Michal Jilich scite author profile

Michal Jilich

5Publications

46Citation Statements Received

13Citation Statements Given

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Affiliations

University of Genoa

Publications

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On the Development of a Specialized Flexible Gripper for Garment Handling

Le¹,

Jilich²,

Landini³

et al. 2013

JOACE

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In this paper, we discuss ongoing work on the development of a new griper for garments handling and manipulation tasks. We analyze the specificity of the application determining the requirements for the design and functioning of the grasping system. Textiles do not have a stable shape and cannot be manipulated on the basis of a priori geometric knowledge. Therefore, the grasping task cannot be executed without exploring the material and the environment. This is to be achieved by a vision system, which is part of the robotic work cell, in combination with tactile sensors embedded in the fingertips of the gripper. A possible design for the gripper mechanism is outlined and open research and design problems are identified. 

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Application of a Biphasic Actuator in the Design of the CloPeMa Robot Gripper

Zoppi

Jilich

et al. 2015

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The paper (a first version of this work was presented in Aug. 2014 at ASME-DETC in Buffalo, NY) describes a novel robot gripper for garment handling. The device has been designed, developed, prototyped, and tested within the CloPeMa European Project creating a robot system for automated manipulation of clothing and other textile items. The gripper has two degrees of freedom (dof) and includes both rigid and flexible elements. A variable-stiffness actuator has been implemented to add controlled compliance in the gripper’s operation allowing the combining of various grasping and manipulation tasks. First, we analyze the specific application-determined task requirements, focusing on the need for adaptive flexibility and the role of compliant elements in the design. The chosen solution is a simple planar mechanism, equipped with one standard and one variable-stiffness actuator. The mechanical design of the gripper, including the hydraulic system used in the biphasic actuator, is outlined, and the control architecture, using sensor feedback, is described.

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Development and Analysis of a New Specialized Gripper Mechanism for Garment Handling

Zoppi

Jilich

et al. 2013

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This paper reports ongoing work on the design of a new gripper for garments handling. The development of this device is part of the CloPeMa European Project creating a robot system for automated manipulation of clothing and other textile items. First, we analyze the specificity of the application determining the requirements for the design and functioning of the grasping system. Textiles do not have a stable shape and cannot be manipulated on the basis of a priori geometric knowledge. The necessary exploration of the material and the environment is performed with the help of tactile sensors embedded in the fingertips of the gripper, complementing the vision system of the robotic work cell. The chosen design solution is a simple mechanism able to perform adequately the grasping task and to permit exploratory finger motions. The kinematics and statics of the mechanism are outlined briefly and, in accord with initial experiments, used to validate the design.

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A Tactile Sensor-Based Architecture for Collaborative Assembly Tasks with Heavy-Duty Robots

Grella

Baldini

Canale

et al. 2021

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Appraisal of surface preparation in adhesive bonding of additive manufactured substrates

Frascio

Mandolfino

Moroni

et al. 2021

International Journal of Adhesion and Adhesives

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Michal Jilich

On the Development of a Specialized Flexible Gripper for Garment Handling

Application of a Biphasic Actuator in the Design of the CloPeMa Robot Gripper

Development and Analysis of a New Specialized Gripper Mechanism for Garment Handling

A Tactile Sensor-Based Architecture for Collaborative Assembly Tasks with Heavy-Duty Robots

Appraisal of surface preparation in adhesive bonding of additive manufactured substrates

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