Articles Information
American Journal of Educational Science, Vol.2, No.3, May 2016, Pub. Date: Oct. 19, 2016
Mechatronics Subsystems' Classification, Role, Selection Criteria and Synergistic Integration in Overall System Design
Pages: 16-28 Views: 4777 Downloads: 7860
Authors
[01]
Farhan A. Salem, Mechatronics Engineering Program, Department of Mechanical Engineering, College of Engineering, Taif University, Taif, Saudi Arabia; Alpha Center for Engineering Studies and Technology Researches, Amman, Jordan.
[02]
Ahmad A. Mahfouz, Department of Automatic and Mechatronics Systems, Vladimir State University, Vladimir, Russian Federation; Alpha Center for Engineering Studies and Technology Researches, Amman, Jordan.
Abstract
This paper summarizes, Mechatronics system design education oriented methodology, and focuses on role, classification and selection criteria of each subsystem, and it's integration in overall system design, the main design terminologies and concepts are introduced, discussed and integrated with overall design. The paper is intended to support engineering educators and help non experienced student or group of students to integrate multidisciplinary knowledge and skills, in various stages, in solving Mechatronics design integrated tasks.
Keywords
Mechatronics Design Education, Interdisciplinary, Concurrency, Selection, Synergy Integration
References
[01]
Farhan A. Salem, Ahmad A. Mahfouz Mechatronics Design and Implementation Education-Oriented Methodology; A Proposed Approach, Journal of Multidisciplinary Engineering Science and Technology Volume. 1, Issue. 03, October – 2014.
[02]
Farhan A. Salem Ahmad A. Mahfouz’’ A Proposed Approach to Mechatronics Design and Implementation Education-Oriented Methodology 'Innovative Systems Design and Engineering, Vol. 4, No. 10, pp 12-29, 2013.
[03]
Vasilije S. Vasić (2008), Mihailo P. Lazarević, Standard Industrial Guideline for Mechatronic Product Design, FME Transactions, 104, vol. 36, No 3,.
[04]
Richard C. Dorf, Robert H. Bishop Modern Control Systems, Prentice Hall, 2011.
[05]
Rolf Isermann (1996), Modeling and Design Methodology for Mechatronics Systems, IEE/SME transaction on Mechatronics, VOL. 1, No 1.
[06]
De Silva, Clarence W. (2008), Mechatronics: An Integrated Approach, CRC Press, 2005
[07]
A. Saleema (2011), T. Tutunji and L. Al-Sharif, Mechatronic system design course for undergraduate programmes, European Journal of Engineering Education, Vol. 36, No. 4, August 2011, 341–356.
[08]
John Billingsley (2008), ''Essentials of Mechatronics'', John Wiley & Sons, 2006. Kenway Chen, Jitesh Panchal, Dirk Schaefer, an integrated approach to design mechatronics systems: cross-disciplinary constraint modeling'', ASME International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, IDETC/CIE 2008, New York City.
[09]
K. Craig, F. Stolfi (2002), “Teaching control system design through Mechatronics: academic and industrial perspectives.” Mechatronics, Vol 12, No. 2, pp. 371-381.
[10]
D'AzzoJohn Joachim, Houpis, Constantine H, “Linear control system analysis and design: conventional and modern“, 1988).
[11]
Hedaya Alasooly, ''Control of DC motor using different control strategies'' global journal of technology and optimization, 2011.
[12]
Farhan A. Salem, Controllers and Control Algorithms: Selection and Time Domain Design Techniques Applied in Mechatronics Systems Design (Review and Research) Part I, International Journal of Engineering Sciences, 2 (5) May 2013, Pages: 160-190
[13]
Farhan A. Salem, PID Controllers and Algorithms: Selection and Design Techniques Applied in Mechatronics Systems Design - Part II, International Journal of Engineering Sciences, 2 (5) May 2013, Pages: 191-203.
[14]
Robert H. Bishop, The Mechatronics handbook, II edition, Mechatronics systems sensors, and actuators, fundamentals and modeling, CRC press, 2008.
[15]
Microcontroller interfacing circuits, Section 3, Revolution Education Ltd. Web: www.picaxe.co.uk Version 4.4 12/2010.