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      SCIE SCOPUS KCI등재

      PREVIEW CONTROL OF ACTIVE SUSPENSION WITH INTEGRAL ACTION

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      https://www.riss.kr/link?id=A76028890

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      다국어 초록 (Multilingual Abstract)

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      This paper is concerned with an optimal control suspension system using the preview information of road input based on a quarter car model. The main purpose of the control is to combine good vibration isolation characteristics with improved attitude control. The optimal control law is derived with the use of calculus of variation, consisting of three parts. The first part is a full state feedback term that includes integral control acting on the suspension deflection to ensure zero steady-state deflection in response to static body forces and ramp road inputs. The second part is a feed-forward term which compensates for the body forces when they can be detected, and the third part depends on previewed road input. The performance of the suspension is evaluated in terms of frequency domain characteristics and time responses to ramp road input and cornering forces. The effects of each part of the suspension controller on the system behavior are examined.
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      This paper is concerned with an optimal control suspension system using the preview information of road input based on a quarter car model. The main purpose of the control is to combine good vibration isolation characteristics with improved attitude c...

      This paper is concerned with an optimal control suspension system using the preview information of road input based on a quarter car model. The main purpose of the control is to combine good vibration isolation characteristics with improved attitude control. The optimal control law is derived with the use of calculus of variation, consisting of three parts. The first part is a full state feedback term that includes integral control acting on the suspension deflection to ensure zero steady-state deflection in response to static body forces and ramp road inputs. The second part is a feed-forward term which compensates for the body forces when they can be detected, and the third part depends on previewed road input. The performance of the suspension is evaluated in terms of frequency domain characteristics and time responses to ramp road input and cornering forces. The effects of each part of the suspension controller on the system behavior are examined.

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      목차 (Table of Contents)

      • ABSTRACT
      • 1. INTRODUCTION
      • 2. SYSTEM MODEL
      • 3. ANALYTICAL SOLUTION
      • 4. RESULTS OF NUMERICAL SIMULATIONS
      • ABSTRACT
      • 1. INTRODUCTION
      • 2. SYSTEM MODEL
      • 3. ANALYTICAL SOLUTION
      • 4. RESULTS OF NUMERICAL SIMULATIONS
      • 5. CONCLUSIONS
      • REFERENCES
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