Curriculum Vitaes
Profile Information
- Affiliation
- 客員研究員 (名誉教授), 理工学部, 成蹊大学
- Degree
- Dr. Eng.(Nihon University)Master of Engineering(Waseda University)
- J-GLOBAL ID
- 200901017625138025
- researchmap Member ID
- 1000091707
- External link
Research Interests
4Research Areas
3Research History
6-
Apr, 2019 - Present
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Apr, 2016 - Mar, 2018
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Apr, 1978 - Mar, 2018
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Sep, 2007 - Mar, 2014
Committee Memberships
10-
- Present
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- Present
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Oct, 2020 - Mar, 2021
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Aug, 2017 - Mar, 2018
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Jul, 2017 - Mar, 2018
Awards
4-
Jun, 2012
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2003
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1997
Papers
24-
Japanese Journal of Vision Rehabilitation, 5(2) 43-52, Mar, 2016 Peer-reviewed
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Transactions of the Operations Research Society of Japan, 54 1-22, Dec, 2011 Peer-reviewedA railway fare for a specific path is usually determined by the distance, i.e. the longer the distance, the higher the fare. The fare rate, however, is sometimes different by area even within the same railway company. In addition, many of companies have additional rules to be used in the fare calculation, e.g. discounts for specific paths. In order to calculate the fare between a given pair of stations, we have to find the minimum cost path, but the shortest path (in the physical sense) is not always the minimum cost path for the reasons mentioned above. In the past, most of the efforts have been focused on an enumeration of feasible paths between a pair of stations and a comparison of their resulting fares in order to choose the minimum fare for the pair. This approach has inevitably led to a problem of a very large computational time. In this paper, we propose a much more efficient algorithm which basically uses the Dijkstra's algorithm with a modification which reflects the existence of a set of subnetworks which have their own fare rates. Our algorithm dramatically reduces the computational time, because the algorithm need not enumerate a large number of paths for every pair of stations.
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労働科学, 86(4) 209-219, Aug, 2010 Peer-reviewed
Misc.
57-
Transactions of the Operations Research Society of Japan, 51 1-24, 2008When calculating the fare between a given pair of stations, the minimum cost path from among the many feasible paths between the stations must be determined. The railway fare for a specific path is usually calculated by distance, i.e. the longer the distance, the higher the fare. The fare rate, however, differs between railway companies and there are additional rules to be used in the fare calculation, e.g. discounts for specific paths. Therefore, the shortest-distance path is not always the minimum cost path. Most previous research efforts have focused on the enumeration of feasible paths between a pair of stations and a comparison of their resulting fares in order to choose the minimum fare for the pair. Using this approach, computational time is inevitably long. In this paper, we propose some network representations for the fare calculation of a railway network and use an efficient algorithm based on Dijkstra's algorithm to calculate fares between all pairs of 1638 stations in the area where IC-ticket (Suica/Pasmo) is usable. Our algorithm reduces the computational time because the algorithm need not enumerate a large number of paths for every pair of stations.
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2006(16) 325-326, Nov 14, 2006We propose an algorithm to find the lowest-fare path between two specified stations in the JR-EAST area where the IC-card ticket will be available in 2007. The lowest-fare path is sometimes different from the shortest path, because JR-EAST has many exceptional calculation rules in addition to the four calculation-tables used for the three specified areas and two kinds of lines, i.e. the main line and local line. Our algorithm solves at most only four shortest path problems for the fare between two specified stations, although it can deal with the complex situation mentioned above. Therefore the algorithm can calculate fares between all pairs of stations not only very quickly but also exactly.
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2006(16) 315-316, Nov 14, 2006We discuss the network representation method for calculating railway fares. The railway system has a typical network structure consisting of stations as nodes and railbeds as arcs. When we, however, try to represent junctions on the network, we encounter some problems. For example, there are several complex junctions that cannot be represented by integrating nodes associated with the junction or introducing dummy arcs with a distance of zero for a connection node on foot. We show an idea for network representation in order to apply algorithms to the shortest path problem, which is the basis for calculating railway fares. Our surrogate network finds the shortest path between two specified stations exactly.
Books and Other Publications
6Presentations
24-
15th InternationalMobility Conference, Jun, 2015
Teaching Experience
3-
福祉住環境論 (武蔵野大学)
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コンピュータプログラミング (成蹊大学)
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人間工学 (成蹊大学,東京農業大学)
Works
5Research Projects
22-
科学研究費助成事業, 日本学術振興会, Apr, 2018 - Mar, 2023
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私立大学研究ブランディング事業, 文部科学省, Oct, 2017 - Mar, 2022
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2014 - Mar, 2018
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2013 - Mar, 2017
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Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2012 - Mar, 2015
Social Activities
2
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