Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces

Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces

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Industrial robots are introduced to belt grinding processes of free-formed surface with elastic wheel nowadays in order to obtain high quality product and high efficiency. However, it is a laborious task to plan grinding paths and write programs for the robot. To release people from it partially, it...

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Main Authors: Xiang Zhang, Malik Cabaravdic, Klaus Kneupner, Bernd Kuhlenkoetter
Format: Article
Language:English
Published: SAGE Publishing 2004-06-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.5772/5627
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spelling doaj-56f82104498b4a64a24520fb61890da82020-11-25T02:47:50ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142004-06-01110.5772/562710.5772_5627Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured SurfacesXiang ZhangMalik CabaravdicKlaus KneupnerBernd KuhlenkoetterIndustrial robots are introduced to belt grinding processes of free-formed surface with elastic wheel nowadays in order to obtain high quality product and high efficiency. However, it is a laborious task to plan grinding paths and write programs for the robot. To release people from it partially, it is necessary to simulate the belt grinding processes which are useful for path generating and dynamic robot control. In this paper, we present a framework of the robot controlled belt grinding simulation system and some key issues in it. We enhance the global removal model to local process model, which can simulate the grinding process more exactly. We also point out the bottleneck of the real-time simulation and put forward a neural network based regression method to meet this difficulty. At the end of the paper, some simple simulation examples are given.https://doi.org/10.5772/5627
collection DOAJ
language English
format Article
sources DOAJ
author Xiang Zhang
Malik Cabaravdic
Klaus Kneupner
Bernd Kuhlenkoetter
spellingShingle Xiang Zhang
Malik Cabaravdic
Klaus Kneupner
Bernd Kuhlenkoetter
Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces
International Journal of Advanced Robotic Systems
author_facet Xiang Zhang
Malik Cabaravdic
Klaus Kneupner
Bernd Kuhlenkoetter
author_sort Xiang Zhang
title Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces
title_short Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces
title_full Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces
title_fullStr Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces
title_full_unstemmed Real-Time Simulation of Robot Controlled Belt Grinding Processes of Sculptured Surfaces
title_sort real-time simulation of robot controlled belt grinding processes of sculptured surfaces
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2004-06-01
description Industrial robots are introduced to belt grinding processes of free-formed surface with elastic wheel nowadays in order to obtain high quality product and high efficiency. However, it is a laborious task to plan grinding paths and write programs for the robot. To release people from it partially, it is necessary to simulate the belt grinding processes which are useful for path generating and dynamic robot control. In this paper, we present a framework of the robot controlled belt grinding simulation system and some key issues in it. We enhance the global removal model to local process model, which can simulate the grinding process more exactly. We also point out the bottleneck of the real-time simulation and put forward a neural network based regression method to meet this difficulty. At the end of the paper, some simple simulation examples are given.
url https://doi.org/10.5772/5627
work_keys_str_mv AT xiangzhang realtimesimulationofrobotcontrolledbeltgrindingprocessesofsculpturedsurfaces
AT malikcabaravdic realtimesimulationofrobotcontrolledbeltgrindingprocessesofsculpturedsurfaces
AT klauskneupner realtimesimulationofrobotcontrolledbeltgrindingprocessesofsculpturedsurfaces
AT berndkuhlenkoetter realtimesimulationofrobotcontrolledbeltgrindingprocessesofsculpturedsurfaces
_version_ 1724751018156097536

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