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Software Defined Radio Market Survey Current Status and Future Outlook
Fuji-Keizai USA, Inc., Aug 2004, Pages: 205
Executive Summary:
1. Introducing Software Defined Radio
- 1.1. Why SDR?
- 1.1.1. Interoperability: Military and emergency radio services
- 1.1.2. Agility: Ad hoc wireless networking and wireless grids
- 1.1.3. Ending standards wars: Cellular telephone services
- 1.1.4. The 'intelligent transceiver' and service markets
- 1.1.5. The SDR communications stack
- 1.2. Advantages of SDR technology
- 1.3. Challenges of SDR technology
- 1.4. The path to SDR
- 1.4.1. Early achievements in SDR
- 1.4.2. Competing technologies
- 1.5. SDR as a disruptive technology?
- 1.6. Overview of the report
2. From Conventional Architectures to Software Defined Radio
- 2.1. Conventional radio design
- 2.1.1. Receiver design
- 2.1.2. Signal mixing
- 2.1.3. Receiver characteristics
- 2.1.4. Receiver system architectures
- 2.1.4.1. The direct conversion receiver
- 2.1.4.2. The heterodyne and super-heterodyne receivers
- 2.1.5. Transmitter and transceiver designs
- 2.2. SDR radio designs
- 2.2.1. A taxonomy of SDR architectures
- 2.2.2. SDR transceiver architectures
- 2.2.3. Flexibility and SDR architectures
- 2.3. Computational and power budgets
- 2.4. New networking architectures made possible by SDR
- 2.4.1. The Personal Area Network & SDR
- 2.4.2. Wireless grid computing and SDR
- 2.5. Summary
3. SDR technology survey
- 3.1. Digital technologies for SDR
- 3.1.1. Analog-to-Digital and Digital-to-Analog converters (ADCs & DACs)
- 3.1.2. Digital signal processors (DSPs)
- 3.1.3. Application Specific Integrated Circuits (ASICs) & Application Specific Standard Products(ASSPs)
- 3.1.4. Programmable Logic Devices (PLDs): Field-Programmable Gate Arrays (FPGAs)
- 3.1.5. System-on-a-chip, Hybrid FPGA & specialized core designs
- 3.1.6. Hardware description languages (HDLs) & Electronic Design Automation (EDA) tools
- 3.1.7. General purpose processor (GPP) hardware
- 3.2. RF Micro-electro-mechanical systems (RF-MEMS)
- 3.2.1. RF-MEMS tuned circuit components
- 3.2.2. RF-MEMS in smart & broadband antenna systems
- 3.3. Software development challenges for SDR
- 3.4. Summary: SDR technologies vs. conventional technologies
- 3.4.1. Currently practical SDR applications
4. Government and industry programs promoting SDR technologies
- 4.1. US Military programs
- 4.1.1. JARECO
- 4.1.2. ICNIA
- 4.1.3. TAJPSP
- 4.1.4. GloMo
- 4.1.5. SPEAKeasy Phase I
- 4.1.6. SPEAKeasy Phase II
- 4.1.7. FM3TR-The Future Multiband Multiwaveform Modular Tactical Radio
- 4.1.8. ATLANTIC PAWS
- 4.1.9. JTRS-The Joint Tactical Radio System
- 4.1.9.1. Companies participating in JTRS SCA and waveform development stages
- 4.1.9.2. Companies participating in JTRS Cluster 1:
- 4.1.9.3. Clusters 2 through 5
- 4.2. European Union programs
- 4.3. Industry organizations: The MMITS Forum/The Software Defined Radio Forum
- 4.4. Conclusion: Government funding and SDR
5. Key Vendor strategies for SDR
- 5.1. Profiles of SDR market segments
- 5.1.1. Data conversion: ADC & DAC vendors
- 5.1.2. Signal processing: ASICs, FPGAs, DSPs, GPPs
- 5.1.3. Semiconductor IP vendors and SDR
- 5.1.4. DSP vendors and SDR
- 5.1.5. SDR sub-system vendors
- 5.1.6. Consumer & industrial radio system OEMs & SDR
- 5.1.7. Wireless carriers & SDR
- 5.1.8. RF MEMS
- 5.1.9. Electronic Design Automation (EDA) vendors
- 5.1.10. SDR Software vendors
- 5.2. Vendor profiles
- 5.2.1. ADC Telecommunications
- 5.2.2. Vanu, Inc.
The Vanu Software Basestation
Vanu Software Radio Test & Monitoring System
- 5.2.3. Intel Corporation-'Radio Free Intel'
- 5.2.3.1. CMOS SDR building blocks: economies of scope
- 5.2.3.2. Intel's broader investments in SDR
- 5.2.3.3. Intel Communications Alliance
- 5.2.3.4. Networking software & protocols
- 5.2.4. Altera
- 5.2.5. GNU Radio
- 5.3. Value Chains, Value Webs & Profit Pools in the SDR market
- 5.3.1. The profit pool concept
- 5.4. Market scenarios
- 5.4.1. SCENARIO: EARLY STAGES OF THE SDR MARKET
- 5.4.2. SCENARIO: OPTIMISTIC SDR DEVELOPMENT IN THE MEDIUM RUN
- 5.4.3. SCENARIO: RESTRICTIVE REGULATION OF SDR TECHNOLOGIES
- 5.4.4. SCENARIO: PERMISSIVE REGULATION OF SDR TECHNOLOGIES
- 5.4.5. Timing of SDR adoption by market
- 5.4.6. The bottom line and SDR
6. Regulatory support for SDR
- 6.1. FCC investigations of SDR technology
- 6.1.1. FCC's new process for authorizing radio devices
- 6.1.2. Third party changes
- 6.1.3. Preventing unauthorized software modifications
- 6.2. US Government spectrum policy reform
- 6.2.1. Secondary Spectrum Markets
- 6.2.2. Overlay
- 6.3. Global SDR regulation
- 6.4. Conclusion: regulation of SDR technologies
7. Conclusion
- 7.1. SDR market highlights
- 7.2. SDR Strategies
- 7.3. Long-term prospects: consumer perspectives
- 7.3.1. SDR, air interface standards, and time-to-market
- 7.3.2. Cognitive radio
- 7.3.3. Services-trans-system roaming
- 7.3.4. Personal Area Networking
Appendix A. The Software Defined Radio Forum
Appendix B: Company Information for selected firms in Software Defined Radio
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