Integrated development platform for design of fuzzy inference system using RecurDyn and Simulink
Chang-Woo Hong, Gyu-Jong Choi, Doo-Sung Ahn, SICE-ICASE International Joint Conference, Busan, October 2006, pp. 5643-5648.
-
Abstract
In this paper, a platform is proposed to efficiently design the controller using RecurDyn (multi-body dynamic analysis software) and SIMULINK. The proposed platform consists of two parts. One is to model the plant’s dynamic property using RecurDyn. The other is controller design using SIMULINK. We can implement with co-simulation through the combination of RecurDyn and SIMULINK. This platform enables us to design a controller quickly and efficiently than using only ‘Matlab’ through the adaptation of RecurDyn that calculate precisely the plant’s dynamic property. In this paper, a control target is inverted pendulum system and proposed platform has been verified through the design process for the fuzzy controller and the control capability of it.
How Multibody Dynamics Simulation Technology is Used
A method is proposed for the design of a fuzzy inference system using RecurDyn and Simulink. A co-simulation with RecurDyn and Simulink can simplify the process of designing a controller by simulating a control method without the need for a costly prototype.
Get This Paper
Related Case Studies
- Fuzzy PID Control for Boom Energy Recovery on Hybrid Hydraulic Excavator
- Research on Simulation of Motion Compensation for Omnidirectional Platform Based on Neural Network
- Development of High Fidelity Mobility Simulation of an Autonomous Vehicle in an Off-Road Scenario Using Integrated Sensor, Controller, and Multi-Body Dynamics
- Dynamics co-simulation of a type of spot welding robot by RecurDyn and Simulink