Curriculum Vitaes
Profile Information
- Affiliation
- Professor (Chair for Department of Engineering and Applied Sciences), Faculty of Science and Technology, Department of Engineering and Applied Sciences, Sophia University(Concurrent)Chairperson of the Department of Engineering and Applied Science
- Degree
- Bachelor of Engineering(Mar, 1994, The University of Tokyo)Master of Engineering(Mar, 1996, The University of Tokyo)PhD(Mar, 1999, The University of Tokyo)
- Researcher number
- 30318216
- ORCID ID
https://orcid.org/0000-0002-0565-1836- J-GLOBAL ID
- 200901095855001879
- Researcher ID
- R-5307-2019
- researchmap Member ID
- 1000256243
- External link
We are developing the optimal design of social infrastructure to transport energy, passenger and goods by means of electrical engineering. For more detailed information, please visit Transportation Electrification & Smartification lab (TESlab) Website or some other databases;
[ResearchGate] [GoogleScholar Citations] [Scopus]
(Subject of research)
- Energy-saving operation for transportaton systems, especially electric railways
- Operation Control in Public Transport
- Maximum Power Point Tracker of Power Conditioners for Photovoltaic and Wind Turbine generators
- Control of Distributed Power Generation System by Using Hybrid Renewable Energy Source
(Proposed theme of joint or funded research)
- Comprehensive Studies on Energy Management of Transportation and Logistic Systems for Energy Saving and Load Leveling
- Trackig Control for Energy Efficient Machines
(Other Website)
Major Research Interests
13Major Research Areas
5Major Research History
8Major Education
3-
Apr, 1994 - Mar, 1996
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Apr, 1990 - Mar, 1994
Major Committee Memberships
11-
Apr, 2015 - Present
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Apr, 2021 - Oct, 2024
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Sep, 2021 - Mar, 2023
Major Awards
10Major Papers
140-
IEEJ Transactions on Industry Applications, 143(9) 602-610, Sep 1, 2023 Peer-reviewedLast authorCorresponding authorThe energy consumption of a battery-powered train in an interstation depends on the running time and state of energy (SOE) at departure. In this paper, we develop an optimization method of train timetables to minimize energy consumption in line with several stations. The variables in this proposed optimization model are running, dwell, and charging times as real numbers and places of charging facilities as binaries. Additionally, we conduct a case study using the real-world light rail transit (LRT) route, vehicle, and onboard battery model to confirm the effectiveness. In the case study, the proposed method can optimize the timetable and placement of charging facilities by considering the track gradient and battery SOE.
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Mechanical Engineering Journal, 10(3) 22-00360, Jun, 2023 Peer-reviewedCorresponding authorThe timetable of urban rail greatly affects its daily energy consumption. To improve the utilization of renewable energy between trains using timetabling has become an effective way to reduce energy consumption. Previous studies ignore or simplify the modelling of traction power supply network, which failed to accurately describe the flow of energy between trains through the power network. This paper proposed an optimisation method of energy efficiency timetabling considering the power flow of traction power supply network. First, an urban rail transit DC traction network model is established, and the current-vector iterative method is used to characterize the energy consumption. Then, a train timetable optimisation model is proposed to minimize the total energy consumption of the traction network system by adjusting the dwell time and section running time. The genetic algorithm is used to solve the optimisation problem. Finally, simulation result shows that the proposed method can accurately characterize the energy flow and effectively reduce the total energy consumption of the urban rail transit.
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IEEJ Journal of Industry Applications, 8(4) 586-591, Jul 1, 2019 Peer-reviewedLast authorCorresponding author
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IEEE Transactions on Sustainable Energy, 9(1) 74-85, Jan 1, 2018 Peer-reviewed
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IEEJ Transactions on Industry Applications, 138(4) 282-290, 2018 Peer-reviewedLast author
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IEEE TRANSACTIONS ON AEROSPACE AND ELECTRONIC SYSTEMS, 47(1) 367-380, Jan, 2011 Peer-reviewedLead authorCorresponding author
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IEEJ Transactions on Industry Applications, 131(6) 860-861, 2011 Peer-reviewedLead author
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IEEJ TRANSACTIONS ON ELECTRICAL AND ELECTRONIC ENGINEERING, 5(3) 263-269, May, 2010 Peer-reviewedLead author
Misc.
55-
DENKIKEISAN, 91(9) 2-7, Sep, 2023 InvitedLead authorCorresponding author
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電気学会研究会資料. TER = The papers of Technical Meeting on "Transportation and Electric Railway", IEE Japan / 交通・電気鉄道研究会 [編], 2023(1-20) 29-34, Jan 26, 2023
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電気学会研究会資料(Web), (TER-23-001-020/LD-23-001-020), 2023
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Energy Review, 41(3) 19-22, Feb 20, 2021 InvitedLead authorCorresponding author
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The Journal of the Institute of Electrical Engineers of JapanThe Journal of The Institute of Electrical Engineers of Japan, 135(10) 676-679, 2015 Invited
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鉄道と電気技術, 24(10) 52-55, Sep 30, 2013 InvitedLead authorCorresponding author
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2013(42) 51-54, Sep 2, 2013
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Jointed railway technology symposium, 2012(19) 631-634, Dec 4, 2012In this paper, a method on train scheduling to minimize trip time of passengers under restricted electrical energy use of multi arteries is investigated. It enables us to determine not only running time for each interstation and the number of trains but also the amount of energy distributed to every artery.
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2012(39) 23-26, Sep 3, 2012
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2011(33) 53-58, Nov 14, 2011
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J-RAIL2011, 18(1) 585-588, 2011
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The Papers of Technical Meeting on Vehicle Technology, IEE Japan, 2009(10) 21-26, Jan 26, 2009
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Jointed railway technology symposium, 2006(13) 309-312, Dec 13, 2006It is investigated how to minimize energy consumption of electric trains by controlling acceleration/deceleration in this paper. Optimal running trajectory of trains which minimizes amount of total energy consumption has been produced under fixed origin and destination, stipulated running time. Our proposed methods can handle many actual complicated conditions such as motive/brake torque with complicated characteristics, speed constraints, grades, power feeding systems, interaction of power among trains and energy storage devices. In this paper, our optimization models and their results are summarized. Qualitative analyses for evaluating influence of power feeding circuits and effect of energy storage devices are also shown.
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2006(83) 21-26, Nov 21, 2006
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2005(28) 31-36, Jul 21, 2005
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2002(77) 5-8, Dec 3, 2002
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1999(55) 39-44, Sep 28, 1999
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1999(55) 69-74, Sep 28, 1999
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1999(41) 17-22, Jul 29, 1999
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1999(11) 1-6, Mar 12, 1999
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Japan Railway Engineers' Association (JREA), 41(11) 25789-25793, Nov, 1998
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電気学会産業応用部門大会講演論文集, 1998(1), 1998
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1997(17) 7-12, Aug 21, 1997
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電気学会産業応用部門大会講演論文集, 1997(3), 1997
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1995(45) 67-76, Dec 12, 1995
Major Books and Other Publications
10
Presentations
167-
令和6年度 鉄道電気セミナー, Sep, 2024, 日本鉄道電気技術協会 Invited低炭素化の有効策として、大掛かりな機器更新等を必要とせず、低コストで即効性が高い方策、具体的には、運転方法と列車ダイヤの工夫による省エネを取り上げる。しかし、それには分野横断的なアプローチが必要であり、普段の分野毎の実務に取り入れるのは容易ではない。本講演ではまず、運転やダイヤの工夫による省エネ化について説明し、実装例についても少々紹介した後、実務への適用可能性について議論を深めたい。
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1st Japan-China Symposium on Railway Technology, Aug 8, 2024, Nihon University
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2nd IITD-Sophia Workshop on Transportation Science and Technology-Part B Sustainable Urban Transportation, Jul 3, 2024, Sophia University and IIT Delhi
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IIT Delhi & IEEE VTS Delhi Chapter, Apr 5, 2024, IEEE VTS Delhi Chapter Invited
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1st Sophia University - IITD Workshop on Transportation Science and Technology, Apr 4, 2024, Sophia University and IIT Delhi
Major Teaching Experience
18-
Sep, 2024 - PresentFundamentals of Control Engineering (Sophia University)
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Apr, 2018 - PresentPower Electroincs (Sophia University)
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Oct, 2016 - PresentElectrical Power Generation and Transformation (Chiba University)
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2015 - PresentMotor Drive Systems (Sophia University)
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2014 - PresentElectrical Energy Management and Control (Sophia University)
Major Professional Memberships
4-
Apr, 2000 - Present
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Mar, 1994 - Present
Major Research Projects
16-
KAKENHI, JSPS, Apr, 2023 - Mar, 2026
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Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (C), Japan Society for the Promotion of Science, Apr, 2019 - Mar, 2022
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Japan Science and Technology Agency, Jan, 2014 - Dec, 2015