1.

論文(リポジトリ)

論文(リポジトリ)
齋藤, 将人 ; Saito, Masato
出版情報: 電子情報通信学会技術研究報告.  120  pp.23-28,  2020-09-25.  電子情報通信学会 — THE INSTITUTE OF ELECTRONICS,INFORMATION AND COMMUNICATION ENGINEERS
URL: http://hdl.handle.net/20.500.12000/47205
概要: 筆者らは,これまで,Single-Input Multiple-Output (SIMO) や Multiple-Input Multiple-Output (MIMO)および大規模MIMOにおける受信アンテナのハードウェアコスト削減法とし てアンテナパターン多重 (Antenna Pattern Multiplexing; APM) 技術に着目して研究を行ってきた.本稿では,APMの原理について時変指向性利得として,周波数分割多重および符号分割多重に基づく周期波形を用いて説明を試み,単一のアンテナ系統から,複数の分離可能なアンテナ出力が得られることを示す.
We have been studied Antenna Pattern Multiplexing (APM) technique suitable for receivers of Single-Input Multiple-Output (SIMO), Multiple-Input Multiple-Output (MIMO), and massive MIMO systems. APM technique has potential to reduce the hardware cost of the receivers, for example, size of antenna, the number of required cables, cabling cost, calibration cost, maintenance cost, etc. In this paper, we try to explain the principle of APM with time-variable directional gain designed based on Frequency Division Multiplexing (FDM) and Code Division Multiplexing (CDM). Through the paper, we show how to obtain multiple distinguishable antenna outputs from a single Radio Frequency (RF) front-end.
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2.

論文(リポジトリ)

論文(リポジトリ)
Alimo, David ; Saito, Masato
出版情報: IEICE Communications Express.  9  pp.170-175,  2020.  The Institute of Electronics, Information and Communication Engineers — 電子情報通信学会
URL: http://hdl.handle.net/20.500.12000/46346
概要: We propose a Wiener filter (WF) and a combined zero forcing (ZF)/WF precodings with ant colony optimization (ACO) algori thms as the digital precoder for millimeter wave multiple-input multiple-output (MIMO) systems. In the proposed schemes, beams are selected based on maximal magnitude (MM) criteria and the selection is optimized using ACO algorithm to achieve near optimal solution with highly reduced complexity. According to the simulation results, while ACO-WF scheme achieves higher sum rate in high inter-user interference (IUI) environments compared with conventional precoders, we confirm ACO-ZF/WF scheme can obtain a maximal sum rate in both low and high IUI environments.
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