A Hypothesis Testing Framework For Elevation Beamforming

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概要

• 論文の詳細を見る

• 3D Beamforming (3D BF) is a new feature of 3GPP LTE-A standard that is likely to increase spectral efficiency by exploiting the vertical dimension. If two co-located receivers are sufficiently spaced in elevation, 3D BF allows a base station (BS) to simultaneously serve them by focusing dedicated narrow beams on each receiver's vertical position. By deriving a closed-form expression of the signal-to-interference ratio which we show to be proportional to the vertical spacing between two such receivers, the accuracy of vertical spacing estimation is shown to be of paramount importance to the performance of 3D BF. A question is then how can a BS tell, with reasonable confidence, whether 2 receivers are sufficiently spaced in elevation for the beams not to significantly overlap. Thus, we provide a hypothesis testing framework under which a BS estimates such vertical spacing from the uplink signals received from the receivers, as well as a decision rule based upon which a BS decides whether or not to apply 3D BF in a given scenario.

• 一般社団法人電子情報通信学会の論文
• 2014-01-16

著者

• SOUIHLI Oussama

  Wireless Communication System Laboratory (WCSL), KDDI R&D Labs

• HATAKAWA Yasuyuki

  Wireless Communication System Laboratory (WCSL), KDDI R&D Labs

• KONISHI Satoshi

  Wireless Communication System Laboratory (WCSL), KDDI R&D Labs

関連論文

• Open-Loop Homographis Precoding (OLHP): A Method for Seamless (Interference-Free) Multiuser Transmission in Wireless SISO/MIMO Systems With No Channel State Information At The Transmitter (CSIT)
• An LQ-Less Implementation of Tomlinson Harashima Precoding (THP)
• Hermitian Splitting Precoding (HSP) for Wireless MIVIO Systems : All The Channel Capacity, Half The Signaling Cost
• Benefits of Channel Diagonal Dominance to Cooperative MIMO Systems
• A Hypothesis Testing Framework For Elevation Beamforming

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