多载波系统中一种高效自适应比特功率分配算法被引量：1

Efficient Adaptive Bit and Power Allocation Algorithm in Multi-carrier System

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摘要本文提出了一种多载波系统中自适应比特和功率分配算法,该算法在给定功率和目标误码率的条件下最大化系统容量。算法给出了比特和功率分配的闭合表达式,仿真结果表明文中所提算法的计算复杂度要比Krongold算法的复杂度低,相同信道条件下可实现的容量要比Krongold算法可实现的容量高,故,所提算法要优于Krongold算法。文中还对多载波系统中比特功率分配的经典算法进行了归纳介绍。 In this paper, a bit and power allocation algorithm is presented to maximize the system capacity subject to the total power and the target bit error rate （BER） constraints. The closed form expressions of bit and power allocation are derived. The algorithm features very low computational complexity, simulation results show that the computational complexity of the proposed algorithm is lower than that of the Krongold＇s algorithm. Moreover, the algorithm can achieve larger capacity than the Krongold＇s algorithm under the same channel state. So, the proposed algorithm is better than the Krongold＇s algorithm. The classical bit and power allocation algorithms are also summarized in the paper.

作者霍永青彭启琮

机构地区电子科技大学通信学院

出处《电子测量与仪器学报》 CSCD 2007年第6期10-13,共4页 Journal of Electronic Measurement and Instrumentation

基金自然科学基金重大资助项目(编号:60496313)

关键词多载波自适应比特功率分配容量 multi-carrier, adaptive, bit and power allocation, capacity.

分类号 TN92 [电子电信—通信与信息系统]

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参考文献9

1J. Campello. Practical bit loading for DMT [ A ]. in Proc. IEEE Int. Conf. Communications, Vancouver, Canada, 1999, 801 - 905.
2A. Leke and J. M. Cioffi. A maximum rate loading algorithm for discrete multitone modulation systems [ A ]. in Proc. IEEE Global Telecommunications Conf. , Phoenix, AZ, 1997, 1514 - 1518.
3R F H. Fischer, J. B. Huber. A new algorithm for discrete multitone transmission [ A ]. in Proc. IEEE Global Telecommunications Conf., London, U.K., 1996, 724 - 728.
4P. S. Chow, J. M. Cioffi and J. A. C. Bingham. A practical discrete multitone transceiver loading algorithm for data transmission over spectrally shaped channels [J]. IEEE Trans. Commun., 1995,43(2):773 -775.
5A. M. Wyglinski, P. Kabal and F. Labeau. Adaptive bit and power allocation for indoor wireless muhicarrier systems [A]. in Proc. 15th Int. Conf. Wireless Com- munications, Calgary, AB, Canada, 2003. 500 -508.
6A. M. Wyglinski., F. Labeau and P. Kabal. Bit loading with BER-constraint for multicarrier Systems [ J ]. IEEE Transactions on Wireless Communications, 2005, 4 (4) :1383 - 1387.
7D. Hughes-Hartogs. Ensemble modem structure for imperfect transmission media [P]. U. S. Patents 706, 1989.4: 706 - 833.
8B. Krongold, K. Ramchandran and D. Jones. Computationally efficient optimal power allocation algorithms for muhicarrier communication systems [ J ]. IEEE Transactions on Communications, 2000, 48 ( 1 ) : 23 - 27.
9J. M. Cioffi. A Multicarrier Primer [M]. In ANSI T1E1. 4 Committee contribution, 1991,91 - 157.

同被引文献13

1MITOLA J.Cognitive radio: An integrated agent architecture for software defined radio [M].Ph.D. dissertation, KTH, Royal Institute of Technology , Sweden, 2000.
2BAN T W, CHOI W, JUNG B C, et al.Multi-user diversity in a spectrum sharing system [J].IEEE trans wireless commun.,2009,8( 1 ).
3MUSAVIAN L, SONIA A.Capacity and power allocation for spectrum-sharing communications in fading channels [J].IEEE Trans Wireless Commun., 2009,8(1).
4GUO X, ROY S, CONNOR W S.Spatial reuse in wireless ad-hoc networks [J].Proc. 2003 IEEE Veh.Technol. Conf, 2003:1437-1442.
5ZHU J, GUO X, YANG L, et al.Leveraging spatial reuse in 802.11 mesh networks with enhanced physical cartier sensing [J]. Proc. 2004 IEEE Int. Comnmun. Conf:, vol. 7, June20-24 2004:4004-4011.
6MENON R, BUEHRER R M, REED J H.On the impact of dynamic spectrum sharing techniques on legacy radio systems [J]. IEEE Trans Wireless Commun., 2008,7(11).
7GAO J, SURAWEERA H A, SHAFI M, et al.Channel capacity of a cognitive radio network in GSM uplink band [C].2007 International Symposium on Communications and Information Technologies.
8HONG X M, WANG CH X,THOMPSON J. Interference modeling of cognitive radio networks [J].IEEE Vehicular Technology Conference, 2008:1851-1855.
9UNNIKRISHNAN J, VENUGOPAL V V.Cooperative sensing for primary detection in cognitive radio [J].IEEE J. Selected Signal Processing ,2008,2(1): 18-27.
10HOVEN N, SAHAI A. Power scaling for cognitive radio [C] . International Conference on Wireless Networks, Communications and Mobile Computing, 2005: 250-255.

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多载波系统中一种高效自适应比特功率分配算法被引量：1

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多载波系统中一种高效自适应比特功率分配算法被引量：1