The talk focuses on an algorithm for parameters tuning for radar-based sensing systems for motion monitoring. The algorithm adapts parameters for better system performance according to the estimated motion zone properties, i.e. mean and maximum distance to objects and their velocities. A new approach for determination of radar height position and tilt angle is proposed and experimentally tested. The method uses radar measurement points cloud only and may be applied for optimization of distance and velocity ranges and reduction of artifacts. Error of tilt angle estimation is 0.7-1.6 degrees in range of 0-45 degrees. Height estimation error depends on moving object height and is less than 1 m. The main goal of the algorithm is estimation of the motion zone and corresponding adaptive change of radar-system configuration parameters for optimizing the system's field of view and performance. The proposed approach may be used for indoor and outdoor motion detection and activity classification in applications such as health diagnostics, health monitoring, surveillance, occupancy sensing, and automotive.