Skip to main content Accessibility help
×
  1. Home
  2. Books
  3. Mobile Wireless Communications
  • Cited by 42
      • Show more authors
      • You may already have access via personal or institutional login
    • Select format
    • Publisher:
      Cambridge University Press
      Publication date:
      05 June 2012
      16 December 2004
      ISBN:
      9780511811333
      9780521843478
      9781107412712
      DOI:
      https://doi.org/10.1017/CBO9780511811333
      Dimensions:
      (247 x 174 mm)
      Weight & Pages:
      0.94kg, 470 Pages
      Dimensions:
      (244 x 170 mm)
      Weight & Pages:
      0.74kg, 470 Pages
      • Subjects:
      Engineering, Wireless Communications
    You may already have access via personal or institutional login
    • Selected: Digital
    Add to cart View cart Buy from Cambridge.org
    Subjects:
    Engineering, Wireless Communications
    Information

    Book description

    Wireless communication has become a ubiquitous part of modern life, from global cellular telephone systems to local and even personal-area networks. This 2004 book provides a tutorial introduction to digital mobile wireless networks, illustrating theoretical underpinnings with a wide range of real-world examples. The book begins with a review of propagation phenomena, and goes on to examine channel allocation, modulation techniques, multiple access schemes, and coding techniques. GSM and IS-95 systems are reviewed and 2.5G and 3G packet-switched systems are discussed in detail. Performance analysis and accessing and scheduling techniques are covered, and the book closes with a chapter on wireless LANs and personal-area networks. Many worked examples and homework exercises are provided and a solutions manual is available for instructors. The book is an ideal text for electrical engineering and computer science students taking courses in wireless communications. It will also be an invaluable reference for practising engineers.

    Reviews

    'I rarely award books top marks, but there is no doubt this one fully deserves it. If you are looking for one book to both cover wireless fundamentals and give you details of the key wireless systems in use today, I'd strongly recommend this one.'

    William Webb - IEE Communications Engineer

    'This is a valuable resource of knowledge, and should not be squandered or allowed to die out for reasons of commerce.'

    Source: International Journal of Electronics

    'This book is a highly readable and step-by-step introduction to wireless communications … I will recommend it to my MSc students. The book is, however, also suitable for senior undergraduates and independent readers.'

    Source: The Times Higher Education Supplement

    '… an ideal text for electrical engineering and computer science students taking courses in wireless communications, as well as an invaluable reference for practicing engineers.'

    Source: Iasi Polytechnic Magazine

    Refine List

    Actions for selected content:

    Select all | Deselect all
    • View selected items
    • Export citations
    • Download PDF (zip)
    • Save to Kindle
    • Save to Dropbox
    • Save to Google Drive

    Save Search

    You can save your searches here and later view and run them again in "My saved searches".

    Please provide a title, maximum of 40 characters.
    Cancel
    ×

    Contents

    Contents
    References
    References
    Abramson, N. 1973. “The Aloha system,” Ch. 14, in Computer Networks, ed. N. Abramson and F. Kuo, Englewood Cliffs, NJ, Prentice-Hall
    Abramson, N. 1977. “The throughput of packet broadcasting channels,” IEEE Transactions on Communications, COM-25, 1 (January), 117–128
    Aein, J. M. 1973. “Power balancing in systems employing frequency reuse,” Comsat Technology Review, 3, 2 (Fall)
    Akyildiz, I. F. and Ho, J. S. M.. 1995. “Dynamic mobile user location update for wireless PCS networks,” Wireless Networks, 1, 2 (July), 187–196
    Akyildiz, I. F.et al. 1998. “Mobility management in current and future communication networks,” IEEE Network, 12, 4 (July/August), 39–49
    Anasti, G.et al. 1996. “A bandwidth reservation protocol for speech/data integration in TDMA-based advanced mobile systems,” Proc. IEEE Infocom'96, San Francisco, CA, March, 722–729
    Anasti, G.et al. 1997. “A contention/reservation access protocol for speech and data integration in TDMA-based advanced mobile systems,” Mobile Networks and Applications, 2, 3–18
    Andrews, M.et al. 2001. “Providing quality of service over a shared wireless link,” IEEE Communications Magazine, 39, 2 (February), 150–153
    Arad, M. A. and Leon-Garcia, A.. 1998. “A generalized processor sharing approach to time scheduling in hybrid CDMA/TDMA,” Proc. IEEE Infocom'98, San Francisco, CA, March, 1164–1171
    Arbak, J. C. and Blitterwijk, W.. 1987. “Capacity of slotted Aloha in Rayleigh fading channels,” IEEE Journal on Selected Areas in Communications, SAC-5, 2 (February), 261–269
    Atal, B. S. and Hanauer, S. L.. 1971. “Speech analysis and synthesis by linear prediction of the speech wave,” Journal of the Acoustic Society of America, 50, 2 (August), 637–655
    Bar-Noy, A.et al. 1995. “Mobile users: to update or not to update?Wireless Networks, 1, 2 (July), 175–185
    Bello, P. A. 1963. “Characterization of randomly time-variant linear channels,” IEEE Transactions on Communication Systems, 12, CS-11 (December), 360–393
    Bender, P.et al. 2000. “CDMA/HDR: a bandwidth-efficient high-speed service for nomadic users,” IEEE Communications Magazine, 38, 7 (July), 70–77
    Berrou, C., A. Glavieux, and P. Thitimajshima. 1993. “Near Shannon-limit error-correcting coding and decoding: turbo codes,” IEEE International Conference on Communications, ICC93, Geneva, Switzerland, May, 1064–1070
    Berrou, C. and Glavieux, A.. 1996. “Near optimum error correcting coding and decoding: turbo codes,” IEEE Transactions on Communications, 44, 10 (October), 1261–1271
    Bettstetter, C.et al. 1999. “GSM Phase 2- general packet radio service GPRS: architecture, protocols, and air interface,” IEEE Communication Surveys, 3rd 8tr
    Bianchi, G. 2000. “Performance analysis of the IEEE 802.11 distributed coordination function,” IEEE Journal on Selected Areas in Communications, 18, 3 (March), 535–547
    Bisdikian, C. 2001. “An overview of the Bluetooth wireless technology,” IEEE Communications Magazine, 39, 12 (December), 86–94
    Black, D. M. and Reudink, D. O.. 1972. “Some characteristics of radio propagation at 800 MHz in the Philadelphia area,” IEEE Transactions on Vehicular Technology, 21 (May), 45–51
    Blom, J. and F. Gunnarson. 1998. “Power control in cellular systems, Linköping studies in science and technology,” Thesis No. 706, Department of Electrical Engineering, Linköpings Universitet, Linköping, Sweden
    Bluetooth. 1999. “Specification of the Bluetooth System,” Specification Volume 1, Core, v1.0.B, www.bluetooth.com, December 1
    Brand, A. E. and Aghvami, A. H.. 1996. “Performance of a joint CDMA/PRMA protocol for mixed voice/data transmission for third generation mobile communications,” IEEE Journal on Selected Areas in Communications, 14, 9 (December), 1698–1707
    Brenner, D. G. 1959. “Linear diversity combining techniques,” Proc. IRE, 47, 6 (June), 1075–1102
    Le Bris, L. and W. Robison. 1999. “Dynamic channel assignment in GSM networks,” Proc. VTC'99, IEEE Vehicular Technology Conference, Amsterdam, September, 2339–2342
    Cai, J. and Goodman, D. J.. 1997. “General packet radio service in GSM,” IEEE Communications Magazine, 35, 10 (October), 122–131
    Cali, F. et al. 1998. “IEEE 802.11 wireless LAN: capacity analysis and protocol enhancement,” IEEE Infocom'98, San Francisco, CA, March
    Capone, A. et al. 2001. “Efficient polling schemes for Bluetooth picocells,” IEEE International Conference on Communications, ICC2001, Helsinki, Finland, 1990–1994
    cdma 2001. cdma2000 high rate packet data air interface specification, 3GPP2 C.S0024, Version 3.0, 3rd Generation Partnership Project 2, 3GPP2, December, 5, http://www.3gpp2.org/public_html/specs/
    cdma 2002. Physical layer standard for ccdma2000 spread spectrum systems, Release A, 3GPP2 C.S0002-A, Version 6.0, 3rd Generation Partnership Project 2, 3GPP2, February, http://www.3gpp2.org/public_html/specs/
    Chao, C. and Chen, W.. 1997. “Connection admission control for mobile multiple-class personal communication networks,” IEEE Journal on Selected Areas in Comunications, 15, 10 (October), 1618–1626
    Chen, J.-H.et al. 1992. “A low-delay CELP coder for the CCITT 16 kb/s Speech Coding Standard,” IEEE Journal on Selected Areas in Communications, 10, 5 (June), 830–849
    Chih-Lin I and K. Sabnani. 1995a. “Variable speading gain CDMA with adaptive control for true packet switching wireless network,” IEEE International Conference on Communications, ICC95, Seattle, WA, June, 725–730
    Chih-Lin I and K. Sabnani. 1995b. “Variable spreading gain CDMA with adaptive control for integrated traffic in wireless networks,” IEEE 45th Vehicular Technology Conference, VTC95, Chicago, IL, July, 794–798
    Chih-Lin I and R. D. Gitlin. 1995. “Multi-code CDMA wireless personal communication networks,” IEEE International Conference on Communications, ICC95, Seattle, WA, June, 1060–1064
    Choi, S. and K. G. Shin. 1998. “Predictive and adaptive bandwidth reservation for handoffs in QoS-sensitive cellular networks,” Proc. SIGCOMM98, 155–166
    Cox, D. C. and Reudink, D. O.. 1972. “Dynamic channel assignment in two-dimensional large-scale mobile communication systems,” Bell System Technology Journal, 51, 1611–1672
    Cox, D. C. and Reudink, D. O.. 1973. “Increasing channel occupancy in large-scale mobile radio systems: dynamic channel assignment,” IEEE Transactions on Vehicular Technology, VT-22, 218–222
    Cox, D. C. 1995. “Wireless personal communications: what is it?,” IEEE Personal Communications, 2, 2, 20–35
    Dahlman, E. and Jamal, K.. 1996. “Wideband services in a DS-CDMA based FPLMTS system,” IEEE Vehicular Technology Conference, VTC96, 1656–1660
    DeVille, J. M. 1993. “A reservation-based multiple access scheme for a future universal telecommunications system,” Mobile and Personal Communications, IEE Conference Publication No. 387, 13–15 December, 210–215
    Epstein, B. and M. Schwartz. 1998. QoS-Based Predictive Admission Control for Multi-Media Traffic, in Broadband Wireless Communications, ed. M. Luise and S. Pupolin, Berlin, Springer-Verlag, pp. 213–224
    Epstein, B. and Schwartz, M.. 2000. “Predictive QoS-based admission control for multiclass traffic in cellular wireless networks,” IEEE Journal on Selected Areas in Communications, 18, 3 (March), 523–534
    Egli, J. J. 1957. “Radio propagation above 40 Mc/s over irregular terrain,” Proc. IRE, October, 1383–1391
    Everitt, D. and Manfield, D.. 1989. “Performance analysis of cellular mobile communication systems with dynamic channel assignment,” IEEE Journal on Selected Areas in Communications, 7, 8 (October), 1172–1180
    Fattah, H. and Leung, C.. 2002. “An overview of scheduling algorithms in wireless multimedia networks,” IEEE Wireless Communications, 9, 5 (October), 76–83
    Forney, G. D. 1966. Concatenated Codes, Cambridge, MA, MIT Press
    Foschini, G. J. 1996. “Layered space-time architecture for wireless communication in a fading environment when using multiple antennas,” Bell Laboratories Technical Journal, 1, 2, 41–59
    Foschini, G. J. and Miljanic, Z.. 1993. “A simple distributed autonomous power control algorithm and its convergence,” IEEE Transactions on Vehicular Technology, 42, 4 (November), 641–646
    Frenkiel, R. 2002. “A brief history of mobile communications,” IEEE Vehicular Technology Society News, May, 4–7
    Furuskar, A.et al. 1999a. “EDGE: enhanced data rates for GSM and TDMA/136 evolution,” IEEE Personal Communications, 6, 3 (June), 56–66
    Furuskar, A.et al. 1999b. “Capacity evaluation of the EDGE concept for enhanced data rates in GSM and TDMA/136,” Proc. IEEE Vehicular Technology Conference, VTC99, 1648–1652
    Garg, V. K. 2000. IS-95 CDMA and cdma2000, Upper Saddle River, NJ, Prentice-Hall PTR
    Garg, V. K. and J. E. Wilkes. 1999. Principles and Applications of GSM, Upper Saddle River, NJ, Prentice-Hall PTR
    Gibson, J. D. ed. 1996. The Mobile Communication Handbook, Boca Raton, FL, CRC Press/IEEE Press
    Gilhausen, K. H.et al. 1991. “On the capacity of a cellular CDMA system,” IEEE Transactions on Vehicular Technology, 40, 2 (May), 303–312
    Goodman, D. J. 1997. Wireless Personal Communication Systems, Reading, MA, Addison-Wesley
    Goodman, D. J. and Saleh, A. A. M.. 1987. “The near-far effect in local Aloha radio communications,” IEEE Transactions on Vehicular Technology, VT-36, 1 (February), 19–27
    Goodman, D. J. and Wei, S. X.. 1991. “Efficiency of packet reservation access,” IEEE Transactions on Vehicular Technology, 40, 1 (February), 170–176
    Goodman, D. J.et al. 1989. “Packet reservation multiple access for local wireless communication,” IEEE Transactions on Communications, 37, 8 (August), 885–890
    GPRS. 1998. Digital cellular communications system (Phase 2-): general packet radio service description, Stage 1, EN 301 113 v6.1.1 (1998–11) (GSM 02.60 version 6.1.1 Release 1997), European Telecommunications Institute (ETSI), Sophia Antipoli, Valbonne, France
    Grandhi, S. A.et al. 1994. “Distributed power control in cellular radio systems,” IEEE Transactions on Communications, 42, 2/3/4 (February–April), 226–228
    Grillo, D. et al. 1993. “A performance analysis of PRMA considering speech, data, co-channel interference and ARQ error recovery,” Mobile and Personal Communications, IEEE Conference Publication No. 387, December 13–15, 161–171
    GSM World, www.gsmworld.com
    Gudmundson, B. et al. 1992. “A comparison of CDMA and TDMA systems,” Proc. IEEE Vehicular Technology Conference, Denver, CO, May, 732–735
    Guerin, R. A. 1987. “Channel occupancy time distribution in cellular radio systems,” IEEE Transactions on Vehicular Technology, VT-35, 3 (August), 89–99
    Hall, E. K. and Wilson, S. G.. 1998. “Design and analysis of turbo codes on Rayleigh fading channels,” IEEE Journal on Selected Areas in Communications, 16, 2 (February), 160–174
    Heegard, C.et al. 2001. “High-performance wireless internet,” IEEE Communications Magazine, 39, 11 (November), 64–73
    Heller, J. A. and Jacobs, I. M.. 1971. “Viterbi decoding for space and satellite communications,” IEEE Transactions on Communication Technology, COM-19, 5, part II (October), 835–848
    Hong, D. and S. S. Rappaport. 1999. “Traffic model and performance analysis for cellular mobile radio telephone systems with prioritized and non-prioritized handoff procedures,” IEEE Transactions on Vehicular Technology, VT-35, 3 (August), 77–92. See also CEAS Technical Report No. 773, 1 June 1999, College of Engineering and Applied Sciences, State University of New York, Stony Brook, NY 11794
    Ho, T.-S. and Chen, K.-C.. 1996. “Performance analysis of 802.11 CSMA/CA medium access control protocol,” IEEE PRMC, Taipai, Taiwan, October, 407–411
    IEEE. 1999. “The evolution of TDMA to 3G,” IEEE Personal Communications, 6, 3 (June)
    IEEE 802.11. IEEE Standard for Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific requirements-Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications, ANSI/IEEE Std 802.11, 1999 Edition, IEEE Standards Board, Piscataway, NJ
    IEEE 802.11a. Supplement to IEEE Standard for Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific requirements-Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: High-Speed Physical Layer in the 5 GHz Band, IEEE Std 802.11a-1999, IEEE, New York, NY, 16 September 1999
    IEEE 802.11b. Supplement to IEEE Standard for Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific requirements-Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: Higher-Speed Physical Layer Extension in the 2.4 GHz Band, IEEE Std 802.11b-1999, IEEE, January 2000
    IEEE 802.11g. IEEE Standard for Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific requirements-Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications; Amendment 4: Further Data Rate Extension in the 2.4 GHz Band, IEEE Std 802.11g-2003, IEEE, New York, NY, 25 June 2003
    IEEE 802.15. IEEE Standard for Information technology-Telecommunications and Information exchange between systems-Local and metropolitan area networks-Specific requirements, Part 15.1: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Wireless Personal Area Networks (WPANs), IEEE Std 802.15.1, IEEE-SA Standards Board, 15 April, 2000
    Jabbari, B. 1996. “Teletraffic aspects of evolving and next-generation wireless communication networks,” IEEE Personal Communications, 3, 6 (December), 4–9
    Jain, R. and Lin, Y.-B.. 1995. “An auxiliary location strategy employing forwarding pointers to reduce network impacts of PCS,” Wireless Networks, 1, 2 (July), 197–210
    Jakes, W. C. ed. 1974. Microwave Mobile Communications, AT&T, 1995 edition, New York, IEEE Press
    Jayant, N. 1992. “Signal compression: technology targets and research directions,” IEEE Journal on Selected Areas in Communications, 10, 5 (June), 796–818
    Kalden, R.et al. 2000. “Wireless internet access based on GPRS,” IEEE Personal Communications, 7, 2 (April), 8–18
    Kalia, M. et al. 2000. “Data scheduling and SAR for Bluetooth MAC,” IEEE Vehicular Technology Conference, Spring, Tokyo, 716–720
    Karol, M. J.et al. 1995a. “An efficient demand-assignment multiple-access protocol for wireless packet (ATM) networks,” Wireless Networks, 1, 5 (October), 267–279
    Karol, M. J. et al. 1995b. “Distributed-queueing request update multiple access (DQRUMA) for wireless packet (ATM) networks,” IEEE International Conference on Communications, ICC'95, Seattle, WA, June, 1224–1231
    Katzela, I. and Naghshineh, M.. 1996. “Channel assignment schemes: a comprehensive survey,” IEEE Personal Communications, 3, 3 (June), 10–31
    Koodli, R. and Punskari, M.. 2001. “Supporting packet data QoS in next-generation cellular networks,” IEEE Communications Magazine, 39, 2 (February), 180–188
    Kurose, J. F. and K. W. Ross. 2002. Computer Networking, Boston, MA, Addison-Wesley
    Kwok, M.-S. and H.-S. Wang. 1995. “Adjacent-cell interference analysis of reverse link in CDMA cellular radio system,” IEEE PIMRC95, Toronto, Canada, September, 446–450
    Lee, W. C. Y. 1993. Mobile Communications Design Fundamentals, New York, Wiley-Interscience
    Lee, Y.-Z.et al. 2002. “An efficient and fair polling scheme for Bluetooth,” Proc. IEEE Milcom, 1062–1068
    Levine, D.et al. 1997. “A resource estimation and admission control algorithm for wireless multimedia networks using the shadow cluster concept,” IEEE/ACM Transactions on Networking, 5, 1 (February), 1–12
    Lin, Y.-B. 1997. “Reducing location update costs in a PCS network,” IEEE/ACM Transactions on Networking, 5, 1 (February), 25–33
    Linnartz, J. P. 1993. Narrowband Land-Mobile Radio Networks, Boston, MA, Artech House
    Liu, Z. et al. 1996. “A demand-assignment access control for multi-code DS-CDMA wireless packet (ATM) networks,” Proc. IEEE Infocom'96, San Francisco, CA, March, 713–721
    Lozano, A. and Cox, D. C.. 1999. “Integrated dynamic channel assignment and power control in TDMA wireless communication systems,” IEEE Journal on Selected Areas in Communications, 17, 11 (November), 2031–2040
    Lucky, R. W. 1965. “Automatic equalization for digital communication,” Bell System Technical Journal, 44 (April), 558–570
    Mark, J. W. and W. Zhuang. 2003. Wireless Communications and Networking, Upper Saddle River, NJ, Pearson Education Inc
    Matsumoto, T.et al. 2003. “Overview and recent challenges of MIMO systems,” IEEE Vehicular Technology News, 50, 2 (May), 4–9
    Meyerhoff, H. J. 1974. “Method for computing the optimum power balance in multibeam satellites,” Comsat Technology Review, 4, 1 (Spring)
    Michelson, A. M. and A. H. Levesque. 1985. Error-Control Techniques for Digital Communication, New York, John Wiley & Sons
    Miller, B. A. and C. Bisdikian. 2002. Bluetooth Revealed, 2nd edn, Upper Saddle River, NJ, Prentice-Hall PTR
    Milstein, L. 2000. “Wideband code division multiple access,” IEEE Journal on Selected Areas in Communications, 18, 8 (August), 1344–1354
    Mitra, D. 1994. “An asynchronous distributed algorithm for power control in cellular systems,” in Wireless and Mobile Communications, ed. J. M. Holtzman, Boston, MA, Kluwer/Academic
    Mitrou, N. M.et al. 1990. “A reservation multiple access protocol for microcellular mobile communication systems,” IEEE Transactions on Vehicular Technology, 39, 4 (November), 340–351
    Moberg, J. et al. 2000. “Throughput of the WCDMA random access channel,” Proc. IST Mobile Communication Summit, Galway, Ireland, October
    Modaressi, A. R. and Skoog, R. S.. 1990. “Signaling system number 7: a tutorial,” IEEE Communications Magazine, 28, 7 (July), 19–35
    Mohan, S. and Jain, R.. 1994. “Two user location strategies for personal communication services,” IEEE Personal Communications, 1, 1 (1st Qtr.), 42–50
    Naghshineh, M. and Schwartz, M.. 1996. “Distributed call admission control in mobile/wireless networks,” IEEE Journal on Selected Areas in Communications, 14, 4 (May), 711–717
    Nanda, S.et al. 1991. “Performance of PRMA: a packet voice protocol for cellular systems,” IEEE Transactions on Vehicular Technology, 40, 3 (August), 584–598
    Narasimhan, P. and Yates, R. P.. 1996. “A new protocol for the integration of voice and data over PRMA,” IEEE Journal on Selected Areas in Communications, 14, 4 (May), 621–631
    Noble, B. and J. H. Daniel. 1988. Applied Linear Algebra, 2nd edn, Englewood Cliffs, NJ, Prentice-Hall
    Nyquist, H. 1928. “Certain topics in telegraph transmission theory,” Transactions of the AIEE, 47 (April), 617–644
    Olafsson, H. et al. 1999. “Performance evaluation of different random access power ramping proposals for the WCDMA system,” IEEE Personal Indoor Mobile Radio Conference
    O'Neill, E. F. ed. 1985. A History of Engineering and Science in the Bell System: Transmission Technology (1925–1975), AT&T Bell Laboratories
    Oppenheim, A. V. and A. S. Willsky. 1997. Signals and Systems, 2nd edn, Upper Saddle River, NJ, Prentice-Hall
    Paetsch, M. 1993. Mobile Communications in the US and Europe: Regulation, Technology, and Markets, Boston, MA, Artech House
    Papoulis, A. 1991. Probability, Random Variables, and Stochastic Processes, 3rd edn, New York, McGraw-Hill
    Parekh, A. K. and Gallager, R. G.. 1993. “A generalized processor-sharing approach to flow control in integrated services networks: the single-node case,” IEEE/ACM Transactions on Networking, 1, 3 (June), 344–357
    Pasupathy, S. 1979. “Minimum-shift keying: a spectrally efficient modulation,” IEEE Communications Magazine, 17, 4 (July), 14–22
    Pearson, R. 2001. “Complementary code keying made simple,” Application Note AN9850.2, Intersil Americas Inc., November
    Pecen, M. and Howell, A.. 2001. “Simultaneous voice and data operation for GPRS/EDGE: Class A dual transfer mode,” IEEE Personal Communications, 8, 2 (April), 14–29
    Price, R. and Green, P. E. Jr. 1958. “A communication technique for multipath channels,” Proc. IRE, 46, 555–570
    Priscoll, F. Dellaet al. 1997. “Application of dynamic channel allocation strategies to the GSM cellular network,” IEEE Journal on Selected Areas in Communications, 15, 8 (October), 1558–1567
    Proakis, J. G. 1995. Digital Communications, 3rd edn, New York, McGraw-Hill
    Rabiner, L. and B.-H. Hwang. 1993. Fundamentals of Speech Recognition, Englewood Cliffs, NJ, Prentice-Hall
    Ramakrishna, S. and J. M. Holtzman. 1998. “A comparison between single code and multiple code transmission schemes in a CDMA system,” VTC98, May, 791–795
    Rappaport, T. S. 1996. Wireless Communications, Principles and Practice, Upper Saddle River, NJ, Prentice-Hall
    Rappaport, T. S. 2002. Wireless Communications, Principles and Practice, 2nd edn, Upper Saddle River, NJ, Prentice-Hall
    Raymond, P.-A. 1991. “Performance analysis of cellular networks,” IEEE Transactions on Communications, 37, 12 (December), 1787–1793
    Rental, C. H. et al. 2002. “Comparative forward link traffic channel performance evaluation of HDR and 1EXTREME systems,” Proc. 55th IEEE Vehicular Technology Conference, VTC 2002, Spring, 160–164
    Rose, C. and Yates, R.. 1995. “Minimizing the average cost of paging under delay constraints,” Wireless Networks, 1, 2 (July), 211–219
    Sarikaya, B. 2000. “Packet mode in wireless networks: overview of transition to third generation,” IEEE Communications Magazine, 38, 9 (September), 164–172
    Schroeder, M. R. and B. S. Atal. 1985. “Code-excited linear prediction (CELP): High quality speech at very low bit rates,” Proc. IEEE Int. Conf. Acoust. Speech, Signal Process, March, 937–950
    Schwartz, M. 1987. Telecommunication Networks: Protocols, Modeling, and Analysis, Reading, MA, Addison-Wesley
    Schwartz, M. 1990. Information Transmission, Modulation, and Noise, 4th edn, New York, McGraw-Hill
    Schwartz, M. 1996. Broadband Integrated Networks, Englewood Cliffs, NJ, Prentice-Hall
    Schwartz, M. and L. Shaw. 1975. Signal Processing: Discrete Spectral Analysis, Detection, and Estimation, New York, McGraw-Hill
    Schwartz, M., W. R. Bennett, and S. Stein. 1966. Communication Systems and Techniques, New York, McGraw-Hill; reprinted, IEEE Press, 1996
    Sköld, J. et al. 1995. “Performance and characteristics of GSM-based PCS,” Proc. 45th IEEE Vehicular Technology Conference, 743–748
    Solana, A. H. et al. 2002. “Performance analysis of packet scheduling strategies for multimedia traffic in WCDMA,” Proc. 55th IEEE Vehicular Technology Conference, VTC 2002, Spring, 155–159
    Steele, R. ed. 1992. Mobile Radio Communications, London, Pentech Press; New York, IEEE Press
    Stüber, G. L. 1996. Principles of Mobile Communications, Boston, MA, Kluwer Academic
    Stüber, G. L. 2001. Principles of Mobile Communications, 2nd edn, Boston, MA, Kluwer Academic
    Sutivong, A. and J. Peha. 1997. “Call admission control algorithms: proposal and comparison,” Proc. IEEE Globecom
    TIA. 1992. EIA/TIA Interim standard, cellular system dual-mode mobile station–base station compatibility standard, IS-54-B, Telecommunications Industry Association
    Tiedmann, E. G. Jr. 2001. “cdma20001X: new capabilities for CDMA networks,” IEEE Vehicular Technology Society News, 48, 4 (November), 4–12
    Varsou, A. C. and Poor, H. V.. 2002. “Scheduling algorithms for downlink rate allocation in heterogeneous CDMA networks,” Journal of Communications and Networks, 4, 3 (September), 199–208
    Verdu, S. 2002a. “Spectral efficiency in the wideband regime,” IEEE Transactions on Information Theory, 48, 6 (June), 1319–1343
    Verdu, S. 2002b. “Recent results on the capacity of wideband channels in the low-power regime,” IEEE Wireless Communications, 9, 4 (August), 40–45
    Viterbi, A. J. 1967. “Error bounds for convolutional codes and an asymptotically optimum decoding algorithm,” IEEE Transactions on Information Theory, IT-13 (April), 260–269
    Viterbi, A. J.et al. 1994. “Soft handoff extends CDMA cell coverage and increases reverse link coverage,” IEEE Journal on Selected Areas in Communications, 12, 8 (October), 1281–1288
    Viterbi, A. J. 1995. CDMA, Principles of Spread Spectrum Communication, Reading, MA, Addison-Wesley
    Vucetic, B. and J. Yuan. 2000. Turbo Codes: Principles and Applications, Boston, MA, Kluwer Academic
    Wang, J. Z. 1993. “A fully distributed location registration strategy for universal personal communications systems,” IEEE Journal on Selected Areas in Communications, 11, 6 (August), 850–860
    WCDM. 2000. WCDMA for UMTS, ed. Harri Holma and Antti Toskala, John Wiley & Sons
    Willenegger, S. 2000. “cdma2000 physical layer: an overview,” Journal of Communications and Networks, 2, 1 (March), 5–17
    Wozencroft, J. M. and I. M. Jacobs. 1965. Principles of Communication Engineering, New York, Wiley
    Xu, L.et al. 2002. “Dynamic bandwidth allocation with fair scheduling for WCDMA systems,” IEEE Wireless Communications, 9, 2 (April), 26–32
    Yacoub, M. D. 1993. Foundations of Mobile Radio Engineering, Boca Raton, FL, CRC Press
    Yeung, K. L. and Yum, T.-S. P.. 1995. “Cell group decoupling analysis of a dynamic allocation strategy in linear microcell radio systems,” IEEE Transactions on Communications, 43, 2/3/4 (February–April), 1289–1292
    Yu, O. and Leung, V.. 1997. “Adaptive resource allocation for prioritized call admission in ATM-based wireless PCN,” IEEE Journal on Selected Areas in Communications, 15, 9 (September), 1208–1225
    Zander, J. 1992. “Distributed cochannel interference control in cellular radio systems,” IEEE Transactions on Vehicular Technology, 41, 3 (August), 304–311
    Zhang, M. and Yum, T.-S. P.. 1989. “Comparisons of channel assignment strategies in cellular telephone systems,” IEEE Transactions on Vehicular Technology, 38, 4 (November), 211–218
    Zhang, H. 1995. “Service disciplines for guaranteed performance service in packet-switching networks,” Proc. IEEE, 53 (October), 1374–1396
    Zorzi, M. and Rao, R. R.. 1994. “Capture and retransmission control in mobile radio,” IEEE Journal on Selected Areas in Communications, 12, 8 (October), 1289–1298
    Zürbes, S. et al. 2000. “Radio network performance of Bluetooth,” IEEE International Conference on Communications, ICC, 1563–1567

    Metrics

    Altmetric attention score

    Full text views

    Total number of HTML views: 0
    Total number of PDF views: 0 *
    Loading metrics...

    Book summary page views

    Total views: 0 *
    Loading metrics...

    * Views captured on Cambridge Core between #date#. This data will be updated every 24 hours.

    Usage data cannot currently be displayed.

    Accessibility standard: Unknown

    Why this information is here

    This section outlines the accessibility features of this content - including support for screen readers, full keyboard navigation and high-contrast display options. This may not be relevant for you.

    Accessibility Information

    Accessibility compliance for the PDF of this book is currently unknown and may be updated in the future.