Optimal Control with Input Constraints Applied to Internal Combustion Engine Test Benches

  • Thomas Schwarzgruber (Speaker)

Activity: Talk or presentationContributed talkunknown

Description

Optimal control of nonlinear systems provides a major challenge in control engineering. Constraints on the input signals are common to many real-world applications and render the problem to be tackled even more complicated. This paper proposes a method to map the input constraints by nonlinear functions to the state equations of the system, afterwards an approximation of the solution of the resulting optimization problem is calculated by means of a dynamic extension to the state of the system. The approach is applied in the control of test benches for internal combustion engines, where speed and torque references need to be tracked at the crankshaft of the engine. Simulation results using a high-quality simulator, also regarding effects that have not been included in the model for controller design, show the performance of the proposed approach.
Period05 Sept 2013
Event title9th IFAC Symposium on Nonlinear Control Systems
Event typeConference
LocationFranceShow on map

Fields of science

  • 207109 Pollutant emission
  • 202027 Mechatronics
  • 206 Medical Engineering
  • 202003 Automation
  • 203 Mechanical Engineering
  • 202034 Control engineering
  • 202012 Electrical measurement technology
  • 203027 Internal combustion engines

JKU Focus areas

  • Mechatronics and Information Processing