Open Access
Subscription Access
Open Access
Subscription Access
Integrated Course projects in Automotive Electronics and RTOS
Subscribe/Renew Journal
It is seen that the number of Electronic Control Units (ECUs) in the automotive has grown significantly in recent years. In today's luxury cars, up to 2500 signals are exchanged by up to 70-80 ECUs. The number communication channels implement required realize such systems is about n2, here n is the number of ECUs in the automobile. This complexity requires the use of communication networks between them and to manage the functionality of these ECUs the Real-Time Operating Systems (RTOS) is used. This real world scenario has motivated us to give the hands on experience to students by introducing integrated course projects, which includes the use of Real-Time Operating Systems (RTOS) in automotive embedded systems. This activity also involves creating an industry like environment for execution of the project. Deployment of more advanced control strategies and integration of sub modules were the major technical outcomes of the activity.
For executing this activity, the problem statement given was divided into sub-problems and each sub problem is converted to sub module/ECU depicting the industry scenario. The concepts of automotive embedded systems were used during sub module development and during integration the concepts of RTOS were used. The activity provided the method and tool to facilitate the integration of different electronic subsystems coming from various suppliers.
The activity created the feel of real world industry environment amongst the students and enabled to achieve various technical and professional outcomes of ABET. The processes of achieving these outcomes are discussed.
Keywords
- Lehtovuori, A.;Honkala, M. ;Kettunen,H. ; Leppavirta, Interactive Engagement Methods In Teaching Electrical Engineering Basic Courses. Global Engineering Education Conference (Educon), 2013 IEEE Digital Object Identifier: 10.1109/Educon.2013.6530089 Publication Year: 2013, Page(S): 75 – 84
- An Innovative Method of Teaching Digital System Design in an Undergraduate Electrical and Computer Engineering Curriculum O. B. Adamo, Student Member, IEEE, P. Guturu, Senior Member, IEEE and M. R. Varanasi, Life Fellow, IEEE Department of Electrical Engineering University of North Texas, Denton, TX 76207, USA
- P. C. Nissimagoudar, V.R.Mane, Kiran M. R, Ramakrishna Joshi, B. L. Desai, Nalini C Iyer, Uma M., A.B Raju, C.D. kerure, “Automotive Electronics: Learning Through Real-World Problem-Based Case Studies”, Proceedings of the International Conference on Transformations in Engineering Education,ICTIEE 2014,Springer Publication.
- P. C. Nissimagoudar, V.R.Mane, Kiran M. R, Ramakrishna Joshi, B.L. Desai,Nalini C Iyer, Uma M., A.B.Raju, Anisha J., “A Virtual Industry Platform for Course Project In Automotive Electronics: A Case Study”, Journal of Engineering Education Transformations, Volume 28, No2 & 3, Oct 2015 & Jan 2015, ISSN 2349-2473
- P. C. Nissimagoudar, V.R.Mane, Kiran M. R, Ramakrishna Joshi, B. L. Desai, Nalini C Iyer, Uma M., A.B. Raju, Anisha J , An Effective Industry Institute Engagement for Curriculum Design and Delivery: A Success Story, Journal of Engineering Education Transformations, Volume 28, No2 & 3, Oct 2015&Jan; 2015, ISSN2349-2473
- http://www.abet.org/special-reports/
- Motoei Azuma, François Coallier, Juan Garbajosa, 'How to Apply the Bloom Taxonomy to Software Engineering', Proceedings of the Eleventh Annual International Workshop on Software Technology and Engineering Practice, 2004
- “Computers as components-Principles of Embedded Computing design”, Wayne Wolf, Second edition, 2010, Elsevier Publications
Abstract Views: 244
PDF Views: 0