET: DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES 52
5.2.1 DRIVERS 52
5.2.1.1 Advantages over conventional RF technologies 52
5.2.1.2 Growing need for secured communication 53
5.2.1.3 Increasing use in space exploration and scientific research 53
5.2.1.4 Advancements in optics and signal processing technology 53
5.2.1.5 Accelerating demand for high-speed free space optics 54
5.2.2 RESTRAINTS 54
5.2.2.1 High installation cost of free space optics 54
5.2.2.2 Stringent government regulations and policies 54
5.2.2.3 Technical limitations 55
5.2.3 OPPORTUNITIES 55
5.2.3.1 Growing adoption of Li-Fi 55
5.2.3.2 Increasing use of cloud-based services 55
5.2.3.3 Increasing use in healthcare and emergency response 56
5.2.4 CHALLENGES 56
5.2.4.1 Electromagnetic compatibility challenges 56
5.2.4.2 Atmospheric interference 56
5.2.4.3 Beam dispersion and signal loss 56
5.2.4.4 Precise pointing and tracking 57
5.3 VALUE CHAIN ANALYSIS OF OPTICAL SATELLITE COMMUNICATION MARKET 57
FIGURE 21 VALUE CHAIN ANALYSIS 57
5.4 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS 58
5.4.1 REVENUE SHIFT AND NEW REVENUE POCKETS FOR OPTICAL SATELLITE COMMUNICATION COMPONENT MANUFACTURERS 58
5.5 OPTICAL SATELLITE COMMUNICATION MARKET ECOSYSTEM 59
5.5.1 PROMINENT COMPANIES 59
5.5.2 PRIVATE AND SMALL ENTERPRISES 59
FIGURE 22 OPTICAL SATELLITE COMMUNICATION MARKET ECOSYSTEM 59
TABLE 3 OPTICAL SATELLITE COMMUNICATION ECOSYSTEM 60
TABLE 4 OPTICAL SATELLITE COMMUNICATION DEVELOPMENT PHASE 60
5.6 PRICING ANALYSIS 61
5.6.1 AVERAGE SELLING PRICE TREND, BY TYPE 61
TABLE 5 AVERAGE SELLING PRICE TRENDS OF OPTICAL SATELLITE COMMUNICATION, BY TYPE, 2022 61
5.7 PORTER’S FIVE FORCES ANALYSIS 62
FIGURE 23 OPTICAL SATELLITE COMMUNICATION MARKET: PORTER’S FIVE FORCES ANALYSIS 62
TABLE 6 OPTICAL SATELLITE COMMUNICATION: PORTER’S FIVE FORCE ANALYSIS 62
5.7.1 THREAT OF NEW ENTRANTS 63
5.7.2 THREAT OF SUBSTITUTES 63
5.7.3 BARGAINING POWER OF SUPPLIERS 64
5.7.4 BARGAINING POWER OF BUYERS 64
5.7.5 INTENSITY OF COMPETITIVE RIVALRY 64
5.8 VOLUME ANALYSIS OF OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2028 65

5.9 REGULATORY LANDSCAPE 65
TABLE 7 NORTH AMERICA: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER AGENCIES 66
TABLE 8 EUROPE: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER AGENCIES 67
TABLE 9 ASIA PACIFIC: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER AGENCIES 68
TABLE 10 REST OF THE WORLD: REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER AGENCIES 69
5.10 KEY STAKEHOLDERS AND BUYING CRITERIA 70
5.10.1 KEY STAKEHOLDERS IN BUYING PROCESS 70
FIGURE 24 INFLUENCE OF STAKEHOLDERS ON BUYING OPTICAL SATELLITE COMMUNICATION, BY TYPE 70
TABLE 11 INFLUENCE OF STAKEHOLDERS ON BUYING OPTICAL SATELLITE COMMUNICATION, BY VERTICAL (%) 70
5.10.2 BUYING CRITERIA 71
FIGURE 25 KEY BUYING CRITERIA FOR OPTICAL SATELLITE COMMUNICATION, BY TYPE 71
TABLE 12 KEY BUYING CRITERIA FOR OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE 71
5.11 EVOLUTION OF OPTICAL SATELLITE COMMUNICATION TECHNOLOGY 72
5.12 TRADE ANALYSIS 73
TABLE 13 COUNTRY-WISE IMPORTS, 2019–2021 (USD THOUSAND) 73
TABLE 14 COUNTRY-WISE EXPORTS, 2019–2021 (USD THOUSAND) 73
5.13 KEY CONFERENCES AND EVENTS, 2023–2024 74
TABLE 15 KEY CONFERENCES AND EVENTS, 2023–2024 74
6 INDUSTRY TRENDS 76
6.1 INTRODUCTION 76
6.2 TECHNOLOGY TRENDS 76
6.2.1 FUSION OF SATELLITE AND 5G NETWORKS 76
6.2.2 HIGH THROUGHPUT SATELLITES (HTS) 77
6.2.3 MINIATURIZATION OF SATELLITES 77
6.2.4 SPACE-AIR-GROUND INTEGRATED NETWORK (SAGIN) 78
6.2.5 INTELLIGENT OPTICAL SATELLITE COMMUNICATION 78
6.2.6 ATP TECHNOLOGY 78
6.2.7 MANNED SPACE ACTIVITY 78
6.2.8 DATA TRANSMISSION FROM OBSERVATION SATELLITES 79
6.3 TECHNOLOGY ANALYSIS 79
6.3.1 RF AND OPTICAL SPACE COMMUNICATIONS SYSTEMS 79
6.3.1.1 Antenna diameter 79
TABLE 16 TECHNOLOGY DIFFERENCE BETWEEN RF SYSTEM AND OPTICAL SYSTEM 80
6.3.1.2 Antenna coverage and tracking accuracy 81
6.3.1.3 Acquisition sequence 81
6.3.1.4 Communications system 81
6.3.2 COMPARISON OF ONBOARD REQUIREMENTS OF RF AND OPTICAL COMMUNICATION SYSTEMS 82
TABLE 17 COMPARISON OF ONBOARD REQUIREMENTS 82
6.4 USE CASE ANALYSIS 83
6.4.1 OPTICAL INTER-SATELLITE COMMUNICATION TECHNOLOGY 83
6.4.2 OPTICAL SATELLITE TRACKING FOR SPACE WARFARE 83
6.4.3 FACTORIZED POWER ARCHITECTURE 84
6.5 IMPACT OF MEGATRENDS 84
6.5.1 GROWTH OF INTERNET OF THINGS (IOT) 84
6.5.2 INCREASING DEMAND FOR GLOBAL CONNECTIVITY 84
6.5.3 DEVELOPMENT OF NEW SPACE TECHNOLOGIES 85
6.6 INNOVATIONS AND PATENT REGISTRATIONS 85
TABLE 18 INNOVATIONS AND PATENT REGISTRATIONS, MAY 2017–APRIL 2023 85
7 OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE 88
7.1 INTRODUCTION 89
FIGURE 26 GROUND-TO-SATELLITE COMMUNICATION TERMINALS TO HOLD HIGHEST CAGR DURING FORECAST PERIOD 89
TABLE 19 OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 89
TABLE 20 OPTICAL SATELLITE COMMUNICATION MARKET, BY PLATFORM, 2023–2028 (USD MILLION) 90
7.2 SATELLITE-TO-SATELLITE COMMUNICATION PAYLOADS 90
TABLE 21 SATELLITE-TO-SATELLITE COMMUNICATION PAYLOADS: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 90
TABLE 22 SATELLITE-TO-SATELLITE COMMUNICATION PAYLOADS: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 91
7.2.1 SMALL SATELLITES 91
7.2.1.1 Rapid data exchange and collaboration among satellites to drive market 91
7.2.2 MEDIUM SATELLITES 91
7.2.2.1 Vital role in expanding inter-satellite communication to drive market 91
7.2.3 LARGE SATELLITES 91
7.2.3.1 Higher payload capacity to drive market 91
7.3 GROUND-TO-SATELLITE COMMUNICATION TERMINALS 92
7.3.1 FIXED TERMINALS 92
7.3.1.1 Need for robust and reliable infrastructure to drive market 92
7.3.2 MOBILE TERMINALS 92
7.3.2.1 Use in disaster management and remote exploration to drive market 92

8 OPTICAL SATELLITE COMMUNICATION MARKET, BY LASER TYPE 93
8.1 INTRODUCTION 94
FIGURE 27 GAAS-BASED LASERS SEGMENT PROJECTED TO LEAD MARKET DURING FORECAST PERIOD 94
TABLE 23 OPTICAL SATELLITE COMMUNICATION MARKET, BY LASER TYPE, 2020–2022 (USD MILLION) 95
TABLE 24 OPTICAL SATELLITE COMMUNICATION MARKET, BY LASER TYPE, 2023–2028 (USD MILLION) 95
8.2 GAAS-BASED LASERS 95
8.2.1 ESCALATING DEMAND FOR HIGH-SPEED DATA TRANSMISSION TO DRIVE MARKET 95
8.3 INP-BASED LASERS 96
8.3.1 HIGH SPEED AND AFFORDABILITY TO DRIVE MARKET 96
8.4 YAG LASERS 96
8.4.1 STABLE COMMUNICATION LINKS AND SPECTRAL EFFICIENCY TO DRIVE MARKET 96
8.5 SOLID STATE-BASED LASERS 96
8.5.1 DATA TRANSMISSION AT WIDER SPECTRUM TO DRIVE MARKET 96
8.6 CO2 LASERS 97
8.6.1 DATA TRANSMISSION OVER LONG DISTANCES WITH HIGH BANDWIDTH TO DRIVE MARKET 97
8.7 OTHER LASER TYPES 97
8.7.1 DEMAND FOR COMPACT AND LIGHTWEIGHT LASERS TO DRIVE MARKET 97
9 OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT 98
9.1 INTRODUCTION 99
FIGURE 28 TRANSPONDERS SEGMENT TO DOMINATE MARKET DURING FORECAST PERIOD 99
TABLE 25 OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 99
TABLE 26 OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 100
9.2 TRANSMITTERS 100
9.2.1 PRECISION AND MODULATION CAPABILITIES TO DRIVE MARKET 100
9.3 RECEIVERS 100
9.3.1 INCREASING USE IN EARTH OBSERVATION APPLICATIONS TO DRIVE MARKET 100
9.4 AMPLIFIERS 101
9.4.1 ABILITY TO REDUCE RISK OF SIGNAL LOSS TO DRIVE MARKET 101
9.5 TRANSPONDERS 101
9.5.1 UTILIZATION IN GROUND AND SPACE COMMUNICATION TO DRIVE MARKET 101
9.6 ANTENNAS 101
9.6.1 INCREASING NEED FOR MORE SECURED COMMUNICATION TO DRIVE MARKET 101
9.7 CONVERTERS 102
9.7.1 DEMAND FOR EFFICIENT SIGNAL EXCHANGE TO DRIVE MARKET 102
9.8 OTHER COMPONENTS 102
9.8.1 TARGET TRACKING AND MULTI-SATELLITE COMMUNICATION TO DRIVE MARKET 102
10 OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION 103
10.1 INTRODUCTION 104
FIGURE 29 GOVERNMENT AND DEFENSE SEGMENT TO LEAD OPTICAL SATELLITE COMMUNICATION MARKET DURING FORECAST PERIOD 104
TABLE 27 OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2020–2022 (USD MILLION) 105
TABLE 28 OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2023–2028 (USD MILLION) 105
10.2 TELECOMMUNICATION AND CELLULAR BACKHAUL 106
10.2.1 INCREASING NEED FOR MOBILE BROADBAND COVERAGE TO DRIVE MARKET 106
10.3 BUSINESSES AND ENTERPRISES 106
10.3.1 USE OF OPTICAL SATELLITE COMMUNICATION FOR HIGH-SPEED INTERNET IN RURAL AND REMOTE AREAS TO DRIVE MARKET 106
10.4 EARTH OBSERVATION AND REMOTE SENSING 107
10.4.1 INCREASING DEMAND FOR ENVIRONMENT MONITORING AND DISASTER TRACKING TO DRIVE MARKET 107
10.5 SCIENTIFIC RESEARCH AND EXPLORATION 107
10.5.1 USE OF SATELLITES FOR COMMERCIALIZATION AND DATA TRANSFERABILITY TO DRIVE MARKET 107
10.6 TRANSPORTATION AND LOGISTICS 107
10.6.1 TECHNOLOGICAL ADVANCEMENTS IN OPTICAL EQUIPMENT TO DRIVE MARKET 107
10.7 GOVERNMENT AND DEFENSE 108
10.7.1 INCREASING NEED FOR SURVEILLANCE TO DRIVE MARKET 108
10.8 OTHER APPLICATIONS 108
10.8.1 INCREASED DATA TRANSMISSION FROM DRONES AND SURVEILLANCE PLATFORMS TO DRIVE MARKET 108
11 OPTICAL SATELLITE COMMUNICATION MARKET, REGIONAL ANALYSIS 109
11.1 INTRODUCTION 110
FIGURE 30 NORTH AMERICA TO LEAD OPTICAL SATELLITE COMMUNICATION MARKET FROM 2023 TO 2028 110
TABLE 29 OPTICAL SATELLITE COMMUNICATION MARKET, BY REGION, 2020–2022 (USD MILLION) 111
TABLE 30 OPTICAL SATELLITE COMMUNICATION MARKET, BY REGION, 2023–2028 (USD MILLION) 111
11.2 RECESSION IMPACT ANALYSIS 112
TABLE 31 REGIONAL RECESSION IMPACT ANALYSIS 112
11.3 NORTH AMERICA 113
11.3.1 NORTH AMERICA: PESTLE ANALYSIS 113
FIGURE 31 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET SNAPSHOT 114
TABLE 32 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 115
TABLE 33 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 115
TABLE 34 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 115
TABLE 35 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 116
TABLE 36 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2020–2022 (USD MILLION) 116
TABLE 37 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2023–2028 (USD MILLION) 117
TABLE 38 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COUNTRY, 2020–2022 (USD MILLION) 117
TABLE 39 NORTH AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COUNTRY, 2023–2028 (USD MILLION) 117
11.3.2 US 118
11.3.2.1 Increased spending by government organizations and private players to drive market 118
TABLE 40 US: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 118
TABLE 41 US: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 118
TABLE 42 US: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 119
TABLE 43 US: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 119
11.3.3 CANADA 119
11.3.3.1 Deployment of optical constellations to drive market 119
TABLE 44 CANADA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 120
TABLE 45 CANADA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 120
TABLE 46 CANADA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 120
TABLE 47 CANADA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 121
11.4 EUROPE 121
11.4.1 EUROPE: PESTLE ANALYSIS 121
FIGURE 32 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET SNAPSHOT 123
TABLE 48 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 123
TABLE 49 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 124
TABLE 50 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 124
TABLE 51 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 124
TABLE 52 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2020–2022 (USD MILLION) 125
TABLE 53 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2023–2028 (USD MILLION) 125
TABLE 54 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY COUNTRY, 2020–2022 (USD MILLION) 126
TABLE 55 EUROPE: OPTICAL SATELLITE COMMUNICATION MARKET, BY COUNTRY, 2023–2028 (USD MILLION) 126
11.4.2 UK 126
11.4.2.1 Initiatives to strengthen network infrastructure to drive market 126
TABLE 56 UK: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 127
TABLE 57 UK: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 127
TABLE 58 UK: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 127
TABLE 59 UK: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 128
11.4.3 GERMANY 128
11.4.3.1 Emergence of secured connections in telecommunication to drive market 128
TABLE 60 GERMANY: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 128
TABLE 61 GERMANY: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 129
TABLE 62 GERMANY: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 129
TABLE 63 GERMANY: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 129
11.4.4 ITALY 130
11.4.4.1 Demand for high-speed data transmission to drive market 130
TABLE 64 ITALY: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 130
TABLE 65 ITALY: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 130
TABLE 66 ITALY: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 131
TABLE 67 ITALY: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 131
11.4.5 FRANCE 131
11.4.5.1 Technological advancements to drive market 131
TABLE 68 FRANCE: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 132
TABLE 69 FRANCE: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 132
TABLE 70 FRANCE: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 132
TABLE 71 FRANCE: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 133

11.4.6 SPAIN 133
11.4.6.1 R&D investments by government and corporate entities to drive market 133
TABLE 72 SPAIN: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 133
TABLE 73 SPAIN: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 134
TABLE 74 SPAIN: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 134
TABLE 75 SPAIN: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 134
11.5 ASIA PACIFIC 135
11.5.1 ASIA PACIFIC: PESTLE ANALYSIS 135
FIGURE 33 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET SNAPSHOT 136
TABLE 76 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 137
TABLE 77 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 137
TABLE 78 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 137
TABLE 79 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 138
TABLE 80 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2020–2022 (USD MILLION) 138
TABLE 81 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2023–2028 (USD MILLION) 139
TABLE 82 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY COUNTRY, 2020–2022 (USD MILLION) 139
TABLE 83 ASIA PACIFIC: OPTICAL SATELLITE COMMUNICATION MARKET, BY COUNTRY, 2023–2028 (USD MILLION) 139
11.5.2 CHINA 140
11.5.2.1 Government support and expanding population to drive market 140
TABLE 84 CHINA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 140
TABLE 85 CHINA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 140
TABLE 86 CHINA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 141
TABLE 87 CHINA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 141
11.5.3 INDIA 142
11.5.3.1 Technological advancements and robust telecommunication sector to drive market 142
TABLE 88 INDIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 142
TABLE 89 INDIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 142
TABLE 90 INDIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 143
TABLE 91 INDIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 143
11.5.4 JAPAN 143
11.5.4.1 Increasing use of satellites for enhanced emergency services to drive market 143
TABLE 92 JAPAN: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 144
TABLE 93 JAPAN: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 144
TABLE 94 JAPAN: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 144
TABLE 95 JAPAN: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 145
11.5.5 AUSTRALIA 145
11.5.5.1 New technologies to drive market 145
TABLE 96 AUSTRALIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 145
TABLE 97 AUSTRALIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 146
TABLE 98 AUSTRALIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 146
TABLE 99 AUSTRALIA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 146
11.6 REST OF THE WORLD 147
11.6.1 REST OF THE WORLD: PESTLE ANALYSIS 147
TABLE 100 REST OF THE WORLD: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 148
TABLE 101 REST OF THE WORLD: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2024–2028 (USD MILLION) 148
TABLE 102 REST OF THE WORLD: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2020–2022 (USD MILLION) 148
TABLE 103 REST OF THE WORLD: OPTICAL SATELLITE COMMUNICATION MARKET, BY APPLICATION, 2023–2028 (USD MILLION) 149
TABLE 104 REST OF THE WORLD: OPTICAL SATELLITE COMMUNICATION MARKET, BY REGION, 2020–2022 (USD MILLION) 149
TABLE 105 REST OF THE WORLD: OPTICAL SATELLITE COMMUNICATION MARKET, BY REGION, 2023–2028 (USD MILLION) 149
11.6.2 MIDDLE EAST & AFRICA 150
11.6.2.1 Technological advancements and innovations to drive market 150
TABLE 106 MIDDLE EAST & AFRICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 150
TABLE 107 MIDDLE EAST & AFRICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 150
TABLE 108 MIDDLE EAST & AFRICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 151
TABLE 109 MIDDLE EAST & AFRICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 151
11.6.3 LATIN AMERICA 151
11.6.3.1 Heightened security needs of governments and businesses to drive market 151
TABLE 110 LATIN AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2020–2022 (USD MILLION) 152
TABLE 111 LATIN AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY TYPE, 2023–2028 (USD MILLION) 152
TABLE 112 LATIN AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2020–2022 (USD MILLION) 152
TABLE 113 LATIN AMERICA: OPTICAL SATELLITE COMMUNICATION MARKET, BY COMPONENT, 2023–2028 (USD MILLION) 153
12 COMPETITIVE LANDSCAPE 154
12.1 INTRODUCTION 154
12.2 COMPANY OVERVIEW 154
TABLE 114 KEY DEVELOPMENTS OF LEADING PLAYERS IN OPTICAL SATELLITE COMMUNICATION, 2020–2022 154
12.3 MARKET RANKING ANALYSIS, 2022 155
FIGURE 34 RANKING OF KEY PLAYERS IN OPTICAL SATELLITE COMMUNICATION MARKET, 2022 155
12.4 COMPANY EVALUATION MATRIX 157
12.4.1 STARS 157
12.4.2 EMERGING LEADERS 157
12.4.3 PERVASIVE PLAYERS 157
12.4.4 PARTICIPANTS 157
FIGURE 35 COMPANY EVALUATION MATRIX, 2023 158
12.5 STARTUP/SME EVALUATION MATRIX 159
12.5.1 PROGRESSIVE COMPANIES 159
12.5.2 RESPONSIVE COMPANIES 159
12.5.3 DYNAMIC COMPANIES 159
12.5.4 STARTING BLOCKS 159
FIGURE 36 STARTUP/SME EVALUATION MATRIX, 2023 160
12.5.5 COMPETITIVE BENCHMARKING 161
TABLE 115 OPTICAL SATELLITE COMMUNICATION MARKET: LIST OF KEY STARTUPS/SMES 161
TABLE 116 OPTICAL SATELLITE COMMUNICATION MARKET: COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES 161
TABLE 117 OPTICAL SATELLITE COMMUNICATION MARKET: COMPETITIVE BENCHMARKING OF KEY PLAYERS 162
12.6 COMPETITIVE SCENARIO 163
12.6.1 MARKET EVALUATION FRAMEWORK 163
12.6.2 PRODUCT LAUNCHES 163
TABLE 118 PRODUCT LAUNCHES, MAY 2023 163
12.6.3 DEALS 164
TABLE 119 DEALS, FEBRUARY 2020–JUNE 2023 164
12.6.4 OTHERS 171
TABLE 120 OTHERS, JANUARY 2022–JUNE 2023 171
13 COMPANY PROFILES 173
13.1 INTRODUCTION 173
13.2 KEY PLAYERS 174
(Business Overview, Products/Services/Solutions Offered, MnM View, Key Strengths and Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats, Recent Developments)*
13.2.1 BALL CORPORATION 174
TABLE 121 BALL CORPORATION: BUSINESS OVERVIEW 174
FIGURE 37 BALL CORPORATION: COMPANY SNAPSHOT 175
TABLE 122 BALL CORPORATION: PRODUCTS/SERVICES/SOLUTIONS OFFERED 175
TABLE 123 BALL CORPORATION: DEALS 176
13.2.2 MYNARIC AG 178
TABLE 124 MYNARIC AG: BUSINESS OVERVIEW 178
FIGURE 38 MYNARIC AG: COMPANY SNAPSHOT 178
TABLE 125 MYNARIC AG: PRODUCTS/SERVICES/SOLUTIONS OFFERED 179
TABLE 126 MYNARIC AG: DEALS 179
13.2.3 BRIDGECOMM INC. 181
TABLE 127 BRIDGECOMM INC.: BUSINESS OVERVIEW 181
TABLE 128 BRIDGECOMM INC.: PRODUCTS/SERVICES/SOLUTIONS OFFERED 181
TABLE 129 BRIDGECOMM INC.: DEALS 181
13.2.4 SPACE MICRO INC. 184
TABLE 130 SPACE MICRO INC.: BUSINESS OVERVIEW 184
TABLE 131 SPACE MICRO INC.: PRODUCTS/SERVICES/SOLUTIONS OFFERED 184
TABLE 132 SPACE MICRO INC.: DEALS 185
13.2.5 TESAT-SPACECOM GMBH & CO. KG 187
TABLE 133 TESAT-SPACECOM GMBH & CO. KG: BUSINESS OVERVIEW 187
TABLE 134 TESAT-SPACECOM GMBH & CO. KG: PRODUCTS/SERVICES/SOLUTIONS OFFERED 187
TABLE 135 TESAT-SPACECOM GMBH & CO. KG: DEALS 188
13.2.6 LIGHTPATH TECHNOLOGIES 190
TABLE 136 LIGHTPATH TECHNOLOGIES: BUSINESS OVERVIEW 190
FIGURE 39 LIGHTPATH TECHNOLOGIES: COMPANY SNAPSHOT 190
TABLE 137 LIGHTPATH TECHNOLOGIES: PRODUCTS/ SERVICES/SOLUTIONS OFFERED 191
13.2.7 SPACEX 192
TABLE 138 SPACEX: BUSINESS OVERVIEW 192
TABLE 139 SPACEX: PRODUCTS/SERVICES/SOLUTIONS OFFERED 192
TABLE 140 SPACEX: DEALS 193
13.2.8 ATLAS SPACE OPERATIONS, INC. 194
TABLE 141 ATLAS SPACE OPERATIONS, INC.: BUSINESS OVERVIEW 194
TABLE 142 ATLAS SPACE OPERATIONS, INC.: PRODUCTS/SERVICES/SOLUTIONS OFFERED 194
TABLE 143 ATLAS SPACE OPERATIONS, INC.: DEALS 195
13.2.9 HONEYWELL INTERNATIONAL INC. 196
TABLE 144 HONEYWELL INTERNATIONAL INC.: BUSINESS OVERVIEW 196
FIGURE 40 HONEYWELL INTERNATIONAL INC.: COMPANY SNAPSHOT 197
TABLE 145 HONEYWELL INTERNATIONAL INC.: PRODUCTS/SERVICES/SOLUTIONS OFFERED 197
TABLE 146 HONEYWELL INTERNATIONAL INC.: PRODUCT LAUNCHES 198
TABLE 147 HONEYWELL INTERNATIONAL INC: DEALS 199
13.2.10 MITSUBISHI ELECTRIC CORPORATION 200
TABLE 148 MITSUBISHI ELECTRIC CORPORATION: BUSINESS OVERVIEW 200
FIGURE 41 MITSUBISHI ELECTRIC CORPORATION: COMPANY SNAPSHOT 200
TABLE 149 MITSUBISHI ELECTRIC CORPORATION: PRODUCTS/SERVICES/SOLUTIONS OFFERED 201
TABLE 150 MITSUBISHI ELECTRIC CORPORATION: OTHERS 201
13.2.11 SONY SPACE COMMUNICATIONS CORPORATION 202
TABLE 151 SONY SPACE COMMUNICATIONS CORPORATION: BUSINESS OVERVIEW 202
TABLE 152 SONY SPACE COMMUNICATIONS CORPORATION: PRODUCTS/SERVICES/SOLUTIONS OFFERED 202
TABLE 153 SONY SPACE COMMUNICATIONS CORPORATION: OTHERS 202
13.2.12 AAC CLYDE SPACE 203
TABLE 154 AAC CLYDE SPACE: BUSINESS OVERVIEW 203
FIGURE 42 AAC CLYDE SPACE: COMPANY SNAPSHOT 203
TABLE 155 AAC CLYDE SPACE: PRODUCTS/SERVICES/SOLUTIONS OFFERED 204
TABLE 156 AAC CLYDE SPACE: OTHERS 204
13.2.13 NEC CORPORATION 205
TABLE 157 NEC CORPORATION: BUSINESS OVERVIEW 205
FIGURE 43 NEC CORPORATION: COMPANY SNAPSHOT 205
TABLE 158 NEC CORPORATION: PRODUCTS/SERVICES/SOLUTIONS OFFERED 206
TABLE 159 NEC CORPORATION: DEALS 206
TABLE 160 NEC CORPORATION: OTHERS 207
13.2.14 SKYLOOM 208
TABLE 161 SKYLOOM: BUSINESS OVERVIEW 208
TABLE 162 SKYLOOM: PRODUCTS/SERVICES/SOLUTIONS OFFERED 208
TABLE 163 SKYLOOM: DEALS 209
13.2.15 GENERAL ATOMICS 210
TABLE 164 GENERAL ATOMICS: BUSINESS OVERVIEW 210
TABLE 165 GENERAL ATOMICS: PRODUCTS/SERVICES/SOLUTIONS OFFERED 210
TABLE 166 GENERAL ATOMICS: DEALS 211
*Business Overview, Products/Services/Solutions Offered, MnM View, Key Strengths and Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats, Recent Developments might not be captured in case of unlisted companies.
13.3 OTHER PLAYERS 212
13.3.1 WARPSPACE 212
TABLE 167 WARPSPACE: COMPANY OVERVIEW 212
13.3.2 HISDESAT 213
TABLE 168 HISDESAT: COMPANY OVERVIEW 213
13.3.3 SITAEL SPA 213
TABLE 169 SITAEL SPA: COMPANY OVERVIEW 213
13.3.4 LASER TECHNOLOGY, INC. 214
TABLE 170 LASER TECHNOLOGY, INC.: COMPANY OVERVIEW 214
13.3.5 TRANSCELESTIAL TECHNOLOGIES 215
TABLE 171 TRANSCELESTIAL TECHNOLOGIES: COMPANY OVERVIEW 215
13.3.6 OXFORD SPACE SYSTEMS LTD. 215
TABLE 172 OXFORD SPACE SYSTEMS LTD.: COMPANY OVERVIEW 215
13.3.7 ASTROGATE 216
TABLE 173 ASTROGATE: COMPANY OVERVIEW 216
13.3.8 HENSOLDT 217
TABLE 174 HENSOLDT: COMPANY OVERVIEW 217
13.3.9 ARCHANGEL LIGHTWORKS LTD. 217
TABLE 175 ARCHANGEL LIGHTWORKS LTD.: COMPANY OVERVIEW 217
13.3.10 XONA SPACE SYSTEMS 218
TABLE 176 XONA SPACE SYSTEMS: COMPANY OVERVIEW 218
14 APPENDIX 219
14.1 DISCUSSION GUIDE 219
14.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 221
14.3 CUSTOMIZATION OPTIONS 223
14.4 RELATED REPORTS 223
14.5 AUTHOR DETAILS 224

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Table of Contents

Summary

The optical satellite communication market is valued at USD 282 million in 2023 and is projected to reach USD 1134 million by 2028, at a CAGR of 32.1% from 2023 to 2028. Over the last few decades, the optical satellite communication industry has continued to evolve with expanding use cases, better cost efficiencies, and a more significant impact on bridging the digital divide worldwide. With the rise of data-intensive applications such as high-definition video streaming, virtual reality, and Internet of Things (IoT) devices, efficient and high-capacity communication channels are required. The ability of optical communication to manage enormous data volumes makes it a favored alternative. For inter-satellite communication, optical communication is being investigated, which would allow for faster data transfer between satellites in orbit. This is critical for missions such as space exploration, Earth observation, and scientific study. Laser technology, optical components, and modulation techniques are all improving, making optical satellite communication more realistic and cost-effective. These advances are lowering entry barriers and propelling market expansion.
Private enterprises and startups are realizing the value of optical satellite communication for a variety of applications ranging from commercial satellite services to space tourism. This has increased investment and innovation & is helping to propel the sector forward.
Optical satellite communication is increasingly being integrated with terrestrial optical networks. This integration has the potential to improve overall communication infrastructure by enabling smooth data flow between satellites and terrestrial networks. FSO, or free-space optical communication, is a method that employs light to transfer data through free space (air or vacuum). This technology is being researched for the purpose of building high-speed communication linkages between satellites, satellite-to-ground stations, and even aircraft and satellites.

Based on application, the telecommunication & cellular backhaul segment is projected to register the highest during the forecast period 2023-2028.
Backhaul technology advancements, including higher-capacity fiber optics and microwave lines, enable more efficient data transfer and lower latency, making them critical components for optical satellite communication. The epidemic of COVID-19 in 2020 has hastened the adoption of remote work and online collaboration solutions. As a result, the need for robust and high-speed connections increased, putting pressure on communications networks to expand their backhaul capacity. In 2021, 5G network implementation is well underway, requiring a denser network of smaller cells to provide the promised fast data rates and minimal latency, optical satellite communication is certainly going to play a key role in the implementation of such services.
Based on laser type, the GaAs laser segment is to lead the market during the forecast period 2023-2028
Due to its unique features, gallium arsenide (GaAs) lasers dominate this category for certain applications in optical satellite communication. GaAs is a compound semiconductor material that has been used in the construction of lasers such as diode lasers and vertical-cavity surface-emitting lasers (VCSELs). The ability of GaAs lasers to emit light in the near-infrared spectrum, which is well-suited for optical communication applications, is a fundamental advantage. They are also temperature stable and can run at reasonably high temperatures without substantial performance deterioration. These characteristics make GaAs lasers appropriate for use in space conditions with temperature changes.

The North American market is projected to contribute the most significant share from 2023 to 2028 in the Optical satellite communication market.
Telecommunications, television, weather monitoring, crisis management, and other businesses rely extensively on satellite communication in North America. The need for dependable and fast communication in these industries may have pushed the use of optical satellite communication technologies. In North America, universities, research organizations, and commercial enterprises frequently combine to promote technology. This collaborative environment has the potential to speed the development and acceptance of innovative technologies such as optical satellite communication. North America has a thriving aerospace and defense industry, with a particular emphasis on satellite technology. Established firms, research organizations, and government agencies have all contributed to the development and deployment of advanced satellite communication technologies, including optical communication.
The break-up of the profile of primary participants in the Optical satellite communication market:

• By Company Type: Tier 1 – 35%, Tier 2 – 45%, and Tier 3 – 20%
• By Designation: C Level – 35%, Director Level – 25%, and Others – 40%
• By Region: North America – 40%, Europe – 20%, Asia Pacific – 30%, Middle East & Africa – 5%, Latin America – 5%

Major companies profiled in the report include Ball Corporation (US), Minaric AG (Switzerland), Atlas space operations, INC (US), SpaceMicro (US), and Tesat Spacecom GMBH (Germany), among others.

Research Coverage:
This market study covers the Optical satellite communication market across various segments and subsegments. It aims to estimate this market's size and growth potential across different parts based on type, components, application, laser type, and region. This study also includes an in-depth competitive analysis of the key players in the market, their company profiles, key observations related to their product and business offerings, recent developments, and key market strategies they adopted.
Reasons to buy this report:
The report will help the market leaders/new entrants with information on the closest approximations of the revenue numbers for the overall optical satellite communication market. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and plan suitable go-to-market strategies. The report also helps stakeholders understand the market pulse and provides information on key market drivers, restraints, challenges, and opportunities. The growth of the market can be attributed to the increasing launch of low earth orbit (LEO) satellites and constellations of satellites for communications applications, increasing usage of laser-based satellite connection, and Increasing demand for Quantum Key Distribution, Inter-Satellite Links (ISLs). The report provides insights on the following pointers:

• Market Drivers: Market Drivers such as the Increasing demand for Quantum Key Distribution, the need for secure communication, and other drivers covered in the report.

• Market Penetration: Comprehensive information on optical satellite communication offered by the top players in the market

• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the optical satellite communication market

• Market Development: Comprehensive information about lucrative markets – the report analyses the optical satellite communication market across varied regions.

• Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the optical satellite communication market

• Competitive Assessment: In-depth assessment of market shares, growth strategies, products, and manufacturing capabilities of leading players in the optical satellite communication market

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請求書は、納品日の日付で発行しますので、翌月最終営業日までの当社指定口座への振込みをお願いします。振込み手数料は御社負担にてお願いします。
お客様の御支払い条件が60日以上の場合は御相談ください。
尚、初めてのお取引先や個人の場合、前払いをお願いすることもあります。ご了承のほど、お願いします。

データリソース社はどのような会社ですか?

当社は、世界各国の主要調査会社・レポート出版社と提携し、世界各国の市場調査レポートや技術動向レポートなどを日本国内の企業・公官庁及び教育研究機関に提供しております。
世界各国の「市場・技術・法規制などの」実情を調査・収集される時には、データリソース社にご相談ください。
お客様の御要望にあったデータや情報を抽出する為のレポート紹介や調査のアドバイスも致します。

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ご注文は、お電話またはWEBから承ります。お見積もりの作成もお気軽にご相談ください。

本レポートと同分野（宇宙・防衛）の最新刊レポート

MarketsandMarkets社のAerospace & Defence分野での最新刊レポート

本レポートと同じKEY WORD（communication）の最新刊レポート

よくあるご質問

MarketsandMarkets社はどのような調査会社ですか?

調査レポートの納品までの日数はどの程度ですか?

注文の手続きはどのようになっていますか?

お支払方法の方法はどのようになっていますか?

データリソース社はどのような会社ですか?