Presentation 2016-12-19
A Study of Wireless LAN Entrance System for Multiple High-speed Vehicles
Weixiang Gao, Shuji Kubota,
PDF Download Page PDF download Page Link
Abstract(in Japanese) (See Japanese page)
Abstract(in English) Traffic offloading over wireless LAN systems has been proposed as one of the solutions to the problem of traffic proliferation in the mobile communications. This study is made to propose an entrance system based on the IEEE802.11ac standard for wireless LAN services in a high speed train. The influence of Doppler frequency spread in high-speed mobile environments can be decreased by employing MIMO/STBC, thus the proposed method is able to increase the transmission rate and extending the communication range. The system performance is evaluated in the multiple high-speed vehicles environment. With the switching between MIMO and STBC, the improvement of communication capacity can be confirmed by the simulation.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) STBC / MIMO / Multiple High-speed Vehicles Environment / Wireless LAN
Paper # SRW2016-57
Date of Issue 2016-12-12 (SRW)

Conference Information
Committee SRW
Conference Date 2016/12/19(1days)
Place (in Japanese) (See Japanese page)
Place (in English) Tokyo City Univ., Setagaya Campus
Topics (in Japanese) (See Japanese page)
Topics (in English) WLAN, WPAN, Sensor Networks, etc.
Chair Hiroshi Harada(Kyoto Univ.)
Vice Chair Masafumi Kato(Fujitsu) / Satoshi Denno(Okayama Univ.)
Secretary Masafumi Kato(Tottori Univ.) / Satoshi Denno(NICT)
Assistant Wen Yun(Fujitsu) / Keiichi Mizutani(Kyoto Univ.)

Paper Information
Registration To Technical Committee on Short Range Wireless Communications
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) A Study of Wireless LAN Entrance System for Multiple High-speed Vehicles
Sub Title (in English)
Keyword(1) STBC
Keyword(2) MIMO
Keyword(3) Multiple High-speed Vehicles Environment
Keyword(4) Wireless LAN
1st Author's Name Weixiang Gao
1st Author's Affiliation Shibaura Institute of Technology(SIT)
2nd Author's Name Shuji Kubota
2nd Author's Affiliation Shibaura Institute of Technology(SIT)
Date 2016-12-19
Paper # SRW2016-57
Volume (vol) vol.116
Number (no) SRW-374
Page pp.pp.1-6(SRW),
#Pages 6
Date of Issue 2016-12-12 (SRW)