Presentation 2023-01-19
A Study on Radio Propagation simulation method by Quantum annealer.
Keita Fujita, Tetsuro imai, Wataru Yamada, Minoru Inomata, Nobuaki Kuno,
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Abstract(in Japanese) (See Japanese page)
Abstract(in English) Ray tracing methods for radio propagation analysis require a large amount of computation time due to the increase in the number of calculations. Here, "Modeling for Radio Propagation Analysis by Quantum Computing" is proposed as a method for ultra-fast computation. In this analysis method, path distance consists of the objective function and constraint conditions. And the strength of the objective function and each constraint is adjusted by the weight coefficients. So, sometimes we can't get correct solution by wrong weight coefficients. In this paper, we evaluated weight coefficients to effect radio propagation simulation.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Radio propagation analysis / QUBO model / Quantum Computing / Quantum annealing
Paper # AP2022-181
Date of Issue 2023-01-12 (AP)

Conference Information
Committee AP / WPT
Conference Date 2023/1/19(2days)
Place (in Japanese) (See Japanese page)
Place (in English) Hiroshima Institute of Technology
Topics (in Japanese) (See Japanese page)
Topics (in English) Radio propagation, Wireless transmission technology, Antennas and Propagation
Chair Hiroshi Yamada(Niigata Univ.) / Kenjiro Nishikaa(Kagoshima Univ.)
Vice Chair Mitoshi Fujimoto(Fukui Univ) / Hiroshi Hirayama(Nagoya Inst. of Tech.)
Secretary Mitoshi Fujimoto(National Defense Academy) / Hiroshi Hirayama(Mitsubishi Electric)
Assistant Tomoki Murakami(NTT) / Asako Suzuki(Fujiwaves) / Yuki Tanaka(Panasonic)

Paper Information
Registration To Technical Committee on Antennas and Propagation / Technical Committee on Wireless Power Transfer
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) A Study on Radio Propagation simulation method by Quantum annealer.
Sub Title (in English)
Keyword(1) Radio propagation analysis
Keyword(2) QUBO model
Keyword(3) Quantum Computing
Keyword(4) Quantum annealing
1st Author's Name Keita Fujita
1st Author's Affiliation Tokyo Denki University(TDU)
2nd Author's Name Tetsuro imai
2nd Author's Affiliation Tokyo Denki University(TDU)
3rd Author's Name Wataru Yamada
3rd Author's Affiliation Nippon Telegraph and Telephone Corporation(NTT)
4th Author's Name Minoru Inomata
4th Author's Affiliation Nippon Telegraph and Telephone Corporation(NTT)
5th Author's Name Nobuaki Kuno
5th Author's Affiliation Nippon Telegraph and Telephone Corporation(NTT)
Date 2023-01-19
Paper # AP2022-181
Volume (vol) vol.122
Number (no) AP-339
Page pp.pp.24-29(AP),
#Pages 6
Date of Issue 2023-01-12 (AP)