Throughput Optimization in Robotic Cells [electronic resource] / by Milind W. Dawande, H. Neil Geismar, Suresh P. Sethi, Chelliah Sriskandarajah.

By: Dawande, Milind W [author.]Contributor(s): Geismar, H. Neil [author.] | Sethi, Suresh P [author.] | Sriskandarajah, Chelliah [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Series: International Series in Operations Research & Management Science: 101Publisher: Boston, MA : Springer US, 2007Description: XVI, 420 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9780387709888Subject(s): Engineering | Operations research | Industrial engineering | Machinery | Engineering | Automation and Robotics | Industrial and Production Engineering | Operations Research/Decision Theory | Mathematical Modeling and Industrial Mathematics | Manufacturing, Machines, Tools | Operations Research, Mathematical ProgrammingAdditional physical formats: Printed edition:: No titleOnline resources: Click here to access online
Contents:
Robotic Cells in Practice -- A Classification Scheme for Robotic Cells and Notation -- Cyclic Production -- Dual-Gripper Robots -- Parallel Machines -- Multiple-Part-Type Production: Single-Gripper Robots -- Multiple-Part-Type Production: Dual-Gripper Robots -- Multiple-Robot Cells -- No-Wait and Interval Robotic Cells -- Open Problems.
In: Springer eBooksSummary: Intense global competition in manufacturing has compelled manufacturers to incorporate repetitive processing and automation for improving productivity. Modern manufacturing systems use robotic cells — a particular type of computer-controlled system in cellular manufacturing. THROUGHPUT OPTIMIZATION IN ROBOTIC CELLS provides practitioners, researchers, and students with up-to-date algorithmic results on sequencing of robot moves and scheduling of parts in robotic cells. It brings together the structural results developed over the last 25 years for the various realistic models of robotic cells. After describing industrial applications of robotic cells and presenting fundamental results about cyclic production, several advanced features, such as dual-grippers, parallel machines, multi-part-type production, and multiple robots, are treated. Important open problems in the area are also identified. This book is an excellent text for use in a graduate course or a research seminar on robotic cells.
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Robotic Cells in Practice -- A Classification Scheme for Robotic Cells and Notation -- Cyclic Production -- Dual-Gripper Robots -- Parallel Machines -- Multiple-Part-Type Production: Single-Gripper Robots -- Multiple-Part-Type Production: Dual-Gripper Robots -- Multiple-Robot Cells -- No-Wait and Interval Robotic Cells -- Open Problems.

Intense global competition in manufacturing has compelled manufacturers to incorporate repetitive processing and automation for improving productivity. Modern manufacturing systems use robotic cells — a particular type of computer-controlled system in cellular manufacturing. THROUGHPUT OPTIMIZATION IN ROBOTIC CELLS provides practitioners, researchers, and students with up-to-date algorithmic results on sequencing of robot moves and scheduling of parts in robotic cells. It brings together the structural results developed over the last 25 years for the various realistic models of robotic cells. After describing industrial applications of robotic cells and presenting fundamental results about cyclic production, several advanced features, such as dual-grippers, parallel machines, multi-part-type production, and multiple robots, are treated. Important open problems in the area are also identified. This book is an excellent text for use in a graduate course or a research seminar on robotic cells.

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