Robotic Grasping and Fine Manipulation
When a person picks up a metal part and clamps it in the chuck of a lathe, he begins with his arm, proceeds with his wrist and finishes with his fingers. The arm brings the part near the chuck. The wrist positions the part, giving it the proper orientation to slide in. After the part is inserted, th...
| Main Author: | |
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| Format: | eBook |
| Language: | English |
| Published: |
New York, NY
Springer US
1985, 1985
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| Edition: | 1st ed. 1985 |
| Series: | The Springer International Series in Engineering and Computer Science
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| Subjects: | |
| Online Access: | |
| Collection: | Springer Book Archives -2004 - Collection details see MPG.ReNa |
Table of Contents:
- 1. Introduction
- 2. Previous Investigations of Fine Manipulation and Grasping
- 2.1 Fine Motion and Control
- 2.2 Robotic Wrists
- 2.3 Applications to Assembly and Surface Finishing Tasks
- 2.4 Passive Hands and Grippers
- 2.5 Active Hands and Grasping
- 3. Robot Tasks in a Metal-Working Cell
- 3.1 Task Descriptions
- 3.2 Discussion: Coupled Fine and Gross Motions
- 4. A Wrist for Fine-Motion Tasks
- 4.1 Wrist Description
- 4.2 Control Architecture
- 4.3 Experiments
- 4.4 Discussion of Results
- 5. Analysis for an Active Robot Hand
- 5.1 The Promise of Further Dexterity
- 5.2 Introduction to Grasp Analysis
- 5.3 Extension to Three-Dimensional Problems
- 5.4 A Closer Look at Contact Conditions
- 5.5 Examples
- 5.6 Summary
- 6. Natural Examples of Grasping
- 6.1 The Human Hand
- 6.2 Other Natural Examples
- 7. Designing Hands and Wrists for Manufacturing
- 7.1 Wrist Design
- 7.2 Hand Design
- 7.3 Control
- 8. Summary and Conclusions
- Appendix for Grasp Analysis
- A.1 Matrix Identities
- A.2 Matrix Method for Under Determined Finger Motions
- A.3 Differential Jacobians
- A.4 Rolling Contact
- A.5 Details for Examples in Section 5.5
- References