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In the joint estimation for time of arrival (TOA) and direction of arrival (DOA) in the narrow-band orthogonal frequency division multiplexing (OFDM) system with antenna arrays, the estimation accuracy is not high in the situation of few numbers of arrays. Especially, DOA cannot be estimated if the number of multiple paths is more than that of the arrays. For these problems, a joint estimation algorithm for TOA and DOA based on the subspace of the extended hadamard product is proposed. First of all, the algorithm constructs an extended channel response in frequency domain via channel estimation for each array in the frequency domain. Then, auto-correlation matrix of extended channel response in the frequency domain is estimated by sampling many times. This estimation method of channel response in the frequency domain can use the fast Fourier transform algorithm. And the hadamard product in the extended noise subspace is obtained by eigenvalue decomposition. Finally, the pseudo-spectral function is constructed and used to search for spectrum peaks, so as to realize the joint estimation of TOA and DOA. The proposed algorithm requires no parameter paring but needs a two-dimensional searching. Monte Carlo algorithm can be used to reduce computational complexity. Simulation results show that the root mean square error of the joint TOA and DOA estimation which can be matched automatically is closer to the Cramer-Rao bound than that using present algorithms. And the proposed algorithm can be still applied when the number of multiple paths is more than number of arrays.
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Keywords:
- array antenna /
- orthogonal frequency division multiplexing /
- time of arrival /
- direction of arrival
[1] Wang Y L, Ma S L, Liang G L, Fan Z 2014 Acta Phys. Sin. 63 044302 (in Chinese) [王逸林, 马世龙, 梁国龙, 范展 2014 物理学报 63 044302]
[2] Cai H, Deng H C, Wang Y F, Cai H Z, Liu Y T 2006 Physics 350 (in Chinese) [蔡慧, 邓红超, 王永丰, 蔡惠智, 刘云涛 2006 物理 350]
[3] Ren H P, Li W C, Liu D 2010 Chin. Phys. B 19 030511
[4] Luo B W, Dong J J, Yu Y, Yang T, Zhang X L 2013 Chin. Phys. B 22 023201
[5] Ni H 2010 M. S. Dissertation (Xian: Xidian University) (in Chinese) [倪浩2010博士学位论文(西安: 西电电子科技大学)]
[6] Li J, Pei L, Cao M Y, Yu D Y 2006 Chinese Journal of Radio Science 21 771 (in Chinese) [李晶, 裴亮, 曹茂永, 郁道银 2006 电波科学学报 21 771]
[7] Li X, Ma X, Yan S, Hou C 2012 IET Radar Sonar & Navigation 6 781
[8] Jiang H, Cao F C, Ding R 2008 Int Conf Circuits and Systems for Communications (Shanghai: IEEE) p535
[9] Wang F Q, Zhang X F, Wang F 2014 Journal on Communications 35 137 (in Chinese) [王方秋, 张小飞, 汪飞 2014 通信学报 35 137]
[10] Oh D, Kim S, Yoon S H, Chong J W 2013 IEEE Trans Wirel Commun 12 3130
[11] Li J, Zhao Y J, Li D H 2014 Acta Phys. Sin. 63 130701 (in Chinese) [李晶, 赵拥军, 李冬海 2014 物理学报 63 130701]
[12] Ding R, Qian Z H, Wang X 2014 Journal of Electronics & Information Technology 32 313 (in Chinese) [丁锐, 钱志鸿, 王雪 2014 电子与信息学报 32 313]
[13] Cao F C, Li M 2010 IEEE Int. Conf. Wireless Communications Networking and Mobile Computing (Chengdu: IEEE) p1
[14] Li X, Pahlavan K 2004 IEEE Trans. Wirel Commun 3 224
[15] Schmidt R O 1986 IEEE Trans. on Antennas and Propagat. 34 276
[16] Vanderveen M C, Van der Veen A J, Paulraj A 1998 IEEE Trans Signal Process 46 682
[17] Stoica P, Arye N 1989 IEEE Trans Acoust, Speech Signal Process 37 720
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[1] Wang Y L, Ma S L, Liang G L, Fan Z 2014 Acta Phys. Sin. 63 044302 (in Chinese) [王逸林, 马世龙, 梁国龙, 范展 2014 物理学报 63 044302]
[2] Cai H, Deng H C, Wang Y F, Cai H Z, Liu Y T 2006 Physics 350 (in Chinese) [蔡慧, 邓红超, 王永丰, 蔡惠智, 刘云涛 2006 物理 350]
[3] Ren H P, Li W C, Liu D 2010 Chin. Phys. B 19 030511
[4] Luo B W, Dong J J, Yu Y, Yang T, Zhang X L 2013 Chin. Phys. B 22 023201
[5] Ni H 2010 M. S. Dissertation (Xian: Xidian University) (in Chinese) [倪浩2010博士学位论文(西安: 西电电子科技大学)]
[6] Li J, Pei L, Cao M Y, Yu D Y 2006 Chinese Journal of Radio Science 21 771 (in Chinese) [李晶, 裴亮, 曹茂永, 郁道银 2006 电波科学学报 21 771]
[7] Li X, Ma X, Yan S, Hou C 2012 IET Radar Sonar & Navigation 6 781
[8] Jiang H, Cao F C, Ding R 2008 Int Conf Circuits and Systems for Communications (Shanghai: IEEE) p535
[9] Wang F Q, Zhang X F, Wang F 2014 Journal on Communications 35 137 (in Chinese) [王方秋, 张小飞, 汪飞 2014 通信学报 35 137]
[10] Oh D, Kim S, Yoon S H, Chong J W 2013 IEEE Trans Wirel Commun 12 3130
[11] Li J, Zhao Y J, Li D H 2014 Acta Phys. Sin. 63 130701 (in Chinese) [李晶, 赵拥军, 李冬海 2014 物理学报 63 130701]
[12] Ding R, Qian Z H, Wang X 2014 Journal of Electronics & Information Technology 32 313 (in Chinese) [丁锐, 钱志鸿, 王雪 2014 电子与信息学报 32 313]
[13] Cao F C, Li M 2010 IEEE Int. Conf. Wireless Communications Networking and Mobile Computing (Chengdu: IEEE) p1
[14] Li X, Pahlavan K 2004 IEEE Trans. Wirel Commun 3 224
[15] Schmidt R O 1986 IEEE Trans. on Antennas and Propagat. 34 276
[16] Vanderveen M C, Van der Veen A J, Paulraj A 1998 IEEE Trans Signal Process 46 682
[17] Stoica P, Arye N 1989 IEEE Trans Acoust, Speech Signal Process 37 720
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