Presentation 2018-03-01
[Technology Exhibit] Representation Method of Wireless Network Area Quality by Augmented Reality Technology
Kentaro Saito, Cheng Jiayue, Jun-ichi Takada,
PDF Download Page PDF download Page Link
Abstract(in Japanese) (See Japanese page)
Abstract(in English) Nowadays, wireless networks are utilized widely in many places of the society. And they will be used in more variety of scenes and by users in the future as the spreads of Wireless Local Area (WLAN) Network and Internet of Things (IoT) systems. In case of the service area planning of wireless networks, it is necessary to place base stations (BSs) densely to satisfy the user traffic demands while suppressing the unnecessary radio interferences. However, it is difficult for the users who are not familiar with the radio communication system because the radio characteristics change by the propagation condition such as the BS antenna placements and surrounding environments. In this paper, we propose the managing method of wireless network area planning instinctively by the augmented reality (AR) technology. In the proposal, the area quality is predicted by the raytracing simulation which is calculated based on the propagation condition inputted by the user. And then the service area and that quality information are displayed in the user camera view. By presenting the area quality with the physical view of user, the problems of the service area are grasped more clearly and instinctively. The system is expected to improve the service area planning.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Wireless network service area / Service area planning / Radio propagation / Raytracing / Augmented reality / Radio wave visualization
Paper # RCS2017-357,SR2017-123,SRW2017-77
Date of Issue 2018-02-21 (RCS, SR, SRW)

Conference Information
Committee RCS / SR / SRW
Conference Date 2018/2/28(3days)
Place (in Japanese) (See Japanese page)
Place (in English) YRP
Topics (in Japanese) (See Japanese page)
Topics (in English) Mobile Communication Workshop
Chair Hidekazu Murata(Kyoto Univ.) / Kenta Umebayashi(Tokyo Univ. of Agric. and Tech.) / Tadao Nakagawa(Tottori Univ.)
Vice Chair Yukitoshi Sanada(Keio Univ.) / Eisuke Fukuda(Fujitsu Labs.) / Satoshi Suyama(NTT DoCoMo) / Masayuki Ariyoshi(NEC) / Suguru Kameda(Tohoku Univ.) / Satoshi Denno(Okayama Univ.) / Makoto Hamaminato(Fujitsu labs.)
Secretary Yukitoshi Sanada(Toshiba) / Eisuke Fukuda(Hokkaido Univ.) / Satoshi Suyama(NICT) / Masayuki Ariyoshi(ATR) / Suguru Kameda(NICT) / Satoshi Denno(Kyoto Univ.) / Makoto Hamaminato
Assistant Tetsuya Yamamoto(Panasonic) / Koichi Ishihara(NTT) / Kazushi Muraoka(NEC) / Shinsuke Ibi(Osaka Univ.) / Hiroshi Nishimoto(Mitsubishi Electric) / Mamiko Inamori(Tokai Univ.) / Hiroyuki Shiba(NTT) / Gia Khanh Tran(Tokyo Inst. of Tech.) / Syusuke Narieda(NIT, Akashi College) / Kentaro Saito(Tokyo Inst. of Tech.) / Hiromasa Yamauchi(Fujitsu labs.)

Paper Information
Registration To Technical Committee on Radio Communication Systems / Technical Committee on Smart Radio / 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) [Technology Exhibit] Representation Method of Wireless Network Area Quality by Augmented Reality Technology
Sub Title (in English)
Keyword(1) Wireless network service area
Keyword(2) Service area planning
Keyword(3) Radio propagation
Keyword(4) Raytracing
Keyword(5) Augmented reality
Keyword(6) Radio wave visualization
1st Author's Name Kentaro Saito
1st Author's Affiliation Tokyo Institute of Technology(Titech)
2nd Author's Name Cheng Jiayue
2nd Author's Affiliation Tokyo Institute of Technology(Titech)
3rd Author's Name Jun-ichi Takada
3rd Author's Affiliation Tokyo Institute of Technology(Titech)
Date 2018-03-01
Paper # RCS2017-357,SR2017-123,SRW2017-77
Volume (vol) vol.117
Number (no) RCS-456,SR-457,SRW-458
Page pp.pp.223-223(RCS), pp.63-63(SR), pp.49-49(SRW),
#Pages 1
Date of Issue 2018-02-21 (RCS, SR, SRW)