Active Neural-PID Scheme for Non-harmonic Vibration Attenuation Strategy on SLM Structures.

Author

Hernández-Zárate, J.A. ; Munoz-Hernández, G.A. ; Martínez-Leal, E. ; Graciós-Marin, C.A.

Author_Institution

Inst. Tecnologico de Puebla

Volume

2

fYear

2006

fDate

26-29 Sept. 2006

Firstpage

279

Lastpage

284

Abstract

The next article presents a new alternative for active control for vibrations on SLM structures. To solve the non-harmonic oscillation behaviour, a novel neural-PID scheme is applied to obtain a self-tuning algorithm in terms of reduce the dangerous effects on the actual mechatronic systems developed. Neural strategy is established as a two slides net trained by a typical back propagation block defined next to the PID on a FPGA to let the training-online for the active control scheme proposed. The final structure can be considered as a rapid-prototyping environment for future mechatronic designs

Keywords

backpropagation; field programmable gate arrays; mechatronics; neurocontrollers; oscillations; self-adjusting systems; springs (mechanical); three-term control; vibration control; FPGA; SLM structures; active neural-PID scheme; back propagation; mechatronic systems; nonharmonic oscillation behaviour; nonharmonic vibration attenuation strategy; rapid-prototyping environment; self-tuning algorithm; Absorption; Attenuation; Damping; Frequency; Isolators; Mechanical systems; Mechatronics; Protection; Shock absorbers; Vibrations;

fLanguage

English

Publisher

ieee

Conference_Titel

Electronics, Robotics and Automotive Mechanics Conference, 2006

Conference_Location

Cuernavaca

Print_ISBN

0-7695-2569-5

Type

conf

DOI

10.1109/CERMA.2006.102

Filename

4019807