Global Software Defined Radio Market (2020 to 2027)
Dublin, 13 March 2020 (GLOBE NEWSWIRE) – The “Software-defined size of the radio market, report for analysis of shares and trends by type, by component, by frequency range, by platform, by end use, by regions and forecasts for segments, 2020 – 2027” report added to ResearchAndMarkets.com supply.
The size of the global software market is expected to reach $ 39.6 billion by 2027, registering a CAGR of 8.7% from 2020 to 2027.
Software-defined radio (SDR) continues to evolve as it helps transmit and receive high-frequency long-distance signals. It provides benefits while addressing issues related to spectrum constraints and wireless communications. In addition, there are mature technologies that now allow software-defined radio applications that have broadband applications providing high-quality services. Military modernization activities carried out in several countries such as the United States, Japan, Germany, South Korea and Australia, with a focus on improving their communication systems, are expected to stimulate the growth of the SDR market over the forecast period.
It is projected that in the near future SDR will act as a basic technology for the provision of telecommunications services such as digital television, radio broadcasts and video streaming channels. SDR is available in two forms – modulation and flexible frequency range, and waveform and flexible frequency range. The first is usually applied as it does not require any hardware changes. For example, modern mobile wireless systems are usually implemented in this model.
Frequency selection usually requires a carrier frequency in the required range, which is usually achieved by a local oscillator. In addition, SDR is increasingly seen as conducting 5G mobile network testing in the 3.5 GHz and 25 GHz spectrum bands, which is expected to provide lucrative opportunities for market players.
The growing demand for efficient transmission devices is affecting SDR applications. The commercial growth of software-defined radio is due to the reconfiguration and interoperability of SDRs for various applications. The European market is expected to grow at a significant pace and will be driven primarily by the growing need for data centers to address data flow issues.
The software-defined radio market is booming due to the increase in LTE / 4G and wireless services offered by telecommunications companies. High R&D spending in countries such as Australia, Russia and the United States is more likely to lead to efficient services offered by key players over the forecast period.
Other key findings of the report suggest:
- Cognitive radio is expected to emerge as the fastest growing segment during the forecast period, as it is used in applications such as location tracking, spectrum detection and spectrum allocation.
- The software is expected to register the highest CAGR during the forecast period. This is due to the growing adoption of SDRs in software access networks (RANs), which consists of a single hardware platform that supports multiple wireless communication standards and protocols.
- Terrestrial SDR systems are witnessing an increase in demand due to the introduction of a ground station receiver with a single antenna interference cancellation (SAIC) technique.
- The UHF frequency segment is expected to register significant CAGR over the forecast period due to its increasing use in space and satellite communications.
- Advertising is expected to become the fastest growing end-use segment thanks to the adoption of SDRs in health monitoring systems, such as wireless body networks (WBANs).
- The Asia-Pacific market is expected to witness significant growth thanks to the adoption of SDRs by government agencies for the development of communication networks such as the government radio network (GRN) by the Chinese government in Beijing
Key topics covered:
Chapter 1 Methodology and scope
Chapter 2 Summary
2.1 Software Defined Radio (SDR) Market – Industry Image and Key Purchasing Criteria, 2016 – 2027
2.2 Global Software Defined Radio (SDR) Market, 2016 – 2027
2.2.1 Global Software Defined Radio (SDR) Market, by Region, 2016 – 2027
2.2.2 Global Software Defined Radio (SDR) Market, by Type, 2016 – 2027
2.2.3 Market of Global Software Defined Radio (SDR), by components, 2016 – 2027
2.2.3.1 Global Software Defined Radio (SDR) Market, by hardware, 2016 – 2027
2.2.4 Global Software Defined Radio (SDR) Market, by bandwidth, 2016 – 2027
2.2.5 Global Software Defined Radio (SDR) Market, by Platform, 2016 – 2027
2.2.6 Global Software Defined Radio (SDR) Market, End-Use, 2016 – 2027
2.2.6.1 Global Software Defined Radio (SDR) Market, End-Use, 2016 – 2027
Chapter 3 Software-defined radio program (SDR) program perspective
3.1 Market segmentation and scope
3.2 Mapping the size of the market and growth prospects
3.3 Software Defined Radio (SDR) Market – Value Chain Analysis
3.3.1 SDR: Landscape of the Vendor, 2019
3.4 Software Defined Radio (SDR) – Market Dynamics
3.4.1 Technological trends
3.4.2 Regulatory trends
3.4.3 Trends in the application
3.4.4 Trends in suppliers
3.4.5 Analysis of market factors
3.4.5.1 Growing demand for software-defined radio (SDR) in the fields of defense, public safety and commercial research and development
3.4.5.2 Enhanced capabilities such as increased efficiency and cost-effectiveness of digital radio
3.4.5.3 Increasing the number of users of digital services on wireless devices and the spread of smartphones
3.4.6 Analysis of market challenges
3.4.6.1 Security issues
3.4.7 Analysis of market opportunities
3.4.7.1 Adoption of new and emerging communication technologies such as 4G and 5G
3.5 Mapping penetration and growth
3.6 Software Defined Radio (SDR) Market – Porter’s Five Forces Analysis
3.7 Software Defined Radio (SDR) Market – Company Market Analysis, 2019
3.8 Software Defined Radio (SDR) Market – PESTEL Analysis
3.9 General issues concerning SDRs facing the government
3.9.1 Problem with spectrum distribution
3.9.2 Construction of waveform inventory
3.10 Software Defined Radio (SDR) Recommendation
3.10.1 Overview
3.10.2 Cases
3.11 Analysis of phase antennas
3.11.1 Overview
3.11.2 Advantages and disadvantages
3.11.3 Array Arrangement Analysis
3.11.3.1 Linear array
3.11.3.2 Planar array
3.11.3.3 Frequency scan array
3.11.4 Case
3.12 Software Defined Radio (SDR) applications in space communication
Chapter 4 Software Defined Radio (SDR) Market: Radiation Hardened Device Analysis
4.1 Overview
4.2 Developing radiation hardened electronics for space applications
4.3 Manufacturers and certificates of radiation hardened electronics
4.4 Capabilities and specifications of radiation hardened electronics
4.5 Application of radiation hardened device in SDR
4.6 Major companies offering radiation curing device for SDR applications
Chapter 5 Software Defined Radio (SDR) Market: Analysis of SDR programs
5.1 Analysis of SDR programs
5.2 SDR Program – Advantages
5.3 SWOT analysis of the SDR market
Chapter 6 Software Defined Radio (SDR) Market: User Requirements and Specifications (URS) Analysis
6.1 Requirements and specifications for government SDRs
6.2 Requirements and specifications for commercial SDRs
6.3 Requirements and specifications for future SDRs
Chapter 7 Software Defined Radio (SDR) Market: SDR Design and Parts Analysis
7.1 Analysis of SDR parts
7.1.1 Antenna
7.1.2 RF front end
7.1.3 IF amplifier
7.1.4 Analog-to-digital converter
7.1.5 Digital-to-analog converter
7.1.6 Digital Signal Processor (DSP)
7.1.7 General Purpose Processor (GPP)
Chapter 8 Software Defined Radio (SDR) Type Outlook
8.1 Market share of software defined radio (SDR) by type, 2019
8.2 General purpose radio
8.2.1 General purpose radio market, 2016 – 2027
8.3 Joint tactical radio system
8.3.1 Joint Tactical Radio System Market, 2016 – 2027
8.4 Cognitive radio
8.4.1 Cognitive Radio Market, 2016 – 2027
8.5 TETRA
8.5.1 TETRA Market, 2016 – 2027
Chapter 9 Software-defined radio (SDR) Outlook component
9.1 Market share of software defined radio (SDR) by components, 2019
9.2 Hardware
9.2.1 Hardware with Defined Radio (SDR) Market, 2016 – 2027
9.2.2 Antenna
9.2.2.1 Software Defined Radio (SDR) Antennas Market, 2016 – 2027
9.2.3 Transmitter
9.2.3.1 Software Defined Radio (SDR) Transmitters Market, 2016 – 2027
9.2.4 Receiver
9.2.4.1 Software Defined Radio (SDR) Receivers Market, 2016 – 2027
9.2.5 Others
9.2.5.1 Market for other software-defined radio (SDR) hardware, 2016 – 2027
9.3 Software
9.3.1 Software Market for Software Defined Radio (SDR), 2016 – 2027
9.4 Service
9.4.1 Software Defined Radio (SDR) Services Market, 2016 – 2027
Chapter 10 Outlook, Software Defined Radio (SDR) Bandwidth
10.1 Market share of software defined radio (SDR) by frequency band, 2019
10.2 High frequency (HF)
10.2.1 High Frequency (HF) Software Defined Radio (SDR) Market, 2016 – 2027
10.3 Very high frequency (VHF)
10.3.1 High Frequency (VHF) Software Defined Radio (SDR) Market, 2016 – 2027
10.4 ultra high frequency (VHF)
10.4.1 VHF Software Defined Radio (SDR) Market, 2016 – 2027
10.5 Others
10.5.1 Market of other frequency bands with software defined radio (SDR), 2016 – 2027
Chapter 11 Software-defined radio (SDR) Outlook platform
11.1 Market share of software defined radio (SDR) by platform, 2019
11.2 Earth
11.2.1 Land-based Software Defined Radio (SDR) Market, 2016 – 2027
11.3 Naval
11.3.1 Naval Software Based Market (SDR), 2016 – 2027
11.4 Air
11.4.1 Software On-Board Software Market (SDR), 2016 – 2027
11.5 Space
11.5.1 Space-based software with defined radio (SDR) market, 2016 – 2027
Chapter 12 Outlook Software Defined Radio (SDR) for end use
12.1 Market share of software defined radio (SDR) by end use, 2019
12.2 Astronautics and Defense
12.2.1 Software Defined Radio (SDR) Market in Space and Defense Use, 2016 – 2027
12.2.1.1 Software Defined Radio (SDR) market in space end use, 2016 – 2027
12.2.1.2 Software Defined Radio (SDR) Market in Military End Use, 2016 – 2027
12.3 Telecommunications
12.3.1 Software Defined Radio (SDR) market in telecommunications end use, 2016 – 2027
12.4 Public safety
12.4.1 Software Defined Radio (SDR) Market for Public Safety End Use, 2016 – 2027
12.5 Commercial
12.5.1 Software Defined Radio (SDR) Market in Commercial End Use, 2016 – 2027
12.6 Others
12.6.1 Software Defined Radio (SDR) market for other end uses, 2016 – 2027
Chapter 13 Regional Perspective with Software Defined Radio (SDR)
13.1 Software Defined Radio (SDR) Market by Region, 2019
13.2 North America
13.3 Europe
13.4 Asia-Pacific region
13.5 Latin America
13.6 MEA
Chapter 14 Racing Landscape
14.1 Analog Devices, Inc.
14.2 Anaren, Inc.
14.3 BAE systems
14.4 Collins Aerospace Systems
14.5 Data Device Corporation
14.6 DataSoft Corporation
14.7 Elbit Systems Ltd.
14.8 Huawei Technologies Co., Ltd.
14.9 Indra Sistemas, SA
14.10 L3Harris Technologies, Inc.
14.11 Microchip Technology Inc.
14.12 Northrop Grumman Corporation
14.13 Raytheon Company
14.14 Renesas Electronics Corporation
14.15 STMicroelectronics
14.16 Texas Instruments Incorporated
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