Performance Analysis of Dynamic Resource Allocation with Finite Buffers in Cellular Networks
Summary :
In this paper, we analyzed the performance of dynamic resource allocation with channel de-allocation and buffering in cellular networks. Buffers are applied for data traffic to reduce the packet loss probability while channel de-allocation is exploited to reduce the voice blocking probability. The results show that while buffering data traffic can reduce the packet loss probability, it has negative impact on the voice performance even if channel de-allocation is exploited. Although the voice blocking probability can be reduced with large slot capacity, the improvement decreases as the slot capacity increases. On the contrary, the packet loss probability increases as the slot capacity increases. In addition to the mean value analysis, the delay distribution and the 95% delay of data packets are provided.
- Publication
- IEICE TRANSACTIONS on Fundamentals Vol.E87-A No.7 pp.1692-1699
- Publication Date
- 2004/07/01
- Publicized
- Online ISSN
- DOI
- Type of Manuscript
- Special Section PAPER (Special Section on Multi-dimensional Mobile Information Networks)
- Category
- Channel Allocation
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Wei-Yeh CHEN, Jean-Lien C. WU, Hung-Huan LIU, "Performance Analysis of Dynamic Resource Allocation with Finite Buffers in Cellular Networks" in IEICE TRANSACTIONS on Fundamentals,
vol. E87-A, no. 7, pp. 1692-1699, July 2004, doi: .
Abstract: In this paper, we analyzed the performance of dynamic resource allocation with channel de-allocation and buffering in cellular networks. Buffers are applied for data traffic to reduce the packet loss probability while channel de-allocation is exploited to reduce the voice blocking probability. The results show that while buffering data traffic can reduce the packet loss probability, it has negative impact on the voice performance even if channel de-allocation is exploited. Although the voice blocking probability can be reduced with large slot capacity, the improvement decreases as the slot capacity increases. On the contrary, the packet loss probability increases as the slot capacity increases. In addition to the mean value analysis, the delay distribution and the 95% delay of data packets are provided.
URL: https://global.ieice.org/en_transactions/fundamentals/10.1587/e87-a_7_1692/_p
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@ARTICLE{e87-a_7_1692,
author={Wei-Yeh CHEN, Jean-Lien C. WU, Hung-Huan LIU, },
journal={IEICE TRANSACTIONS on Fundamentals},
title={Performance Analysis of Dynamic Resource Allocation with Finite Buffers in Cellular Networks},
year={2004},
volume={E87-A},
number={7},
pages={1692-1699},
abstract={In this paper, we analyzed the performance of dynamic resource allocation with channel de-allocation and buffering in cellular networks. Buffers are applied for data traffic to reduce the packet loss probability while channel de-allocation is exploited to reduce the voice blocking probability. The results show that while buffering data traffic can reduce the packet loss probability, it has negative impact on the voice performance even if channel de-allocation is exploited. Although the voice blocking probability can be reduced with large slot capacity, the improvement decreases as the slot capacity increases. On the contrary, the packet loss probability increases as the slot capacity increases. In addition to the mean value analysis, the delay distribution and the 95% delay of data packets are provided.},
keywords={},
doi={},
ISSN={},
month={July},}
Copy
TY - JOUR
TI - Performance Analysis of Dynamic Resource Allocation with Finite Buffers in Cellular Networks
T2 - IEICE TRANSACTIONS on Fundamentals
SP - 1692
EP - 1699
AU - Wei-Yeh CHEN
AU - Jean-Lien C. WU
AU - Hung-Huan LIU
PY - 2004
DO -
JO - IEICE TRANSACTIONS on Fundamentals
SN -
VL - E87-A
IS - 7
JA - IEICE TRANSACTIONS on Fundamentals
Y1 - July 2004
AB - In this paper, we analyzed the performance of dynamic resource allocation with channel de-allocation and buffering in cellular networks. Buffers are applied for data traffic to reduce the packet loss probability while channel de-allocation is exploited to reduce the voice blocking probability. The results show that while buffering data traffic can reduce the packet loss probability, it has negative impact on the voice performance even if channel de-allocation is exploited. Although the voice blocking probability can be reduced with large slot capacity, the improvement decreases as the slot capacity increases. On the contrary, the packet loss probability increases as the slot capacity increases. In addition to the mean value analysis, the delay distribution and the 95% delay of data packets are provided.
ER -
English
