Real-World Haptics for Motion Realization
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概要
- 論文の詳細を見る
This paper introduces the research field of real-world haptics that acts on real-world objects. This paper also reviews recent technical advances in real-world haptics, such as functionality and oblique coordinate control. As a catalyst for real-world haptics, a principle of this research area is explained through two simple examples: acceleration-based bilateral control and grasping/manipulating control. These two examples and the cited papers offer the view that a wide variety of system roles can be realized by combining pure position control and pure force control with an appropriate coordinate transformation. Real-world haptics has the capability of contributing toward supporting human activities.
- The Institute of Electrical Engineers of Japanの論文
著者
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Ohnishi Kouhei
Department Of Electrical Engineering Keio University
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Mizoguchi Takahiro
School of Integrated Design Engineering, Keio University
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Nozaki Takahiro
School of Integrated Design Engineering, Keio University
関連論文
- Task Description and Control for Redundant System by Oblique Coordinate Control
- Performance Analysis of a Three-Channel Control Architecture for Bilateral Teleoperation with Time Delay
- Improvement of Tactile Sensation of a Bilateral Forceps Robot by a Switching Virtual Model
- Study on the Torque Control of a DC Motor with Reduction Gears : Torque Control Based on an Acceleration Controller
- Haptic Motion Control for Physical Human Support
- Traction Force Improvement of a Mobile Manipulator
- Force Control by Flexible Manipulator Based on Resonance Ratio Control using Position Sensitive Detector (特集:モーションコントロール・計測センサ応用全般)
- Quarry of Modal Information from Environment for Advanced Motion Control
- Delay Compensation on Vision and Network for Network based Robot Vision
- Advanced Motion Control for Wheelchair Based on Environment Quarrier
- Bilateral Control Method Based on Transformation Matrix Relating Motion Features and Tool Coordinates
- Motion-copying System with Variable Impedance based on Scaled Bilateral Control in One-degree-of-freedom Robot
- Real-World Haptics for Motion Realization