Global Digital Radio Frequency Memory (DRFM) Market Research Report, Insights, Opportunity, Analysis, Market Shares And Forecast 2017 – 2023

  • ID: 4496883
  • Report
  • Region: Global
  • 190 Pages
  • Occams Business Research and Consulting
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The global Digital Radio Frequency Memory (DRFM) market is expected to rise with a CAGR of 12.3% during forecast period 2016-2023. The key factors driving the market growth are increased adoption of military electronic warfare systems, technological advancements in military radars, emergence of cognitive electronic warfare technology and development of DRFM-based jammers for UAV applications.

North America is the leading market region due to increasing investments by the government in the defense sector for development of technologically advanced digital radio frequency memory systems. Also, DRFM systems are being extensively deployed in electronic warfare systems by U.S Navy to counterattack the challenges and threats imposed by adaptive radars such as lack of security of database etc. However, Asia Pacific is the fastest growing market during forecast period 2016-2023 due to increasing expenditure in military and defense sector, advancements in cognitive electronic warfare technology etc.

The global digital radio frequency memory market is influenced by presence of leading companies such as Raytheon Company, Northrop Grumman Corporation, Mercury Systems, Rohde & Schwarz etc. Product launch, joint venture, merger and acquisition are some of crucial strategies adopted by key market players to gain competitive advantage.

The report on global digital radio frequency memory market includes platforms, architecture and applications. On the basis of platforms, market is segregated into defense and commercial & civil. Defense is the leading platform segment as DRFM systems are being extensively deployed in various defense applications such as air, land, naval, etc. Furthermore, naval DRFM systems are extensively used in Electronic Support Measures (ESM), Naval Laser Warning (NLW) systems etc. in surface vessels and submarines. On the basis of architecture, market is bifurcated into processors, modulators, converters, memory, etc. Processor is the fastest growing architecture segment owing to the increased adoption of various microprocessors, memory blocks, and several other components which are embedded on the integrated circuits. The processors used in digital radio frequency memory systems are also known as System-on-Chip (SOC). The processors used in DRFM systems offers several advantages such as faster operation, low power consumption etc. Furthermore, advanced DRFM systems use FPGA (field-programmable gate array) such as Xilinx Virtex-5 instead of ASIC (Application-Specific Integrated Circuit) due to its advantages such as re-programmability, low operating cost etc. Applications of DRFM include electronic warfare, radar test and evaluation, electronic warfare training and radio and cellular network jamming. Electronic warfare is the leading application segment as it controls the electromagnetic spectrum to damage the enemy electronic systems.

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1. Introduction
1.1. Executive Summary
1.2. Estimation Methodology

2. Market Overview
2.1. Global  Digital Radio Frequency Memory (Drfm)  Market : Evolution & Transition
2.2. Market Definition & Scope
2.3. Industry Structure
2.4. Regulatory Framework
2.5. Total Market Analysis
2.5.1. Top 5 Findings
2.5.2. Top 5 Opportunity Markets
2.5.3. Top 5 Companies
2.5.4. Top 3 Competitive Strategies
2.6. Estimation Analysis
2.7. Strategic Analysis
2.7.1. Investment Vs. Adoption Model
2.7.2. 360-Degree Industry Analysis
2.7.3. Porters 5 Force Model
2.7.4. See-Saw Analysis
2.7.5. Consumer Analysis And Key Buying Criteria
2.8. Competitive Analysis
2.8.1. Key Strategies & Analysis
2.9. Strategic Recommendations & Key Conclusions
2.9.1. Investment Opportunities By Regions
2.9.2. Opportunities In Emerging Applications
2.9.3. Investment Opportunity In Fastest Growing Segment

3. Market Determinants
3.1. Market Drivers
3.1.1. Increased Adoption Of Military Electronic Warfare Systems
3.1.2. Technological Advancements In Military Radars
3.1.3. Emergence Of Cognitive Electronic Warfare Technology
3.1.4. Development Of Drfm-Based Jammers For Uav Applications
3.2. Market Restraints
3.2.1. Reduction In Defense Expenditure
3.2.2. Prohibited Adoption Of  Jammers For Civilian Applications
3.3. Market Opportunities
3.3.1. Deployment Of Electronic Warfare Capabilities In Civil Aviation
3.3.2. Development Of Advanced Electronic Warfare Systems
3.4. Market Challenges
3.4.1. Development Of Eccm (Electronic Counter-Countermeasure) Systems
3.4.2. Development Of Aesa (Active Electronically Scanned Array ) Radar

4. Market Segmentation
4.1. Global Digital Radio Frequency Memory (Drfm) Market By Platform
4.1.1. Market Definition And Scope
4.1.2. Decision Support Database & Estimation Methodology
4.1.3. Comparative Analysis Across Market Segments
4.1.4. Opportunity Matrix
4.1.5. Market Segmentation
4.1.5.1. Global Defense Market
4.1.5.1.1. Adoption Scenario & Market Determinants
4.1.5.1.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.1.5.1.3. Key Players & Key Products
4.1.5.1.4. Key Conclusions
4.1.5.2. Global Commercial & Civil Market
4.1.5.2.1. Adoption Scenario & Market Determinants
4.1.5.2.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.1.5.2.3. Key Players & Key Products
4.1.5.2.4. Key Conclusions
4.2. Global Digital Radio Frequency Memory (Drfm) Market By Architecture
4.2.1. Market Definition And Scope
4.2.2. Decision Support Database & Estimation Methodology
4.2.3. Comparative Analysis Across Market Segments
4.2.4. Opportunity Matrix
4.2.5. Market Segmentation
4.2.5.1. Global Processors Market
4.2.5.1.1. Adoption Scenario & Market Determinants
4.2.5.1.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.2.5.1.3. Key Players & Key Products
4.2.5.1.4. Key Conclusions
4.2.5.2. Global Modulators Market
4.2.5.2.1. Adoption Scenario & Market Determinants
4.2.5.2.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.2.5.2.3. Key Players & Key Products
4.2.5.2.4. Key Conclusions
4.2.5.3. Global Converters Market
4.2.5.3.1. Adoption Scenario & Market Determinants
4.2.5.3.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.2.5.3.3. Key Players & Key Products
4.2.5.3.4. Key Conclusions
4.2.5.4. Global Memory Market
4.2.5.4.1. Adoption Scenario & Market Determinants
4.2.5.4.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.2.5.4.3. Key Players & Key Products
4.2.5.4.4. Key Conclusions
4.2.5.5. Global Others Market
4.2.5.5.1. Adoption Scenario & Market Determinants
4.2.5.5.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.2.5.5.3. Key Players & Key Products
4.2.5.5.4. Key Conclusions
4.3. Global Digital Radio Frequency Memory (Drfm) Market By Application
4.3.1. Market Definition And Scope
4.3.2. Decision Support Database & Estimation Methodology
4.3.3. Comparative Analysis Across Market Segments
4.3.4. Opportunity Matrix
4.3.5. Market Segmentation
4.3.5.1. Global  Electronic Warfare  Market
4.3.5.1.1. Adoption Scenario & Market Determinants
4.3.5.1.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.3.5.1.3. Key  Players & Key Products
4.3.5.1.4. Key Conclusions
4.3.5.2. Global Radar Test And Evaluation Market
4.3.5.2.1. Adoption Scenario & Market Determinants
4.3.5.2.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.3.5.2.3. Key Players & Key Products
4.3.5.2.4. Key Conclusions
4.3.5.3. Global  Electronic Warfare Training Market
4.3.5.3.1. Adoption Scenario & Market Determinants
4.3.5.3.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.3.5.3.3. Key  Players & Key Products
4.3.5.3.4. Key Conclusions
4.3.5.4. Global Radio And Cellular Network Jamming Market
4.3.5.4.1. Adoption Scenario & Market Determinants
4.3.5.4.2. Market Estimations And Forecasts 2014-2023 ($ Million)
4.3.5.4.3. Key Players & Key Products
4.3.5.4.4. Key Conclusions

5. Competitive Landscape
5.1. Key Strategies
5.1.1. List Of Mergers And Acquisitions
5.1.2. List Of Joint Ventures
5.1.3. List Of Product Launches
5.1.4. List Of Partnerships

6. Geographic Analysis
6.1. Decision Support Database & Estimation Methodology
6.2. Comparative Analysis Across Market Segments
6.3. Opportunity Matrix
6.4. Global Digital Radio Frequency Memory (Drfm) Market By Region 2014-2023
6.4.1. North America
6.4.1.1. Industry Analysis 2014-2023 ($ Million)
6.4.1.2. Top Country Analysis
6.4.1.2.1. U.S.
6.4.1.2.1.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.1.2.1.2. Key Players & Key Products
6.4.1.2.1.3. Key Conclusions
6.4.1.2.2. Canada
6.4.1.2.2.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.1.2.2.2. Key Players & Key Products
6.4.1.2.2.3. Key Conclusions
6.4.2. Europe
6.4.2.1. Industry Analysis 2014-2023 ($ Million)
6.4.2.2. Top Country Analysis
6.4.2.2.1. Uk
6.4.2.2.1.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.2.2.1.2. Key Players & Key Products
6.4.2.2.1.3. Key Conclusions
6.4.2.2.2. France
6.4.2.2.2.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.2.2.2.2. Key Players & Key Products
6.4.2.2.2.3. Key Conclusions
6.4.2.2.3. Germany
6.4.2.2.3.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.2.2.3.2. Key Players & Key Products
6.4.2.2.3.3. Key Conclusions
6.4.2.2.4. Spain
6.4.2.2.4.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.2.2.4.2. Key Players & Key Products
6.4.2.2.4.3. Key Conclusions
6.4.2.2.5. Rest Of Europe
6.4.2.2.5.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.2.2.5.2. Key  Players & Key Products
6.4.2.2.5.3. Key Conclusions
6.4.3. Asia Pacific
6.4.3.1. Industry Analysis 2014-2023 ($ Million)
6.4.3.2. Top Country Analysis
6.4.3.2.1. China
6.4.3.2.1.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.3.2.1.2. Key Players & Key Products
6.4.3.2.1.3. Key Conclusions
6.4.3.2.2. India
6.4.3.2.2.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.3.2.2.2. Key Players & Key Products
6.4.3.2.2.3. Key Conclusions
6.4.3.2.3. Japan
6.4.3.2.3.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.3.2.3.2. Key Players & Key Products
6.4.3.2.3.3. Key Conclusions
6.4.3.2.4. Australia
6.4.3.2.4.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.3.2.4.2. Key  Players & Key Products
6.4.3.2.4.3. Key Conclusions
6.4.3.2.5. Rest Of Asia Pacific
6.4.3.2.5.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.3.2.5.2. Key  Players & Key Products
6.4.3.2.5.3. Key Conclusions
6.4.4. Row
6.4.4.1. Industry Analysis 2014-2023 ($ Million)
6.4.4.2. Top Country Analysis
6.4.4.2.1. Latin America
6.4.4.2.1.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.4.2.1.2. Key Players & Key Products
6.4.4.2.1.3. Key Conclusions
6.4.4.2.2. Middle East & Africa
6.4.4.2.2.1. Market Estimations And Forecasts 2014-2023 ($ Million)
6.4.4.2.2.2. Key Players & Key Products
6.4.4.2.2.3. Key Conclusions

7. Company Profiles
7.1. Airbus Group (France)
7.1.1. Overview
7.1.2. Product Portfolio
7.1.3. Strategic Initiatives
7.1.4. Scot Analysis
7.1.5. Strategic Analysis
7.2. Bae Systems Plc (Uk)
7.2.1. Overview
7.2.2. Product Portfolio
7.2.3. Strategic Initiatives
7.2.4. Scot Analysis
7.2.5. Strategic Analysis
7.3. Curtiss-Wright Corporation  (U.S.)
7.3.1. Overview
7.3.2. Product Portfolio
7.3.3. Strategic Initiatives
7.3.4. Scot Analysis
7.3.5. Strategic Analysis
7.4. Elbit Systems Ltd. (Israel)
7.4.1. Overview
7.4.2. Product Portfolio
7.4.3. Strategic Initiatives
7.4.4. Scot Analysis
7.4.5. Strategic Analysis
7.5. Hensoldt (Germany)
7.5.1. Overview
7.5.2. Product Portfolio
7.5.3. Strategic Initiatives
7.5.4. Scot Analysis
7.5.5. Strategic Analysis
7.6. Israel Aerospace Industries  (Israel)
7.6.1. Overview
7.6.2. Product Portfolio
7.6.3. Strategic Initiatives
7.6.4. Scot Analysis
7.6.5. Strategic Analysis
7.7. Larsen & Toubro Heavy Engineering (India)
7.7.1. Overview
7.7.2. Product Portfolio
7.7.3. Strategic Initiatives
7.7.4. Scot Analysis
7.7.5. Strategic Analysis
7.8. Leonardo S.P.A (Italy)
7.8.1. Overview
7.8.2. Product Portfolio
7.8.3. Strategic Initiatives
7.8.4. Scot Analysis
7.8.5. Strategic Analysis
7.9. Mercury Systems (U.S.)
7.9.1. Overview
7.9.2. Product Portfolio
7.9.3. Strategic Initiatives
7.9.4. Scot Analysis
7.9.5. Strategic Analysis
7.10.  Northrop Grumman Corporation (U.S.)
7.10.1. Overview
7.10.2. Product Portfolio
7.10.3. Strategic Initiatives
7.10.4. Scot Analysis

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Digital Radio Frequency Memory (DRFM) to foray significant market growth through 2023

Global Digital Radio Frequency Memory (DRFM) market majorly deals with technology and systems used to re-transmit and digitally capture radio frequency signal. The global digital radio frequency memory market is expected to rise with a CAGR of 12.3% during forecast period 2016-2023. There has been increased adoption of electronic warfare in civil aviation that led to surging demand for digital radio frequency memory systems in civil aviation. There has been development of Civil Aircraft Missile Protection System (CAMPS), an intelligent system to combat the Man Portable Air Defense Systems (MANPADS) attacks. Electronic warfare systems also support other military operations such as various levels of denial deception, degradation, protection, detection, etc. Also, electronic warfare used in military applications uses directed energy to control electromagnetic spectrum. DRFM jammers are majorly used in Unmanned Aerial Vehicles (UAV) and other advanced electronic warfare systems to record and receive pulse interval and pulse-width of enemy systems and transmit false return signal by playing back the recorded signal. This is done to mislead the enemy system from targeting the real signal. Hence, significant rise in adoption of UAV in defense and security is expected to positively influence the growth of global Digital Radio Frequency Memory (DRFM) market.  According to Institute of Peace and Conflict Studies (India), 87 countries worldwide use drones to facilitate high security across the country borders. Furthermore, as per System Unmanned Aerial Vehicles Association (UK), drones are extensively used  in defense applications for  security and surveillance as drones facilitates live video remote communications to ground troops and is equipped with essential gears and weapons. This led to surging demand for unmanned aerial vehicles. Moreover, increasing government investments for drones has led to increased adoption of DRFM jammers in drones. For instance, According to the Ministry of Defense, India, in 2015, the Ministry of Defense had approved the purchase of 10 missile-armed drones from Israel for $400 million. Also, as per Center for American Progress (U.S), the United States government had provided grant budget of $700 billion for defense and for the advancement in defense cooperation along with enhancing the UAV technology. Moreover, there has been increased government investments in aerospace, military and defense sector globally which led to increased adoption of DRFM systems in defense and military applications such as radar jamming, counter attack enemy systems, electronic warfare systems etc. For instance, As per National Priorities Project, in 2015, total military expenditure by the US government was accounted to be approximately $598 billion. Also, according to China Power Project, in 2017, a budget of $148.3 billion was allotted to military and defense sector by Government of China.

Also, as per Aerospace Technology Institute (UK), in November 2017, UK government had invested $71.76 million to fund the research and development (R&D) of seven projects through the Aerospace Growth Partnership (AGP) for technological development in the aerospace sector. Furthermore, as per company sources, in May 2017, China Aerospace Science and Technology Corporation had invested $21.78 billion along with State-Owned Enterprises China Innovation Fund to support innovative technologies in aerospace. Therefore, supportive investments in aerospace and defense worldwide would lead to novel market opportunities for global digital radio frequency memory market.

Technological advancements in military radars – Growth Promoter

The key factor driving the growth of global digital radio frequency memory market is technological advancements in military radars. DRFM systems are majorly deployed in radar jammers (such as mechanical jamming, electronic jamming, inadvertent jamming, etc.). The technologically advanced radars used in military applications facilitates imaging, obtain digital signals in less time, used in graphical overlays. Also, military radars perform various functions such as weather monitoring, target tracking, wide area search, fire control etc. According to Institute of Electrical and Electronics Engineers, in 2016, there has been development of phased array radars, an airborne military radar. These phased array radars uses Active Electronically Scanned Arrays (AESAs) and deployed in several applications such as maritime surveillance, airborne early warning, overland surveillance, fire control and targeting etc. Also, there has been advancements in radar processing for the development of multifunctional radar systems. As per OBRC studies, advancements in advanced radar processing techniques are associated with radar array processing. Some of the advanced radar processing techniques includes multichannel Synthetic Aperture Radar (SAR), radar Electronic Counter-Countermeasure (ECCM), adaptive detection, Space-Time Adaptive Processing (STAP), Multiple-Input Multiple-Output (MIMO) radar etc. Hence, technological advancements in military radars is expected to positively influence the growth of global digital radio frequency memory market.
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Note: Product cover images may vary from those shown
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  • Raytheon Company
  • Northrop Grumman Corporation
  • Mercury Systems
  • Rohde & Schwarz
Note: Product cover images may vary from those shown
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Note: Product cover images may vary from those shown
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