Abstract
Coordinated multi-point transmission/reception (CoMP) is a promising way of coping with cell edge problem in current cellular mobile communication systems. This paper addresses the design of transmission algorithm of CoMP systems. We focus on dynamic cell selection (DCS) based CoMP strategy, which achieves large performance gain with moderate information sharing overhead. A minimum SINR based low-complexity BS selection criterion is proposed and evaluated through system level simulations. Simulation results show that the proposed criterion yields good frame error rate (FER) performance.
This work is supported by the National Science Foundation of China (61101086, 61101082, and 60902013), and by the National Key Special Program (2012ZX03001036-004).
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References
You, X.-H., Wang, D.-M., Sheng, B., Gao, X.-Q., Zhao, X.-S., Chen, M.: Cooperative distributed antenna systems for mobile communications. IEEE Wireless Commun. 17(3), 35–43 (2010)
Rahman, M., Yanikomeroglu, H.: Enhancing cell-edge performance: a downlink dynamic interference avoidance scheme with inter-cell coordination. IEEE Trans. Wireless Commun. 9(4), 1414–1425 (2010)
3GPP TR25.912 v8.0.0, Feasibility study for evolved Universal Terrestrial Radio Access (UTRA) and Universal Terrestrial Radio Access Network (UTRAN) (January 2009)
ITU-R M.2134, Requirements related to technical performance for IMT-Advanced radio interface(s) (October 2008)
3GPP TR36.913 v8.0.1, Requirements for further advancements for Evolved Universal Terrestrial Radio Access (E-UTRA) (LTE-Advanced) (May 2009)
Bosisio, R., Spagnolini, U.: Interference coordination vs. interference randomization in multicell 3GPP LTE system. In: Proc. WCNC 2008, pp. 824–829 (2008)
Chen, W., Letaief, K.B., Cao, Z.: Network interference cancellation. IEEE Trans. Wireless Commun. 8(12) (December 2009)
Necker, M.C.: Interference Coordination in Cellular OFDMA Networks. IEEE Network 22(6), 12–19 (2008)
Zhang, K., Fan, B., Liu, J., Lin, Y., Wang, W.: Interference coordination for OFDM-based multihop LTE-Advanced networks. IEEE Wireless Commun. 18(1), 54–63 (2011)
Shamai(Shitz), S., Zaidel, B.M.: Enhancing the cellular downlink capacity via co-processing at the transmitting end. In: Proc. VTC 2001 Spring, vol. 3, pp. 1745–1749 (May 2001)
Zhang, R.: Cooperative multi-cell block diagonalization with per-based-station power constraints. IEEE J. Sel. Areas. Commun. 28(9), 1435–1445 (2010)
Sadek, M., Tarighat, A., Sayed, A.H.: A Leakage-Based Precoding Scheme for Downlink Multi-User MIMO Channels. IEEE Trans. Wireless Commun. 6(5) (May 2007)
Suh, C., Tse, D.: Interference alignment for cellular networks. In: Proc. Allerton Conf. Commun. Control, and Computing (September 2008)
Simeone, O., Somekh, O., Poor, H.V., Shamai, S.: Local base station cooperation via finite-capacity links for the uplink of linear cellular networks. IEEE Trans. Inform. Theory 55(1), 190–204 (2009)
Björnson, E., Zakhour, R., Gesbert, D., Ottersten, B.: Cooperative multicell precoding: rate region characterization and distributed strategies with instantaneous and statistical CSI. IEEE Trans. Signal Process. 58(8), 4298–4310 (2010)
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Zhu, P., Tang, L., Sheng, B. (2012). Minimum SINR Based Dynamic Cell Selection Scheme for LTE-Advanced CoMP Systems. In: Zhang, Y. (eds) Future Wireless Networks and Information Systems. Lecture Notes in Electrical Engineering, vol 144. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-27326-1_17
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DOI: https://doi.org/10.1007/978-3-642-27326-1_17
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