Mechanical Engineering / Makina Mühendisliği
Permanent URI for this collectionhttps://hdl.handle.net/11147/4129
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Conference Object Experimental Verification of Quasi-Static Equilibrium Analysis of a Haptic Device(Azerbaijan Committee of International Federation, 2017) Görgülü, İbrahimcan; Maaroof, Omar Waleed Najm; Taner, Barış; Dede, Mehmet İsmet Can; Ceccarelli, MarcoHIPHAD v1.0 is a kinesthetic haptic device which was designed and manufactured in IzTech Robotics Laboratory. In this work, the quasi-static equilibrium analysis is carried out by including the gravitational effects. The calculations are verified through an experimental procedure and the results are presented to characterize the device performance.Conference Object Integration of the Hybrid-Structure Haptic Interface: Hiphad V1.0(Curran Associates, 2010) Bilgincan, Tunç; Gezgin, Erkin; Dede, Mehmet İsmet CanDesign, manufacturing, integration and initial test results of the 6-DoF haptic interface, HIPHAD v1.0, are presented in this paper. The hybrid haptic robot mechanism is composed of a 3-DoF parallel platform manipulator, R-Cube, for translational motions and a 3-DoF serial wrist mechanism for monitoring the rotational motions of the handle. The device is capable of displaying point-type of contact since only the R-Cube mechanism is actuated. The dimensions and the orientation of the R-Cube mechanism are reconfigured to comply with the requirements of the haptic system design criteria. The system has several advantages such as relatively trivial kinematical analysis, compactness and high stiffness. The integration of the system along with its mechanism, data acquisition card (DAQ), motor drivers, motors, position sensors, and computer control interface are outlined.Conference Object Citation - WoS: 1Citation - Scopus: 2Development of an R-Cube Based General Purpose Haptic Device System(American Society of Mechanical Engineers, 2010) Bilgincan, Tunç; Dede, Mehmet İsmet CanA novel 6-Degree-of-Freedom (DoF) hybrid haptic device is presented in this paper. Hybrid mechanism consists of parallel kinematic structure, R-CUBE and a 3-DoF orientation mechanism. In our previous study, the original configuration of the R-CUBE mechanism was investigated. In this work, the original design of R-CUBE is reconfigured as a haptic mechanism and the final mechanism is reoriented in order to equally distribute the gravitational effects to all grounded actuators. Rotational motions of the end-effector are monitored through the 3-DoF orientation mechanism placed on the moving platform of the parallel platform. The design of this haptic device is suitable to reflect forces in translational motions, thus point-type of contact is available for this system. The designed device is manufactured utilizing various types of manufacturing processes, such as wire erosion, laser cutting, milling and turning. Finally manufactured mechanism is integrated with electromechanical components and tested for manipulability.Conference Object Kinematic Analysis Validation and Calibration of a Haptic Interface(Springer Verlag, 2014) Dede, Mehmet İsmet Can; Taner, Barış; Bilgincan, Tunç; Ceccarelli, MarcoInitial calibration tests of a novel hybrid-structured kinesthetic haptic device based on an R-CUBE mechanism is presented in this paper. Experimental validation of the kinematics along with the experimental test set-up description is provided for the manufactured R-CUBE mechanism.