The dynamic model of a robot manipulator is described by a set of nonlinear, highly coupled differential equations. Model-based control schemes were proposed to enhance tracking capabilities with respect to simple linear control schemes. Independent joint controllers (of PD or PID type) are usually employed in industrial robot manipulators but cannot achieve satisfactory performance due to their inherent low rejection to disturbances and parameter variations. In this paper, a new linear independent joint control scheme is proposed; the design is made robust by closing another feedback loop that uses acceleration information besides the typical position and velocity loops. Reconstruction of acceleration measurements is performed via a suitab...