Abstract
60 GHz Wireless Communication has attracted increasing attention with its distinct advantages such as abundant bandwidth, unlicensed and so on. For overcoming the large path loss of 60 GHz spectrum, devices generally make use of antenna array to get high directivity beam, enhance transmit and receive antenna gain. As a result how to implement fast beam-search is an inevitable challenge for 60 GHz Wireless Communication. Based on IEEE 802.15.3C criteria and channel model(including application environments), this chapter aims to propose a novel beam-search strategy by taking into account the characteristics of 60 GHz Wireless Communication, such as large path loss, strong directional beam and correlation among beam-search of devices. Moreover this strategy was proved by the simulation that it can effectively reduce the range of beam-search, improve efficiency.
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References
Su-Khiong Yong, Pengfei Xia et al (2011) 60 GHz technology for Gbps WLAN and WPAN: from theory to practice. Wiley, US, 1–14, pp 89–115
Sarkar TK, Zhong Ji et al (2003) A survey of various propagation models for mobile communication. IEEE Antenn Propag Mag 45(3):51–82
James P. K. Gilb (Technical Editor) (2009) IEEE standards 802.15.3c™–Part 15.3: wireless medium access control (MAC) and Physical layer (PHY) specifications for high rate wireless personal area networks (WPANs) Amendment 2: millimeter-wave-based alternative Physical layer extension. IEEE Computer Society, New York
ZouWeixia, Cui Zhifang, Li Bin et al (2012) N phases based beamforming codebook design scheme for 60GHz wireless communication. J Beijing Univ Posts Telecommun 35(3):1–5
Siep TM, Gifford IC, Braley RC, Heile RF (2000) Paving the way for personal area network standards: an overview of the IEEE P802.15 working group for wireless personal area networks. Personal Communications, IEEE 7(1):37–43
Zhiwei Lin, Xiaoming Peng (2011) Enhanced Beamforming for 60 GHz OFDM system with co-channel interference mitigation. In: IEEE international conference on ultra-wideband, ICUWB, Singapore, 14–16 Sept 2011, pp 29–33
Kosugi T, Hirata A, Nagatsuma T, Kado Y (2009) MM-wave long-range wireless systems. IEEE Microw Mag 10(2):68–76
Moraitis N, Constantinou P (2004) Indoor channel measurements and characterization at 60GHz for wireless local area network applications. Antennas and Propagation, IEEE Transactions 52(12):3180–3189
Dong Jie, Jing-jing Wang, Hao Zhang, Guo-yu Wang (2010) Channel capacity of 60 GHz wireless communication systems over indoor line-of-sight and non-line-of-sight channels. WiCOM, Chengdu, 23–25 Sept 2010, pp 1–4
Acknowledgments
This work was supported by National Natural Science Foundation of China (60972079, 60902046) and the BUPT excellent Ph.D. students’ foundations (CX201122)
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Li, S., Tao, H., Zhao, C. (2012). The Study About a Novel Beam-Search Strategy in 60 GHz Wireless Communication Environment. In: Liang, Q., et al. Communications, Signal Processing, and Systems. Lecture Notes in Electrical Engineering, vol 202. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-5803-6_43
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DOI: https://doi.org/10.1007/978-1-4614-5803-6_43
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