Software Defined Radio Market Size, Share & Trends Analysis Report By Type (General Purpose Radio, TETRA), By Component, By Frequency Band, By Platform, By End-use, By Region, And Segment Forecasts, 2023 - 2030

Software Defined Radio Market Size, Share & Trends Analysis Report By Type (General Purpose Radio, TETRA), By Component, By Frequency Band, By Platform, By End-use, By Region, And Segment Forecasts, 2023 - 2030


Software Defined Radio Market Growth & Trends

The global software defined radio market size is expected to reach USD 49.13 billion by 2030, registering a CAGR of 8.6% from 2023 to 2030, according to a new report by Grand View Research, Inc. The market is undergoing substantial growth primarily owing to its inherent advantages in flexibility and adaptability. The ability to reconfigure radio functionality through software updates rather than hardware modifications makes software defined radio (SDR) highly attractive in dynamic industries, including telecommunications and defense. The surge in demand for advanced wireless communication systems, coupled with the increasing prevalence of 5G technology, contributes significantly to market’s expansion.

The escalating demand for software defined radio across diverse industries underwent a paradigm shift in wireless communication technologies. The software defined radio’s adaptability and versatility have positioned it as a key enabler in meeting the evolving requirements of these sectors. In defense applications, software defined radio plays a pivotal role in ensuring secure, dependable, and interoperable communication. The dynamic nature of modern warfare demands flexible communication systems that can quickly adapt to changing conditions. The software defined radio’s capability to reconfigure and upgrade software functionalities without requiring hardware modifications aligns perfectly with the defense sector’s need for rapid, agile communication solutions. This not only enhances operational efficiency but also provides a strategic edge in the increasingly complex and unpredictable defense.

The adoption of digital radio has ushered in a new era of advanced capabilities, prominently characterized by increased efficiency and cost-effectiveness across various industries. This transformation is particularly noteworthy in comparison to traditional analog radio systems, showcasing a paradigm shift in communication technology. Digital radio excels in efficiency owing to its ability to transmit and receive signals with greater clarity and reliability. Unlike analog signals, which are susceptible to interference and signal degradation, digital radio utilizes advanced modulation techniques that enhance the quality of communication. This translates into improved voice clarity, reduced noise, and an overall enhanced user experience. Moreover, digital radio systems are inherently more spectrally efficient than their analog counterparts. The utilization of digital modulation schemes allows for the transmission of a higher volume of information within the same bandwidth. This increased spectral efficiency is pivotal in addressing the growing demand for wireless communication, enabling more users and devices to operate without compromising performance.

Software Defined Radio Market Report Highlights
  • The general-purpose radio segment is expected to witness substantial CAGR over the forecast period. This flexibility is particularly valuable in applications where multiple communication standards need to be supported
  • The hardware segment is further categorized as Antenna, Transmitter, Receivers, among others. This growth is attributed owing to the convergence of analog and digital technologies on a single chip, a development that significantly influences the reduction in both weight and size
  • High-frequency software defined radio are equipped with IP networks for tactical communication. IP systems offer advantages, including lower transaction costs and better end-use experience, which provide a significant boost in demand for next-generation IP systems with integrated software defined radio systems
  • The increasing number of space projects in the communication sector and the growing utilization of software defined radio (SDR) technology have been the driving forces behind the development of the new space communications architecture
  • The flexibility of software defined radio technology enables the integration of multiple communication standards and protocols onto a unified platform, enabling the development and deployment of telecommunication systems. The telecommunications industry is constantly evolving with new standards and technologies emerging frequently
  • The defense sector in North America has incorporated software-defined radio systems extensively, which are driven by research initiatives and efforts to unify communication systems within state and federal agencies. This adoption is particularly prominent owing to the versatile nature of software-defined radio, facilitating seamless integration and interoperability across various defense applications
  • In November 2023, Anaren Inc., announced the opening of a new manufacturing facility in New York State. The project reflects their support for fostering a microelectronics ecosystem in New York and throughout the U.S. defense and aerospace industry. The proposed facility is a major player in the domestic microelectronics ecosystem, which is larger than RF microwave and microelectronics facility in Syracuse
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Chapter 1. Methodology and Scope
1.1. Market Segmentation & Scope
1.2. Market Definitions
1.3. Information Procurement
1.3.1. Information analysis
1.3.2. Market formulation & data visualization
1.3.3. Data validation & publishing
1.4. 1.4 Research Scope and Assumptions
1.4.1. List to Data Sources
Chapter 2. Executive Summary
2.1. Software Defined Radio Market Snapshot
2.2. Software Defined Radio Market - Segment Snapshot (1/3)
2.3. Software Defined Radio Market - Segment Snapshot (2/3)
2.4. Software Defined Radio Market - Segment Snapshot (3/3)
2.5. Software Defined Radio Market - Competitive Landscape Snapshot
Chapter 3. Software Defined Radio Market - Industry Outlook
3.1. Market Lineage Outlook
3.2. Industry Value Chain Analysis
3.3. Market Dynamics
3.3.1. Market Driver Analysis
3.3.2. Market Restraint Analysis
3.3.3. Industry Challenges
3.3.4. Industry Opportunities
3.4. Penetration & Growth Prospect Mapping
3.5. Industry Analysis Tools
3.5.1. Porter’s analysis
3.5.2. Macroeconomic analysis
3.6. SDR Common Issues Faced by Government
3.6.1. Spectrum Allocation Problem
3.6.2. Building a Waveform Inventory
3.7. Software Defined Radio Recommendation
3.7.1. Overview
3.7.2. Case Studies
3.8. Phased Array Antennas Analysis
3.8.1. Overview
3.8.2. Advantages and Disadvantages
3.8.3. Case Studies
3.9. Application of Software Defined Radio (SDR) in Space Communication
Chapter 4. Software Defined Radio (SDR) Market: Radiation Hardened Device Analysis
4.1. Overview
4.2. Evolving Radiation Hardened Electronics for Space Applications
4.3. Radiation Hardened Electronics Manufacturers and Certifications
4.3.1. Qualified Manufacturer List (QML)
4.4. Capabilities and Specifications of Radiation Hardened Electronics
4.5. Application of Radiation Hardened Device in SDR
4.6. Key Companies Offering Radiation Hardened Devices in SDR Applications
Chapter 5. Software Defined Radio (SDR) Market: SDR Program Analysis
5.1. SDR Program Analysis
5.1.1. Joint Tactical Radio Systems (JTRS)
5.1.2. SPEAKeasy
5.1.3. GNU Radio
5.1.4. High Performance Software Defined Radio (HPSDR)
5.1.5. WebSDR
5.2. SDR Program - Benefits
5.3. SWOT Analysis of Software Defined Radio Market
Chapter 6. Software Defined Radio (SDR) Market: User Requirements and Specification (URS) Analysis
6.1. Requirement & Specification for Government SDR
6.2. Requirement & Specification for Commercial SDR
6.3. Requirement & Specification for Future SDR
Chapter 7. Software Defined Radio (SDR) Market: SDR Design & Parts Analysis
7.1. SDR Parts Analysis
7.1.1. Antenna
7.1.2. RF Front End
7.1.3. IF Amplifier
7.1.4. Analog-to-Digital Convertor
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 Market: Type Estimates & Trend Analysis
8.1. Type Movement Analysis & Market Share, 2022 & 2030
8.2. Software Defined Radio Market Estimates & Forecast, By Type (USD Million)
8.2.1. General Purpose Radio
8.2.2. Joint Tactical Radio System
8.2.3. Cognitive Radio
8.2.4. TETRA
Chapter 9. Software Defined Radio Market: Component Estimates & Trend Analysis
9.1. Component Movement Analysis & Market Share, 2022 & 2030
9.2. Software Defined Radio Market Estimates & Forecast, By Component (USD Million)
9.2.1. Hardware
9.2.2. Software
9.2.3. Services
Chapter 10. Software Defined Radio Market: Frequency Band Estimates & Trend Analysis
10.1. Frequency Band Movement Analysis & Market Share, 2022 & 2030
10.2. Software Defined Radio Market Estimates & Forecast, By Frequency Band (USD Million)
10.2.1. High Frequency (HF)
10.2.2. Very High Frequency (VHF)
10.2.3. Ultra-High Frequency (UHF)
10.2.4. Others
Chapter 11. Software Defined Radio Market: Platform Estimates & Trend Analysis
11.1. Platform Movement Analysis & Market Share, 2022 & 2030
11.2. Software Defined Radio Market Estimates & Forecast, By Platform (USD Million)
11.2.1. Ground
11.2.2. Naval
11.2.3. Airborne
11.2.4. Space
Chapter 12. Software Defined Radio Market: End-use Estimates & Trend Analysis
12.1. End-use Movement Analysis & Market Share, 2022 & 2030
12.2. Software Defined Radio Market Estimates & Forecast, By End-use (USD Million)
12.2.1. Aerospace & Defense
12.2.2. Telecommunication
12.2.3. Public Safety
12.2.4. Commercial
12.2.5. Others
Chapter 13. Regional Estimates & Trend Analysis
13.1. Software Defined Radio Market by Region, 2022 & 2030
13.2. North America
13.2.1. North America Software Defined Radio Market Estimates & Forecasts, 2018 - 2030 (USD Million)
13.2.2. U.S.
13.2.3. Canada
13.3. Europe
13.3.1. Europe Software Defined Radio Market Estimates & Forecasts, 2018 - 2030 (USD Million)
13.3.2. UK
13.3.3. Germany
13.4. Asia Pacific
13.4.1. Asia Pacific Software Defined Radio Market Estimates & Forecasts, 2018 - 2030 (USD Million)
13.4.2. China
13.4.3. India
13.4.4. Japan
13.4.5. Australia
13.5. Latin America
13.5.1. Latin America Software Defined Radio Market Estimates & Forecasts, 2018 - 2030 (USD Million)
13.5.2. Brazil
13.5.3. Mexico
13.6. Middle East & Africa (MEA)
13.6.1. MEA Software Defined Radio Market Estimates & Forecasts, 2018 - 2030 (USD Million)
Chapter 14. Software Defined Radio Market - Competitive Landscape
14.1. Recent Developments & Impact Analysis, By Key Market Participants
14.2. Company Categorization
14.3. Participant’s Overview
14.4. Financial Performance
14.5. Product Benchmarking
14.6. Company Market Share Analysis, 2022
14.7. Company Heat Map Analysis
14.8. Strategy Mapping
14.8.1. Expansion/Divestiture
14.8.2. Collaborations/Partnerships
14.8.3. New Product Launches
14.8.4. Contract
14.9. Company Profiles
14.9.1. Analog Devices Inc.
14.9.1.1. Participant’s Overview
14.9.1.2. Financial Performance
14.9.1.3. Product Benchmarking
14.9.1.4. Recent Developments
14.9.2. Anaren Inc.
14.9.2.1. Participant’s Overview
14.9.2.2. Financial Performance
14.9.2.3. Product Benchmarking
14.9.2.4. Recent Developments
14.9.3. BAE Systems plc
14.9.3.1. Participant’s Overview
14.9.3.2. Financial Performance
14.9.3.3. Product Benchmarking
14.9.3.4. Recent Developments
14.9.4. Collins Aerospace Systems
14.9.4.1. Participant’s Overview
14.9.4.2. Financial Performance
14.9.4.3. Product Benchmarking
14.9.4.4. Recent Developments
14.9.5. Data Device Corporation
14.9.5.1. Participant’s Overview
14.9.5.2. Financial Performance
14.9.5.3. Product Benchmarking
14.9.5.4. Recent Developments
14.9.6. DataSoft
14.9.6.1. Participant’s Overview
14.9.6.2. Financial Performance
14.9.6.3. Product Benchmarking
14.9.6.4. Recent Developments
14.9.7. Elbit Systems Ltd.
14.9.7.1. Participant’s Overview
14.9.7.2. Financial Performance
14.9.7.3. Product Benchmarking
14.9.7.4. Recent Developments
14.9.8. Huawei Technologies Co. Ltd.
14.9.8.1. Participant’s Overview
14.9.8.2. Financial Performance
14.9.8.3. Product Benchmarking
14.9.8.4. Recent Developments
14.9.9. Indra Sistemas S.A.
14.9.9.1. Participant’s Overview
14.9.9.2. Financial Performance
14.9.9.3. Product Benchmarking
14.9.9.4. Recent Developments
14.9.10. L3Harris Technologies Inc.
14.9.10.1. Participant’s Overview
14.9.10.2. Financial Performance
14.9.10.3. Product Benchmarking
14.9.10.4. Recent Developments
14.9.11. Microchip Technology Inc.
14.9.11.1. Participant’s Overview
14.9.11.2. Financial Performance
14.9.11.3. Product Benchmarking
14.9.11.4. Recent Developments
14.9.12. Northrop Grumman Corporation
14.9.12.1. Participant’s Overview
14.9.12.2. Financial Performance
14.9.12.3. Product Benchmarking
14.9.12.4. Recent Developments
14.9.13. RTX Corporation (Raytheon Company)
14.9.13.1. Participant’s Overview
14.9.13.2. Financial Performance
14.9.13.3. Product Benchmarking
14.9.13.4. Recent Developments
14.9.14. Renesas Electronics Corporation
14.9.14.1. Participant’s Overview
14.9.14.2. Financial Performance
14.9.14.3. Product Benchmarking
14.9.14.4. Recent Developments
14.9.15. STMicroelectronics N.V.
14.9.15.1. Participant’s Overview
14.9.15.2. Financial Performance
14.9.15.3. Product Benchmarking
14.9.15.4. Recent Developments
14.9.16. Texas Instruments Incorporated
14.9.16.1. Participant’s Overview
14.9.16.2. Financial Performance
14.9.16.3. Product Benchmarking
14.9.16.4. Recent Developments

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