System design and control development for an air/electric hybrid scooter

Chien Hsun Wu; Jheng Hong Tian; Yi Hsuan Hung; Syuan Yi Chen

doi:10.1109/ICASI.2016.7539881

System design and control development for an air/electric hybrid scooter

Chien Hsun Wu, Jheng Hong Tian, Yi Hsuan Hung, Syuan Yi Chen

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper aimed at developed a power source with the combinaiton of an air motor and a servo motor. The test bench was used to measure the performance curvers and characteristics. The Matlab/Simulink software package was to establish the simulator of the air/electric hybrid powertrain while to analyze the vehicle performance. This research studied the air motor module, the servo motor module, the lithium battery module, the transmission, the energy management strategy, and the driving patterns. The rule-based control strategy was developed; the parameter calibration and rule modification were conducted. The results of simulation and data from the real test were consistent, which indicated that this simulation platform and this approach of performance verification reduces the development period and the cost of trial-and-error experments.

Original language	English
Title of host publication	2016 International Conference on Applied System Innovation, IEEE ICASI 2016
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781467398886
DOIs	https://doi.org/10.1109/ICASI.2016.7539881
Publication status	Published - 2016 Aug 10
Event	2016 International Conference on Applied System Innovation, IEEE ICASI 2016 - Ginowan City Okinawa, Japan Duration: 2016 May 28 → 2016 Jun 1

Publication series

Name	2016 International Conference on Applied System Innovation, IEEE ICASI 2016

Other

Other	2016 International Conference on Applied System Innovation, IEEE ICASI 2016
Country/Territory	Japan
City	Ginowan City Okinawa
Period	2016/05/28 → 2016/06/01

Keywords

Air Motor
Control Strategy
Hybrid
Modeling

ASJC Scopus subject areas

Computer Networks and Communications
Computer Science Applications
Control and Systems Engineering
Social Sciences (miscellaneous)
Business, Management and Accounting (miscellaneous)
Electrical and Electronic Engineering
Control and Optimization

Access to Document

10.1109/ICASI.2016.7539881

Cite this

Wu, C. H., Tian, J. H., Hung, Y. H., & Chen, S. Y. (2016). System design and control development for an air/electric hybrid scooter. In 2016 International Conference on Applied System Innovation, IEEE ICASI 2016 Article 7539881 (2016 International Conference on Applied System Innovation, IEEE ICASI 2016). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICASI.2016.7539881

System design and control development for an air/electric hybrid scooter. / Wu, Chien Hsun; Tian, Jheng Hong; Hung, Yi Hsuan et al.
2016 International Conference on Applied System Innovation, IEEE ICASI 2016. Institute of Electrical and Electronics Engineers Inc., 2016. 7539881 (2016 International Conference on Applied System Innovation, IEEE ICASI 2016).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Wu, CH, Tian, JH, Hung, YH & Chen, SY 2016, System design and control development for an air/electric hybrid scooter. in 2016 International Conference on Applied System Innovation, IEEE ICASI 2016., 7539881, 2016 International Conference on Applied System Innovation, IEEE ICASI 2016, Institute of Electrical and Electronics Engineers Inc., 2016 International Conference on Applied System Innovation, IEEE ICASI 2016, Ginowan City Okinawa, Japan, 2016/05/28. https://doi.org/10.1109/ICASI.2016.7539881

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abstract = "This paper aimed at developed a power source with the combinaiton of an air motor and a servo motor. The test bench was used to measure the performance curvers and characteristics. The Matlab/Simulink software package was to establish the simulator of the air/electric hybrid powertrain while to analyze the vehicle performance. This research studied the air motor module, the servo motor module, the lithium battery module, the transmission, the energy management strategy, and the driving patterns. The rule-based control strategy was developed; the parameter calibration and rule modification were conducted. The results of simulation and data from the real test were consistent, which indicated that this simulation platform and this approach of performance verification reduces the development period and the cost of trial-and-error experments.",

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N2 - This paper aimed at developed a power source with the combinaiton of an air motor and a servo motor. The test bench was used to measure the performance curvers and characteristics. The Matlab/Simulink software package was to establish the simulator of the air/electric hybrid powertrain while to analyze the vehicle performance. This research studied the air motor module, the servo motor module, the lithium battery module, the transmission, the energy management strategy, and the driving patterns. The rule-based control strategy was developed; the parameter calibration and rule modification were conducted. The results of simulation and data from the real test were consistent, which indicated that this simulation platform and this approach of performance verification reduces the development period and the cost of trial-and-error experments.

AB - This paper aimed at developed a power source with the combinaiton of an air motor and a servo motor. The test bench was used to measure the performance curvers and characteristics. The Matlab/Simulink software package was to establish the simulator of the air/electric hybrid powertrain while to analyze the vehicle performance. This research studied the air motor module, the servo motor module, the lithium battery module, the transmission, the energy management strategy, and the driving patterns. The rule-based control strategy was developed; the parameter calibration and rule modification were conducted. The results of simulation and data from the real test were consistent, which indicated that this simulation platform and this approach of performance verification reduces the development period and the cost of trial-and-error experments.

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KW - Control Strategy

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System design and control development for an air/electric hybrid scooter

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Keywords

ASJC Scopus subject areas

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