论文信息 - Fixture Failure Diagnosis for Sheet Metal Assembly with Consideration of Measurement Noise

Fixture Failure Diagnosis for Sheet Metal Assembly with Consideration of Measurement Noise

This paper expands previously developed assembly fixture fault diagnosis methodology (Ceglarek and Shi, 1996) by considering the impact of measurement noise on the diagnostic results. The proposed solution provides a new analytical tool to address the diagnosability issue during the assembly process design stage. An evaluation of fault diagnosis index as a function of noise, fixture geometry, and sensor location is presented. The index is derived from the general class of covariance matrices describing tooling faults. Simulation based on the real fixture is presented to illustrate the proposed method.

Darek Ceglarek | Jianjun Shi | Jianjun Shi | D. Ceglarek

[1] Darek Ceglarek,et al. Fixture Failure Diagnosis for Autobody Assembly Using Pattern Recognition , 1996 .

[2] T. W. Anderson. An Introduction to Multivariate Statistical Analysis , 1959 .

[3] Dariusz Jaroslaw Ceglarek. Knowledge-based diagnosis for automotive body assembly: Methodology and implementation. , 1994 .

[4] W. A. Thompson,et al. PRECISION OF SIMULTANEOUS MEASUREMENT PROCEDURES , 1963 .

[5] Darek Ceglarek,et al. Dimensional variation reduction for automotive body assembly , 1995 .

[6] J. Tlusty,et al. A Critical Review of Sensors for Unmanned Machining , 1983 .

[7] Bruce W. Char,et al. Maple V Library Reference Manual , 1992, Springer New York.

[8] Frank E. Grubbs,et al. On Estimating Precision of Measuring Instruments and Product Variability , 1948 .

[9] M. M. Barash,et al. A Mathematical Approach to Automatic Configuration of Machining Fixtures: Analysis and Synthesis , 1989 .

[10] Darek Ceglarek,et al. A Knowledge-Based Diagnostic Approach for the Launch of the Auto-Body Assembly Process , 1994 .