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Grasping in Robotics [electronic resource] / edited by Giuseppe Carbone.

Contributor(s): Carbone, Giuseppe [editor.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Mechanisms and Machine Science: 10Publisher: London : Springer London : Imprint: Springer, 2013Description: VIII, 468 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9781447146643.Subject(s): Engineering | Artificial intelligence | Computer simulation | Control engineering | Robotics | Automation | Engineering | Robotics and Automation | Artificial Intelligence (incl. Robotics) | Control | Simulation and ModelingAdditional physical formats: Printed edition:: No titleDDC classification: 629.892 Online resources: Click here to access online
Contents:
Historical Background of Grasping -- A Survey on Different Control Techniques for Grasping -- Path Planning for Grasping Tasks -- Wrists for Enhancing Grasping Performance -- Industrial Grippers: State-of-Art and Main Design Characteristics -- Microgrippers: State-of-Art and Main Design Solutions -- A New Way of Grasping: ParaGrip - Robot and Gripper Rolled Into One -- Robotic Hands: State-of-Art and Low-Cost Design Solutions -- Hardware Control for Robotic Hands -- Finger Orientation for Robotic Hands -- Using Vision in Grasping Tasks -- Integrated Grasp and Motion Planning for Humanoid Robots -- Grasping in Agriculture -- A Multibody Dynamics Formulation.
In: Springer eBooksSummary: Grasping in Robotics contains original contributions in the field of grasping in robotics with a broad multidisciplinary approach. This gives the possibility of addressing all the major issues related to robotized grasping, including milestones in grasping through the centuries, mechanical design issues, control issues, modelling achievements and issues, formulations and software for simulation purposes, sensors and vision integration, applications in industrial field and non-conventional applications (including service robotics and agriculture).   The contributors to this book are experts in their own diverse and wide ranging fields. This multidisciplinary approach can help make Grasping in Robotics of interest to a very wide audience. In particular, it can be a useful reference book for researchers, students and users in the wide field of grasping in robotics from many different disciplines including mechanical design, hardware design, control design, user interfaces, modelling, simulation, sensors and humanoid robotics. It could even be adopted as a reference textbook in specific PhD courses.  .
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Historical Background of Grasping -- A Survey on Different Control Techniques for Grasping -- Path Planning for Grasping Tasks -- Wrists for Enhancing Grasping Performance -- Industrial Grippers: State-of-Art and Main Design Characteristics -- Microgrippers: State-of-Art and Main Design Solutions -- A New Way of Grasping: ParaGrip - Robot and Gripper Rolled Into One -- Robotic Hands: State-of-Art and Low-Cost Design Solutions -- Hardware Control for Robotic Hands -- Finger Orientation for Robotic Hands -- Using Vision in Grasping Tasks -- Integrated Grasp and Motion Planning for Humanoid Robots -- Grasping in Agriculture -- A Multibody Dynamics Formulation.

Grasping in Robotics contains original contributions in the field of grasping in robotics with a broad multidisciplinary approach. This gives the possibility of addressing all the major issues related to robotized grasping, including milestones in grasping through the centuries, mechanical design issues, control issues, modelling achievements and issues, formulations and software for simulation purposes, sensors and vision integration, applications in industrial field and non-conventional applications (including service robotics and agriculture).   The contributors to this book are experts in their own diverse and wide ranging fields. This multidisciplinary approach can help make Grasping in Robotics of interest to a very wide audience. In particular, it can be a useful reference book for researchers, students and users in the wide field of grasping in robotics from many different disciplines including mechanical design, hardware design, control design, user interfaces, modelling, simulation, sensors and humanoid robotics. It could even be adopted as a reference textbook in specific PhD courses.  .

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