Adaptive neuro-fuzzy wheel slip control
Author:
Publisher
Elsevier BV
Subject
Artificial Intelligence,Computer Science Applications,General Engineering
Reference41 articles.
1. Neural network prediction of brake friction materials wear;Aleksendrić;Wear,2010
2. Neural network prediction of disk brake performance;Aleksendrić;Tribology International,2009
3. Prediction of brake friction materials recovery performance using artificial neural networks;Aleksendrić;Tribology International,2010
4. Dynamic control of disc brake performance;Aleksendrić;SAE International Journal of Passenger Cars-Mechanical Systems,2012
5. Intelligent control of braking process;Aleksendrić;Expert Systems with Applications,2012
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