Add to ORKGInternational audienceIn this paper, the use of a two-sensing-fingers gripper for grasping planar microparts (smaller than 0.1 mm ) is being investigated and the force range during a microassembly sequence is estimated between 0 to 3 mN. An analytical model of their gripping forces in the presence of a lateral contact force is proposed and is compared to Finite Element Analysis. An experimental validation is performed by a proposed setup for a lateral contact force in the range of a few tens to hundreds of micronewtons. Effects of the variation of parameters like the distance of contact, the thickness of the finger, the compliance of the finger, and the preload are investigated. Design statements of microgripper and the applied force range...
AbstractThis paper presents a novel micro-gripper design with the dual functions of manipulation and...
This paper presents the development of a monolithic two degrees of freedom (2 DOF), piezoelectric ac...
This paper proposes a novel contact force sensing and control method for the inserting operation dur...
International audienceIn this paper, the use of a two-sensing-fingers gripper for grasping planar mi...
International audienceIn this paper, the use of a two-sensing-fingers gripper for grasping planar mi...
For the last ten years a miniaturisation process has spread in many different technical fields. This...
Part 1: Micro Assembly Processes and SystemsInternational audienceThis abstract outlines current dev...
Abstract—This paper studies automated tasks based on hybrid force/position control of a flexible obj...
International audienceThis paper presents an analytical model and experimental results from a study ...
Force sensing has always been an important necessity in making decisions for manipulation. It become...
Abstract — The paper presents the design and analysis of a dexterous micro-gripper with two fingers ...
This paper presents a novel micro-gripper design with the dual functions of manipulation and force s...
International audienceThis paper studies automated tasks based on hybrid force/position control of a...
International audienceThis paper studies automated tasks based on hybrid force/position control of a...
Assembly is a crucial part in the realization of a product. Compared to assembly in the macro world,...
AbstractThis paper presents a novel micro-gripper design with the dual functions of manipulation and...
This paper presents the development of a monolithic two degrees of freedom (2 DOF), piezoelectric ac...
This paper proposes a novel contact force sensing and control method for the inserting operation dur...
International audienceIn this paper, the use of a two-sensing-fingers gripper for grasping planar mi...
International audienceIn this paper, the use of a two-sensing-fingers gripper for grasping planar mi...
For the last ten years a miniaturisation process has spread in many different technical fields. This...
Part 1: Micro Assembly Processes and SystemsInternational audienceThis abstract outlines current dev...
Abstract—This paper studies automated tasks based on hybrid force/position control of a flexible obj...
International audienceThis paper presents an analytical model and experimental results from a study ...
Force sensing has always been an important necessity in making decisions for manipulation. It become...
Abstract — The paper presents the design and analysis of a dexterous micro-gripper with two fingers ...
This paper presents a novel micro-gripper design with the dual functions of manipulation and force s...
International audienceThis paper studies automated tasks based on hybrid force/position control of a...
International audienceThis paper studies automated tasks based on hybrid force/position control of a...
Assembly is a crucial part in the realization of a product. Compared to assembly in the macro world,...
AbstractThis paper presents a novel micro-gripper design with the dual functions of manipulation and...
This paper presents the development of a monolithic two degrees of freedom (2 DOF), piezoelectric ac...
This paper proposes a novel contact force sensing and control method for the inserting operation dur...