partially_open2noThis paper studies the direct geometrico-static problem of underconstrained cable-driven parallel robots supported by n cables, with n<=6 . The task consists in identifying the equilibrium poses of the end-effector when cable lengths are specified. The problem is challenging, because the end-effector preserves some freedoms after cable lengths are assigned by motors. Hence, kinematics and statics are coupled, and they must be tackled simultaneously. A general method is presented to model the problem by a set of algebraic equations, and a least-degree univariate polynomial in the corresponding ideal is numerically found for any value of n . For the efficient computation of the solution set, a software package is developed...