Title :
Adaptive control system for electrohydraulic camless engine gas valve actuator
Author :
Hanks, Thomas C. ; Lumkes, John H., Jr.
Author_Institution :
Harken Yacht Equip., Pewaukee, WI, USA
Abstract :
If realized, the camless internal combustion engine offers significant advantages over the engines on the market today in the areas of efficiency, fuel economy, and emissions reduction (Ashhab et al., 2000; Demmelbauer-Ebner et al., 1991; Gould et al., 1991; Lenz et al.; Stone and Kwan, 1989). In previous work completed, a mathematical model of an electrohydraulic gas exchange valve actuator was created. For this system to be useful, the ability to control it must be demonstrated. Using a cosimulation approach, an adaptive controller was developed and simulated. The results from these simulations showed that the controller was able to converge on the desired output.
Keywords :
adaptive control; electric actuators; electrohydraulic control equipment; hydraulic actuators; internal combustion engines; modelling; simulation; valves; adaptive control system; camless internal combustion engine; cosimulation approach; electrohydraulic camless engine gas valve actuator; electrohydraulic gas exchange valve actuator; emissions reduction; fuel economy; mathematical model; Actuators; Adaptive control; Agricultural engineering; Control systems; Electrohydraulics; Fluid flow control; Internal combustion engines; Mathematical model; Temperature distribution; Valves;
Conference_Titel :
American Control Conference, 2005. Proceedings of the 2005
Print_ISBN :
0-7803-9098-9
Electronic_ISBN :
0743-1619
DOI :
10.1109/ACC.2005.1470667
