多細胞多使用者之正交分頻多工系統之資源配置演算法

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姓名

蕭錫民(Hsi-Min Hsiao) 查詢紙本館藏

畢業系所

通訊工程學系

論文名稱

多細胞多使用者之正交分頻多工系統之資源配置演算法
(A Resource Allocation Algorithm for Multi-cell OFDMA Systems)

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摘要(中)

無線技術已廣泛應用在生活中，並且講求高傳輸率、高頻寬使用效率、低功率，因此正交分頻多工系統成為目前最有能力達到需求的技術。在多細胞的系統下，共頻帶干擾是影響傳輸品質的重要因素，因此需要隨時做功率控制，讓通訊不中斷。
在這篇論文中討論如何在多細胞多使用者的環境中增加傳輸系統的效能，並著重在功率的效益上，因為如果能夠有效控制功率，相對地，傳輸率和頻寬使用效率自然能夠提升。我們設計一種資源配置演算法，決定載波、位元和功率的配置，解決同頻帶干擾的問題，並將傳輸功率最小化。我們利用Lagrange和Greedy方法，並加以設計，從模擬中可以看出，我們的演算法勝過現有的演算法。

摘要(英)

This paper develops a sub-carrier, bit and power allocation algorithm for downlink multi-cell OFDMA systems. The model of the co-channel interference (CCI) channel is considered, where the transmit signal from each base station (BS) causes interference to the other users in other co-channel cells. This algorithm aims to minimize the total transmit power while satisfying the required data rate of each user, symbol error rate and the power constraint on each BS and each link.
We propose a scheme to sort all users such that we can do the resource allocation on all users in sequence. Moreover, we use the Lagrange and Greedy algorithm to do sub-carrier allocation and bit-loading. This methodology is applicable to low mobility multi-cell OFDMA wireless communication systems. The simulation results shows that the proposed algorithm greatly outperform the existing algorithm.

關鍵字(中)

★ 資源配置
★ 正交分頻多工

關鍵字(英)

★ OFDMA
★ resource allocation

論文目次

論文摘要................................................I
Abstract...............................................II
Contents..............................................III
List of Figures........................................IV
List of Tables.........................................VI
Chapter 1 Introduction..................................1
Chapter 2 Wireless OFDM and OFDMA Systems...............4
2.1 Introduction to OFDM................................4
2.2 Cyclic Prefix.......................................6
2.3 OFDMA System........................................7
Chapter 3 Channel Model and Cellular System.............8
3.1 Wireless Channel....................................8
3.1.1 Path Loss.........................................8
3.1.2 Multi-path Propagation............................9
3.2 Cellular System....................................12
Chapter 4 System Model and Problem Formulation.........14
4.1 System Model.......................................14
4.2 Problem Formulation................................17
Chapter 5 Proposed Allocation Algorithm................18
Chapter 6 Numerical Results............................34
6.1 Parameters.........................................34
6.2 Simulation and Discussion..........................37
Chapter 7 Conclusion...................................45
Reference..............................................46

參考文獻

[1] Junqiang Li, Hojin Kim, Yongsuk Lee, and Yongsoo Kim, “A novel broadband wireless OFDMA scheme for downlink in cellular communications,” IEEE WCNC ‘03, vol. 3, pp. 1907-1911, Mar. 2003.
[2] C.Y. Wong, R. S. Cheng, K. B. Letaief, and R. D. Murch, “Multuser OFDM with adaptive subcarrier, bit, and power allocation,” IEEE J. Select. Area Commun., vol. 17, No. 10, pp. 1747-1757, Oct. 1999.
[3] D. Kivanc, G. Li, and H. Liu, “Computationally efficient bandwidth allocation and power control for OFDMA, ”IEEE Trans. Commun., vol. 2, No. 6, pp. 1150-1158, Nov. 2003.
[4] L. Wang and Z. Niu, “Computationally Efficient Resource Allocation Algorithm for Multiuser OFDM systems,” IEEE 2005 Asia-Pacific Conference on Commun., pp. 416-420, Oct. 2005.
[5] Z. Han, Z. Ji, and K.J.R. Liu, “Low-complexity OFDMA channel allocation with Nash bargaining solution fairness,” IEEE Globecom ‘04, vol. 6, pp. 3726-3731, Nov.-Dec. 2004.
[6] Y. J. Zhang and K. B. Letaief, “Multiuser adaptive subcarrier-and-bit allocation with adaptive cell selection for OFDM systems,” IEEE Trans. Wireless Commun. vol. 3, No. 5, pp. 1566-1575, Sep. 2004.
[7] H. Kim, Y. Han, and J. Koo, “Optimal subchannel allocation scheme in multicell OFDMA systems,” IEEE VTC ‘04, vol. 3, pp. 1821-1825, May 2004.
[8] J. Lee, R.V. Sonalkar, and J.M. Cioffi, “Multi-user discrete bit-loading for DMT-based DSL systems,” IEEE Globecom ‘02, vol. 2, pp. 1259-1263, Nov. 2002.
[9] Z. Han, F.R. Farrokhi, Z. Ji, and K.J.R. Liu, “Capacity optimization using subspace method over multicell OFDMA networks,” IEEE WCNC ‘04, vol. 4, pp. 2393-2398, Mar. 2004.
[10] Z. Han, Z. Ji, and K.J.R. Liu, “Power minimization for multi-cell OFDM networks using distributed non-cooperative game approach,” IEEE Globecom ‘04, vol. 6, pp. 3742-3747, Nov.-Dec. 2004.
[11] S. Pietrzyk and G.J.M. Janssen, “Radio resource allocation for cellular networks based on OFDMA with QoS guarantees,” IEEE Globecom ‘04, vol. 4, pp.2694-2699, Nov.-Dec. 2004.
[12] L. Y. Ou and Y. F. Chen, “An iterative multi-user bit and power allocation algorithm for DMT-based systems,” IEICE Trans. Commun., vol. E88-B, No. 11, Nov. 2005.
[13] B. Razavi, RF Microelectronics, Upper Saddle River, NJ: Prentice Hall, 1998.
[14] B. Sklar, “Rayleigh fading channels in mobile digital communication systems. I. Characterization,” IEEE Commun. Magazine, vol. 35, No. 7, pp. 90-100, July 1997.
[15] V. K. Garg and J. E. Wilkes, Wireless and Personal Communications Systems, Upper Saddle River, NJ: Prentice Hall, 1996.
[16] H. Kwon, W. I. Lee, and B. G. Lee, “Low-overhead resource allocation with load balancing in multi-cell OFDMA systems,” IEEE VTC 05’, vol. 5, pp. 3063-3067 May-Jun. 2005.
[17] G. Li and H. Liu, “Downlink dynamic resource allocation for multi-cell OFDMA system,” IEEE VTC ‘03, vol. 3, pp. 1698-1702, Oct. 2003.
[18] Y. S. Choi, P.J. Voltz, and F.A. Cassara, “ML estimation of carrier frequency offset for multicarrier signals in Rayleigh fading channels,” IEEE Trans. vehic.Tech., pp. 644-655, vol. 50, No. 2, Mar. 2001.
[19] T. K. Sarkar, Z. Ji, K. Kim, A. Medouri, and M. Salazar-Palma, “A survey of various propagation models for mobile communication,” IEEE Antennas and Propagation Magazine, pp. 51-82, vol. 45, No. 3, June 2003.
[20] G. Kulkarni, S. Adlakha, and M. Srivastava, “Subcarrier allocation and bit loading algorithms for OFDMA-based wireless networks,” IEEE Trans. Mobile Computing, pp.652-662, vol. 4, No. 6, Nov.-Dec. 2005.
[21] L. Chen; B. Krongold, and J. Evans, “An adaptive resource allocation algorithm for Multiuser OFDM,” IEEE 7th Australian Comm. Theory Workshop 2006 Proceedings, pp. 143-147, Feb. 2006.
[22] P. A. Bello, “Characterization of randomly time-variant linear channels,” IEEE Trans. Commun., pp.360-393, vol. 11, No. 4, Dec. 1963.

指導教授

陳永芳(Yung-Fang Chen)

審核日期

2006-7-9

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