Multipurpose design optimization of EMS-type magnetically levitated vehicle based on genetic algorithm

A type of the magnetically levitated railway system with the electromagnetic suspension system (EMS), which is named HSST system, will be put into revenue service as an urban transport in Nagoya, Japan at the beginning of April 2005. To extend its operational velocity higher than 200 km/h for applic...

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Published in:IEEE transactions on applied superconductivity 2004-06, Vol.14 (2), p.1922-1925
Main Authors: Kusagawa, S., Baba, J., Shutoh, K., Masada, E.
Format: Article
Language:English
Subjects:
Algorithm design and analysis
Applied sciences
Cities and towns
Comfort
Costs
Design engineering
Design optimization
EMS
Energy consumption
Exact sciences and technology
Genetic algorithms
High speed
Magnetic levitation
Magnetic levitation vehicles
Medical services
Modules
Pollution
Rail transportation
Railway engineering
Soil and sediments pollution
Studies
Vehicles
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cited_by cdi_FETCH-LOGICAL-c350t-af59880f37755750783b654070c970cba75c5703cb021c71d3fdf60d44e6f8143
cites cdi_FETCH-LOGICAL-c350t-af59880f37755750783b654070c970cba75c5703cb021c71d3fdf60d44e6f8143
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container_issue 2
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container_title IEEE transactions on applied superconductivity
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creator Kusagawa, S.
Baba, J.
Shutoh, K.
Masada, E.
description A type of the magnetically levitated railway system with the electromagnetic suspension system (EMS), which is named HSST system, will be put into revenue service as an urban transport in Nagoya, Japan at the beginning of April 2005. To extend its operational velocity higher than 200 km/h for applications in other cities, the design of its EMS system is reexamined for improvement of riding comfort and reduction of total costs. In order to achieve these objectives, the multipurpose optimization on the basis of the genetic algorithm is applied for the design of EMS-type magnetically levitated vehicle, regarding riding comfort in high speed operation, controlled performance of EMS modules on gap length (maintainability of guideways), vehicle weight and energy consumption etc. The design is verified with the dynamic simulation of the vehicle in high-speed. Far better coordination is obtained between the EMS module design and the vehicle performances. The optimization scheme with the genetic algorithm is shown to be useful for the critical design problem as the high-speed maglev railways.
doi_str_mv 10.1109/TASC.2004.830933
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source IEEE Xplore (Online service)
subjects Algorithm design and analysis
Applied sciences
Cities and towns
Comfort
Costs
Design engineering
Design optimization
EMS
Energy consumption
Exact sciences and technology
Genetic algorithms
High speed
Magnetic levitation
Magnetic levitation vehicles
Medical services
Modules
Pollution
Rail transportation
Railway engineering
Soil and sediments pollution
Studies
Vehicles
title Multipurpose design optimization of EMS-type magnetically levitated vehicle based on genetic algorithm
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