The present Master thesis introduces the design and production of a climbing robot with configuration of a five-legged multipod. This robot has been developed for watering plants while climbing the wall where plants were placed. Our focus has been mainly dedicated to those parts of the project, which in our belief are of significant importance in the fields of robotics and control theory. We have developed kinematics and dynamics models of the robot and its legs, algorithms for planning individual movements and movement of the robot in general, and a regulator for control of independent movements of all five of the robot’s legs simultaneously. The regulator enables manipulation over the robot’s motion in three different modes: via position control, via velocity control, and via force control. Last but not least, we have developed an application for controlling the robot’s motion based on aforementioned approaches, written in computer programming language Python.