An active suspension system has an external energy source, from which energy is constantly supplied to the system for continuous control of the vehicle's motion. There are some control strategies. In the study, the reduced-order active suspension control strategy via the singular perturbation technique is applied to the half car model which has 4 DOF. The performance of the hydraulic active suspension system utilizing this control strategy is investigated and compared with those of the systems with the full-order state feedback control and the sky-hook damping control. Their performances are compared through the computer simulation in the time and the frequency responses, respectively. In the transient response analysis, the C-language program is used, and Matlab program tool is used in the frequency response analysis. It is shown that the reduced-order control strategy yields almost the same performance as that of the full-order state feedback control, and gives better performance than that of the sky-hook damping control, especially in ride quality.

Abstract
 1. 서 론
 2. 시스템 모델링
  2.1 액튜에이터 및 어큐뮬레이터
  2.2 반 차량(half car) 모델
 3. 제어이론
  3.1 전 차수 귀환제어
  3.2 축소차수 귀환제어
 4. 결과 및 고찰
 5. 결 론
 참 고 문 헌

• 김주용(우송대학교 철도차량시스템학과) | J. Y. KIM