Abstract
Since the capacity in WCDMA system is limited by interference, an efficient radio resource mechanism is important to enhance overall performance. Previous researches have shown that uni-access mode is an efficient way to reduce intracell interference caused by other transmitting users, and hence higher performance is attained compared to traditional multi-access mode. However, due to the constraint in the practical system, a single user might not fully utilize the available bandwidth. Consequently, the system capacity as well as throughput will be not optimized.This paper introduces a novel Transport block size based Adaptive Scheduling Scheme (TASS) that utilizes radio resource more efficiently and sufficiently. Different from both uni-access and multi-access mode, the TASS can be seen as a mixed version of them called hybrid-access mode. Via the transmission strategy, less power is required while achieving equivalent throughput and thus higher performance is expected. In order to guarantee the delay time of each user, the scheduling algorithm earliest deadline first (EDF) is applied. As a result, the TASS is suitable for real-time traffics. The experiment results demonstrate that this new transmission strategy carries advantages in system capacity, average delay and overall throughput.
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References
Gürbüz, Ö., Owen, H.: Dynamic resource scheduling schemes for W-CDMA systems. IEEE Commun. Mag. 38, 80–84 (2000)
Dahlman, E., Gudmundson, B., Nilsson, M., Skold, J.: UMTS/IMT-2000 based on wideband CDMA. IEEE Commun. Mag. 36, 70–81 (1998)
Vannithamby, R., Sousa, E.S.: Resource allocation and scheduling schemes for WCDMA downlinks. In: IEEE International Conference on Communications, 2001. ICC 2001, vol. 5, pp. 1406–1410 (2001)
Sampath, A., Sarath Kumar, P., Holtzman, J.M.: Power control and resource management for a multimedia CDMA wireless system. In: Proc. PIMRC 1995, Toronto, Canada, pp. 21–25 (1995)
Ayagari, D., Ephremides, A.: Optimal admission control in cellular DS-CDMA systems with multimedia traffic. IEEE Trans. Commun. 2, 195–202 (2003)
Berggren, F., Kim, S.-L., Jantti, R., Zander, J.: Joint power control and intracell scheduling of DS-CDMA nonreal time data. IEEE JSAC 19(10), 1860–1870 (2001)
Ramarkrishna, S., Holtzman, J.M.: A scheme for throughput maximization in a dual-class CDMA system. IEEE J. Select. Areas Commun. 16, 830–844 (1998)
Wu, E.H.-k., Chang, H.-W., Hsu, K.C.: A QoS-based hybrid multiple access transmission strategy in WCDMA downlink. In: IEEE WCNC 2003, vol. 3, pp. 16–20 (2003)
Oh, S.-J., Zhang, D., Wasserman, K.M.: Optimal resource allocation in multiservice CDMA networks. IEEE Trans. Commun. 2, 811–821 (2003)
Gürbüz, Ö., Owen, H.: Dynamic resource scheduling for variable QoS Traffic in W-CDMA. In: IEEE International Conference on, vol. 2, pp. 703–707 (1999)
Arad, M.A., Leon-Garcia, A.: A generalized processor sharing ap-proach to time scheduling in hybrid CDMA/TDMA. In: IEEE INFOCOM 1998, vol. 3, pp. 1164–1171 (1998)
3GPP TS 25.854 v5.0.0, Study report for uplink synchronous transmission scheme, USTS (2001)
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Wu, E.HK., Jui-Hao, C., Chung, HP. (2005). An Adaptive Scheduled Transmission Strategy for Multimedia Services in WCDMA Systems. In: Lu, X., Zhao, W. (eds) Networking and Mobile Computing. ICCNMC 2005. Lecture Notes in Computer Science, vol 3619. Springer, Berlin, Heidelberg. https://doi.org/10.1007/11534310_13
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DOI: https://doi.org/10.1007/11534310_13
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-28102-3
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