Bounding the locus of the center of mass for a part with shape variation

The shape and center of mass of a part are crucial parameters to algorithms for planning automated manufacturing tasks. As industrial parts are generally manufactured to tolerances, the shape is subject to variations, which, in turn, also cause variations in the location of the center of mass. Planning algorithms should take into account both types of variation to prevent failure when the resulting plans are applied to manufactured incarnations of a model part.We study the relation between variation in part shape and variation in the location of the center of mass for a part with uniform mass distribution. We consider a general model for shape variation that only assumes that every valid instance contains a shape PIPI while it is contained in another shape PEPE. We characterize the worst-case displacement of the center of mass in a given direction in terms of PIPI and PEPE. The characterization allows us to determine an adequate polytopic approximation of the locus of the center of mass. We also show that the worst-case displacement is small if PIPI is convex and fat and the distance between the boundary of PEPE and PIPI is bounded.