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http://dx.doi.org/10.1109/JCN.2014.000008

Robust Relay Design for Two-Way Multi-Antenna Relay Systems with Imperfect CSI  

Wang, Chenyuan (QUALCOMM Inc.)
Dong, Xiaodai (Department of Electrical and Computer Engineering, University of Victoria)
Shi, Yi (Huawei Technologies)
Publication Information
Journal of Communications and Networks / v.16, no.1, 2014 , pp. 45-55 More about this Journal
Abstract
The paper investigates the problem of designing the multiple-antenna relay in a two-way relay network by taking into account the imperfect channel state information (CSI). The objective is to design the multiple-antenna relay based upon the CSI estimates, where the estimation errors are included to attain the robust design under the worst-case philosophy. In particular, the worst-case transmit power at the multiple-antenna relay is minimized while guaranteeing the worst-case quality of service requirements that the received signal-to-noise ratio (SNR) at both sources are above a prescribed threshold value. Since the worst-case received SNR expression is too complex for subsequent derivation and processing, its lower bound is explored instead by minimizing the numerator and maximizing the denominator of the worst-case SNR. The aforementioned problem is mathematically formulated and shown to be nonconvex. This motivates the pursuit of semidefinite relaxation coupled with a randomization technique to obtain computationally efficient high-quality approximate solutions. This paper has shown that the original optimization problem can be reformulated and then relaxed to a convex problem that can be solved by utilizing suitable randomization loop. Numerical results compare the proposed multiple-antenna relay with the existing nonrobust method, and therefore validate its robustness against the channel uncertainty. Finally, the feasibility of the proposed design and the associated influencing factors are discussed by means of extensive Monte Carlo simulations.
Keywords
Gaussian randomization; imperfect channel state information (CSI); semidefinite relaxation; two-way relay network; worst-case robust design;
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1 N. D. Sidiropoulos, T. Davidson, and Z.-Q. Luo, "Transmit beamforming for physical-layer multicasting," IEEE Trans. Signal Process., vol. 54, pp. 2239-2251, June 2006.   DOI
2 J. Choi, "Performance analysis for transmit antenna diversity with/without channel information," IEEE Trans. Veh. Technol., vol. 51, pp. 101-113, Jan. 2002.   DOI   ScienceOn
3 A. Pascual-Iserte, A. Perez-Neira, and M. Lagunas, "On power allocation strategies for maximum signal to noise and interference ratio in an OFDMMIMO system," IEEE Trans.Wireless Commun., vol. 3, pp. 808-820, May 2004.   DOI
4 J. Zou, H. Luo,M. Tao, and R.Wang, "Joint source and relay optimization for non-regenerative MIMO two-way relay systems with imperfect CSI," IEEE Trans. Wireless Commun., vol. 11, pp. 3305-3315, Sept. 2012.   DOI
5 C. Wang, S. Ma, and Y.-C. Wu, "Robust joint design of linear relay precoder and destination equalizer for dual-hop amplify-and-forward MIMO relay systems," IEEE Trans. Signal Process., vol. 58, pp. 2273-2283, Apr. 2010.   DOI
6 J. Wang and D. Palomar, "Robust MMSE precoding in MIMO channels with pre-fixed receivers," IEEE Trans. Signal Process., vol. 58, pp. 5802-5818, Nov. 2010.   DOI
7 B. Chalise and L. Vandendorpe, "MIMO relay design for multipointto- multipoint communications with imperfect channel state information," IEEE Trans. Signal Process., vol. 57, pp. 2785-2796, July 2009.   DOI   ScienceOn
8 B. Chalise, "Optimization of MIMO relays for multipoint-to-multipoint communications: Nonrobust and robust designs," IEEE Trans. Signal Process., vol. 58, pp. 6355-6368, Dec. 2010.   DOI
9 P. Ubaidulla and A. Chockalingam, "Relay precoder optimization in MIMO-relay networks with imperfect CSI," IEEE Trans. Signal Process., vol. 59, pp. 5473-5484, Nov. 2011.   DOI   ScienceOn
10 A. Pascual-Iserte, D. Palomar, A. Perez-Neira, and M. Lagunas, "A robust maximin approach for MIMO communications with imperfect channel state information based on convex optimization," IEEE Trans. Signal Process., vol. 54, pp. 346-360, Dec. 2006.   DOI
11 G. Zheng, K.-K. Wong, and T.-S. Ng, "Robust linear MIMO in the downlink: A worst-case optimization with ellipsoidal uncertainty regions," EURASIP J. Adv. in Signal Process., pp. 1-16, 2008.
12 A. Panah and R. Heath, "MIMO two-way amplify-and-forward relaying with imperfect receiver CSI," IEEE Trans. Veh. Technol., vol. 59, pp. 4377-4387, Nov. 2010.   DOI
13 R. Zhang, Y.-C. Liang, C. C. Chai, and S. Cui, "Optimal beamforming for two-way multi-antenna relay channel with analogue network coding," IEEE J. Sel. Areas Commun., vol. 27, pp. 699-712, June 2009.   DOI
14 E. Gharavol and E. Larsson, "Robust joint optimization ofMIMO two-way relay channels with imperfect CSI," in Annual Allerton Conf. on Commun., Control, and Comput., pp. 1657-1664, Sept. 2011.
15 M. Botros and T. Davidson, "Convex conic formulations of robust downlink precoder designs with quality of service constraints," IEEE J. Sel. Topics Signal Process., vol. 1, pp. 714-724, Dec. 2007.   DOI
16 M. Payaro, A. Pascual-Iserte, and M. Lagunas, "Robust power allocation designs for multiuser and multi-antenna downlink communication systems through convex optimization," IEEE J. Sel. Areas Commun., vol. 25, pp. 1390-1401, Sept. 2007.   DOI
17 T. Yoo and A. Goldsmith, "Capacity and power allocation for fading MIMO channels with channel estimation error," IEEE Trans. Inf. Theory, vol. 52, no. 5, pp. 2203-2214, 2006.   DOI
18 S. Boyd and L. Vandenberghe, Convex Optimization. Cambridge University Press, Mar. 2004.
19 M. Biguesh, S. Shahbazpanahi, and A. B. Gershman, "Robust downlink power control in wireless cellular systems," EURASIP J. Wireless Commun. Netw., pp. 261-272, Dec. 2004.
20 J. Lofberg, "Yalmip: A toolbox for modeling and optimization in matlab," in Proc. CACSD Conf., Taipei, Taiwan, Sept. 2004.
21 S. Katti, S. Gollakota, and D. Katabi, "Embracing wireless interference: Analog network coding," SIGCOMM Comput. Commun. Rev., vol. 37, pp. 397-408, Aug. 2007.   DOI
22 C. Shannon, "Two-way communication channels," in Proc. 4th Berkeley Symp. Math. Stat. Prob., vol. 1, pp. 611-644, Univ. California Press, 1961.
23 B. Rankov and A. Wittneben, "Spectral efficient protocols for half-duplex fading relay channels," IEEE J. Sel. Areas Commun., vol. 25, pp. 379-389, Feb. 2007.   DOI   ScienceOn
24 F. Gao, C. Schnurr, I. Bjelakovic, and H. Boche, "Optimal channel estimation and training design for two-way relay networks," IEEE Trans. Commun., vol. 57, pp. 3024-3033, Oct. 2009.   DOI
25 S. J. Kim, P. Mitran, and V. Tarokh, "Performance bounds for bidirectional coded cooperation protocols," IEEE Trans. Inf. Theory, vol. 54, pp. 5235-5241, Nov. 2008.   DOI   ScienceOn
26 S. Zhou and G. Giannakis, "How accurate channel prediction needs to be for transmit-beamforming with adaptive modulation over Rayleigh MIMO channels?," IEEE Trans. Wireless Commun., vol. 3, pp. 1285-1294, July 2004.   DOI
27 E. Karipidis, N. Sidiropoulos, and Z.-Q. Luo, "Quality of service and maxmin fair transmit beamforming to multiple cochannel multicast groups," IEEE Trans. Signal Process., vol. 56, pp. 1268-1279, Mar. 2008.   DOI