Presentation 2018-06-22
BER Performance of OFDM-based 1024/4096-QAM in Multipath Fading Conditions
Ruxiao Tian, Hiroyuki Otsuka,
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Abstract(in Japanese) (See Japanese page)
Abstract(in English) Higher-order modulation is promising technique of 5th-generation mobile systems to increase data rate within a limited bandwidth. In this paper, we propose orthogonal frequency division multiplexing (OFDM)-based 1024/4096-QAM transmission, and demonstrate the BER performance in multipath fading propagation conditions by link-level simulation, as well as under static propagation condition. Using these results, we validate the application of OFDM-based 1024/4096-QAM to mobile communication systems.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Higher-order modulation / 1024/4096-QAM / OFDM / Multipath fading
Paper # RCS2018-67
Date of Issue 2018-06-13 (RCS)

Conference Information
Committee RCS
Conference Date 2018/6/20(3days)
Place (in Japanese) (See Japanese page)
Place (in English) Nagasaki University
Topics (in Japanese) (See Japanese page)
Topics (in English) First Presentation in IEICE Technical Committee, Railroad Communications, Inter-Vehicle Communications, Road to Vehicle Communications, Resource Control, Scheduling, Wireless Communication Systems, etc.
Chair Tomoaki Otsuki(Keio Univ.)
Vice Chair Eisuke Fukuda(Fujitsu Labs.) / Satoshi Suyama(NTT DoCoMo) / Fumiaki Maehara(Waseda Univ.)
Secretary Eisuke Fukuda(Hokkaido Univ.) / Satoshi Suyama(NTT) / Fumiaki Maehara
Assistant Kazushi Muraoka(NTT DOCOMO) / Shinsuke Ibi(Osaka Univ.) / Hiroshi Nishimoto(Mitsubishi Electric) / Koichi Adachi(Univ. of Electro-Comm.) / Osamu Nakamura(Sharp)

Paper Information
Registration To Technical Committee on Radio Communication Systems
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) BER Performance of OFDM-based 1024/4096-QAM in Multipath Fading Conditions
Sub Title (in English)
Keyword(1) Higher-order modulation
Keyword(2) 1024/4096-QAM
Keyword(3) OFDM
Keyword(4) Multipath fading
1st Author's Name Ruxiao Tian
1st Author's Affiliation Kogakuin University(Kogakuin Univ.)
2nd Author's Name Hiroyuki Otsuka
2nd Author's Affiliation Kogakuin University(Kogakuin Univ.)
Date 2018-06-22
Paper # RCS2018-67
Volume (vol) vol.118
Number (no) RCS-101
Page pp.pp.191-194(RCS),
#Pages 4
Date of Issue 2018-06-13 (RCS)