Affiliations: [a] Faculty of Technical Sciences, University of Novi Sad, Trg Dositeja Obradovića, Novi Sad, Serbia
| [b] Institute for Systems and Robotics, Instituto Superior Tecnico, Av. Rovisco Pais, Lisbon, Portugal
| [c] SRH University of Applied Sciences, Ludwig-Guttmann-Straße, Heidelberg, Germany
Abstract: The significant progress in robotics worldwide, brings further advancements in the design of the mechanical components, miniaturization of sensors and control hardware and more sophisticated control algorithms that come together with more available processing power. The state of the art humanoid robots are usually equipped with dexterous hands. This paper presents the design of the FTN robot hand for humanoid robot MARKO, with the emphasis on the fuzzy logic controller to control the Brushed DC motors used to actuate the underactuated fingers of the hand. The design of the robotic hand is highly anthropomorphic and biologically inspired by the human hands. The hand is passively adaptive to the shape of an object, due to a tendon-driven mechanism and torsional spring in each finger joint. Each of the five fingers has three DOFs (Degrees Of Freedom), except the thumb which has an additional DOF, for the rotation in its base. The fingers are tendon-driven, actuated with five DC motors, embedded in the palm. The proposed fuzzy controller is used to control the position of each finger. The results of the controller are compared with traditional PID control algorithms tuned with Ziegler – Nichols tuning method. The algorithms are first developed in a simulation environment and later are implemented on a real-time ARM Cortex M4 controller.
Keywords: Fuzzy control, BDC motor control, robotic hand
