Abstract
Summary Geometric tolerances are critical in many phases of product and process design, linking design goals and manufacturing capabilities. With an appropriate representation. geometric tolerances can provide flexibility in concurrent engineering so that, when complete information about geometry and tolerances is available, several different fabrication strategies can Se considered and fairly compared. This paper presents a framework and computer implementation that provides automated methods for geometric tolerance synthesis. This approach directly supports design synthesis since design details can he inferred from the tolerance relationships which must hold for particular requirements. Automated analysis of completed designs and design checking is also possible with this approach.
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