Title :
Linearly distributed antenna diversity using single frequency network for high-speed railway communications
Author :
Susanto, Jimmy Hadi ; Miyazaki, H. ; Temma, Katsuhiro ; Yamamoto, Takayuki ; Obara, T. ; Adachi, Fumiyuki
Author_Institution :
Dept. of Commun. Eng., Tohoku Univ., Sendai, Japan
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 :
Nakagami channels; diversity reception; linear antennas; radio transceivers; railway communication; space-time block codes; broadband data services; distributed antenna mobile terminal link; frequency domain space time block coded joint transmit receive diversity; frequency selective Nakagami Rice fading; high speed railway communications; linearly distributed antenna diversity; linearly distributed antenna network; single frequency network; Antenna arrays; Fading; Frequency-domain analysis; Spatial diversity; Throughput; Transmitting antennas; Distributed antennas; Nakagami-Rice fading; single frequency network; transmit/receive diversity;
Conference_Titel :
Communications (APCC), 2013 19th Asia-Pacific Conference on
Conference_Location :
Denpasar
Print_ISBN :
978-1-4673-6048-7
DOI :
10.1109/APCC.2013.6765960
