Title :
Modeling and coordinated control of a multi-load earthmoving vehicle powertrain
Author :
Rong Zhang ; Prasetiawan, Eko ; Alleyne, Andrew ; Thacher, Russell
Author_Institution :
Dept. of Mech. & Ind. Eng., Univ. of Illinois at Urbana-Champaign, Urbana, IL, USA
Abstract :
An earthmoving vehicle powertrain is modeled as a MIMO hydrostatic system. Its control inputs include the engine throttle, the electro-hydraulic pump displacement and the flow valve commands. These inputs offer a great control freedom but need to be coordinated. A coordinated MIMO controller for a multi-load powertrain is designed by using an LQG/LTR technique. Modeling and control design are accomplished and validated by both first principles and experimental data. The experimental data are obtained upon an Earthmoving Vehicle Power-train Simulator (EVPS) at the University of Illinois. The paper details the utilization of this “Hardware-In-the-Loop” testbed in investigating generic power-optimization problems for hydrostatic transmissions. Experimental results are presented.
Keywords :
MIMO systems; control system synthesis; earthmoving equipment; electrohydraulic control equipment; hydrostatics; linear quadratic Gaussian control; off-road vehicles; power transmission (mechanical); EVPS; LQG; LTR technique; MIMO hydrostatic system; control design; coordinated MIMO controller; electrohydraulic pump displacement; engine throttle; generic power optimization; hardware-in-the-loop testbed; hydrostatic transmissions; linear quadratic Gaussian control; loop transfer recovery; multiload earthmoving vehicle powertrain; Engines; Load modeling; Mathematical model; Mechanical power transmission; Torque; Valves; Vehicles; Earthmoving; LQG/LTR; LQR; Modelling;
Conference_Titel :
Control Conference (ECC), 2001 European
Conference_Location :
Porto
Print_ISBN :
978-3-9524173-6-2
