Reconfigurable radios references

Part 2 introduces energy saving techniques for wireless communication, and proposes a framework for energy-aware cross-layer radio management. It will be published Thursday, April 3.

[1] M. Dillinger, K. Madani, and N. Alonistioti, Software Defined Radio: Architectures, Systems and Functions, John Wiley & Sons, Chichester, UK, 2003.

[2] F.K. Jondral, "Software-Defined Radio—Basics and Evolution to Cognitive Radio," EURASIP Journal on Wireless Communications and Networking, Issue 3, pp. 275-283, 2005.

[3] G. Desoli and E. Filippi, "An Outlook on the Evolution of Mobile Terminals," CAS Magazine, second quarter 2006.

[4] C. Van Berkel et al., "Vector Processing as an Enabler for Software Defined Radio in Handsets from 3G+WLAN Onwards," Proc. Software Defined Radio Technical Conference, Vol. B, pp. 125-130, Nov. 2004.

[5] Y Lin et al., "SODA: A Low-power Architecture For Software Radio," in Proc. of the 33rd International Symposium on Computer Architecture (ISCA'06), 2006.

[6] J. Glossner et al., "The Sandbridge Sandblaster Communication Processor," in Proc. 3rd Workshop on Application Specific Processors, pp 53-58, Sept 2004.

[7] http://www.arm.com

[8] M. Jayapala et al., "Clustered Loop Buffer Organization for Low Energy VLIW Embedded Processors," to Appear in IEEE Transaction on Computers.

[9] D. Novo et Al., 'ENERGY-PERFORMANCE EXPLORATION OF A CGA-BASED SDR PROCESSOR', SDRForum, Nov. '06, Florida USA

[10] L. Van der Perre et Al., 'Architectures and Circuits for Software Defined Radios: scaling and scalability for low cost and low energy', to be published in ISSCC 2007, Febr. 2007, San Francisco, USA

[11] K. Muhammad, R. B. Staszewski and D. Leipold, "Digital RF Processing: Toward Low-Cost Reconfigurable Radios," IEEE Communication Magazine, Vol. 43, No. 8, pp 105-113, Aug. 2005.

[12] F. Agnelli et al., "Wireless multi-standard terminals: system analysis and design of a reconfigurable RF front-end," IEEE Circuits and systems Magazine,,special issue on wireless reconfigurable terminals, pp. 38-59.

[13] B.Debaille, B. Bougard and G. Lenoir, "Energy-scalable OFDM transmitter design", in Proc. DAC 2006.

[14] V. Giannini et al., "Flexible baseband Low-Pass Filter and Variable Gain Amplifier for Software-Defined Radio Front-End", European Solid-State Circuits Conf., Sept. 2006.

[15] L. Benini et al., "A Survey of Design Techniques for System-Level Dynamic Power Mgmt," IEEE Trans. VLSI, vol. 8, no. 3, June 2000.

[16] A. Sinha and A. P Chandrakasan, "Energy-Scalable System Design," Trans. VLSI, Apr 2002, pp 135-145.

[17] E. Uysal-Biyikogly, B. Prabhakar and A. El Gamal, "Energy-efficient packet transmission over a wireless link," ACM/IEEE Transactions on Networking, Aug. 2002, 487-499.

[18] B. Bougard, S. Pollin, A. Dejonghe, F. Catthoor and W. Dehaene, "Cross-layer power management in wireless networks and consequences on system-level architecture," EURASIP Signal Processing Journal, Special Issue on Advances in Signal Processing.

[19] S. Pollin, R. Mangharam, B. Bougard, F. Catthoor, L. Van der Perre, I. Moerman and R. Rajkumar, "MEERA: cross-layer methodology for energy-efficient resource allocation for wireless networks," to appear in IEEE Transactions on Wireless Communications.

[20] J. Mitola et al., "Cognitive radio: Making software radios more personal," IEEE Pers. Commun., vol. 6, no. 4, pp. 13–18, Aug. 1999.

[21] S. Haykin, "Cognitive radio: Brain-empowered wireless communications," IEEE Journal on Selected Areas in Communications, vol. 23, no. 2, pp. 201-220, 2005.

[22] R. Brodersen, A. Wolisz, D. Cabri, S. M. Mishra, and D. Willkomm, "A cognitive radio approach for use of virtual unlicensed spectrum," CORVUS White Paper, July 2004.

[23] Y. Xing, R. Chandramoulil, S. Mangold, and S. S. N, "Dynamic spectrum access in open spectrum wireless networks," IEEE Transactions on Selected Areas in Communications, vol. 24, no. 3, pp. 626-637, 2006.

[24] S. Pollin, M. Ergen, A. Dejonghe, L. Van der Perre, F. Catthoor, I. Moerman and A. Bahai, "Distributed cognitive coexistence of 802.15.4 with 802.11," in Proc. Crowncom'06.

[25] Bin Le, T.W. Rondeau, J.H. Reed and C.W. Bostian, "Analog-to-digital converters", IEEE Signal Processing Magazine, Volume 22, Issue 6, Date: Nov. 2005, Pages: 69- 77

[26] S. Shakkottai, T. S. Rappaport, P. C. Karlsson, "Cross-layer design for wireless networks," IEEE Communications Magazine, Vol. 41, Issue 10, pp. 74 – 80, , Oct 2003

[27] F. Thoen and F. Catthoor, Modeling, Verification and Exploration of Task-Level Concurrency in Real-Time Embedded Systems, Kluwer Academic Publisher, Boston, 1999.

[28] M. Li, B. Bougard, F. Horlin, M. Engels, L. Van Der Perre and F. Catthoor, "Quality-Energy Scalable Chip Level Equalization for HSDPA," IEEE GLOBECOM Conference 2007.

[29] M.Goel and N.Shanbhag, ``Dynamic algorithm transformations - a systematic approach to low-power reconfigurable signal processing'', IEEE Trans. on VLSI Systems, Vol.7, No.4, pp.463-476, Dec. 1999.

[30] R. Rajbanshi et al., "Comparative Study of Frequency Agile Data Transmission Schemes for Cognitive Radio Transceivers", in Proc. of First International Workshop on Technology and Policy for Accessing Spectrum (TAPAS 2006), Boston, August 2006