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Applicability of SCA to Commercial SDR implementations

Applicability of SCA to Commercial SDR implementations. Shahzad Aslam-Mir Ph.D. CTO – PrismTech USA September 15 2004. UI. RF Front end. A/D D/A. digital base-band. secondary GPP. kybd. Radio Components. © WaYve Technologies. SDR Core Framework. DSP FPGA. posix.

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Applicability of SCA to Commercial SDR implementations

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  1. Applicability of SCA to Commercial SDR implementations Shahzad Aslam-Mir Ph.D. CTO – PrismTech USA September 15 2004

  2. UI RF Front end A/D D/A digital base-band secondary GPP kybd Radio Components © WaYve Technologies

  3. SDR Core Framework DSP FPGA posix

  4. SCAs Commercial applicability • SCAs promise: • Multiple waveforms on one platform portably • Business Driver: The US Government - JPO • Several underlying specifications to support the entire architecture: • CORBA • POSIX • Some degree of convergence on a HAL model • Canonical model of the Radio – OMGs PIM/PSM • Principal consumers of this technology – the military

  5. Military motivation for SCA • Military consumers desire: • Common • Open • Standards compliant • No proprietary solutions • Greatest degree of flexibility and …. • Interoperability between radios between the different services

  6. Commercial • Commercial or private sector potential SDR consumers desire: ….. Wait ! • Commercial characterization is much more difficult…. • Why ? • Different industry sectors are doing different things and SDR and SCA would have very different implications for them – • One size OR one SCA may not fit all….

  7. Commercial sectors • Cellular Carriers • Home networking vendors (LinkSys, …) • Wireless backhauls for enterprise (Strix-systems…) • Emergency services (E911, fire, police, ambulance) • Leisure/entertainment – FCS radios • TV/Cable/information media – (sdr form of HDTV) • Leisure/entertainment – content based delivery. • Other smallers groups (RFID, vehicel tracking, GPS centric location based services) • Automobile and telematic industry use of RF • Instrumentation manufacturers.

  8. Commercial sector is much more diversified and the business $ models are very different. • Commercial sector views their devices a little different also – e.g. they tend to have more of a hardware centric view and see bit-streams flowing through the device, rather than a canonical software architecture. • HALs are the architecture, so views of commercial potential SDR devices look like …

  9. UI RF Front end A/D D/A digital base-band secondary GPP kybd Where are the soft-radio elements

  10. Radio Componentsa modern cellular device digital analog CORBA antenna filters amplifiers LO VCO filters From GNU Radio

  11. Commercial SDR pioneers want to use SCA and move the digital divide digital CORBA from GNU Radio

  12. digital using next generation digital front end processors Software based control of device from GNU Radio

  13. digital DSP FPGA GPP SOFT Waveform GSM/CDMA SBC core framework © PrismTech

  14. Commercial SCA based SDR • So how does this affect the potential use of SCA to commercial sectors • The answer is complex owing to the fact that each commercial sectors motivations are different to those of any other – as a consequences the motivation for their possible adoption of SCA based SDR technologies is different – indeed in some cases • Adoption of SDR at all is a question in some business sectors

  15. Commercial SCA based SDR • What would a typical commercial cross-section of potential SCA SDR want ? • Interoperability ? Not always relevant • Language independence not always felt relevant. • Emergency services ‘desperately’ need SDR and SCA and are asking for it but their budgets are constrained – • Have to get to homeland security budgets for this kind of endeavor

  16. Commercial SCA based SDR (contd) • What would a typical commercial cross-section of potential SCA SDR want ? • Private home networking vendors don’t necessarily want SDR right now - but are interested in SCA ! • Entertainment sector sees benefits in SDR and SCA like platforms to roll-out wireless entertainment items – BUT they tend towards proprietary solutions – waveform portability not a concern • Cellular Carriers are motivated by MOU and Churn • Rollout new networks and want to bill $s – how does SDR and SCA help ? • Answers are different for the base-station and the handset side • How – explain …….

  17. Commercial and JTRS models of SDR • Commercial architectures are highly optimized for power, algorithmic capability and scalability (number of concurrent subscribers) concerns on the base-stations. On the handset its all about power and chip real-estate – no COTS…. • Power, and form factors tends to guide design • There is currently no distinguishing guidelines between an SCA based SDR solution for • the base-station • the handset/terminal • OMGs PIM/PSM does however address this SCA shortcoming though • Commercial specifications currently more focused on the physical hardware e.g. • OBSAI

  18. Commercial and JTRS models of SDR • Unlike JTRS the Commercial have no single specifications that cleanly define • a CORE framework middleware (based on CORBA or not) • a waveform in terms of such middleware structure (in CORBA) But the SDR Forum and bodies such as E2R are making significant headway in making those advances

  19. A key concern for the commercial sector is tracking how SCA addresses the HAL Core Framework From - Fette B., General Dynamics Recommendations to JPO on Hardware Supplement

  20. A key concern for the commercial sector is tracking how waveforms are mapped to HAL From - Fette B., LaMacchia M , Christensen E.,– High Performance Software Radios, April 2004.

  21. SCA applicability in Commercial • Recall that SCA provides a way to portably load and unload waveforms. • Waveforms are built to standards at the air interfaces and in terms of being mapped to the SCA CF via CORBA idl. • An SCA Core framework provides for : • Wavefrom portability. • Language independence. • Platform HW & OS independence. • Reuse and reuasability. • Reduced integration times of components and so faster time to market. • COTS model driven. • Full lifecycle control. • Resource management. • Device management. • configuration and deployment management. • A framework for integrating logical and physical radio entities in an OO manner. • Interconnection and intercommunication within the radio. • Domain profiles. • Secure separation via RB model and crypto.

  22. SCA applicability in Commercial • Commercial Checklist - • Wavefrom portability. • Language independence. • Platform H/W & OS independence. • Reuse and reuasability. • Reduced integration times of components and so faster time to market. • COTS model driven • full lifecycle control • resource management • device management • configuration and deployment management. • A framework for integrating logical and physical radio entities in an OO manner. • interconnection and intercommunication within the radio. • domain profiles. • Secure separation via RB model and crypto

  23. SCA applicability in Commercial What might motivate the commercial sector to look at SCA-SDR ? Can SDR help me build more spectrally efficiency devices ? Spectrum sharing methods are coming to the fore and the FCC is interested in looking into such solutions for policy making. maybe this might be one way in…

  24. Concluding recommendations for commercial SCA SDR Models and specification for a SBC based CORE framework • SCA is suitable – but may require profiling appropriately • Wireless CORBA specification coupled with the SBC PIM/PSM Model for defining commonly used waveforms and standards • CDMA, wCDMA, GSM over a UMTS infrastructure also SDR based Commercial specifications to integrate base-station equipment via software OBSAI like specs coupled to the OMGs PIM-PSM model – BUT – profiled for different domains of the commercial sector – OMG already does this An SBC architecture that takes from SCA and CORBA which considers • power • cpu consumption • smart antenna • adaptive capability • Software CF based control all the way to the front end – smart antennas and DRP technology.

  25. Recommendations for the adoption of a commercial SCA SDR standard

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