Linearly distributed antenna diversity using single frequency network for high-speed railway communications

Jimmy Hadi Susanto; Hiroyuki Miyazaki; Katsuhiro Temma; Tetsuya Yamamoto; Tatsunori Obara; Fumiyuki Adachi

doi:10.1109/APCC.2013.6765960

Linearly distributed antenna diversity using single frequency network for high-speed railway communications

Jimmy Hadi Susanto, Hiroyuki Miyazaki, Katsuhiro Temma, Tetsuya Yamamoto, Tatsunori Obara, Fumiyuki Adachi

Research Organization of Electrical Communication (ROEC)

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

4 Citations (Scopus)

Abstract

Broadband data services are demanded even under high mobility environment, such as high-speed railway. In this paper, we consider single-carrier (SC) linearly distributed antenna network (DAN). The distributed antenna-mobile terminal (MT) link will be a line-of-sight link and therefore, fading can be characterized as the frequency-selective Nakagami-Rice fading. Distributed antenna diversity using single frequency network (SFN) can mitigate the impacts of path and shadowing losses as well as the frequency-selective fading. In this paper, frequency-domain space-time block coded-joint transmit/receive diversity (FD-STBC-JTRD) is employed as SFN linearly distributed antenna diversity. It is confirmed by computer simulation that FD-STBC-JTRD is a powerful diversity to improve the transmission performance under a high mobility environment.

Original language	English
Title of host publication	2013 19th Asia-Pacific Conference on Communications, APCC 2013
Publisher	IEEE Computer Society
Pages	299-303
Number of pages	5
ISBN (Print)	9781467360500
DOIs	https://doi.org/10.1109/APCC.2013.6765960
Publication status	Published - 2013 Jan 1
Event	2013 19th Asia-Pacific Conference on Communications, APCC 2013 - Denpasar, Indonesia Duration: 2013 Aug 29 → 2013 Aug 31

Other

Other	2013 19th Asia-Pacific Conference on Communications, APCC 2013
Country	Indonesia
City	Denpasar
Period	13/8/29 → 13/8/31

Keywords

Distributed antennas
Nakagami-Rice fading
single frequency network
transmit/receive diversity

ASJC Scopus subject areas

Computer Networks and Communications

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Linearly distributed antenna diversity using single frequency network for high-speed railway communications. / Susanto, Jimmy Hadi; Miyazaki, Hiroyuki; Temma, Katsuhiro; Yamamoto, Tetsuya; Obara, Tatsunori; Adachi, Fumiyuki.

2013 19th Asia-Pacific Conference on Communications, APCC 2013. IEEE Computer Society, 2013. p. 299-303 6765960.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Susanto, JH, Miyazaki, H, Temma, K, Yamamoto, T, Obara, T & Adachi, F 2013, Linearly distributed antenna diversity using single frequency network for high-speed railway communications. in 2013 19th Asia-Pacific Conference on Communications, APCC 2013., 6765960, IEEE Computer Society, pp. 299-303, 2013 19th Asia-Pacific Conference on Communications, APCC 2013, Denpasar, Indonesia, 13/8/29. https://doi.org/10.1109/APCC.2013.6765960

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title = "Linearly distributed antenna diversity using single frequency network for high-speed railway communications",

abstract = "Broadband data services are demanded even under high mobility environment, such as high-speed railway. In this paper, we consider single-carrier (SC) linearly distributed antenna network (DAN). The distributed antenna-mobile terminal (MT) link will be a line-of-sight link and therefore, fading can be characterized as the frequency-selective Nakagami-Rice fading. Distributed antenna diversity using single frequency network (SFN) can mitigate the impacts of path and shadowing losses as well as the frequency-selective fading. In this paper, frequency-domain space-time block coded-joint transmit/receive diversity (FD-STBC-JTRD) is employed as SFN linearly distributed antenna diversity. It is confirmed by computer simulation that FD-STBC-JTRD is a powerful diversity to improve the transmission performance under a high mobility environment.",

keywords = "Distributed antennas, Nakagami-Rice fading, single frequency network, transmit/receive diversity",

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AU - Susanto, Jimmy Hadi

AU - Miyazaki, Hiroyuki

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AU - Obara, Tatsunori

AU - Adachi, Fumiyuki

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N2 - Broadband data services are demanded even under high mobility environment, such as high-speed railway. In this paper, we consider single-carrier (SC) linearly distributed antenna network (DAN). The distributed antenna-mobile terminal (MT) link will be a line-of-sight link and therefore, fading can be characterized as the frequency-selective Nakagami-Rice fading. Distributed antenna diversity using single frequency network (SFN) can mitigate the impacts of path and shadowing losses as well as the frequency-selective fading. In this paper, frequency-domain space-time block coded-joint transmit/receive diversity (FD-STBC-JTRD) is employed as SFN linearly distributed antenna diversity. It is confirmed by computer simulation that FD-STBC-JTRD is a powerful diversity to improve the transmission performance under a high mobility environment.

AB - Broadband data services are demanded even under high mobility environment, such as high-speed railway. In this paper, we consider single-carrier (SC) linearly distributed antenna network (DAN). The distributed antenna-mobile terminal (MT) link will be a line-of-sight link and therefore, fading can be characterized as the frequency-selective Nakagami-Rice fading. Distributed antenna diversity using single frequency network (SFN) can mitigate the impacts of path and shadowing losses as well as the frequency-selective fading. In this paper, frequency-domain space-time block coded-joint transmit/receive diversity (FD-STBC-JTRD) is employed as SFN linearly distributed antenna diversity. It is confirmed by computer simulation that FD-STBC-JTRD is a powerful diversity to improve the transmission performance under a high mobility environment.

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KW - transmit/receive diversity

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Linearly distributed antenna diversity using single frequency network for high-speed railway communications

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