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A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
by Wu, Liang , Zhu, Yongdong , Dang, Jian , Gao, Shicheng , Wang, Lei , Zhang, Zaichen , Zhu, Bingcheng , Jiang, Hao , Guo, Rongbin
in Algorithms / Beamforming / Channel capacity / Communications systems / Controllability / Correlation / Geometry / Metamaterials / Receivers & amplifiers / Reconfigurable intelligent surfaces / Wireless communication systems / Wireless communications
2021
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A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
by Wu, Liang , Zhu, Yongdong , Dang, Jian , Gao, Shicheng , Wang, Lei , Zhang, Zaichen , Zhu, Bingcheng , Jiang, Hao , Guo, Rongbin
in Algorithms / Beamforming / Channel capacity / Communications systems / Controllability / Correlation / Geometry / Metamaterials / Receivers & amplifiers / Reconfigurable intelligent surfaces / Wireless communication systems / Wireless communications
2021
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A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
by Wu, Liang , Zhu, Yongdong , Dang, Jian , Gao, Shicheng , Wang, Lei , Zhang, Zaichen , Zhu, Bingcheng , Jiang, Hao , Guo, Rongbin
in Algorithms / Beamforming / Channel capacity / Communications systems / Controllability / Correlation / Geometry / Metamaterials / Receivers & amplifiers / Reconfigurable intelligent surfaces / Wireless communication systems / Wireless communications
2021

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A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication
Journal Article

A geometry‐based stochastic channel model and its application for intelligent reflecting surface assisted wireless communication

Wu, Liang,
Zhu, Yongdong,
Dang, Jian,
Gao, Shicheng,
Wang, Lei,
Zhang, Zaichen,
Zhu, Bingcheng,
Jiang, Hao,
Guo, Rongbin
2021
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Overview
Intelligent reflecting surface (IRS) is a new concept originating from metamaterials, which can achieve beamforming through controllable passive reflecting. This device makes it possible to engineer the wireless communication environment, and has drawn increasing attention. However, the associated channel models in current literature are mainly borrowed from conventional wireless channel models directly, omitting the unique features of IRS. In this paper, a geometry‐based stochastic channel model for IRS‐assisted wireless communication system is employed. The model has certain accuracy and low computational complexity. In particular, it captures the correlations of subchannels associated with different IRS elements, which is typically not considered in current works. Based on this channel model and the derived channel spatial correlation functions (CFs), an iterative reflection coefficients configuration method is proposed exploiting statistical channel state information to maximise the ergodic channel capacity. The impacts of the IRS spatial positions as well as the number of the IRS elements on the ergodic channel capacity is investigated through simulations. It is found that to obtain a larger ergodic channel capacity, the IRS should be placed in the vicinity of either the transmitter side or the receiver side, which is a useful guideline for practical deployment.
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Publisher
John Wiley & Sons, Inc,Wiley
Subject

Algorithms

/ Beamforming

/ Channel capacity

/ Communications systems

/ Controllability

/ Correlation

/ Geometry

/ Metamaterials

/ Receivers & amplifiers

/ Reconfigurable intelligent surfaces

/ Wireless communication systems

/ Wireless communications

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