Your search keyword '"Screws, Theory of"' showing total 10 results

1. Screw Theory and Its Application to Spatial Robot Manipulators

Author

Carl D. Crane, III, Michael Griffis, Joseph Duffy, Carl D. Crane, III, Michael Griffis, and Joseph Duffy

Subjects

Screws, Theory of, Robotics--Mathematics, Manipulators (Mechanism)--Mathematics

Abstract

Discover a fresh take on classical screw theory and understand the geometry embedded within robots and mechanisms with this essential text. The book begins with a geometrical study of points, lines, and planes and slowly takes the reader toward a mastery of screw theory with some cutting-edge results, all while using only basic linear algebra and ordinary vectors. It features a discussion of the geometry of parallel and serial robot manipulators, in addition to the reciprocity of screws and a singularity study. All 41 essential screw systems are unveiled, establishing the possible freedom twists and constraint wrenches for a kinematic joint. Familiarizing the reader with screw geometry in order to study the statics and kinematics of robots and mechanisms, this is a perfect resource for engineers and graduate students.

Published

2022

2. Screw Theory in Robotics : An Illustrated and Practicable Introduction to Modern Mechanics

Author

Jose Pardos-Gotor and Jose Pardos-Gotor

Subjects

Robotics--Mathematics, Screws, Theory of, Mechanics

Abstract

Screw theory is an effective and efficient method used in robotics applications. This book demonstrates how to implement screw theory, explaining the key fundamentals and real-world applications using a practical and visual approach. An essential tool for those involved in the development of robotics implementations, the book uses case studies to analyze mechatronics. Screw theory offers a significant opportunity to interpret mechanics at a high level, facilitating contemporary geometric techniques in solving common robotics issues. Using these solutions results in an optimized performance in comparison to algebraic and numerical options. Demonstrating techniques such as six-dimensional (6D) vector notation and the Product of Exponentials (POE), the use of screw theory notation reduces the need for complex algebra, which results in simpler code, which is easier to write, comprehend, and debug. The book provides exercises and simulations to demonstrate this with new formulas and algorithms presented to aid the reader in accelerating their learning. By walking the user through the fundamentals of screw theory, and by providing a complete set of examples for the most common robot manipulator architecture, the book delivers an excellent foundation through which to comprehend screw theory developments. The visual approach of the book means it can be used as a self-learning tool for professionals alongside students. It will be of interest to those studying robotics, mechanics, mechanical engineering, and electrical engineering.

Published

2021

3. Kinematic Analysis of Parallel Manipulators by Algebraic Screw Theory

Author

Jaime Gallardo-Alvarado and Jaime Gallardo-Alvarado

Subjects

Robots--Kinematics, Screws, Theory of

Abstract

This book reviews the fundamentals of screw theory concerned with velocity analysis of rigid-bodies, confirmed with detailed and explicit proofs. The author additionally investigates acceleration, jerk, and hyper-jerk analyses of rigid-bodies following the trend of the velocity analysis. With the material provided in this book, readers can extend the theory of screws into the kinematics of optional order of rigid-bodies. Illustrative examples and exercises to reinforce learning are provided. Of particular note, the kinematics of emblematic parallel manipulators, such as the Delta robot as well as the original Gough and Stewart platforms are revisited applying, in addition to the theory of screws, new methods devoted to simplify the corresponding forward-displacement analysis, a challenging task for most parallel manipulators.

Published

2016

4. Characterisation of Human Jaw Biomechanics Based on Screw Theory

Author

Gal, Ja, Palla, S, Gallo, LM, Murray, GM, Klineberg, IJ, and Johnson, CW

Published

2003

5. The theory of screws a study in the dynamics of a rigid body / by Robert Stawell Ball.

Author

Ball, Robert S. Sir, (Robert Stawell), 1840-1913, University of California Libraries (archive.org), and Ball, Robert S. Sir, (Robert Stawell), 1840-1913

Subjects

Screws, Theory of

Published

1876

6. Effects of driving torques on screw withdrawal resistance from wood-based composites

Author

Tor, Onder and Tor, Onder

Subjects

Screws, Theory of., Safety factor in engineering., Furniture industry and trade., Engineered wood., Théorie des vis., Coefficient de sécurité en ingénierie., Meubles Industrie., Bois d'ingénierie., Engineered wood, Furniture industry and trade, Safety factor in engineering, Screws, Theory of

Abstract

This study evaluated effects of driving torques on screw direct withdrawal resistance (SDWR) from wood-based composites. The results on the screw seating torques indicated that the face-grain orientation of each material type had the highest mean load. The face-grain orientation of OSB had the highest mean load of 11.1 lb.in., and the MDF had the lowest mean load of 7lb.in. For the screw stripping torques, the result showed the face-grain orientation of each material type had the highest mean load. The face-grain orientation of OSB had the highest load of 55.9 lb.in. Effects of torque levels on SDWR, the results indicated that the SDWR was lower at the torque level closer to the seating and stripping torque levels in OSB, whereas the SDWR was only lower in the torque level closer to the stripping torque within MDF and PB. Face-grain orientations of the each wood material had the highest SDWR.

Published

2011

7. A unified theory of coordination for robotic mechanisms with general parallel or hybrid structures

Author

Ling, Shou-Hung., Florida Atlantic University (Degree grantor), Huang, Ming Z. (Thesis advisor), College of Engineering and Computer Science, Department of Ocean and Mechanical Engineering, Ling, Shou-Hung., Florida Atlantic University (Degree grantor), Huang, Ming Z. (Thesis advisor), College of Engineering and Computer Science, and Department of Ocean and Mechanical Engineering

Abstract

Summary: A well designed robot manipulator should have adequate workspace and good static-dynamic performance. It is well known that serial manipulators, while compared to similar size parallel ones, have larger workspace. However, due to their cantilever-like structure, the serial manipulators suffer from the disadvantage of having relatively poor static-dynamic performance. Contrarily, for fully parallel manipulators the good static-dynamic performance comes from the sacrifice of the workspace. Therefore, manipulators with more general geometries, in particular those with both the serial and the parallel modules, namely the hybrid manipulators, have attracted much of the research attention in robotics recently. While it can be asserted that kinematic theories and techniques are well established for fully serial-chain manipulators, the same assertion cannot be made when they are considered in the above general context. The research described in this dissertation is an undertaking toward the establishment of a general theory of coordination for robotic mechanisms with general parallel or hybrid structures. The scope of this research is concentrated in the kinematics aspect of the aforementioned class of robot manipulators with the main emphasis on the velocity (instantaneous) kinematics. A kinestatic approach, which is based on screw system theory, is adopted in this dissertation. This kinestatic approach leads to the establishment of a fundamental theorem, dubbed as the Parallel Manipulator Coordination Theorem, which integrates the idea of parallel and serial manipulators. Furthermore, the theorem enables us to develop an analysis strategy for systematic formulation and characterization of robotic mechanisms with general parallel (non-redundant) and hybrid geometries. The analysis strategy entails constraints, statics, velocity, and singularity considerations. One distinct advantage of using the screw system theory as the analysis tool is that it facilitates the a, College of Engineering and Computer Science, Collection: FAU Electronic Theses and Dissertations Collection, Thesis (Ph.D.)--Florida Atlantic University, 1994.

Published

1994

8. Geometrie der Kr̃fte, von dr. H.E. Timerding. Mit 27 Textfiguren.

Author

Timerding, H. E., Timerding, H.E. (Heinrich Emil), b. 1873., Timerding, H. E., and Timerding, H.E. (Heinrich Emil), b. 1873.

Abstract

Xi, [1], 381, [1] p. diagrs. 23 cm., (Dlps) ABV8276.0001.001., (Lccallno) QA841 .T58., Http://name.umdl.umich.edu/ABV8276.0001.001.

Published

1908

9. Geometrie der Kräfte, von dr. H. E. Timerding. Mit 27 Textfiguren.

Author

Timerding, H. E. (Heinrich Emil), b. 1873., Timerding, H. E. (Heinrich Emil), b. 1873., Timerding, H. E. (Heinrich Emil), b. 1873., and Timerding, H. E. (Heinrich Emil), b. 1873.

Abstract

xi, [1], 381, [1] p. diagrs. 23 cm., The University of Michigan Historical Mathematics Collection, (dlps) ABV8276.0001.001, (lccallno) QA841 .T58, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1908

10. Teorīi︠a︡ vintov i prilozhenīi︠a︡ ei︠a︡ k mekhaniki︠e︡. N. Zanchevskago.

Author

Zanchevskiĭ, Ivan Mikhaĭlovich, 1861, Zanchevskiĭ, Ivan Mikhaĭlovich, 1861, Zanchevskiĭ, Ivan Mikhaĭlovich, 1861, and Zanchevskiĭ, Ivan Mikhaĭlovich, 1861

Abstract

2 p. L. ii, xx, 131 p. fold. pl. (diagrs.) 25 cm., "Iz IX toma Zaposok Matematicheskago otdi︠e︡lenīi︠a︡ Noborossīĭskago obshchestva estestvoispytateleĭ.", Bibliographical foot-notes., The University of Michigan Historical Mathematics Collection, (dlps) ACR6171.0001.001, (lccallno) QA841 .Z27, https://www.lib.umich.edu/about-us/policies/copyright-policy

Published

1889