Optimization and Optimal Control in Automotive Systems

Prof. Luigi del Re is Professor at the Johannes Kepler University Linz, where he is head of the Institute for Design and Control of Mechatronical systems. He has 30 years experience in identification and control of complex systems, in particular of engine and vehicle systems, both in industry and academia. He is the editor of two earlier LNCIS volumes on automotive control: Identification for Automotive Systems (978-1-4471-2220-3) and Automotive Model Predictive Control (978-1-84996-070-0) Ilya Kolmanovsky is a Professor of Aerospace Engineering at the University of Michigan with research interests in control applications to automotive and aerospace systems. Prior to joining the University of Michigan, he had close to 15 years of industrial research experience in powertrain control at Ford Research and Advanced Engineering. Maarten Steinbuch is Distinguished University Professor at Eindhoven University of Technology and head of the Control Systems Technology group. He has experience both in industry and academia, in the field of control of high-tech systems, in particular high-precision motion systems and automotive power trains. Harald Waschl is a research assistant at the Johannes Kepler University Linz, where he is with the Institute for Design and Control of Mechatronical systems. He has experience in the field of optimal and model-based control of combustion engines and emission modelling.

Trajectory Optimization: A Survey.- Extremum Seeking Methods for Online Automotive Calibration.- Model Predictive control of Autonomous Vehicles.- Approximate Solution of HJBE and Optimal Control in Internal Combustion Engines.- Intelligent Speed Advising Based on Cooperative Traffic Scenario.- Driver Control and Trajectory Optimization Applied to Lane Change Maneuver.- Real-Time Near-Optimal Feedback Control of Aggressive Vehicle Maneuvers.- Applications of Computational Optimal Control to Vehicle Dynamics.- Predictive Cooperative Adaptive Cruise Control: Fuel Consumption Benefits and Implementability.- Topology Optimization of Hybrid Power Trains.- Model-based Optimal Energy Management Strategies for Hybrid Electric Vehicles.- Optimal Energy Management of Automotive Battery Systems Including Thermal Dynamics and Aging.- Optimal Control of Diesel Engines with Waste Heat Recovery System.- Learning Based Approaches to Engine Mapping and Calibration Optimization.- Online Design of Experiments in the Relevant Output Range.- Optimal Control of HCCI.- Optimal Lifting and Path Profiles for a Wheel Loader Considering Engine and Turbo Limitations.