Simulation Software For Robotics
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Robotic Simulation
Computer simulation of high-cost applications, especially those involving massive amounts of robotic equipment, is much more efficient than traditional laboratory means. This new textbook presents procedures that make an important contribution to the effective use of automated manufacturing. It also uses a unique combination of computer and robot skills to achieve solutions to the problems discussed throughout the text. Methods of utilizing existing simulation software are emphasized since this enables students to create workable robot designs through a better understanding of basic simulation techniques. Robotic Simulation is designed for introductory courses in simulation. For short courses or seminars, the chapters dealing with hardware-dependent applications can easily be omitted without interfering with the continuity of the text. The book's computerized simulation approach to robotics is an indispensable supplement to the normal methods taught in a course on robots.
Simulation Software for Robotics
Focuses on robotic hands and the control of robot arms and flexible fixturing. This multiauthored work provides a detailed overview of many aspects including: a variety of novel simulation methods used to graphically portray the grasps and tasks the now famous robotic hand from MIT carries out in practice, a new computer-assisted approach to the planning of form closure grasps and gripper design, manipulator dynamics modelling, computer-aided control system design, the application of 'dynamic linearization' to a kinematically redundant planar manipulator, use of dynamic equations and control algorithms for a parallel link manipulator, automation and flexibility in fixturing processes through design of modular and adaptable fixtures which can be robot operated. The final paper describes a flexible robotic system for sheet metal drilling and evaluation of the performance of that system through analysis and experimentation.
Simulation, Modeling, and Programming for Autonomous Robots
Author: Noriako Ando
language: en
Publisher: Springer Science & Business Media
Release Date: 2010-11-05
Why are the many highly capable autonomous robots that have been promised for novel applications driven by society, industry, and research not available - day despite the tremendous progress in robotics science and systems achieved during the last decades? Unfortunately, steady improvements in speci?c robot abilities and robot hardware have not been matched by corresponding robot performance in real world environments. This is mainly due to the lack of - vancements in robot software that master the development of robotic systems of ever increasing complexity. In addition, fundamental open problems are still awaiting sound answers while the development of new robotics applications s- fersfromthelackofwidelyusedtools,libraries,andalgorithmsthataredesigned in a modular and performant manner with standardized interfaces. Simulation environments are playing a major role not only in reducing development time and cost, e. g. , by systematic software- or hardware-in-the-loop testing of robot performance, but also in exploring new types of robots and applications. H- ever,their use may still be regardedwith skepticism. Seamless migrationof code using robot simulators to real-world systems is still a rare circumstance, due to the complexity of robot, world, sensor, and actuator modeling. These challenges drive the quest for the next generation of methodologies and tools for robot development. The objective of the International Conference on Simulation, Modeling, and ProgrammingforAutonomous Robots (SIMPAR) is to o?er a unique forum for these topics and to bring together researchersfrom academia and industry to identify and solve the key issues necessary to ease the development of increasingly complex robot software.