Title :
Distributed-parameter control of geometry in rapid prototyping
Author :
Doumanidis, Haris ; Skordeli, Eleni ; Yong-Min Kwak
Author_Institution :
Dept. of Mech. Eng., Tufts Univ., Medford, MA, USA
fDate :
Aug. 31 1999-Sept. 3 1999
Abstract :
This article introduces an analytical model of thermal rapid prototyping processes, using superposition of unit deposition distributions, composed of elementary ellipsoidal primitives. The real-time surface geometry model, with its parameters identified by in-process profile measurements, is used for Smith-prediction of the material shape. Thus, a distributed-parameter geometry control scheme is established to obtain a desired surface topology, by modulating the feed and motion of a moving source. This is based on dynamic geometry shaping by a real-time complex optimization technique. The methodology is tested in geometric command following on a robotic fused wire deposition station.
Keywords :
distributed control; distributed parameter systems; geometry; industrial control; optimisation; parameter estimation; prediction theory; rapid prototyping (industrial); Smith-prediction; distributed-parameter geometry control scheme; dynamic geometry shaping; elementary ellipsoidal primitive; in-process profile measurement; material shape; parameter identification; real-time complex optimization technique; real-time surface geometry model; robotic fused wire deposition station; surface topology; thermal rapid prototyping processing; unit deposition distribution; Analytical models; Feeds; Geometry; Optimization; Process control; Real-time systems; Surface treatment; geometry; material deposition; rapid prototyping;
Conference_Titel :
Control Conference (ECC), 1999 European
Conference_Location :
Karlsruhe
Print_ISBN :
978-3-9524173-5-5
