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This work deals with the stabilization and control of a system which is composed of a disk rolling on a plane, a translational joint attached along the diskʹs axis, and a controlled rod that moves along the translational joint (see Figures 1 and 2). The diskʹs motion is controlled by the moving rod, a “directional control” moment, and a pedalling moment. It is shown here that by applying a kind of inverse dynamics control, the motion of the disk is stabilized, while simultaneously controlling its speed and direction in such a manner that the point of contact between the disk and the horizontal plane will be able asymptotically to track any given smooth ground trajectory.