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Student Number 87423027
Author Ming-Lian Go(³¢±Ó¨})
Author's Email Address No Public.
Statistics This thesis had been viewed 1804 times. Download 729 times.
Department Information Management
Year 1999
Semester 2
Degree Master
Type of Document Master's Thesis
Language zh-TW.Big5 Chinese
Title A Hybrid Scheme for Resource Allocation on The Third-Generation Wireless Communications Networks
Date of Defense 2000-07-18
Page Count 50
Keyword
  • admission control
  • handover
  • priority policy
  • queueing
  • resource allocation
  • Third-Generation Mobile System
  • wireless communication networks
  • Abstract The third-generation wireless communications networks will be brought to the world in the early years of this century. It provides a seamless integration of multimedia-oriented services from both fixed IP networks and wireless communication networks; it is also aimed to provide adequate performance for various service requirements.
    One of the most important challenges for the development of 3rd generation mobile system is to develop technologies for wireless communication resource management and efficient handover. The important and complex issue is Quality-of-Service (QoS) guarantee in the 3rd generation wireless networks. The main purpose of this study is to propose a hybrid control and wireless communication resource management scheme by considering the QoS requirement of real usage of mobile users. In this scheme, we can efficiently improve CDP, CBP, and bandwidth utilization. We propose a flow-oriented resource reservation scheme for real time traffic, and use a HOL queueing scheme for various QoS requirements. This hybrid control scheme improves the bandwidth utilization without spanning many hand-off efforts.
    Table of Content ABSTRACTII
    CONTENTSIII
    TABLESV
    FIGURESVI
    1.INTRODUCTION1
    1.1BACKGROUND1
    1.2 OBJECTIVES4
    1.2.1Wireless Communication Resource Management4
    1.2.2Efficient Handover Process and Admission Control5
    2.SURVEY7
    2.1THE THIRD-GENERATION WIRELESS COMMUNICATION NETWORKS7
    2.1.1Overview7
    2.1.2Requirements8
    2.2NETWORK ARCHITECTURE OF IMT-2000 SYSTEM10
    2.3HANDOVER CONTROL AND RESOURCE ALLOCATION13
    2.3.1Soft Handoff in CDMA-based Cellular Mobile System13
    2.3.2Admission Control in CDMA-based Cellular Mobile System14
    2.4RELATED STUDIES ABOUT RESOURCE ALLOCATION15
    3.A HYBRID CONTROL SCHEME FOR RESOURCE ALLOCATION17
    3.1A HYBRID CONTROL SCHEME17
    3.1.1System Model17
    3.1.2Admission Control Method18
    3.2DELAY ANALYSIS20
    3.3RESOURCE UTILIZATION22
    3.4CONTROL SCHEME AND STRATEGIES23
    3.4.1Reservation Request Arrangement23
    3.4.2Admission Controller Procedure24
    3.4.3Channel Resource Manager Procedure27
    4.PERFORMANCE ANALYSIS29
    4.1 SIMULATION RESULTS29
    4.2 TRAFFIC-LOADING THRESHOLD AND EVALUATION36
    5.CONCLUSION38
    5.1RESEARCH RESULTS38
    5.2FUTURE RESEARCH DIRECTIONS39
    REFERENCES40
    Reference [1] E. H. Dinan and B. Jabbari, ¡§Spreading Codes for Direct Sequence CDMA and Wideband CDMA Cellular Networks,¡¨ IEEE Communication Magazine, pp. 48-54, Sep. 1998.
    [1] E. H. Dinan and B. Jabbari, ¡§Spreading Codes for Direct Sequence CDMA and Wideband CDMA Cellular Networks,¡¨ IEEE Communication Magazine, pp. 48-54, Sep. 1998.
    [1] E. H. Dinan and B. Jabbari, ¡§Spreading Codes for Direct Sequence CDMA and Wideband CDMA Cellular Networks,¡¨ IEEE Communication Magazine, pp. 48-54, Sep. 1998.
    [1] E. H. Dinan and B. Jabbari, ¡§Spreading Codes for Direct Sequence CDMA and Wideband CDMA Cellular Networks,¡¨ IEEE Communication Magazine, pp. 48-54, Sep. 1998.
    [5] F. Adachi, M. Sawahashi, and H. Suda, ¡§Wideband DS-CDMA for Next-Generation Mobile Communications Systems,¡¨ IEEE Communications Magazine, pp. 56-69, Sep. 1998.
    [5] F. Adachi, M. Sawahashi, and H. Suda, ¡§Wideband DS-CDMA for Next-Generation Mobile Communications Systems,¡¨ IEEE Communications Magazine, pp. 56-69, Sep. 1998.
    [5] F. Adachi, M. Sawahashi, and H. Suda, ¡§Wideband DS-CDMA for Next-Generation Mobile Communications Systems,¡¨ IEEE Communications Magazine, pp. 56-69, Sep. 1998.
    [8] M. Komatsu, T. Shoji, T. Sato, A. Ushirokawa, and Y. Furuya, ¡§A Wideband CDMA with TDMA Structure, Design and Performance,¡¨ Proc. IEEE APMC ¡¦97, vol. 1, pp. 141¡X144, 1997.
    [9] Y. A. Chau and L. C. Kao, ¡§Wideband CDMA with Packet Reservation for Wireless Communications,¡¨ Proc. IEEE VTC ¡¦98, vol. 2, pp. 806¡X809, 1998.
    [9] Y. A. Chau and L. C. Kao, ¡§Wideband CDMA with Packet Reservation for Wireless Communications,¡¨ Proc. IEEE VTC ¡¦98, vol. 2, pp. 806¡X809, 1998.
    [9] Y. A. Chau and L. C. Kao, ¡§Wideband CDMA with Packet Reservation for Wireless Communications,¡¨ Proc. IEEE VTC ¡¦98, vol. 2, pp. 806¡X809, 1998.
    [9] Y. A. Chau and L. C. Kao, ¡§Wideband CDMA with Packet Reservation for Wireless Communications,¡¨ Proc. IEEE VTC ¡¦98, vol. 2, pp. 806¡X809, 1998.
    [13] M. Callendar, ¡§Guest Editorial: International Mobile Telecommunications - 2000 Standards Efforts of the ITU,¡¨ IEEE Personal Communications, vol. 4, no. 4, pp. 6-7, Aug. 1997.
    [13] M. Callendar, ¡§Guest Editorial: International Mobile Telecommunications - 2000 Standards Efforts of the ITU,¡¨ IEEE Personal Communications, vol. 4, no. 4, pp. 6-7, Aug. 1997.
    [15] E. H. Dinan and B. Jabbari, ¡§Performance Analysis of a Reservation Access Technique for Wideband CDMA Networks,¡¨ Proc. IEEE ICC ¡¦99, vol. 2, pp. 1105¡X1109, 1999.
    [15] E. H. Dinan and B. Jabbari, ¡§Performance Analysis of a Reservation Access Technique for Wideband CDMA Networks,¡¨ Proc. IEEE ICC ¡¦99, vol. 2, pp. 1105¡X1109, 1999.
    [17] A. Rouz, M. J. Wilson and B. G. Marchent, ¡§Broadband Interworking Architecture (BRAIN) for Future Mobile Multimedia Systems,¡¨ Proc. IEEE ICPWC ¡¦99, pp. 279-283, 1999.
    [18] B. G. Marchent, M. Wilson and A. Rouz, ¡§Support of Mobile Multimedia over Radio for A Wide Range of QoS and Traffic Profiles,¡¨ Proc. IEEE ICPWC ¡¦99, pp. 145-149, 1999.
    [19] K. Kang; J. Yoo and Y. Lee, ¡§A Network Architecture for IMT-2000 Switching System,¡¨ Proc. IEEE ICPWC ¡¦97, pp. 257-260, 1997.
    [20] S. Onoe, ¡§Radio Interface Technologies for IMT-2000: W-CDMA,¡¨ Proc. IEEE ICCT ¡¦98, pp. S22-04-1 ¡X S22-04-5, 1998.
    [21] E. Dahlman, B. Gudmundson, M. Nilsson and J. Skold, ¡§UMTS/IMT-2000 Based on Wideband CDMA,¡¨ IEEE Communications Magazine, pp. 70-80, Sep. 1998.
    [22] N. Padovan, M. Ryan and L. Godara, ¡§An Overview of Third Generation Mobile Communications Systems: IMT-2000,¡¨ Proc. IEEE TENCON '98, vol. 2, pp. 360¡X364, 1998.
    [23] J. Nah, J. Yoo, J. Yu, Y. Lee and H. H. Lee, ¡§Mobile Signaling Structures of IMT-2000 Exchange,¡¨ Proc. IEEE ICPWC ¡¦99, pp. 55-59, 1999.
    [24] R. Pandya, D. Grillo, E. Lycksell, P. Mieybegue, H. Okinaka and M. Yabusaki, ¡§IMT-2000 Standards: Network Aspects,¡¨ IEEE Personal Communications, vol. 4, pp. 20-29, Aug. 1997.
    [24] R. Pandya, D. Grillo, E. Lycksell, P. Mieybegue, H. Okinaka and M. Yabusaki, ¡§IMT-2000 Standards: Network Aspects,¡¨ IEEE Personal Communications, vol. 4, pp. 20-29, Aug. 1997.
    [26] J. H. Ryu and D. H. Cho, ¡§Performance Analysis of Soft Handoff in CDMA-Based Wireless Packet Voice/Data Networks,¡¨ Proc. IEEE VTC ¡¦99, vol. 1, pp. 531¡X535, 1999.
    [26] J. H. Ryu and D. H. Cho, ¡§Performance Analysis of Soft Handoff in CDMA-Based Wireless Packet Voice/Data Networks,¡¨ Proc. IEEE VTC ¡¦99, vol. 1, pp. 531¡X535, 1999.
    [28] L. Taylor, R. Titmuss and C. Lebre, ¡§The Challenges of Seamless Handover in Future Mobile Multimedia Networks,¡¨ IEEE Personal Communications, pp. 32-37, Apr. 1999.
    [28] L. Taylor, R. Titmuss and C. Lebre, ¡§The Challenges of Seamless Handover in Future Mobile Multimedia Networks,¡¨ IEEE Personal Communications, pp. 32-37, Apr. 1999.
    [30] Y. S. Rao and A. Kripalani, ¡§cdma2000 Mobile Radio Access for IMT-2000,¡¨ Proc. IEEE ICPWC ¡¦99, pp. 6-15, 1999.
    [31] A. Jalali and A. Gutierrez, ¡§Performance Comparison of Alternative Wideband CDMA Systems,¡¨ Proc. IEEE ICC ¡¦98, vol. 1, pp. 38¡X42, 1998.
    [32] V. Bharghavan, S. Lu and T. Nandagopal, ¡§Fair Queuing in Wireless Networks: Issues and Approaches,¡¨ IEEE Personal Communications, pp. 44-53, Feb. 1999.
    [33] S. Onoe, ¡§Radio Interface Technologies for IMT-2000¡ÐW-CDMA,¡¨ Proc. IEEE ICCT ¡¦98, pp. S22-04-1 ¡X S22-04-5, 1998.
    [34] B. H. Ryu, S. Y. Lim, J. H. Ahn and J. H. Baek, ¡§Performance Evaluation for Low Bit-Rate Voice Traffic in IMT-2000 Network,¡¨ Proc. IEEE TENCON ¡¦99, pp. 238-241, 1999.
    [34] B. H. Ryu, S. Y. Lim, J. H. Ahn and J. H. Baek, ¡§Performance Evaluation for Low Bit-Rate Voice Traffic in IMT-2000 Network,¡¨ Proc. IEEE TENCON ¡¦99, pp. 238-241, 1999.
    [36] G. E. Corazza and A. Vanelli-Coralli, ¡§Burst vs. Continuous Pilot Acquisition in Wideband CDMA Cellular Mobile Systems,¡¨ Proc. IEEE WCNC ¡¦99, pp. 1080-1084, 1999.
    [37] M. N. Umesh and A. Kumar, ¡§Resource Allocation and Call Blocking in Mobility Network Architectures,¡¨ Proc. IEEE VTC ¡¦99, vol. 3, pp. 2520-2524, 1999.
    [38] D. K. Kim and D. K. Sung, ¡§Characterization of Soft Handoff in CDMA Systems,¡¨ IEEE Trans. on Vehicular Technology, vol. 48, no. 4, pp. 1195-1202, Jul. 1999.
    [39] B. Worley and F. Takawira, ¡§Handoff Schemes in CDMA Cellular Systems,¡¨ Communications and Signal Processing, pp. 255-260, 1998.
    [40] W. Y. Choi and M. K. Kwag, ¡§Optimal Assignment Policy of Frame Offset in CDMA Cellular Systems,¡¨ Proc. IEEE VTC ¡¦99, pp. 2486-2489, 1999.
    [41] S. Kwon, ¡§Optimum Reserved Resource Allocation Scheme for Handoff in CDMA Cellular System,¡¨ Proc. IEEE ICICS ¡¦97, pp. 74-78, 1997.
    [42] K. Takeo, S. Sato and A. Ogawa, ¡§Optimum Soft Handoff Considering Non-uniform Traffic in CDMA Cellular Systems,¡¨ Proc. IEEE VTC ¡¦99, vol. 3, pp. 1471-1475, 1999.
    [43] L. L. H. Andrew, D. J. B. Payne and S. V. Hanly, ¡§Queueing Model for Soft-blocking CDMA Systems,¡¨ Proc. IEEE VTC ¡¦99, pp. 436-440, 1999.
    [43] L. L. H. Andrew, D. J. B. Payne and S. V. Hanly, ¡§Queueing Model for Soft-blocking CDMA Systems,¡¨ Proc. IEEE VTC ¡¦99, pp. 436-440, 1999.
    [45] C. Adjih, P. Jacquet and P. Robert, ¡§Differentiated Admission Control in Large Networks,¡¨ Proc. IEEE INFOCOM 2000, pp. 1455-1460, 2000.
    [45] C. Adjih, P. Jacquet and P. Robert, ¡§Differentiated Admission Control in Large Networks,¡¨ Proc. IEEE INFOCOM 2000, pp. 1455-1460, 2000.
    [47] C. H. Paik and G. W. Jin, ¡§An Integrated Call Control Scheme for Handoff Calls in the CDMA Cellular Systems,¡¨ Proc. IEEE VTC ¡¦99, vol. 3, pp. 2495-2499, 1999.
    [48] M. Ahmed, M. Airy and K. Rohani, ¡§Spectral Efficiency Estimates for cdma2000 ¡X A Third Generation Cellular Standard,¡¨ Proc. IEEE VTC ¡¦99, vol. 1, pp. 361¡X365, 1999.
    [48] M. Ahmed, M. Airy and K. Rohani, ¡§Spectral Efficiency Estimates for cdma2000 ¡X A Third Generation Cellular Standard,¡¨ Proc. IEEE VTC ¡¦99, vol. 1, pp. 361¡X365, 1999.
    [50] L. Kleinrock, Queueing Systems, vol. 2, John Wiley & Sons, Inc., 1976.
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    Date of Submission 2000-07-18

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