Abstract:
This study has two objectives: the design of a sequential module based on Grafcet formalism to control various vehicle engine operating modes and the investigation of ele...Show MoreMetadata
Abstract:
This study has two objectives: the design of a sequential module based on Grafcet formalism to control various vehicle engine operating modes and the investigation of electronic throttle controllers' performances when a jump from one mode to another appears. The so-called backstepping technique is used in the synthesis of control law and the proof of stability based on Lyapunov approach is given. The illustrated simulation results show the validity and efficiency of the proposed hierarchical control strategy.
Published in: 2022 8th International Conference on Control, Decision and Information Technologies (CoDIT)
Date of Conference: 17-20 May 2022
Date Added to IEEE Xplore: 30 June 2022
ISBN Information:
ISSN Information:
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- IEEE Keywords
- Index Terms
- Control Strategy ,
- Electronic Control ,
- Engine Performance ,
- Vehicle Engine ,
- Throttle Control ,
- Electronic Throttle ,
- Optimal Control ,
- Operation Mode ,
- Hierarchical Strategy ,
- Hierarchical Control ,
- Stability Proof ,
- System Performance ,
- Set Point ,
- Control Mode ,
- Lookup Table ,
- Dynamic Performance ,
- Tracking Error ,
- Hierarchical Levels ,
- State Machine ,
- State-space Model ,
- Programmable Logic Controllers ,
- Backstepping Control ,
- Proportional-integral-derivative ,
- Sliding Mode Control ,
- Lyapunov Function Candidate ,
- Engine Speed ,
- Transition Conditions ,
- Control Logic ,
- Reference Torque ,
- Graphics Program
- Author Keywords
Contents Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Control Strategy ,
- Electronic Control ,
- Engine Performance ,
- Vehicle Engine ,
- Throttle Control ,
- Electronic Throttle ,
- Optimal Control ,
- Operation Mode ,
- Hierarchical Strategy ,
- Hierarchical Control ,
- Stability Proof ,
- System Performance ,
- Set Point ,
- Control Mode ,
- Lookup Table ,
- Dynamic Performance ,
- Tracking Error ,
- Hierarchical Levels ,
- State Machine ,
- State-space Model ,
- Programmable Logic Controllers ,
- Backstepping Control ,
- Proportional-integral-derivative ,
- Sliding Mode Control ,
- Lyapunov Function Candidate ,
- Engine Speed ,
- Transition Conditions ,
- Control Logic ,
- Reference Torque ,
- Graphics Program
- Author Keywords
