Space Electronics Market by Platform Type (Satellite, Launch Vehicle, and Others), by Component Type (Discrete Semiconductors, Optoelectronics, Integrated Circuits, and Others), by Subsystem Type (Electrical Power Subsystem, Attitude & Orbital Control Subsystem, Telemetry, Tracking & Command Subsystem, Communication Subsystem, and Others), by Product Type (Radiation-Hardened and Radiation-Tolerant), and by Region (North America, Europe, Asia-Pacific, and Rest of the World), Trend, Forecast, Competitive Analysis, and Growth Opportunity: 2018-2023
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This report, from Stratview Research, studies the global space electronics market over the forecast period of 2018 to 2023 and trend period of 2012 to 2017. The report provides detailed insights into the market dynamics to enable informed business decision making and growth strategy formulation based on the opportunities present in the market.
The Space Electronics Market: Highlights
The next five years for the space electronics market are going to be resilient with having sizeable growth opportunities for both existing as well as new players. The global space electronics market is projected to reach an estimated value of US$ 1,557.9 million in 2023. Increasing production of satellites, especially small satellites; market entry of commercial space companies; increasing involvement of a number of countries in the space community; an increased demand for reducing the cost of electronic components; and the technological advancements are some major factors that are burgeoning the demand for electronics in the space industry.
Space is an extremely hazardous environment with the presence of lethal radiation, micrometeoroids, highly fluctuating temperatures, and man-made debris, which may cause different types of issues for electronic components from simple bit flips to the dangerous complete burnout of electronic systems. The effects produced by the radiation on the space electronics, such as Single Event Effect (SEE) and Total Ionizing Dose (TID), can be rectified by the radiation-hardening process. The process makes the electronic components capable to operate reliably for eons in the harsh space environment but at a very high cost.
The global space electronics market is segmented based on platform type as Satellite, Launch Vehicle, and Others. The satellite segment is expected to remain the growth engine of the global space electronics market during the forecast period of 2018 to 2023. Increasing participation of commercial space companies, such as Space X, OneWeb Satellites, and Sky and Space Global Ltd, and an expected launch of more than 4,000 satellites during 2018-2023 would propel the demand for electronics in the satellite segment in years to come.
Based on the component type, the space electronics market is segmented as Discrete Semiconductors, Optoelectronics, Integrated Circuits, and Others. Integrated circuits are expected to remain the most dominant component type in the total space electronics market during the forecast period of 2018 to 2023. Increasing demand for electronics that are smaller in size and lighter in weight and consume lesser power (reduced SWaP), is the driving force of integrated circuits in the total space electronics market.
Based on the product type, the global space electronics market is segmented as Radiation-Hardened Electronics and Radiation-Tolerant Electronics. Both, radiation-hardened as well as radiation-tolerant electronic segments, are likely to grow at healthy growth rates over the next five years; however, the radiation-tolerant segment is likely to witness a higher growth during the same period. Increasing demand for COTS (Commercial-off-the-Shelf) components, drastically lowering launch cost from commercial space companies, and growing demand for small satellites, especially for earth observation, communication, and networking applications are the key whys and wherefores behind the higher growth of the radiation-tolerant space electronics market.
Based on the regions, North America is expected to remain the largest space electronics market during the forecast period and is also expected to experience the highest growth during the same period. NASA is the largest space agency in the world, which is largely involved in space-related activities located in the USA. Furthermore, the market entry of commercial space companies, such as Space X, propel the region’s demand for space electronics in the coming years.
Europe and Asia-Pacific are also likely to offer good growth opportunities in the coming years. India, China, and Russia would be the new growth engines of the European and Asia-Pacific’s space electronics market in the coming years.
The supply chain of this market comprises raw material suppliers, electronic component manufacturers, subsystem manufacturers, spacecraft manufacturers, and space agencies or launch service providers. The key space electronic component manufacturers are BAE Systems Plc., Cobham Plc., Honeywell International Inc., Microsemi Corporation, and Texas Instruments. Development of low-cost electronics, regional expansion, and mergers & acquisitions are the key strategies adopted by the major players to gain a competitive edge in the market.
Research Methodology
This report offers high-quality insights and is the outcome of detailed research methodology comprising extensive secondary research, rigorous primary interviews with industry stakeholders and validation and triangulation with Stratview Research’s internal database and statistical tools. More than 500 authenticated secondary sources, such as company annual reports, fact book, press release, journals, investor presentation, white papers, patents, and articles have been leveraged to gather the data. About 10 detailed primary interviews with the market players across the value chain in all four regions and industry experts have been executed to obtain both qualitative and quantitative insights.
Report Features
This report provides market intelligence in the most comprehensive way. The report structure has been kept such that it offers maximum business value. It provides critical insights into the market dynamics and will enable strategic decision making for the existing market players as well as those willing to enter the market. The following are the key features of the report:
Global Space Electronics Market, By Platform Type
This report, from Stratview Research, studies the global space electronics market over the forecast period of 2018 to 2023 and trend period of 2012 to 2017. The report provides detailed insights into the market dynamics to enable informed business decision making and growth strategy formulation based on the opportunities present in the market.
The Space Electronics Market: Highlights
The next five years for the space electronics market are going to be resilient with having sizeable growth opportunities for both existing as well as new players. The global space electronics market is projected to reach an estimated value of US$ 1,557.9 million in 2023. Increasing production of satellites, especially small satellites; market entry of commercial space companies; increasing involvement of a number of countries in the space community; an increased demand for reducing the cost of electronic components; and the technological advancements are some major factors that are burgeoning the demand for electronics in the space industry.
Space is an extremely hazardous environment with the presence of lethal radiation, micrometeoroids, highly fluctuating temperatures, and man-made debris, which may cause different types of issues for electronic components from simple bit flips to the dangerous complete burnout of electronic systems. The effects produced by the radiation on the space electronics, such as Single Event Effect (SEE) and Total Ionizing Dose (TID), can be rectified by the radiation-hardening process. The process makes the electronic components capable to operate reliably for eons in the harsh space environment but at a very high cost.
The global space electronics market is segmented based on platform type as Satellite, Launch Vehicle, and Others. The satellite segment is expected to remain the growth engine of the global space electronics market during the forecast period of 2018 to 2023. Increasing participation of commercial space companies, such as Space X, OneWeb Satellites, and Sky and Space Global Ltd, and an expected launch of more than 4,000 satellites during 2018-2023 would propel the demand for electronics in the satellite segment in years to come.
Based on the component type, the space electronics market is segmented as Discrete Semiconductors, Optoelectronics, Integrated Circuits, and Others. Integrated circuits are expected to remain the most dominant component type in the total space electronics market during the forecast period of 2018 to 2023. Increasing demand for electronics that are smaller in size and lighter in weight and consume lesser power (reduced SWaP), is the driving force of integrated circuits in the total space electronics market.
Based on the product type, the global space electronics market is segmented as Radiation-Hardened Electronics and Radiation-Tolerant Electronics. Both, radiation-hardened as well as radiation-tolerant electronic segments, are likely to grow at healthy growth rates over the next five years; however, the radiation-tolerant segment is likely to witness a higher growth during the same period. Increasing demand for COTS (Commercial-off-the-Shelf) components, drastically lowering launch cost from commercial space companies, and growing demand for small satellites, especially for earth observation, communication, and networking applications are the key whys and wherefores behind the higher growth of the radiation-tolerant space electronics market.
Based on the regions, North America is expected to remain the largest space electronics market during the forecast period and is also expected to experience the highest growth during the same period. NASA is the largest space agency in the world, which is largely involved in space-related activities located in the USA. Furthermore, the market entry of commercial space companies, such as Space X, propel the region’s demand for space electronics in the coming years.
Europe and Asia-Pacific are also likely to offer good growth opportunities in the coming years. India, China, and Russia would be the new growth engines of the European and Asia-Pacific’s space electronics market in the coming years.
The supply chain of this market comprises raw material suppliers, electronic component manufacturers, subsystem manufacturers, spacecraft manufacturers, and space agencies or launch service providers. The key space electronic component manufacturers are BAE Systems Plc., Cobham Plc., Honeywell International Inc., Microsemi Corporation, and Texas Instruments. Development of low-cost electronics, regional expansion, and mergers & acquisitions are the key strategies adopted by the major players to gain a competitive edge in the market.
Research Methodology
This report offers high-quality insights and is the outcome of detailed research methodology comprising extensive secondary research, rigorous primary interviews with industry stakeholders and validation and triangulation with Stratview Research’s internal database and statistical tools. More than 500 authenticated secondary sources, such as company annual reports, fact book, press release, journals, investor presentation, white papers, patents, and articles have been leveraged to gather the data. About 10 detailed primary interviews with the market players across the value chain in all four regions and industry experts have been executed to obtain both qualitative and quantitative insights.
Report Features
This report provides market intelligence in the most comprehensive way. The report structure has been kept such that it offers maximum business value. It provides critical insights into the market dynamics and will enable strategic decision making for the existing market players as well as those willing to enter the market. The following are the key features of the report:
- Market structure: Overview, industry life cycle analysis, supply chain analysis
- Market environment analysis: Growth drivers and constraints, Porter’s five forces analysis, SWOT analysis
- Market trend and forecast analysis
- Market segment trend and forecast
- Competitive landscape and dynamics: Market share, product portfolio, product launches, etc.
- Attractive market segments and associated growth opportunities
- Emerging trends
- Strategic growth opportunities for the existing and new players
- Key success factors
Global Space Electronics Market, By Platform Type
- Satellite (Regional Analysis: NA, Europe, APAC, and RoW)
- Launch Vehicle (Regional Analysis: NA, Europe, APAC, and RoW)
- Others (Regional Analysis: NA, Europe, APAC, and RoW)
- Discrete Semiconductors (Regional Analysis: NA, Europe, APAC, and RoW)
- Optoelectronics (Regional Analysis: NA, Europe, APAC, and RoW)
- Integrated Circuits (Regional Analysis: NA, Europe, APAC, and RoW)
- Others (Regional Analysis: NA, Europe, APAC, and RoW)
- Electrical Power Subsystem (Regional Analysis: NA, Europe, APAC, and RoW)
- Attitude & Velocity Control Subsystem (Regional Analysis: NA, Europe, APAC, and RoW)
- Telemetry, Tracking & Command Subsystem (Regional Analysis: NA, Europe, APAC, and RoW)
- Communication Subsystem (Regional Analysis: NA, Europe, APAC, and RoW)
- Others (Regional Analysis: NA, Europe, APAC, and RoW)
- Radiation-Hardened Electronics (Regional Analysis: NA, Europe, APAC, and RoW)
- Radiation-Tolerant Electronics (Regional Analysis: NA, Europe, APAC, and RoW)
- North America (Country Analysis: The USA, Canada, and Mexico)
- Europe (Country Analysis: ESA, Russia, and Rest of Europe)
- Asia-Pacific (Country Analysis: China, Japan, India and Rest of Asia-Pacific)
- Rest of the World (Country Analysis: Latin America, The Middle East, and Others)
1. EXECUTIVE SUMMARY
2. GLOBAL SPACE ELECTRONICS MARKET - OVERVIEW AND MARKET FORCES
2.1. Introduction
2.2. Market Classification
2.2.1. By Platform Type
2.2.2. By Component Type
2.2.3. By Subsystem Type
2.2.4. By Product Type
2.2.5. By Region
2.3. Market Drivers
2.4. Market Constraints
2.5. Supply Chain Analysis
2.6. Industry Life Cycle Analysis
2.7. PEST Analysis: Impact Assessment of Changing Business Environment
2.8. Porter’s Five Forces Analysis
2.8.1. Bargaining Power of Suppliers
2.8.2. Bargaining Power of Customers
2.8.3. Threat of New Entrants
2.8.4. Threat of Substitutes
2.8.5. Competitive Rivalry
2.9. SWOT Analysis
3. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY PLATFORM TYPE
3.1. Strategic Insights
3.2. Satellite Electronics Market Trend and Forecast (US$ Million)
3.2.1. Regional Trend and Forecast (US$ Million)
3.3. Launch Vehicle Electronics Market Trend and Forecast (US$ Million)
3.3.1. Regional Trend and Forecast (US$ Million)
3.4. Other Platform-based Electronics Market Trend and Forecast (US$ Million)
3.4.1. Regional Trend and Forecast (US$ Million)
4. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY COMPONENT TYPE
4.1. Strategic Insights
4.2. Space-Grade Discrete Semiconductors Market Trend and Forecast (US$ Million)
4.2.1. Regional Trend and Forecast (US$ Million)
4.3. Space-Grade Optoelectronics Market Trend and Forecast (US$ Million)
4.3.1. Regional Trend and Forecast (US$ Million)
4.4. Space-Grade Integrated Circuits Market Trend and Forecast (US$ Million)
4.4.1. Regional Trend and Forecast (US$ Million)
4.5. Space-Grade Other Electronic Components Market Trend and Forecast (US$ Million)
4.5.1. Regional Trend and Forecast (US$ Million)
5. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY SUBSYSTEM TYPE
5.1. Strategic Insights
5.2. Electrical Power Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.2.1. Regional Trend and Forecast (US$ Million)
5.3. AOCS Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.3.1. Regional Trend and Forecast (US$ Million)
5.4. TT&C Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.4.1. Regional Trend and Forecast (US$ Million)
5.5. Communication Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.5.1. Regional Trend and Forecast (US$ Million)
5.6. Other Subsystems: Space Electronics Market Trend and Forecast (US$ Million)
5.6.1. Regional Trend and Forecast (US$ Million)
6. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY PRODUCT TYPE
6.1. Strategic Insights
6.2. Radiation-Hardened Space Electronics Market Trend and Forecast (US$ Million)
6.2.1. Regional Trend and Forecast (US$ Million)
6.3. Radiation-Tolerant Space Electronics Market Trend and Forecast (US$ Million)
6.3.1. Regional Trend and Forecast (US$ Million)
7. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY REGION
7.1. Strategic Insights
7.2. North American Space Electronics Market Analysis
7.2.1. North American Space Electronics Market Trend and Forecast, by Country (US$ Million)
7.2.1.1. The USA: Space Electronics Market Trend and Forecast (US$ Million)
7.2.1.2. Canada: Space Electronics Market Trend and Forecast (US$ Million)
7.2.1.3. Mexico: Space Electronics Market Trend and Forecast (US$ Million)
7.2.2. North American Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.2.3. North American Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.2.4. North American Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.2.5. North American Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
7.3. European Space Electronics Market Analysis
7.3.1. European Space Electronics Market Trend and Forecast, by Country (US$ Million)
7.3.1.1. ESA: Space Electronics Market Trend and Forecast (US$ Million)
7.3.1.2. Russia: Space Electronics Market Trend and Forecast (US$ Million)
7.3.1.3. Rest of Europe: Space Electronics Market Trend and Forecast (US$ Million)
7.3.2. European Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.3.3. European Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.3.4. European Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.3.5. European Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
7.4. Asia-Pacific’s Space Electronics Market Analysis
7.4.1. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Country (US$ Million)
7.4.1.1. China: Space Electronics Market Trend and Forecast (US$ Million)
7.4.1.2. Japan: Space Electronics Market Trend and Forecast (US$ Million)
7.4.1.3. India: Space Electronics Market Trend and Forecast (US$ Million)
7.4.1.4. Rest of Asia-Pacific: Space Electronics Market Trend and Forecast (US$ Million)
7.4.2. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.4.3. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.4.4. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.4.5. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
7.5. Rest of the World’s (RoW) Space Electronics Market Analysis
7.5.1. RoW’s Space Electronics Market Trend and Forecast, by Sub-Region (US$ Million)
7.5.1.1. Latin America: Space Electronics Market Trend and Forecast (US$ Million)
7.5.1.2. The Middle East: Space Electronics Market Trend and Forecast (US$ Million)
7.5.1.3. Others: Space Electronics Market Trend and Forecast (US$ Million)
7.5.2. RoW’s Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.5.3. RoW’s Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.5.4. RoW’s Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.5.5. RoW’s Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
8. COMPETITIVE ANALYSIS
8.1. Strategic Insights
8.2. Presence by Platform Type
8.3. Presence by Product Type
8.4. Geographical Presence
8.5. New Product Launches
8.6. Strategic Alliances: Mergers and Acquisitions, Joint Ventures, Collaborations, etc.
8.7. Expert Opinion
8.8. Market Share Analysis
9. STRATEGIC GROWTH OPPORTUNITIES
9.1. Strategic Insights
9.2. Market Attractive Analysis
9.2.1. Market Attractiveness by Platform Type
9.2.2. Market Attractiveness by Component Type
9.2.3. Market Attractiveness by Subsystem Type
9.2.4. Market Attractiveness by Product Type
9.2.5. Market Attractiveness by Region
9.2.6. Market Attractiveness by Country
9.3. Emerging Trends
9.4. Growth Matrix Analysis
9.5. Key Success Factors
10. COMPANY PROFILE OF KEY PLAYERS
10.1. BAE Systems Plc.
10.2. Cobham Plc.
10.3. HEICO Corporation
10.4. Honeywell International Inc.
10.5. Microsemi Corporation
10.6. ON Semiconductor
10.7. ST Microelectronics N.V.
10.8. Texas Instruments
10.9. Teledyne e2v
10.10. TT Electronics Plc.
10.11. Xilinx Inc.
2. GLOBAL SPACE ELECTRONICS MARKET - OVERVIEW AND MARKET FORCES
2.1. Introduction
2.2. Market Classification
2.2.1. By Platform Type
2.2.2. By Component Type
2.2.3. By Subsystem Type
2.2.4. By Product Type
2.2.5. By Region
2.3. Market Drivers
2.4. Market Constraints
2.5. Supply Chain Analysis
2.6. Industry Life Cycle Analysis
2.7. PEST Analysis: Impact Assessment of Changing Business Environment
2.8. Porter’s Five Forces Analysis
2.8.1. Bargaining Power of Suppliers
2.8.2. Bargaining Power of Customers
2.8.3. Threat of New Entrants
2.8.4. Threat of Substitutes
2.8.5. Competitive Rivalry
2.9. SWOT Analysis
3. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY PLATFORM TYPE
3.1. Strategic Insights
3.2. Satellite Electronics Market Trend and Forecast (US$ Million)
3.2.1. Regional Trend and Forecast (US$ Million)
3.3. Launch Vehicle Electronics Market Trend and Forecast (US$ Million)
3.3.1. Regional Trend and Forecast (US$ Million)
3.4. Other Platform-based Electronics Market Trend and Forecast (US$ Million)
3.4.1. Regional Trend and Forecast (US$ Million)
4. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY COMPONENT TYPE
4.1. Strategic Insights
4.2. Space-Grade Discrete Semiconductors Market Trend and Forecast (US$ Million)
4.2.1. Regional Trend and Forecast (US$ Million)
4.3. Space-Grade Optoelectronics Market Trend and Forecast (US$ Million)
4.3.1. Regional Trend and Forecast (US$ Million)
4.4. Space-Grade Integrated Circuits Market Trend and Forecast (US$ Million)
4.4.1. Regional Trend and Forecast (US$ Million)
4.5. Space-Grade Other Electronic Components Market Trend and Forecast (US$ Million)
4.5.1. Regional Trend and Forecast (US$ Million)
5. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY SUBSYSTEM TYPE
5.1. Strategic Insights
5.2. Electrical Power Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.2.1. Regional Trend and Forecast (US$ Million)
5.3. AOCS Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.3.1. Regional Trend and Forecast (US$ Million)
5.4. TT&C Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.4.1. Regional Trend and Forecast (US$ Million)
5.5. Communication Subsystem: Space Electronics Market Trend and Forecast (US$ Million)
5.5.1. Regional Trend and Forecast (US$ Million)
5.6. Other Subsystems: Space Electronics Market Trend and Forecast (US$ Million)
5.6.1. Regional Trend and Forecast (US$ Million)
6. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY PRODUCT TYPE
6.1. Strategic Insights
6.2. Radiation-Hardened Space Electronics Market Trend and Forecast (US$ Million)
6.2.1. Regional Trend and Forecast (US$ Million)
6.3. Radiation-Tolerant Space Electronics Market Trend and Forecast (US$ Million)
6.3.1. Regional Trend and Forecast (US$ Million)
7. GLOBAL SPACE ELECTRONICS MARKET ANALYSIS – BY REGION
7.1. Strategic Insights
7.2. North American Space Electronics Market Analysis
7.2.1. North American Space Electronics Market Trend and Forecast, by Country (US$ Million)
7.2.1.1. The USA: Space Electronics Market Trend and Forecast (US$ Million)
7.2.1.2. Canada: Space Electronics Market Trend and Forecast (US$ Million)
7.2.1.3. Mexico: Space Electronics Market Trend and Forecast (US$ Million)
7.2.2. North American Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.2.3. North American Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.2.4. North American Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.2.5. North American Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
7.3. European Space Electronics Market Analysis
7.3.1. European Space Electronics Market Trend and Forecast, by Country (US$ Million)
7.3.1.1. ESA: Space Electronics Market Trend and Forecast (US$ Million)
7.3.1.2. Russia: Space Electronics Market Trend and Forecast (US$ Million)
7.3.1.3. Rest of Europe: Space Electronics Market Trend and Forecast (US$ Million)
7.3.2. European Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.3.3. European Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.3.4. European Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.3.5. European Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
7.4. Asia-Pacific’s Space Electronics Market Analysis
7.4.1. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Country (US$ Million)
7.4.1.1. China: Space Electronics Market Trend and Forecast (US$ Million)
7.4.1.2. Japan: Space Electronics Market Trend and Forecast (US$ Million)
7.4.1.3. India: Space Electronics Market Trend and Forecast (US$ Million)
7.4.1.4. Rest of Asia-Pacific: Space Electronics Market Trend and Forecast (US$ Million)
7.4.2. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.4.3. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.4.4. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.4.5. Asia-Pacific’s Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
7.5. Rest of the World’s (RoW) Space Electronics Market Analysis
7.5.1. RoW’s Space Electronics Market Trend and Forecast, by Sub-Region (US$ Million)
7.5.1.1. Latin America: Space Electronics Market Trend and Forecast (US$ Million)
7.5.1.2. The Middle East: Space Electronics Market Trend and Forecast (US$ Million)
7.5.1.3. Others: Space Electronics Market Trend and Forecast (US$ Million)
7.5.2. RoW’s Space Electronics Market Trend and Forecast, by Platform Type (US$ Million)
7.5.3. RoW’s Space Electronics Market Trend and Forecast, by Component Type (US$ Million)
7.5.4. RoW’s Space Electronics Market Trend and Forecast, by Subsystem Type (US$ Million)
7.5.5. RoW’s Space Electronics Market Trend and Forecast, by Product Type (US$ Million)
8. COMPETITIVE ANALYSIS
8.1. Strategic Insights
8.2. Presence by Platform Type
8.3. Presence by Product Type
8.4. Geographical Presence
8.5. New Product Launches
8.6. Strategic Alliances: Mergers and Acquisitions, Joint Ventures, Collaborations, etc.
8.7. Expert Opinion
8.8. Market Share Analysis
9. STRATEGIC GROWTH OPPORTUNITIES
9.1. Strategic Insights
9.2. Market Attractive Analysis
9.2.1. Market Attractiveness by Platform Type
9.2.2. Market Attractiveness by Component Type
9.2.3. Market Attractiveness by Subsystem Type
9.2.4. Market Attractiveness by Product Type
9.2.5. Market Attractiveness by Region
9.2.6. Market Attractiveness by Country
9.3. Emerging Trends
9.4. Growth Matrix Analysis
9.5. Key Success Factors
10. COMPANY PROFILE OF KEY PLAYERS
10.1. BAE Systems Plc.
10.2. Cobham Plc.
10.3. HEICO Corporation
10.4. Honeywell International Inc.
10.5. Microsemi Corporation
10.6. ON Semiconductor
10.7. ST Microelectronics N.V.
10.8. Texas Instruments
10.9. Teledyne e2v
10.10. TT Electronics Plc.
10.11. Xilinx Inc.
