In high-performance motion systems, e.g. waferstages or pick-and-place machines, there is an increasing demand for higher throughput and accuracy. The current design paradigm aims at rigid-body behaviour and leads in an evolutionary way to increasingly heavier systems that require more and more power. This paradigm is rapidly approaching the boundary of its scalability. A new paradigm is to design a lightweight machine and to deal with the resulting flexibilities by over-actuation and over-sensing. Such systems offer freedom to explore new control strategies that exploit the over-actuation and -sensing. This paper presents a spatial feedforward method for over-actuated flexible motions systems, which aims at reducing the vibrations over the...