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Binding: Hardcover

Product Group: Book

Book Title: Robot Technology Fundamentals

Weight: 2 lbs

IsTextBook: Yes

ISBN: 9780827382367

Über dieses Produkt

Product Identifiers

Publisher

Delamr Cengage Learning

ISBN-10

0827382367

ISBN-13

9780827382367

eBay Product ID (ePID)

706356

Product Key Features

Number of Pages

448 Pages

Language

English

Publication Name

Robot Technology Fundamentals

Publication Year

1998

Subject

Mechanical, General, Robotics

Features

New Edition

Type

Textbook

Subject Area

Technology & Engineering, Education

Author

James G. Keramas

Format

Hardcover

Dimensions

Item Height

0.8 in

Item Weight

31 Oz

Item Length

9.6 in

Item Width

8.3 in

Additional Product Features

Edition Number

1

Intended Audience

College Audience

LCCN

98-009882

Dewey Edition

21

Reviews

PREFACE. INTRODUCTION: Objective. Automation and Robot. Brief History. Economic and Social Issues. Present and Future Applications. Summary. Questions. Problems. References. ROBOT CLASSIFICATION: Objectives. Manipulator Arm Geometry. Degrees of Freedom. Power Sources. Types of Motion. Path Control. Summary. Questions. Problems. References. ROBOT END EFFECTORS: Objectives. Types of End Effectors. Mechanical Grippers. Gripper Force Analysis. Other Types of Grippers. Special-purpose Grippers. Gripper Selection and Design. Process Tooling. Compliance. Summary. Questions. Problems. References. ROBOT TECHNOLOGY: Objectives. Fundamentals. General Characteristics. Basic Components. Robot Anatomy. Methods of Path Control. Robot Generations. Robot Selection. Summary. Questions. Problems. References. ROBOT SYSTEM ANALYSIS: Objectives. Robot Operation. Hierarchical Control Structure. Line Tracking. Dynamic Properties of Robots. Modular Robot Components. Summary. Questions. Problems. References. SENSORS: Objectives. Robot Sensors. Sensor Classification. Microswitches. Solid State Switches. Proximity Sensors. Photoelectric Sensors. Rotary Position Sensors. Usage and Selection of Sensors. Signal Processing. Sensor and Control Integration. Summary. Questions. Problems. References. VISION: Objectives. Visual Sensing. Machine Vision. Machine Vision Applications. Other Optical Methods. Summary. Questions. Problems. References. PROGRAMMING: Objectives. Robot Programming. Programming Methods. Programming Languages. Levels of Robot Programming. Space Position Programming. Motion Interpolation. Program Statements. Sample Programs. Summary. Questions. Problems. References. SAFETY: Objectives. Robot Safety. Safety Standards. System Reliability. Human Factor Issues. Safety Sensors and Monitoring. Safeguarding. Training. Safety Guidelines. Definitions. Summary. Questions. Problems. References. CONTROL SYSTEMS: Objectives. Control System Correlation. Control System Requirements. Programmable Logic Controller. PLC Programming Terminals. Proportional Integral Derivative. Computer Numerical Control. Microprocessor Unit. Universal Robot Controller. Interfacing. Workcell Control. Summary. Questions. Problems. References. ARTIFICIAL INTELLIGENCE: Objectives. Intelligent Systems. Elements of Artificial Intelligence. System Architecture. Applications of Advanced Robots. Fuzzy Logic for Robot Arm Control. Advanced Concepts and Procedures. Future Developments. Impact on Employment. Summary. Questions. Problems. References. INDUSTRIAL APPLICATIONS: Objectives. Automation in Manufacturing. Robot Applications. Material-Handling Applications Processing Operations. Assembly Operations. Inspection Operations. Evaluating the Potential of a Robot Application. Future Applications. Challenge for the Future. Summary. Questions. Problems. References. APPENDICES. GLOSSARY. ROBOT MANUFACTURERS. INDEX.

Illustrated

Yes

Dewey Decimal

670.42/72

Table Of Content

PREFACE. INTRODUCTION: Objective. Automation and Robot. Brief History. Economic and Social Issues. Present and Future Applications. Summary. Questions. Problems. References. ROBOT CLASSIFICATION: Objectives. Manipulator Arm Geometry. Degrees of Freedom. Power Sources. Types of Motion. Path Control. Summary. Questions. Problems. References. ROBOT END EFFECTORS: Objectives. Types of End Effectors. Mechanical Grippers. Gripper Force Analysis. Other Types of Grippers. Special-purpose Grippers. Gripper Selection and Design. Process Tooling. Compliance. Summary. Questions. Problems. References. ROBOT TECHNOLOGY: Objectives. Fundamentals. General Characteristics. Basic Components. Robot Anatomy. Methods of Path Control. Robot Generations. Robot Selection. Summary. Questions. Problems. References. ROBOT SYSTEM ANALYSIS: Objectives. Robot Operation. Hierarchical Control Structure. Line Tracking. Dynamic Properties of Robots. Modular Robot Components. Summary. Questions. Problems. References. SENSORS: Objectives. Robot Sensors. Sensor Classification. Microswitches. Solid State Switches. Proximity Sensors. Photoelectric Sensors. Rotary Position Sensors. Usage and Selection of Sensors. Signal Processing. Sensor and Control Integration. Summary. Questions. Problems. References. VISION: Objectives. Visual Sensing. Machine Vision. Machine Vision Applications. Other Optical Methods. Summary. Questions. Problems. References. PROGRAMMING: Objectives. Robot Programming. Programming Methods. Programming Languages. Levels of Robot Programming. Space Position Programming. Motion Interpolation. Program Statements. Sample Programs. Summary. Questions. Problems. References. SAFETY: Objectives. Robot Safety. Safety Standards. System Reliability. Human Factor Issues. Safety Sensors and Monitoring. Safeguarding. Training. Safety Guidelines. Definitions. Summary. Questions. Problems. References. CONTROL SYSTEMS: Objectives. Control System Correlation. Control System Requirements. Programmable Logic Controller. PLC Programming Terminals. Proportional Integral Derivative. Computer Numerical Control. Microprocessor Unit. Universal Robot Controller. Interfacing. Workcell Control. Summary. Questions. Problems. References. ARTIFICIAL INTELLIGENCE: Objectives. Intelligent Systems. Elements of Artificial Intelligence. System Architecture. Applications of Advanced Robots. Fuzzy Logic for Robot Arm Control. Advanced Concepts and Procedures. Future Developments. Impact on Employment. Summary. Questions. Problems. References. INDUSTRIAL APPLICATIONS: Objectives. Automation in Manufacturing. Robot Applications. Material-Handling Applications Processing Operations. Assembly Operations. Inspection Operations. Evaluating the Potential of a Robot Application. Future Applications. Challenge for the Future. Summary. Questions. Problems. References. APPENDICES. GLOSSARY. ROBOT MANUFACTURERS. INDEX.

Edition Description

New Edition

Synopsis

Robot Technology Fundamentals covers all the practical aspects, disciplines and latest developments of industrial robots and presents them in a simple, logical and gradually progressive manner. Principles and techniques are introduced by practical examples rather than by abstract theory. The content not only discusses current technology but emphasizes the technology of the future. Each chapter ends with a summary, questions and problems as well as a list of reference material for additional learning.ALSO AVAILABLEInstructor's Guide, ISBN: 0-8273-8237-, Robot Technology Fundamentals covers all the practical aspects, disciplines and latest developments of industrial robots and presents them in a simple, logical and gradually progressive manner. Principles and techniques are introduced by practical examples rather than by abstract theory. The content not only discusses current technology but emphasizes the technology of the future. Each chapter ends with a summary, questions and problems as well as a list of reference material for additional learning. ALSO AVAILABLE Instructor's Guide, ISBN: 0-8273-8237-

LC Classification Number

TJ211.K47 1999

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