A New Fuzzy Logic Based Adaptive Motion Cueing Algorithm Using Parallel Simulation-Based Motion Platform
- Resource Type
- Conference
- Authors
- Chalak Qazani, Mohammad Reza; Asadi, Houshyar; Bellmann, Tobias; Perdrammehr, Siamak; Mohamed, Shady; Nahavandi, Saeid
- Source
- 2020 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE) Fuzzy Systems (FUZZ-IEEE), 2020 IEEE International Conference on. :1-8 Jul, 2020
- Subject
- Bioengineering
Computing and Processing
General Topics for Engineers
Power, Energy and Industry Applications
Robotics and Control Systems
Signal Processing and Analysis
Acceleration
Fuzzy logic
Kinematics
Solid modeling
Adaptation models
Vehicles
Intelligent systems
motion cueing algorithm
adaptive controller
fuzzy logic
motion platform
path planning
- Language
- ISSN
- 1558-4739
Parallel manipulators are recently used in most motion simulation laboratories as they can easily generate six degrees of freedom motion. Recently, fuzzy logic-based adaptive motion cueing algorithms (MCAs) have been employed to reproduce the motion signals. The usage of fuzzy logic-based adaptive MCA reduces the movement sensation error between the real vehicle and the simulation-based motion platform (SBMP) user considering the end-effector limitations in Cartesian space.. In this paper, a new fuzzy logic-based adaptive MCA is introduced to generate motion signals based on the joints’ limitations and the movement sensation error between the real vehicle and the SBMP user. Considering the parallel SBMP, joint limits enhance the ability of the introduced adaptive motion cueing algorithm to generate more accurate movement feelings with high fidelity. The simulation results prove that the proposed adaptive motion cueing algorithm can effectively use the large workspace of the parallel SBMP whilst reducing the motion sensation error.