© 1982

Control of Manipulation Robots

Theory and Application


Part of the Communications and Control Engineering Series book series (CCE, volume 2)

Table of contents

  1. Front Matter
    Pages I-XIII
  2. Miomir Vukobratović, Dragan Stokić
    Pages 1-30
  3. Miomir Vukobratović, Dragan Stokić
    Pages 31-68
  4. Miomir Vukobratović, Dragan Stokić
    Pages 69-166
  5. Miomir Vukobratović, Dragan Stokić
    Pages 167-360
  6. Back Matter
    Pages 361-363

About this book


This monograph represents the second book of the series entitled: "SCI­ ENTIFIC FUNDAl-1ENTALS OF ROBOTICS". While the first volume provides a study of the dynamics of spatial mechanisms and its application to the design of these mechanisms, the present one focuses on the synthesis -of control based~n the knowledge of dynamic models (presented in de­ tail in the first_ volume). In this way a logical continuity is formed in which one may easily recognize a "dynamic" approach to the design of manipulation r-obots and the synthesis of control algorithms based on exact mathematical models of dynamics of open spatial mechanisms. When writing the monograph, the authors had the following objective: to prove that a study of dynamic properties of manipulation mechanisms is justifiable, to use the dynamic properties in the synthesis of con­ trol algorithms, and to determine, from one case to another, a proper measure of dynamics depending on the type of manipulation task, the "v$!locity at which "it is carried out, and on the type of the manipu- tion mechanisms itself. The authors believe they have thus made the study of dynamics,' aimed at synthesizing algorithms for dynamic con­ trol, free from unnecessary academicism and allowed the readers to apply all the results presented here to practical purposes of manipu­ lator design in thfil broader sense of the word. At this point, the au­ thors would like to present some concepts which were their guidelines in preparing this text.


Industrieroboter Manipulator Regelung Robots algorithms control control algorithm feedback industrial robot robot robotics simulation stability

Authors and affiliations

  1. 1.Institute »Mihailo Pupin«BeogradYugoslavia

Bibliographic information