TY - JOUR
AU - Chang, J.
AB - Abstract Background Compared to completely control systems, super-articulated mechanical systems (SAMS) are controlled under-actuated systems where the dimensions of the control input space are less than the magnitudes of the output. Purpose Hence, the major aim of this study is developing an innovative cart–seesaw system which is manipulated by electrical servo actuators and also improving balancing methodology for such apparatus. Controlling the mobile cart on the seesaw is exceptionally hard because it is an under-actuated machinery. Methods With the purpose of the stabilization, the famous PID control scheme will be based on the genetic algorithm (GA) to pursue the main optimum parameters, and then enhancement of a fuzzy logic approach to stabilize the nonlinear model. The final controller will be completed by treating an intelligent fuzzy logic controller (FLC) based on adaptive neuro-fuzzy inference system (ANFIS) with GA tuning approach to speed up the effectiveness of controller construction. The knowledge base of fuzzy system was subsequently built on PID performance-related information. Results Experimentation shows that applying the suggested new cart–seesaw system (CSS) shows better functioning than the previous pneumatic cart–seesaw (PCS) system in tracking and balancing execution. Furthermore, the balancing approach presented in this paper meaningfully indicates the valuableness of the suggested intelligent controller in suppression oscillation of the seesaw. Conclusion The investigation of the proposed system will be useful for control course apparatus and also worthy for the entertainment device.
TI - Stabilization and Equilibrium Control for Electrically Cart–Seesaw Systems by Neuro-fuzzy Approach
JF - "Journal of Vibration Engineering & Technologies"
DO - 10.1007/s42417-018-0004-9
DA - 2018-02-01
UR - https://www.deepdyve.com/lp/springer-journals/stabilization-and-equilibrium-control-for-electrically-cart-seesaw-8aVisEFBil
SP - 1
EP - 11
VL - 6
IS - 1
DP - DeepDyve
ER -