Completed Research
Automotive Production Control Using Thermal Vision Systtems
Principal investigators:
Brief abstract:
This work presents new generation of online inspection systems, developed and deployed in automotive assembly plants, to provide 100%, online evaluation of automotive processes and sub-assemblies. The presented systems are thermal-vision-based, with capability to provide two-dimensional, spatial and temporal temperature acquisitions, and are equipped with novel processing routines for data collection, conditioning and processing. Specific systems are presented in the stamping presses, paint curing practices, with inspection schemes designed to provide an efficient manufacturing sequence, through (1) pro-active diagnosis routines to monitor the process performance, while inspecting the product, (2) focusing on the error detection rather than defect detection routines, and (3) utilizing closed-loop, feedback communications. This work will also present the processing computations that combine known image processing tools with inverse conduction computations, to correlate the process, product health parameters, to acquired scans temperature readings. Presented work will include two implementations of proposed thermographic systems; the automated detection of splits for body-in-white BIW sub-assemblies in automotive stamping presses, in addition to stamping die temperature control. Second example is a thermal vision system implemented to evaluate the protective coating coverage and its curing uniformity for automotive steel fuel tanks.
Publication:
Omar, M., "Automotive Production Control Using Thermal Vision Systems," SAE Int. J. Mater. Manuf. 1(1):279-284, 2008
