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1. References #6 • Leon-Garcia & Widjaja: Communication Networks, McGraw Hill, 2004 • “Computer Networks, 3rd Edition, A.S. Tanenbaum. Prentice Hall, 1996 • TCP Packet Control for Wireless Networks, Wan Gang Zeng and Ljiljana Trajković, Communication Networks Laboratory Simon Fraser University • Hari Balakrishnan, Venkata N. Padmanabhan, Srinivasan Seshan and Randy H. Katz, A Comparison of Mechanisms for Improving TCP Performance over Wireless Links, ACM SIGCOMM ’96 • “END-TO-END ARGUMENTS IN SYSTEM DESIGN,” J.H. Saltzer, D.P. Reed and D.D. Clark M.I.T. Laboratory for Computer Science, 1981 • J. Padhye, V. Firoiu, D. Towsley, and J. Kurose, “Modeling TCP Reno performance: a simple model and its empirical validation,” IEEE/ACM Trans. Networking, vol. 8, pp. 133-145, Apr. 2000. • Modeling TCP Long File Transfer Latency over Long Delay Wireless Multilink PPP, Said Zaghloul, Victor Frost, Abdul Jabbar Mohammad; IEEE Communications Letters, Vol. 9, No. 11; November 2005, pp. 988-990. • Professors Luiz DaSilva and Scott Midkiff:Mobile Networks: TCP in Wireless Networks www.intel.com/education/highered/Wireless/lectures/lecture_11_tcp.ppt • B. Nath, www.cs.rutgers.edu/~rmartin/teaching/fall04/cs552/lectures/wireless.pdf • Explicit Loss Notification to Improve TCP Performance over Wireless Channels , Gergő Buchholcz, Thomas Ziegler, Tien Van Do www.cost285.itu.edu.tr/tempodoc/TD_285_04_20_Buchholcz.ppt #31

2. References #6 • Abdelmoumen, R., M. Malli, and C. Barakat. Analysis of TCP latency over wireless links supporting FEC/ARQ-SR for error recovery. in IEEE International Conference on Communications. 2004. • Andrews, M., Instability of the proportional fair scheduling algorithm for HDR. 2002. p. 14. • Balakrishnan, H., et al. A comparison of mechanisms for improving TCP performance over wireless links. in ACM Sigcomm August 1996. 1996. Stanford, CA. • Barakat, C. and E. Altman, Bandwidth Tradeoff between TCP and Link-Level FEC. Computer Networks 2002. 39(2): p. 133-150. • Bonald, T., Flow-level performance analysis of some opportunistic scheduling algorithms. European transactions on telecommunications 2005. 16(1): p. 65-75. • Bonald, T. and A. Proutiere, Wireless downlink data channels: user performance and cell dimensioning in Proceedings of the 9th annual international conference on Mobile computing and networking. 2003, ACM Press: San Diego, CA, USA p. 339-352. • Bonald, T. and A. Proutiere, QoS in multi-service wireless networks • A state of the art, in Design and Engineering of the Next Generation Internet, towards convergent multi-service networks. 2004, Eurongi - Network of Excellence. • Borst, S. User-level performance of channel-aware scheduling algorithms in wireless data networks. in Proceedings of IEEE INFOCOM '03. 2003. San Francisco, CA #32

3. References #6 • Chakravorty, R., et al. Performance optimizations for wireless wide-area networks: comparative study and experimental evaluation. in Proceedings of the 10th annual international conference on Mobile computing and networking. 2004. Philadelphia, PA: ACM Press New York, NY, USA • Chatterjee, M., G.D. Mandyam, and S.K. Das. Fast ARQ in high speed downlink packet access for WCDMA systems. in Proceedings in European Wireless Conference. 2002. Florence, Italy. • Chockalingam, A. and M. Zorzi. Wireless TCP performance with link layer FEC/ARQ. in 1999 IEEE International Conference on Communications. 1999. Vancouver. • Fattah, H. and C. Leung, An overview of scheduling algorithms in wireless multimedia networks. Wireless Communications, IEEE, 2002. 9(5): p. 76-83. • Gyasi-Agyei, A. and S.-L. Kim, Cross-layer multiservice opportunistic scheduling for wireless networks. IEEE Communications Magazine, 2006. 44(6): p. 50-57. • Leung, K.K., et al. Methods to improve TCP throughput in wireless networks with high delay variability. in Vehicular Technology Conference. 2004. • Tian, Y., K. Xu, and N. Ansari, TCP in wireless environments: problems and solutions. IEEE Radio Communications, 2005: p. S27-S32. • Vacirca, F., A. De Vebductis, and A. Baiocchi, Optimal design of hybrid FEC/ARQ schemes for TCP over wireless links with Rayleigh fading. Mobile Computing, IEEE Transactions on, 2006. 5(4): p. 289-302. • Yan, W., M. Zukerman, and R.J. Harris, PTT packet delay analysis for GPRS/GSM links. Communications Letters, IEEE, 2006. 10(6): p. 456-458. • Zhang, H., Service Disciplines For Guaranteed Performance Service in Packet-Switching Networks. Proceedings of the IEEE, 1995. 83(10). • Zhu, J. and S. Roy, Modeling TCP over selective repeat ARQ in wireless networks with non-negligible propagation delay. IEEE, 2003: p. 1843-1847. #33

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5. References #9 Computer Networking: A Top Down Approach Featuring the Internet, 2nd edition. Jim Kurose, Keith Ross Addison-Wesley, July 2002. • S. Kehav, “An Engineering Approach to Computer Networking, Addison-Wesley Professional Computing Series, 1997 • Alexandre Proutiere, Ed, “QoS in multi-service wireless networks • A state of the art”, eurongi.enst.fr/archive/127/DWPJRA241.pdf • T. Bonald, “Flow-level performace analysis of some opportunistic scheduling algorithms, Euro. Trans. Telecomms. 2005; 16:65–75 • Stefan Parkvall, Eva Englund, Magnus Lundevall, and Johan Torsner, “Evolving 3G Mobile Systems: Broadband and Broadcast Services in WCDMA”, IEEE Communications Magazine, February 2006 • T. S. Eugene Ng, I. Stoica, H. Zhang, Packet fair queueing algorithms for wireless networks with location-dependent errors, Proc. of IEEE Infocom, 1998. • Schwartz, M., Mobile wireless communications. 2005, Cambridge; New York: Cambridge University Press. xi, 457 p. #35

6. References #10 • Bartoš, R., C.K. Godsay, and S. Fulton. Experimental Evaluation of DOCSIS 1.1 Upstream Performance. in Parallel and Distributed Computing and Networks. 2004. Innsbruck, Austria. • Fellows, D. and D. Jones, DOCSIS cable modem technology. Communications Magazine, IEEE, 2001. 39(3): p. 202-209. • Hawa, M. and D.W. Petr. Quality of service scheduling in cable and broadband wireless access systems. in Tenth IEEE International Workshop on Quality of Service, 2002. 2002. • Lin, Y.-D., W.-M. Yin, and C.-Y. Huang, An Investigation into HFC MAC Protocols: Mechanisms, Implementation, and Research Issues. IEEE Communications Surveys, 2000. • Martin, J. The Impact of the DOCSIS 1.1/2.0 MAC Protocol on TCP. in Second IEEE Consumer Communications and Networking Conference. 2005. Las Vegas, NV. • Martin, J. and N. Shrivastav. Modeling the DOCSIS 1.1/2.0 MAC Protocol. in Proceedings of the 2003 International Conference on Computer Communications and Networks. 2003. Dallas TX. • Shah, N., et al. A tutorial on DOCSIS: protocol and performance models. in Proceedings of the International Working Conference on Performance Modeling and Evaluation of Heterogeneous Networks. 2005. Ikley, UK. • Zhenglin, L. and X. Chongyang, An Analytical Model for the Performance of the DOCSIS CATV Network The Computer Journal 2002. 45(3): p. 278-284. • http://www.cablemodem.com/primer/ • Data-Over-Cable Service Interface Specifications eDOCSIS™ Specification CM-SP-eDOCSIS-I08-060407 #36

7. References #10 “Computer Networks, 3rd Edition, A.S. Tanenbaum. Prentice Hall, 1996 • DOCSIS Overview, Ajay Gummalla, www.ieee802.org/3/efm/public/jul01/presentations/gummalla_1_0701.pdf • www.cablemodem.com/downloads/specs/SP-CMCI-I09-030730.pdf • http://www.nextgendc.com/index.htm • http://www.jlsnet.co.uk/index.php?tab=3&pge=projects_docsis_chap3c #37

8. References #11 • Eklund, C., et al., IEEE standard 802.16: a technical overview of the WirelessMAN air interface for broadband wireless access. Communications Magazine, IEEE, 2002. 40(6): p. 98-107. • Ghosh, A., et al., Broadband wireless access with WiMax/802.16: current performance benchmarks and future potential. Communications Magazine, IEEE, 2005. 43(2): p. 129-136. • Nair, G., et al., IEEE 802.16 Medium Access Control and Service Provisioning. Intel Technology Journal, 2004. 08(03): p. 213-228. • Ramachandran, S., C.W. Bostian, and S.F. Midkiff, Performance evaluation of IEEE 802.16 for broadband wireless access. • R. Marks, “The 802.16 WirelessMAN WirelessMAN MAC: MAC: • It’s Done, but What Is It?” www.ieee802.org/16/docs/01/80216-01_58r1.pdf • W. Stallings Wireless Communications and Networks, Prentice Hall, Second Edition, 2005 #38

9. References #12 • Attar, R., et al., Evolution of cdma2000 cellular networks: multicarrier EV-DO. Communications Magazine, IEEE, 2006. 44(3): p. 46-53. • Bhushan, N., et al., CDMA2000 1xEV-DO revision a: a physical layer and MAC layer overview. Communications Magazine, IEEE, 2006. 44(2): p. 37-49. • Ekstrom, H., et al., Technical solutions for the 3G long-term evolution. Communications Magazine, IEEE, 2006. 44(3): p. 38-45. • Guangyi, L., et al., Evolution map from TD-SCDMA to FuTURE B3G TDD. Communications Magazine, IEEE, 2006. 44(3): p. 54-61. • Parkvall, S., et al., Evolving 3G mobile systems: broadband and broadcast services in WCDMA. Communications Magazine, IEEE, 2006. 44(2): p. 30-36. • Sanjiv Nanda, K.B., Sarath Kumar,, Adaptation Techniques in Wireless Packet Data Services. IEEE Communications Magazine, 2000(1): p. 54-64. • Sarikaya, B., Packet mode in wireless networks: overview of transition to third generation. Communications Magazine, IEEE, 2000. 38(9): p. 164-172. • Yavuz, M., et al., VoIP over cdma2000 1xEV-DO revision A. Communications Magazine, IEEE, 2006. 44(2): p. 50-57. #39

10. References #12 • Leon-Garcia & Widjaja: Communication Networks, McGraw Hill, 2004 • www.ccs.neu.edu/home/rraj/G250Projects/NachiketMehta.ppt • M. D. Yacoub, Wireless Technology, Protocols, Standards, and Techniques, CRC Press, 2002 • Geert Heijenk, wwwhome.cs.utwente.nl/~heijenk/mwn/slides/Lecture-5%206%20slides%20per%20page.pdf • Juan J. Alcaraz, Fernando Cerdan, and Joan García-Haro, “Optimizing TCP and RLC Interaction in the UMTS Radio Access Network”, IEEE Network • March/April 2006 • http://www.umtsworld.com/technology/RCC_states.htm • P. Chong, www.comlab.hut.fi/opetus/238/lecture9_PacketAccess.pdf • Agilent, Applications note: Concepts of High Speed Downlink Packet Access: Bringing Increased Throughput and Efficiency to W-CDMA • Alexander Wang , WCDMA Evolved: High Speed Downlink Packet Access Mechanisms and Capabilities, www.pcca.org/standards/architecture/hsdpa.pdf • Mohamad Assaad, Zeghlache Djamal TCP Performance Over Umts-Hsdpa Systems, CRC Press, 2007 #310

11. References #13 • TIA/EIA/IS-856, cdma2000 High Rate Packet Data Air Interface Specification, Telecommunications Industry Association, January 2002. • Samuel C. Yang, “3G CDMA 2000: Wireless System Engineering,” Artech House Inc. • Kamran Etemad, “CDMA 2000 Evolution,” John Wiley and Sons Inc., 2004 • Mooi Choo Chuah and QinQing Zhnag, “Design and Performance of 3G Wireless Networks and Wireless LANs,” Springer Inc., 2006. • Bender, P., et al., “CDMA/HDR: A Bandwidth Efficient High Speed Wireless Data Service for Nomadic Users,” IEEE Communications, Vol. 38, No. 7, July 2000, pp. 70-77. #311

12. References #14 • Assi, C.M., et al., Dynamic bandwidth allocation for quality-of-service over Ethernet PONs. Selected Areas in Communications, IEEE Journal on, 2003. 21(9): p. 1467-1477. • Hajduczenia, M., EPONs - revolution in access networks. • Haran, O., EPON vs. GPON: a practical comparison. 2005. • Keiser, G., FTTX concepts and applications. Wiley series in telecommunications and signal processing. 2006, Hoboken, N.J.: John Wiley & Sons : IEEE. xvii, 293 p. • Kramer, G., Ethernet passive optical networks. Communications engineering series. 2005, New York: McGraw-Hill Professional. xvii, 307 p. • Kramer, G. and G. Pesavento, Ethernet passive optical network (EPON): building a next-generation optical access network. Communications Magazine, IEEE, 2002. 40(2): p. 66-73. • Kunigonis, M., FTTH explained: delivering efficient customer bandwidth and enhanced services. 2005. • McGarry, M.P., M. Maier, and M. Reisslein, Ethernet PONs: a survey of dynamic bandwidth allocation (DBA) algorithms. Communications Magazine, IEEE, 2004. 42(8): p. S8-15. • Pesavento, G., Ethernet passive optical network (EPON) architecture for broadband access Optical Networks Magazine 2003. • Upadhyay, P., Passive optical networks. 2005. • Zahr, S.A. and M. Gagnaire, An analytical model of the IEEE 802.3ah MAC protocol for EPON-based access systems. 2006. p. 1-5. • Zheng, J. and H.T. Mouftah, Media access control for Ethernet passive optical networks: an overview. Communications Magazine, IEEE, 2005. 43(2): p. 145-150. #312

13. References#15 • Begain, K., et al., Modeling of a PLC access network, in First Polish-German Teletraffic Symposium. 2000: Dresden, Germany. • Bianchi, G., I. Tinnirello, and G. Conigliaro, Design and performance evaluation of an hybrid reservation-polling MAC protocol for power-line communications. International Journal of Communication Systems, 2003. 16(5): p. 427-445. • Klaus Dostert, “Powerline Communications,” Prentice Hall, 2001 • Hrasnica H, Haidine A, Lehnert R. Reservation MAC protocols for powerline communications. Proceedings of ISPLC 2001–5th International Symposium on Powerline Communications and its Applications, April 3–6, 2001, Sweden, 2001. • Hrasnica, H. and A. Haidine. Modeling MAC Layer for Powerline Communications Networks,. in Internet, Performance and Control of Network Systems, part of SPIE's symposium on Information Technologies. 2000. Boston, MA, USA. • Hrasnica, H., A. Haidine, and R. Lehnert. Performance comparison of reservation MAC protocols for broadband powerline communications networks. in Proceedings of ISPLC 2001-5th International Symposium on Powerline Communications and its Applications. 2001. Malm.o, Sweden. • Hrasnica, H., A. Haidine, and R. Lehnert, Broadband powerline communications networks : network design. 2004, Chichester, England ; Hoboken, NJ: Wiley. xiii, 275 p. • Hrasnica, H. and R. Lehnert. Investigation of MAC protocols for broadband PLC networks under realistic traffic conditions. in 7th ISPLC 2003. 2003. Kyoto, Japan. • Lin, Y.-J., et al. Periodic contention-free multiple access for power line communication networks. in 19th Internation Conference on Advanced Information Networking and Applications, 2005. 2005. • Weilin Liu, Hanspeter Widmer, and Philippe Raffin, “Broadband PLC Access Systems and Field Deployment in European Power Line Networks, IEEE Communications Magazine, May 2003. • Majumder, A. and J. Caffery, Jr., Power line communications. Potentials, IEEE, 2004. 23(4): p. 4-8. • Mollenkopf, J., Presentation to Cincinnati IEEE Meeting. 2004. p. 1-25. • Pavlidou, N., et al., Power line communications: state of the art and future trends. Communications Magazine, IEEE, 2003. 41(4): p. 34-40. • Sundaresan, S., et al., Distributed MAC protocols and priority oriented scheduling for a PLC access network. International Journal of Communication Systems, 2003. 16(5): p. 475-495. • Sutterlin, P. and W. Downey. A power line communication tutorial - challenges and technologies. in 1998 International Symposium on Power-line Communications and its Applications. 1998. Tokyo, Japan. • Weilin, L., H. Widmer, and P. Raffin, Broadband PLC access systems and field deployment in European power line networks. Communications Magazine, IEEE, 2003. 41(5): p. 114-118. #313

14. References #16 • S. Haykin, “Cognitive Radio: Brain-Empowered Wireless Communications”, IEEE Journal on Selected Areas in Communications, Feb. 2005. • William Krenik and Anuj Batra, “Cognitive Radio Techniques from Wide Area Networks”, Proceedings of the 42nd Design Automation Conference, pages 409-412, 2005. • Upcoming May 2007 Issue of the IEEE Communications Magazine (Feature Topic on Cognitive Radios for Dynamic Spectrum Access) • KUAR Wiki: https://agileradio.ittc.ku.edu/ • DARPA XG Website: http://www.darpa.mil/ATO/programs/XG/index.htm • T. R. Newman et al., “Cognitive Engine Implementation for Wireless Multicarrier Transceivers”, To appear in the Wiley Wireless Communications and Mobile Computing Journal, 2007 • R. Rajbanshi et al., “An Efficient Implementation of NC-OFDM Transceivers for Cognitive Radios”, Proc. CrownCom, June. 2006. #314

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