Title :
Web-based virtual engineering laboratory (VE-LAB) for collaborative experimentation on a hybrid electric vehicle starter/alternator
Author :
Sepe, Raymond B., Jr. ; Short, Nathan
Author_Institution :
Electro Standards Labs., Cransson, RI, USA
Abstract :
With the increasing complexity and cross-disciplinary nature of technical research, there is a growing need for interactive, collaborative experimentation unlimited by physical location. This paper describes the development and implementation of a novel, virtual engineering laboratory (VE-LAB) that uses the World Wide Web for real-time interactive control of a motor experimentation platform. Using a standard Web browser, VE-LAB allows a hybrid electric vehicle starter/alternator to be remotely and interactively operated in real time by research scientists across the globe. VE-LAB technology has applications to distance learning, distributed remote diagnostics, monitoring and control systems. Experimental results feature remote Web-based starter/alternator efficiency mapping from across the country
Keywords :
Internet; alternators; distance learning; electric vehicles; information resources; laboratories; starting; student experiments; Web browser; Web-based virtual engineering laboratory; World Wide Web; collaborative experimentation; control systems; distance learning; distributed remote diagnostics; hybrid electric vehicle starter/alternator; monitoring; real-time interactive control; Alternators; Automotive engineering; Control systems; Fuzzy logic; Hybrid electric vehicles; Laboratories; Online Communities/Technical Collaboration; Pulse width modulation; Remote monitoring; Web sites;
Journal_Title :
Industry Applications, IEEE Transactions on
