Verfügbarkeit: Online motion planning for dual arm industrial robots

Online motion planning for dual arm industrial robots:

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Bibliographische Detailangaben
1. Verfasser:	Beuke, Felix (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Stuttgart FRAUNHOFER VERLAG [2020]
Schriftenreihe:	Stuttgarter Beiträge zur Produktionsforschung Band 98
Schlagworte:	Industrieroboter Robotik Dual Arm Robots Industrial Robots Motion Planning Autonomous Systems Algorithms Ingenieure aus den Bereichen Forschung, Automatisierungstechnik undProduktionstechnik Hochschulschrift
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIII, 126 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm
ISBN:	9783839615614 3839615615

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS KURZINHALT III SHORT SUMMARY V LIST OF FIGURES XI LIST OF TABLES XIII 1 INTRODUCTION 1 1.1 THE FACTORY: A HIGH-SECURITY PRISON FOR ROBOTS ........................................................... 1 1.2 MOTIVATION ........................................................................................................................ 2 1.2.1 TECHNOLOGICAL PUSH ............................................................................................. 2 1.2.2 ECONOMICAL PULL ................................................................................................... 3 1.3 PROBLEM DEFINITION ...................................................................................................... 3 1.4 SOLUTION PROPOSAL AND CONTRIBUTION .......................................................................... 5 1.5 OUTLINE ........................................................................................................................... 6 2 FOUNDATIONS 7 2.1 KINEMATICS ................................................................................................................... 7 2.1.1 REPRESENTING POSITION .................................................................................... 8 2.1.2 REPRESENTING ROTATION .................................................................................... 8 2.1.3 EULER ANGLES ...................................................................................................... 10 2.1.4 HOMOGENEOUS TRANSFORMATIONS ....................................................................... 10 2.2 KINEMATIC CHAINS .......................................................................................................... 11 2.2.1 D-H PARAMETERS ............................................................................................... 12 2.2.2 WORKSPACE, CONFIGURATION SPACE AND FORWARD KINEMATICS ....................... 13 2.2.3 INVERSE KINEMATICS (IK) ................................................................................ 15 2.3 ROBOT MOTION: PATHS AND TRAJECTORIES ........................................................................ 18 3 STATE OF THE ART 21 3.1 TEACHING ROBOT APPLICATIONS .................................................................................... 21 3.1.1 ROBOT PROGRAMMING LANGUAGES .................................................................... 21 VII 3.1.2 ONLINE PROGRAMMING ........................................................................................ 25 3.1.3 OFFLINE PROGRAMMING ........................................................................................ 27 3.2 MOTION PLANNING .......................................................................................................... 29 3.2.1 PATH PLANNING ................................................................................................. 29 3.2.2 SAMPLING-BASED PATH PLANNING ........................................................................ 31 3.2.3 ARTIFICIAL POTENTIAL FIELDS .................................................................................. 35 3.3 COORDINATION OF MULTIPLE INDUSTRIAL ROBOTS ............................................................. 38 3.3.1 DUAL-ARM COORDINATION IN INDUSTRIAL APPLICATIONS ......................................... 39 3.3.2 DUAL-ARM COORDINATION IN ACADEMIC RESEARCH ............................................... 41 4 RESPONSIVE COORDINATION FOR INDUSTRIAL MANIPULATOR SYSTEMS 47 4.1 INTRODUCTION .................................................................................................................. 47 4.2 REQUIREMENTS FOR INDUSTRIAL APPLICATIONS ................................................................ 50 4.3 CENTRALIZED COORDINATION PLANNING .......................................................................... 52 4.4 DECOUPLED COORDINATION PLANNING - SYSTEM ARCHITECTURE ..................................... 53 4.4.1 ARCHITECTURE PARADIGMS ................................................................................. 53 4.4.2 R&R SYSTEM ARCHITECTURE .............................................................................. 55 4.4.3 THREADING .......................................................................................................... 58 4.5 COMPONENTS OF THE DEMONSTRATOR SYSTEM ................................................................ 58 4.5.1 3D SENSOR .......................................................................................................... 59 4.5.2 BEHAVIOR GENERATION ........................................................................................ 60 4.5.3 PATH AND TRAJECTORY PLANNING ........................................................................ 63 4.5.4 ROBOTIC DEMONSTRATOR SETUP ........................................................................... 67 4.6 ACHIEVING RESPONSIVE AND REACTIVE COORDINATION .................................................... 71 4.6.1 MOTION COMMAND INTERFACE ........................................................................... 71 4.6.2 OFFLINE COORDINATION ........................................................................................ 75 4.6.3 ONLINE COORDINATION ........................................................................................ 86 4.6.4 COORDINATION LAW GENERATOR ........................................................................ 87 4.6.5 ROBOT COMMAND GENERATOR ........................................................................... 90 4.7 INTER-THREAD COMMUNICATION ................................................................................... 91 4.8 REPLANNING .................................................................................................................. 93 4.8.1 R&R COORDINATOR THREAD-SYNCHRONIZED WORKFLOW EXAMPLE .......................... 94 4.9 RESOLVING DEADLOCKS .................................................................................................. 95 5 EVALUATION 99 5.1 RESPONSIVENESS ............................................................................................................ 99 5.2 REACTIVENESS .................................................................................................................... 100 VIII 5.3 COMPARISON WITH TASK-SPACE BASED ZONES .................................................................... 102 5.3.1 MANUAL COORDINATION APPROACH ........................................................................ 102 5.3.2 EXPERIMENTAL RESULTS ......................................................................................... 103 5.4 DEADLOCK AVOIDANCE ........................................................................................................ 105 6 CONCLUSION AND OUTLOOK 107 BIBLIOGRAPHY 109 IX
adam_txt	CONTENTS KURZINHALT III SHORT SUMMARY V LIST OF FIGURES XI LIST OF TABLES XIII 1 INTRODUCTION 1 1.1 THE FACTORY: A HIGH-SECURITY PRISON FOR ROBOTS . 1 1.2 MOTIVATION . 2 1.2.1 TECHNOLOGICAL PUSH . 2 1.2.2 ECONOMICAL PULL . 3 1.3 PROBLEM DEFINITION . 3 1.4 SOLUTION PROPOSAL AND CONTRIBUTION . 5 1.5 OUTLINE . 6 2 FOUNDATIONS 7 2.1 KINEMATICS . 7 2.1.1 REPRESENTING POSITION . 8 2.1.2 REPRESENTING ROTATION . 8 2.1.3 EULER ANGLES . 10 2.1.4 HOMOGENEOUS TRANSFORMATIONS . 10 2.2 KINEMATIC CHAINS . 11 2.2.1 D-H PARAMETERS . 12 2.2.2 WORKSPACE, CONFIGURATION SPACE AND FORWARD KINEMATICS . 13 2.2.3 INVERSE KINEMATICS (IK) . 15 2.3 ROBOT MOTION: PATHS AND TRAJECTORIES . 18 3 STATE OF THE ART 21 3.1 TEACHING ROBOT APPLICATIONS . 21 3.1.1 ROBOT PROGRAMMING LANGUAGES . 21 VII 3.1.2 ONLINE PROGRAMMING . 25 3.1.3 OFFLINE PROGRAMMING . 27 3.2 MOTION PLANNING . 29 3.2.1 PATH PLANNING . 29 3.2.2 SAMPLING-BASED PATH PLANNING . 31 3.2.3 ARTIFICIAL POTENTIAL FIELDS . 35 3.3 COORDINATION OF MULTIPLE INDUSTRIAL ROBOTS . 38 3.3.1 DUAL-ARM COORDINATION IN INDUSTRIAL APPLICATIONS . 39 3.3.2 DUAL-ARM COORDINATION IN ACADEMIC RESEARCH . 41 4 RESPONSIVE COORDINATION FOR INDUSTRIAL MANIPULATOR SYSTEMS 47 4.1 INTRODUCTION . 47 4.2 REQUIREMENTS FOR INDUSTRIAL APPLICATIONS . 50 4.3 CENTRALIZED COORDINATION PLANNING . 52 4.4 DECOUPLED COORDINATION PLANNING - SYSTEM ARCHITECTURE . 53 4.4.1 ARCHITECTURE PARADIGMS . 53 4.4.2 R&R SYSTEM ARCHITECTURE . 55 4.4.3 THREADING . 58 4.5 COMPONENTS OF THE DEMONSTRATOR SYSTEM . 58 4.5.1 3D SENSOR . 59 4.5.2 BEHAVIOR GENERATION . 60 4.5.3 PATH AND TRAJECTORY PLANNING . 63 4.5.4 ROBOTIC DEMONSTRATOR SETUP . 67 4.6 ACHIEVING RESPONSIVE AND REACTIVE COORDINATION . 71 4.6.1 MOTION COMMAND INTERFACE . 71 4.6.2 OFFLINE COORDINATION . 75 4.6.3 ONLINE COORDINATION . 86 4.6.4 COORDINATION LAW GENERATOR . 87 4.6.5 ROBOT COMMAND GENERATOR . 90 4.7 INTER-THREAD COMMUNICATION . 91 4.8 REPLANNING . 93 4.8.1 R&R COORDINATOR THREAD-SYNCHRONIZED WORKFLOW EXAMPLE . 94 4.9 RESOLVING DEADLOCKS . 95 5 EVALUATION 99 5.1 RESPONSIVENESS . 99 5.2 REACTIVENESS . 100 VIII 5.3 COMPARISON WITH TASK-SPACE BASED ZONES . 102 5.3.1 MANUAL COORDINATION APPROACH . 102 5.3.2 EXPERIMENTAL RESULTS . 103 5.4 DEADLOCK AVOIDANCE . 105 6 CONCLUSION AND OUTLOOK 107 BIBLIOGRAPHY 109 IX
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spelling	Beuke, Felix Verfasser (DE-588)1206897856 aut Online motion planning for dual arm industrial robots Felix Beuke Stuttgart FRAUNHOFER VERLAG [2020] XIII, 126 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm txt rdacontent n rdamedia nc rdacarrier Stuttgarter Beiträge zur Produktionsforschung Band 98 Dissertation Universität Stuttgart 2019 Industrieroboter (DE-588)4026861-5 gnd rswk-swf Robotik (DE-588)4261462-4 gnd rswk-swf Dual Arm Robots Industrial Robots Motion Planning Autonomous Systems Algorithms Ingenieure aus den Bereichen Forschung, Automatisierungstechnik undProduktionstechnik (DE-588)4113937-9 Hochschulschrift gnd-content Robotik (DE-588)4261462-4 s Industrieroboter (DE-588)4026861-5 s DE-604 Fraunhofer-Institut für Produktionstechnik und Automatisierung (DE-588)2058778-8 isb Fraunhofer IRB-Verlag (DE-588)4786605-6 pbl X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=0a0b4a92154d46338ed23156862e7be3&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034068519&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20221209 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Beuke, Felix Online motion planning for dual arm industrial robots Industrieroboter (DE-588)4026861-5 gnd Robotik (DE-588)4261462-4 gnd
subject_GND	(DE-588)4026861-5 (DE-588)4261462-4 (DE-588)4113937-9
title	Online motion planning for dual arm industrial robots
title_auth	Online motion planning for dual arm industrial robots
title_exact_search	Online motion planning for dual arm industrial robots
title_exact_search_txtP	Online motion planning for dual arm industrial robots
title_full	Online motion planning for dual arm industrial robots Felix Beuke
title_fullStr	Online motion planning for dual arm industrial robots Felix Beuke
title_full_unstemmed	Online motion planning for dual arm industrial robots Felix Beuke
title_short	Online motion planning for dual arm industrial robots
title_sort	online motion planning for dual arm industrial robots
topic	Industrieroboter (DE-588)4026861-5 gnd Robotik (DE-588)4261462-4 gnd
topic_facet	Industrieroboter Robotik Hochschulschrift
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