Abstract
Summary
The global M2M satellite communication market is valued at USD 15.5 billion in 2023 and is estimated to reach USD 28.7 billion in 2028, registering a CAGR of 13.1% during the forecast period. The growing demand for monitoring and remote management of connected devices stands as a pivotal market driver propelling the growth of M2M satellite communication. As the world becomes increasingly interconnected through the IoT, industries and enterprises are deploying a myriad of connected devices across diverse sectors, such as agriculture, healthcare, transportation, and manufacturing. This surge in connected devices necessitates efficient and reliable communication channels, especially in remote or inaccessible locations where traditional networks may be unreliable or unavailable. M2M satellite communication emerges as a solution to bridge these connectivity gaps, ensuring seamless data transmission and control over dispersed and geographically distant devices. The ability to monitor, track, and manage these devices remotely enhances operational efficiency, reduces downtime, and enables timely decision-making. Consequently, the growing reliance on M2M satellite communication to facilitate the connectivity and control of connected devices is steering the trajectory of the market, creating a robust and expanding ecosystem that addresses the evolving needs of a connected world.
“By offering, the hardware segment is projected to hold the largest market size during the forecast period.”
In the rapidly evolving field of M2M satellite communication, several companies are actively engaged in offering comprehensive hardware solutions, including terminals, modems, and antennas. These components play a crucial role in enabling seamless connectivity and data transfer between remote devices and satellite networks; technology advances and hardware offerings in the M2M satellite communication market continue to evolve, with a focus on improving performance, reducing size and power consumption, and addressing the unique challenges associated with remote deployments. Companies in this sector often differentiate themselves through innovation, ensuring that their hardware solutions meet the demanding requirements of a broad range of M2M applications.
“By software type, Geospatial Analysis and mapping software is registered to grow at the highest CAGR during the forecast period.”
Geospatial analysis and mapping refer to specialized tools and applications designed to analyze, visualize, and interpret location-based data collected from satellite-connected devices. This software integrates geospatial information with data generated by M2M devices, offering a comprehensive view of spatial relationships, patterns, and trends. In the M2M context, where devices are often dispersed across vast and remote areas, geospatial analysis and mapping software provide valuable insights for applications such as environmental monitoring, precision agriculture, and logistics. It allows organizations to leverage satellite communication capabilities to track the geographical locations of devices, assess environmental conditions, and optimize decision-making processes based on spatial data.
“Asia Pacific is projected to witness the highest CAGR during the forecast period.”
The Asia-Pacific region is currently experiencing a notable surge in the military satellite communications (SATCOM) industry, with countries like Australia, India, Japan, and South Korea taking the lead in defense spending and the initiation of military SATCOM projects and programs. The growth potential in this sector is substantial, encompassing both the space and ground segments, including satellites, ground stations, and associated components and services. Partnerships, particularly between foreign and domestic companies, are crucial for expanding market presence. By supporting local supply chains and value networks, these collaborations foster an environment conducive to industry growth. The region's overall progress in infrastructure and technological capabilities, particularly in areas like 5G, reflects a broader embrace of the digital revolution across industries. Countries like Malaysia and Singapore are standing out in global rankings for 5G speed and performance, showcasing the region's commitment to technological advancement in various sectors, including defense and military communications.
Breakdown of primaries
In-depth interviews were conducted with Chief Executive Officers (CEOs), innovation and technology directors, system integrators, and executives from various key organizations operating in the M2M satellite communication market.
By Company: Tier I: 35%, Tier II: 45%, and Tier III: 20%
By Designation: C-Level Executives: 35%, Directors: 25%, and Others: 40%
By Region: North America: 45%, Europe: 20%, Asia Pacific: 30%, RoW: 5%
Major vendors offering M2M satellite communication hardware, software and services across the globe are Marlink (France), Viasat (US), Thales (France), ORBCOMM (US), Iridium Communications (US), Globalstar (US), Orange (France), EchoStar (US), Intelsat (US), Rogers Communications (Canada), SES (Luxembourg), Gilat (Israel), Telia (Sweden), Kore Wireless (US), Honeywell (US), Qualcomm (US), Telesat (Canada), Wireless Logic (England), Outerlink Global Solutions (US), Nupoint Systems (Canada), Businesscom Networks (US), Semtech (US), Yahsat (UAE).
Research Coverage
The market study covers M2M satellite communication across segments. It aims at estimating the market size and the growth potential across different segments, such as offering, technology, vertical, and region. It includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to product and business offerings, recent developments, and key market strategies.
Key Benefits of Buying the Report
The report would provide the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall market for M2M satellite communication and its subsegments. It would help stakeholders understand the competitive landscape and gain more insights better to position their business and plan suitable go-to-market strategies. It also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities.
The report provides insights on the following pointers:
• Analysis of key drivers (Rising need for enriched data communication, The surge in IoT proliferation drives the demand for M2M satellite communication, The escalating demand for monitoring and remote management of connected devices boosts the market), restraints (Limited bandwidth and latency issues and Cost constraints hinder the widespread adoption of M2M satellite communication), opportunities (Conjunction of satellite and terrestrial mobile technology, To enhance global connectivity in remote areas), and challenges (Growing security concerns and Interference and signal quality issues pose a challenge for M2M satellite communication) influencing the growth of the M2M satellite communication market
• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the M2M satellite communication market.
• Market Development: Comprehensive information about lucrative markets – the report analyses the M2M satellite communication market across varied regions.
• Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in M2M satellite communication market strategies; the report also helps stakeholders understand the pulse of the M2M satellite communication market and provides them with information on key market drivers, restraints, challenges, and opportunities.
• Competitive Assessment: In-depth assessment of market shares, growth strategies and service offerings of leading players such as Viasat (US), Thales (France), Rogers Communications (Canada), EchoStar (US) and SES (Luxembourg) among others in the M2M satellite communication market.
Table of Contents
1 INTRODUCTION 33
1.1 STUDY OBJECTIVES 33
1.2 MARKET DEFINITION 33
1.2.1 INCLUSIONS AND EXCLUSIONS 34
1.3 MARKET SCOPE 35
1.3.1 MARKET SEGMENTATION 35
1.4 CURRENCY CONSIDERED 37
1.5 STAKEHOLDERS 37
1.6 SUMMARY OF CHANGES 38
2 RESEARCH METHODOLOGY 39
2.1 RESEARCH DATA 39
2.1.1 SECONDARY DATA 40
2.1.2 PRIMARY DATA 40
- 2.1.2.1 Breakup of primary profiles 41
- 2.1.2.2 Key industry insights 41
2.2 DATA TRIANGULATION 42
2.3 MARKET SIZE ESTIMATION 43
2.3.1 TOP-DOWN APPROACH 43
2.3.2 BOTTOM-UP APPROACH 44
2.4 GROWTH FORECAST 47
2.5 RESEARCH ASSUMPTIONS 48
2.6 STUDY LIMITATIONS 50
2.7 IMPLICATIONS OF RECESSION ON M2M SATELLITE COMMUNICATION MARKET 50
3 EXECUTIVE SUMMARY 52
4 PREMIUM INSIGHTS 58
4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN M2M SATELLITE COMMUNICATION MARKET 58
4.2 M2M SATELLITE COMMUNICATION MARKET, BY OFFERING 58
4.3 M2M SATELLITE COMMUNICATION MARKET, BY OFFERING AND KEY VERTICALS 59
4.4 M2M SATELLITE COMMUNICATION MARKET, BY REGION 59
5 MARKET OVERVIEW AND INDUSTRY TRENDS 60
5.1 INTRODUCTION 60
5.2 MARKET DYNAMICS 60
5.2.1 DRIVERS 61
- 5.2.1.1 Escalating need for enriched data communication 61
- 5.2.1.2 Surge in IoT proliferation 61
- 5.2.1.3 Growing demand for monitoring and remote management of connected devices 61
5.2.2 RESTRAINTS 62
- 5.2.2.1 Limited bandwidth and latency issues 62
- 5.2.2.2 Cost constraints hindering widespread adoption of M2M satellite communications 62
5.2.3 OPPORTUNITIES 62
- 5.2.3.1 Co-existence of satellite and terrestrial communications solutions 62
- 5.2.3.2 Global connectivity in remote areas 62
5.2.4 CHALLENGES 63
- 5.2.4.1 Growing security concerns 63
- 5.2.4.2 Interference of external factors and signal quality issues 63
5.3 INDUSTRY TRENDS 64
5.3.1 M2M SATELLITE COMMUNICATION MARKET: ARCHITECTURE 64
5.3.2 M2M SATELLITE COMMUNICATION MARKET: EVOLUTION 66
5.3.3 SUPPLY CHAIN ANALYSIS 68
5.3.4 ECOSYSTEM/MARKET MAP 69
- 5.3.4.1 Software or platform providers 70
- 5.3.4.2 Hardware providers 70
- 5.3.4.3 Service providers 70
- 5.3.4.4 Regulatory bodies 70
5.3.5 CASE STUDY ANALYSIS 71
- 5.3.5.1 CASE STUDY 1: RFI overcame Cannes Festival network congestion using Marlink’s VSAT and Satcube 71
- 5.3.5.2 CASE STUDY 2: Thuraya’s Push-To-Talk solution revolutionized maritime communications for luxury yachts 71
- 5.3.5.3 CASE STUDY 3: British Army enhanced remote telemedicine in Mali using Intelsat's FlexMove and Satcube terminal 72
- 5.3.5.4 CASE STUDY 4: GOST enhances marine security with ORBCOMM for theft prevention and vessel protection 72
- 5.3.5.5 CASE STUDY 5: IGC boosts military satellite network performance with iDirect evolution on Intelsat Epic 73
5.3.6 TARIFF AND REGULATORY LANDSCAPE 74
- 5.3.6.1 Tariffs related to M2M satellite communication market 74
- 5.3.6.2 Regulatory bodies, government agencies, and other organizations 75
- 5.3.6.3 North America 79
- 5.3.6.3.1 US 79
- 5.3.6.3.2 Canada 79
- 5.3.6.4 Europe 80
- 5.3.6.5 Asia Pacific 80
- 5.3.6.5.1 China 80
- 5.3.6.5.2 India 80
- 5.3.6.5.3 Japan 80
- 5.3.6.6 Middle East & Africa 80
- 5.3.6.6.1 UAE 80
- 5.3.6.6.2 KSA 81
- 5.3.6.6.3 Nigeria 81
- 5.3.6.7 Latin America 81
- 5.3.6.7.1 Brazil 81
- 5.3.6.7.2 Mexico 81
5.3.7 PATENT ANALYSIS 81
- 5.3.7.1 Methodology 81
- 5.3.7.2 Patents filed, by document type 81
- 5.3.7.3 Innovation and patent applications 82
- 5.3.7.3.1 Top 10 applicants in M2M satellite communication market 82
5.3.8 TRADE ANALYSIS 85
- 5.3.8.1 Import scenario of antennas and antenna reflectors 85
- 5.3.8.2 Export scenario of antennas and antenna reflectors 86
5.3.9 TECHNOLOGY ANALYSIS 87
- 5.3.9.1 Key technologies 87
- 5.3.9.1.1 Telemetry 87
- 5.3.9.1.2 VSAT 88
- 5.3.9.1.3 AIS 88
- 5.3.9.2 Complementary technologies 89
- 5.3.9.2.1 AI/ML 89
- 5.3.9.2.2 IoT 89
- 5.3.9.2.3 Big Data & Analytics 90
- 5.3.9.3 Adjacent technologies 90
- 5.3.9.3.1 AR/VR 90
- 5.3.9.3.2 Digital twin 91
- 5.3.9.3.3 5G technology & networking 91
- 5.3.9.1 Key technologies 87
5.3.10 PRICING ANALYSIS 92
- 5.3.10.1 Average selling price trends of key players, by hardware 92
- 5.3.10.2 Indicative pricing analysis by M2M satellite communication vendors, by service 93
5.3.11 INVESTMENT AND FUNDING SCENARIO 93
5.3.12 PORTER’S FIVE FORCES ANALYSIS 94
- 5.3.12.1 Threat from new entrants 95
- 5.3.12.2 Threat of substitutes 95
- 5.3.12.3 Bargaining power of suppliers 95
- 5.3.12.4 Bargaining power of buyers 95
- 5.3.12.5 Intensity of competition rivalry 95
5.3.13 TRENDS/DISRUPTIONS IMPACTING CUSTOMER’S BUSINESS 96
5.3.14 KEY CONFERENCES & EVENTS IN 2024-2025 97
5.3.15 KEY STAKEHOLDERS AND BUYING CRITERIA 98
- 5.3.15.1 Key stakeholders in buying process 98
- 5.3.15.2 Buying criteria 99
5.3.16 TECHNOLOGY ROADMAP OF M2M SATELLITE COMMUNICATION MARKET 99
5.3.17 BUSINESS MODELS OF M2M SATELLITE COMMUNICATION MARKET 101
- 5.3.17.1 Subscription-based model 101
- 5.3.17.2 Pay-per-use model 102
- 5.3.17.3 Vertical-specific solutions 102
- 5.3.17.4 Platform as a service (PaaS) 102
- 5.3.17.5 Integrated hardware and service bundles 102
5.3.18 TYPE OF SATELLITE COMMUNICATION SERVICES 102
- 5.3.18.1 Telecommunication services 102
- 5.3.18.2 Broadcasting services 103
- 5.3.18.3 Data communications services 103
5.3.19 TYPE OF SATELLITE COMMUNICATION CHANNELS 103
6 M2M SATELLITE COMMUNICATION MARKET, BY OFFERING 105
6.1 INTRODUCTION 106
6.1.1 OFFERING: M2M SATELLITE COMMUNICATION MARKET DRIVERS 106
6.2 HARDWARE 107
6.2.1 INCREASING ADOPTION OF IOT SOLUTIONS TO FUEL DEMAND FOR ROBUST HARDWARE 107
6.2.2 ANTENNAS 109
- 6.2.2.1 Parabolic antennas 110
- 6.2.2.2 Flat panel antennas 111
- 6.2.2.3 Patch antennas 111
- 6.2.2.4 Others 112
6.2.3 TERMINALS 112
- 6.2.3.1 Ruggedized terminals 114
- 6.2.3.2 Compact terminals 114
- 6.2.3.3 Machine-to-machine (M2M) modules 115
- 6.2.3.4 Others 115
6.2.4 MODEMS 116
- 6.2.4.1 Satellite modems 117
- 6.2.4.1.1 Low-power modems 117
- 6.2.4.1.2 High-throughput modems 118
- 6.2.4.2 Others 118
- 6.2.4.1 Satellite modems 117
6.2.5 OTHER HARDWARE 118
6.3 SOFTWARE 120
6.3.1 INCREASING DEMAND FOR REAL-TIME DATA ANALYTICS AND SECURE CONNECTIVITY IN REMOTE LOCATIONS TO DRIVE DEMAND 120
6.3.2 CONNECTIVITY MANAGEMENT PLATFORM 122
- 6.3.2.1 Network management software 123
- 6.3.2.2 Device provisioning and management 123
6.3.3 DATA PROCESSING & ANALYTICS SOFTWARE 124
- 6.3.3.1 Edge computing software 125
- 6.3.3.2 Data analytics platform 125
- 6.3.3.3 Big data analytics 126
6.3.4 SECURITY & ENCRYPTION SOFTWARE 126
- 6.3.4.1 Data encryption software 127
- 6.3.4.2 Authentication mechanisms 128
- 6.3.4.3 Security protocols 128
- 6.3.4.4 VPNs 128
6.3.5 REMOTE MONITORING & CONTROL SOFTWARE 129
- 6.3.5.1 SCADA (Supervisory Control and Data Acquisition) systems 130
- 6.3.5.2 Command and control software 130
6.3.6 GEOSPATIAL ANALYSIS & MAPPING SOFTWARE 130
- 6.3.6.1 Geographic information system (GIS) software 131
- 6.3.6.2 Satellite imaging and interpretation tools 132
- 6.3.6.3 Geospatial software 132
6.3.7 OTHER SOFTWARE 132
6.4 SERVICES 134
6.4.1 INCREASING DEMAND FOR RELIABLE AND GLOBAL CONNECTIVITY IN REMOTE OR CHALLENGING ENVIRONMENTS TO DRIVE MARKET 134
6.4.2 DATA SERVICES 136
- 6.4.2.1 Data transmission services 137
- 6.4.2.2 Data analytics and reporting services 137
6.4.3 VOICE SERVICES 137
- 6.4.3.1 Voice connectivity services 138
- 6.4.3.2 Push-to-talk services 139
6.4.4 SATELLITE SERVICES 139
- 6.4.4.1 Telemetry and remote monitoring services 140
- 6.4.4.2 Satellite IoT platform services 141
- 6.4.4.3 Geospatial services 141
6.4.5 SECURITY SERVICES 141
- 6.4.5.1 Device management services 143
- 6.4.5.2 Regulatory compliance services 143
6.4.6 BUSINESS SERVICES 143
- 6.4.6.1 Custom application development services 144
- 6.4.6.2 Consulting and integration services 145
- 6.4.6.3 Training and support services 145
- 6.4.6.4 Cloud services 146
7 M2M SATELLITE COMMUNICATION MARKET, BY TECHNOLOGY 147
7.1 INTRODUCTION 148
7.1.1 TECHNOLOGY: M2M SATELLITE COMMUNICATION MARKET DRIVERS 148
7.2 SATELLITE CONSTELLATION 150
7.2.1 NEED FOR GLOBAL CONNECTIVITY TO DRIVE MARKET 150
7.2.2 LOW EARTH ORBIT 152
7.2.3 MEDIUM EARTH ORBIT 153
7.2.4 GEOSTATIONARY ORBIT 154
7.3 DATA TRANSMISSION 155
7.3.1 INCREASING ADOPTION OF M2M COMMUNICATION IN REAL-TIME APPLICATIONS TO BOOST MARKET 155
7.3.2 MODULATION SCHEMES 156
7.3.3 ERROR CORRECTION AND COMPRESSION 156
7.4 VERY SMALL APERTURE TERMINAL 157
7.4.1 EASE OF DEPLOYMENT AND ADAPTABILITY TO FUEL MARKET 157
7.5 AUTOMATIC IDENTIFICATION SYSTEM 158
7.5.1 IMPERATIVE FOR IMPROVED MARITIME SAFETY AND NAVIGATION TO DRIVE MARKET 158
7.6 NETWORKING 159
7.6.1 INCREASING DEMAND FOR GLOBAL AND RELIABLE CONNECTIVITY TO BOOST MARKET 159
7.6.2 NARROWBAND IOT 160
7.6.3 LONG-TERM EVOLUTION FOR MACHINES 160
7.6.4 LONG-RANGE WIDE AREA NETWORK 160
7.7 SATELLITE COMMUNICATION PROTOCOL 161
7.7.1 STANDARDIZATION AND INTEROPERABILITY OF COMMUNICATION PROTOCOLS TO DRIVE MARKET 161
7.7.2 DIGITAL VIDEO BROADCASTING-SATELLITE-SECOND GENERATION 162
7.7.3 DUAL-TONE MULTI-FREQUENCY SIGNALING 162
7.7.4 SINGLE CHANNEL PER CARRIER 162
7.8 OTHER TECHNOLOGIES 163
8 M2M SATELLITE COMMUNICATION MARKET, BY VERTICAL 164
8.1 INTRODUCTION 165
8.1.1 VERTICAL: M2M SATELLITE COMMUNICATION MARKET DRIVERS 165
8.2 MINING 168
8.2.1 ASSET TRACKING & MANAGEMENT 169
8.2.2 SAFETY & EMERGENCY RESPONSE 170
8.2.3 ENVIRONMENTAL MONITORING AND COMPLIANCE 170
8.2.4 REMOTE OPERATIONS AND CONTROL 170
8.2.5 OTHER MINING APPLICATIONS 171
8.3 AGRICULTURE 171
8.3.1 PRECISION FARMING 173
8.3.2 CROP MONITORING 173
8.3.3 LIVESTOCK TRACKING 173
8.3.4 IRRIGATION CONTROL 173
8.3.5 SOIL CONDITION MONITORING 174
8.3.6 OTHERS 174
8.4 ENERGY & UTILITIES 174
8.4.1 SMART GRID MONITORING 176
8.4.2 OIL & GAS PIPELINE MONITORING 177
8.4.3 REMOTE MONITORING OF ENERGY INFRASTRUCTURE 177
8.4.4 WIND TURBINE CONDITION MONITORING 178
8.4.5 SOLAR FARM PERFORMANCE MONITORING 178
8.4.6 SMART METERING 179
8.4.7 WATER RESOURCE MANAGEMENT 179
8.4.8 GAS PIPELINE MONITORING 180
8.4.9 UTILITY POLE MONITORING 180
8.4.10 SUBSTATION MONITORING 180
8.4.11 OTHERS 181
8.5 GOVERNMENT & PUBLIC SECTOR 181
8.5.1 ENVIRONMENTAL MONITORING 183
- 8.5.1.1 Weather station data collection 183
- 8.5.1.2 Air quality monitoring 184
- 8.5.1.3 Water quality monitoring 184
- 8.5.1.4 Forest fire detection 184
- 8.5.1.5 Natural disaster monitoring 185
- 8.5.1.6 Others 185
8.5.2 DISASTER MANAGEMENT 185
- 8.5.2.1 Remote sensing for disaster assessment 186
- 8.5.2.2 Emergency communication 186
- 8.5.2.3 Search and rescue operations 186
- 8.5.2.4 Post-disaster infrastructure monitoring 187
- 8.5.2.5 Evacuation route monitoring 187
- 8.5.2.6 Others 187
8.5.3 SMART CITIES MANAGEMENT 188
- 8.5.3.1 Traffic management 188
- 8.5.3.2 Public infrastructure monitoring 188
- 8.5.3.3 Waste management optimization 189
- 8.5.3.4 Environmental monitoring in urban areas 189
- 8.5.3.5 Smart street lighting 189
- 8.5.3.6 Others 190
8.5.4 OTHERS 190
8.6 AUTOMOTIVE & TRANSPORTATION 191
8.6.1 FLEET MANAGEMENT 192
8.6.2 SAFETY AND EMERGENCY RESPONSE 193
8.6.3 ENVIRONMENTAL MONITORING AND COMPLIANCE 193
8.6.4 REMOTE OPERATIONS AND CONTROL 193
8.6.5 OTHER AUTOMOTIVE & TRANSPORTATION APPLICATIONS 194
8.7 MARITIME 194
8.7.1 VESSEL TRACKING 196
8.7.2 MARITIME SAFETY & NAVIGATION 196
8.7.3 FISHERIES MONITORING 196
8.7.4 OCEANOGRAPHIC DATA COLLECTION 197
8.7.5 ICEBERG DETECTION 197
8.7.6 OTHER MARITIME APPLICATIONS 197
8.8 RETAIL 198
8.8.1 SUPPLY CHAIN MONITORING 199
8.8.2 INVENTORY MANAGEMENT 200
8.8.3 POINT-OF-SALE DATA ANALYTICS 200
8.8.4 SHELF AND MERCHANDISE TRACKING 200
8.8.5 OTHER RETAIL APPLICATIONS 201
8.9 MILITARY & DEFENSE 201
8.9.1 BORDER CONTROL & SURVEILLANCE 203
8.9.2 MILITARY ASSET TRACKING 203
8.9.3 DISASTER RESPONSE COORDINATION 203
8.9.4 INTELLIGENCE GATHERING 204
8.9.5 OTHER MILITARY & DEFENSE APPLICATIONS 204
8.10 MANUFACTURING 204
8.10.1 INVENTORY MANAGEMENT 206
8.10.2 PREDICTIVE MAINTENANCE 206
8.10.3 PROCESS MONITORING 207
8.10.4 INTELLIGENCE GATHERING 207
8.10.5 OTHER MANUFACTURING APPLICATIONS 207
8.11 HEALTHCARE 208
8.11.1 TELEMEDICINE & REMOTE PATIENT MONITORING 209
8.11.2 EMS CONNECTIVITY 210
8.11.3 CONNECTED MEDICAL DEVICES 210
8.11.4 DRUG & VACCINE SUPPLY CHAIN MANAGEMENT 210
8.11.5 OTHER HEALTHCARE APPLICATIONS 211
8.12 OTHER VERTICALS 211
9 M2M SATELLITE COMMUNICATION MARKET, BY REGION 213
9.1 INTRODUCTION 214
9.2 NORTH AMERICA 216
9.2.1 NORTH AMERICA: M2M SATELLITE COMMUNICATION MARKET DRIVERS 216
9.2.2 NORTH AMERICA: IMPACT OF RECESSION 216
9.2.3 US 223
- 9.2.3.1 Modernization of satellite infrastructure to propel growth of market 223
9.2.4 CANADA 224
- 9.2.4.1 Strategic investments in satellite technology to foster market growth 224
9.3 EUROPE 225
9.3.1 EUROPE: M2M SATELLITE COMMUNICATION MARKET DRIVERS 225
9.3.2 EUROPE: IMPACT OF RECESSION 225
9.3.3 UK 232
- 9.3.3.1 Strategic investments and innovations in satellite technology driving M2M communication growth in UK 232
9.3.4 GERMANY 233
- 9.3.4.1 Advancements in hyperspectral satellite technology and strategic research propel to drive growth 233
9.3.5 FRANCE 234
- 9.3.5.1 Advancements in military satellite technology and international collaborations to support market growth 234
9.3.6 SPAIN 235
- 9.3.6.1 Focus on 5G, satellite upgrades, and space agency development to boost market 235
9.3.7 ITALY 236
- 9.3.7.1 Vibrant tech ecosystem and strategic government initiatives to drive market 236
9.3.8 REST OF EUROPE 236
9.4 ASIA PACIFIC 237
9.4.1 ASIA PACIFIC: M2M SATELLITE COMMUNICATION MARKET DRIVERS 237
9.4.2 ASIA PACIFIC: IMPACT OF RECESSION 237
9.4.3 CHINA 244
- 9.4.3.1 Focus on IoT and machine-to-machine services driving M2M satellite communication market 244
9.4.4 JAPAN 245
- 9.4.4.1 Increasing reliance on IoT, smart city initiatives, and defense applications to drive growth 245
9.4.5 INDIA 245
- 9.4.5.1 Expanding telecom sector and robust infrastructure of Indian National Satellite system promoting market growth 245
9.4.6 SOUTH KOREA 246
- 9.4.6.1 Strategic push for advanced military surveillance driving demand for M2M satellite communication 246
9.4.7 AUSTRALIA & NEW ZEALAND 247
- 9.4.7.1 Rising demand for remote enterprise connectivity and enhanced air traffic safety to drive market 247
9.4.8 ASEAN COUNTRIES 247
- 9.4.8.1 Rapid digitalization fueling demand for M2M satellite communication 247
9.4.9 REST OF ASIA PACIFIC 248
9.5 MIDDLE EAST & AFRICA 248
9.5.1 MIDDLE EAST & AFRICA: M2M SATELLITE COMMUNICATION MARKET DRIVERS 249
9.5.2 MIDDLE EAST & AFRICA: IMPACT OF RECESSION 249
9.5.3 UAE 256
- 9.5.3.1 Strategic partnerships and government investments to propel growth in UAE 256
9.5.4 SAUDI ARABIA 256
- 9.5.4.1 Enhanced satellite infrastructure to meet growing connectivity demands to drive market 256
9.5.5 SOUTH AFRICA 257
- 9.5.5.1 Growing demand for local satellites fostering economic development 257
9.5.6 EGYPT 257
- 9.5.6.1 Advancements in space program to drive M2M satellite communication growth 257
9.5.7 TURKEY 258
- 9.5.7.1 Strong commitment to space innovation to drive growth of M2M satellite communication market 258
9.5.8 REST OF MIDDLE EAST & AFRICA 258
9.6 LATIN AMERICA 258
9.6.1 LATIN AMERICA: M2M SATELLITE COMMUNICATION MARKET DRIVERS 259
9.6.2 LATIN AMERICA: IMPACT OF RECESSION 259
9.6.3 BRAZIL 265
- 9.6.3.1 Expansive territories and global coverage by key providers fueling market for M2M satellite communication 265
9.6.4 MEXICO 266
- 9.6.4.1 Integration of MEXSAT satellites and SIRIS platform driving growth of M2M satellite communication 266
9.6.5 ARGENTINA 266
- 9.6.5.1 Inter-American Development Bank investment to support Argentina's M2M satellite growth 266
9.6.6 REST OF LATIN AMERICA 267
10 COMPETITIVE LANDSCAPE 268
10.1 OVERVIEW 268
10.2 KEY PLAYER STRATEGIES 268
10.3 REVENUE ANALYSIS 270
10.4 MARKET SHARE ANALYSIS 271
10.5 BRAND/PRODUCT COMPARATIVE ANALYSIS 272
10.6 COMPANY EVALUATION MATRIX, 2022 272
10.6.1 STARS 272
10.6.2 EMERGING LEADERS 272
10.6.3 PERVASIVE PLAYERS 273
10.6.4 PARTICIPANTS 273
10.6.5 FOOTPRINT OF KEY PLAYERS 274
10.7 STARTUP/SME EVALUATION MATRIX, 2022 278
10.7.1 PROGRESSIVE COMPANIES 278
10.7.2 RESPONSIVE COMPANIES 278
10.7.3 DYNAMIC COMPANIES 278
10.7.4 STARTING BLOCKS 278
10.7.5 COMPETITIVE BENCHMARKING 280
10.8 COMPETITIVE SCENARIO AND TRENDS 281
10.8.1 PRODUCT LAUNCHES 281
10.8.2 DEALS 283
10.8.3 OTHERS 286
10.9 VALUATION AND FINANCIAL METRICS OF KEY VENDORS 286
10.10 YTD PRICE TOTAL RETURN AND STOCK BETA OF KEY VENDORS 287
11 COMPANY PROFILES 288
11.1 INTRODUCTION 288
11.2 KEY PLAYERS 288
11.2.1 MARLINK 288
11.2.2 VIASAT 295
11.2.3 THALES 302
11.2.4 ORBCOMM 312
11.2.5 IRIDIUM COMMUNICATIONS 315
11.2.6 GLOBALSTAR 321
11.2.7 ORANGE 326
11.2.8 ECHOSTAR 331
11.2.9 INTELSAT 337
11.2.10 ROGERS COMMUNICATIONS 345
11.2.11 SES 349
11.2.12 GILAT 357
11.3 OTHER PLAYERS 362
11.3.1 TELIA 362
11.3.2 KORE WIRELESS 363
11.3.3 HONEYWELL 364
11.3.4 QUALCOMM 365
11.3.5 TELESAT 366
11.3.6 WIRELESS LOGIC 367
11.3.7 OUTERLINK GLOBAL SOLUTIONS 368
11.3.8 NUPOINT SYSTEMS 369
11.3.9 BUSINESSCOM NETWORKS 370
11.3.10 SEMTECH 371
11.3.11 YAHSAT 372
11.4 STARTUPS/SMES 373
11.4.1 AST SPACEMOBILE 373
11.4.2 ASTROCAST 374
11.4.3 SKY AND SPACE GLOBAL 375
11.4.4 SAT4M2M 376
11.4.5 HIBER 377
11.4.6 ALEN SPACE 378
11.4.7 SATELIOT 378
12 ADJACENT AND RELATED MARKETS 379
12.1 ADJACENT AND RELATED MARKETS 379
12.1.1 INTRODUCTION 379
12.2 SATELLITE IOT MARKET - GLOBAL FORECAST TO 2027 379
12.2.1 MARKET DEFINITION 379
12.2.2 MARKET OVERVIEW 379
12.2.3 SATELLITE IOT MARKET, BY SERVICE TYPE 380
12.2.4 SATELLITE IOT MARKET, BY FREQUENCY BAND 381
12.2.5 SATELLITE IOT MARKET, BY ORGANIZATION SIZE 382
12.2.6 SATELLITE IOT MARKET, BY VERTICAL 382
12.2.7 SATELLITE IOT MARKET, BY REGION 384
12.3 METADATA MANAGEMENT MARKET - GLOBAL FORECAST TO 2026 385
12.3.1 MARKET DEFINITION 385
12.3.2 MARKET OVERVIEW 385
12.3.3 MARITIME SAFETY MARKET, BY COMPONENT 387
12.3.4 MARITIME SAFETY MARKET, BY SECURITY TYPE 388
12.3.5 MARITIME SAFETY MARKET, BY SYSTEM 389
12.3.6 MARITIME SAFETY MARKET, BY APPLICATION 390
12.3.7 MARITIME SAFETY MARKET, BY END-USER 391
12.3.8 MARITIME SAFETY MARKET, BY REGION 393
13 APPENDIX 394
13.1 DISCUSSION GUIDE 394
13.2 KNOWLEDGESTORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL 400
13.3 AVAILABLE CUSTOMIZATIONS 402
13.4 RELATED REPORTS 402
13.5 AUTHOR DETAILS 403