Frequency Domain Parametric Identification of a Flexible Manipulator Model for Structural Control Applications
Shawky, A., ABDEL-MOHSEN, A. (1997). Frequency Domain Parametric Identification of a Flexible Manipulator Model for Structural Control Applications. EKB Journal Management System, 7(ASAT Conf. 13-15 May 1997), 327-338. doi: 10.21608/asat.1997.25414
A. E. Shawky; A. S. ABDEL-MOHSEN. "Frequency Domain Parametric Identification of a Flexible Manipulator Model for Structural Control Applications". EKB Journal Management System, 7, ASAT Conf. 13-15 May 1997, 1997, 327-338. doi: 10.21608/asat.1997.25414
Shawky, A., ABDEL-MOHSEN, A. (1997). 'Frequency Domain Parametric Identification of a Flexible Manipulator Model for Structural Control Applications', EKB Journal Management System, 7(ASAT Conf. 13-15 May 1997), pp. 327-338. doi: 10.21608/asat.1997.25414
Shawky, A., ABDEL-MOHSEN, A. Frequency Domain Parametric Identification of a Flexible Manipulator Model for Structural Control Applications. EKB Journal Management System, 1997; 7(ASAT Conf. 13-15 May 1997): 327-338. doi: 10.21608/asat.1997.25414

Frequency Domain Parametric Identification of a Flexible Manipulator Model for Structural Control Applications

International Conference on Aerospace Sciences and Aviation Technology
Article 22, Volume 7, ASAT Conf. 13-15 May 1997, May 1997, Page 327-338  XML PDF (2.79 MB)
Document Type: Original Article
DOI: 10.21608/asat.1997.25414
View on SCiNiTO View on SCiNiTO
Authors
A. E. Shawky1; A. S. ABDEL-MOHSEN2
1M.Sc., Research Engineer, R&D center for Air Force, Cairo, Egypt.
2Prof. & Head of the Department of the Aeronautics, M.T.C, Cairo, Egypt.
Abstract
The problem of modeling a single-link flexible manipulator having a revolute joint, is rather complex. It involves complex interaction and coupling between the desired rigid body motion and the undesired flexible motion. Analysis is performed on a representative case study of a Pinned-Free Euler-Bernoulli beam with noncollocated sensors. Numerical method for accurate computation of the transfer function poles and zeros is proposed. Experimental investigations that have been carried out on a real laboratory model of a single link flexible manipulator is reported. This model consists of a prismatic beam free at one end and attached to a DC motor at the other end. Using a dual channel Dynamic Signal Analyzer DSA, the manipulator has been excited by a harmonic torque and the structural displacement at several locations have been measured using vibration accelerometer. The DSA curve fitting capability are used to determine the best fit estimate of the manipulator's experimental transfer function poles and zeros.
Keywords
modeling; identification; control; Flexible manipulator
Statistics
Article View: 110
PDF Download: 212