電波伝搬特性を生かしたランダムアクセス方式の研究

2020 年度 実施状況報告書

• 研究課題/領域番号: 20K04493
• 研究機関: 同志社大学
• 研究代表者: 程 俊 同志社大学, 理工学部, 教授 (00388042)
• 研究期間 (年度): 2020-04-01 – 2023-03-31
• キーワード: wireless communications / massive random-access / slotted ALOHA / density evolution / finite blocklength / fading channels

研究実績の概要

We are progressing according to the original plan in 2020, and achieved the following results. We consider massive random access wireless communications, where devices communicate their packets in a bursty manner at random times. We use code theory to build random access schemes for the communications. Specifically, we apply the spatial coupling concept to the massive random-access wireless communication systems, and give a performance analysis of the massive random access wireless communication systems.

現在までの達成度 (区分)

2: おおむね順調に進展している

理由

As summarized in the Research Achievements section, the research is smoothly progressing according to the original plan in 2020.

We have shown that utilization of the device-specific channel state information improves the performance of the massive multiple-access wireless communications. We have proposed a spatially-coupled coded slotted ALOHA systems with finite-length packet transmission over quasi-static Rayleigh fading channels. We derive a cumulative density function of SIR, and thus give a closed-form expression of an average packet error probability at the SIR with short packets for the Rayleigh fading channels. The density evolution gives the decoding performance of these systems. Since the device-specific channel state information is utilized for separating signals form devices, the proposed systems outperform the conventional systems.

今後の研究の推進方策

Research will proceed according to the original plan. In the second year, we further investigate the spatially-coupled coded slotted ALOHA systems over quasi-static Rayleigh fading channels, and give an analysis, and asymptotic performance. Moreover, we have some attempt in the research direction of massive unsourced massive random-access schemes over fading channel for the wireless communications in 2021.

次年度使用額が生じた理由

コロナ禍で，国際会議や国内会議への現地参加ができなかったため．２０２１年度に，Australiaで開催する国際会議 IEEE International Symposium on Information Theoryや国内開催の情報理論とその応用シンポジウムに参加する予定です．

研究成果

• [国際共同研究] Singapore University of Tech. and Design(シンガポール)
  • 国名: シンガポール
  • 外国機関名: Singapore University of Tech. and Design
• [学会発表] Coding for resistive random-access memory channels (2020)
  • 著者名/発表者名: G. Song, K. Cai, X. Zhong, J. Yu, and J. Cheng
  • 学会等名: IEEE Global Communications Conference (Globecom)
  • 国際学会
• [学会発表] User identification and channel estimation by DNN-based decoder on multiple-access channel (2020)
  • 著者名/発表者名: L. Wei, S. Lu, H. Kamabe, and J. Cheng
  • 学会等名: IEEE Global Communications Conference (Globecom)
  • 国際学会
• [学会発表] Performance evaluation of LDPC coded partial-access IDMA systems with SNR evolution (2020)
  • 著者名/発表者名: M. Yamagishi, G. Song, T. Kimura, and J. Cheng
  • 学会等名: IEEE Region 10 Conference (TENCON)
  • 国際学会
• [学会発表] Optimal power allocation of superposition-coded relaying with finite-blocklength transmission over quasi-static Rayleigh channels (2020)
  • 著者名/発表者名: M. Kambara, G. Song, T. Kimura, and J. Cheng
  • 学会等名: Int. Symposium on Information Theory and Its Applications (ISITA)
  • 国際学会
• [学会発表] レイリーフェージング環境下での空間結合符号化Slotted ALOHA システムにおける有限長パケット伝送特性の解析 (2020)
  • 著者名/発表者名: 井上智貴，木村共孝，程俊
  • 学会等名: 電子情報通信学会情報理論研究会
• [学会発表] レイリーフェージング環境下3ノード双方向協調通信における最大比合成を用いた有限長伝送システムの性能解析 (2020)
  • 著者名/発表者名: 神原 征弥，木村 共孝，程 俊
  • 学会等名: 電子情報通信学会情報理論研究会
• [学会発表] User identification and channel estimation by iterative DNN-based decoder on multiple-access fading channel (2020)
  • 著者名/発表者名: L. Wei, S. Lu, H. Kamabe, and J. Cheng
  • 学会等名: IEICE Technical Report