Hybrid precoder for massive MIMO systems with coverage constraint

Hybrid architecture has been shown to be cost effective for massive multi-input multi-out (MIMO) systems, where analog precoder is used to form narrow beams towards users for data transmission with reduced number of radio frequency chains. However, besides the user-specific data, a wideband massive...

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Vydáno v:	IEEE/CIC International Conference on Communications in China - Workshops (Online) s. 38 - 43
Hlavní autoři:	Lingxiao Kong, Shengqian Han, Chenyang Yang
Médium:	Konferenční příspěvek
Jazyk:	angličtina
Vydáno:	IEEE 01.11.2015
Témata:	Broadcasting Data communication MIMO OFDM Optimization Radio frequency Wideband
ISSN:	2474-9133
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Abstract	Hybrid architecture has been shown to be cost effective for massive multi-input multi-out (MIMO) systems, where analog precoder is used to form narrow beams towards users for data transmission with reduced number of radio frequency chains. However, besides the user-specific data, a wideband massive MIMO system needs to broadcast control signaling intended for all users simultaneously, which requires wide beams to ensure the coverage. In this paper, we study the wideband hybrid precoder for downlink space-division multi-access and orthogonal frequency division multi-access (SDMA-OFDMA) massive MIMO systems, aimed at minimizing the total transmit power of the base station, subject to the coverage constraint of signaling broadcasting and data rate requirements of users. We first derive an upper bound of coverage probability under general spatially correlated channels, with which a hybrid precoder without requiring the iteration between analog and digital precoders is proposed. Simulation results show that under the same data rate requirement and coverage constraint, the proposed hybrid precoder can effectively reduce the total transmit power compared to the method with narrow-beam analog precoder only based on data rate requirements.
AbstractList	Hybrid architecture has been shown to be cost effective for massive multi-input multi-out (MIMO) systems, where analog precoder is used to form narrow beams towards users for data transmission with reduced number of radio frequency chains. However, besides the user-specific data, a wideband massive MIMO system needs to broadcast control signaling intended for all users simultaneously, which requires wide beams to ensure the coverage. In this paper, we study the wideband hybrid precoder for downlink space-division multi-access and orthogonal frequency division multi-access (SDMA-OFDMA) massive MIMO systems, aimed at minimizing the total transmit power of the base station, subject to the coverage constraint of signaling broadcasting and data rate requirements of users. We first derive an upper bound of coverage probability under general spatially correlated channels, with which a hybrid precoder without requiring the iteration between analog and digital precoders is proposed. Simulation results show that under the same data rate requirement and coverage constraint, the proposed hybrid precoder can effectively reduce the total transmit power compared to the method with narrow-beam analog precoder only based on data rate requirements.
Author	Chenyang Yang Lingxiao Kong Shengqian Han
Author_xml	– sequence: 1 surname: Lingxiao Kong fullname: Lingxiao Kong email: konglingxiao@buaa.edu.cn organization: Sch. of Electron. & Inf. Eng., Beihang Univ., Beijing, China – sequence: 2 surname: Shengqian Han fullname: Shengqian Han email: sqhan@buaa.edu.cn organization: Sch. of Electron. & Inf. Eng., Beihang Univ., Beijing, China – sequence: 3 surname: Chenyang Yang fullname: Chenyang Yang email: cyyang@buaa.edu.cn organization: Sch. of Electron. & Inf. Eng., Beihang Univ., Beijing, China
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Snippet	Hybrid architecture has been shown to be cost effective for massive multi-input multi-out (MIMO) systems, where analog precoder is used to form narrow beams...
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SubjectTerms	Broadcasting Data communication MIMO OFDM Optimization Radio frequency Wideband
Title	Hybrid precoder for massive MIMO systems with coverage constraint
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