Verfügbarkeit: Fast perception-action loops with proximity sensors for robotic manipulators

Fast perception-action loops with proximity sensors for robotic manipulators:

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Bibliographische Detailangaben
1. Verfasser:	Ding, Yitao (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Düren Shaker 2022
Ausgabe:	1. Auflage
Schriftenreihe:	Progress in Robotics/Fortschritte der Robotik 3
Schlagworte:	Manipulator Automatische Handlungsplanung Näherungssensor Obstacle Avoidance Reactive Motions Impact Attenuation Proximity Servoing Proximity Perception Capacitive Proximity Sensors Collision Avoidance Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	x, 199 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 314 g
ISBN:	9783844087628 3844087621

Internformat

MARC


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Datensatz im Suchindex

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adam_text	C ONTENTS ABSTRACT III I INTRODUCTION 1 1 BACKGROUND AND MOTIVATION 3 1.1 BACKGROUND .................................................................................................. 3 1.2 BRIDGING THE PERCEPTION GAP ...................................................................... 5 1.3 ON-ROBOT PROXIMITY PERCEPTION ................................................................ 8 1.4 OVERVIEW OF ON-ROBOT PROXIMITY PERCEPTION APPLICATIONS ...................... 10 1.5 CLOSING THE SERVOING LOOP WITH REACTIVE MOTIONS AND ACTIONS ................. 11 1.6 MAIN CONTRIBUTIONS AND AIM OF THE THESIS ................................................. 13 2 BASIC KNOWLEDGE AND RELATED RESEARCH 17 2.1 ON-ROBOT PROXIMITY PERCEPTION: ARTIFICIAL SKINS ..................................... 17 2.1.1 SENSING MODALITIES ......................................................................... 18 2.1.2 CAPACITIVE PROXIMITY SENSING ....................................................... 22 2.1.2.1 CAPACITANCE MEASUREMENT ............................................. 22 2.1.2.2 CAPACITIVE PROXIMITY SENSING TOPOLOGIES ..................... 24 2.1.2.3 INFERRING PROXIMITY FROM CAPACITANCE ........................... 25 2.1.3 OVERVIEW OF ON-ROBOT PROXIMITY SENSING SYSTEMS ..................... 27 2.2 REACTIVE MOTIONS ........................................................................................ 34 2.2.1 INVERSE DIFFERENTIAL KINEMATICS .................................................... 34 2.2.2 TASK PRIORITIES ............................................................................... 38 2.2.3 SOLVING IDK WITH CONSTRAINED OPTIMIZATION ................................ 39 2.2.4 OVERVIEW ON REACTIVE MOTION GENERATION WITH ON-ROBOT PROX IMITY PERCEPTION .............................................................. 42 2.3 IMPACT ATTENUATION ..................................................................................... 45 2.3.1 IMPEDANCE CONTROLLERS ................................................................... 46 VII VIII CONTENTS 2.3.2 OVERVIEW OF NON-MECHANICAL IMPACT ATTENUATION METHODS . ... 48 II PROXIMITY PERCEPTION 51 3 ARCHITECTURE OF THE ON-ROBOT PROXIMITY PERCEPTION SYSTEM 53 3.1 CONCEPT ....................................................................................................... 53 3.1.1 DUAL MODALITY PROXIMITY SENSING MODULE ..................................... 54 3.2 MECHANICAL DESIGN ...................................................................................... 56 3.3 COMMUNICATION ............................................................................................ 57 3.3.1 INTER-SENSOR COMMUNICATION .......................................................... 60 3.4 PROXIMITY DATA PROCESSING AND SELF-MEASUREMENT REMOVAL ...................... 64 3.4.1 POINT CLOUD GENERATION AND CLASSIFICATION ..................................... 65 3.4.2 POINT CLOUD BUFFER ......................................................................... 70 4 CAPACITIVE PROXIMITY SENSING 73 4.1 DESIGN CONSIDERATIONS ................................................................................ 73 4.1.1 MAIN OBJECTIVES ............................................................................ 73 4.1.2 SENSITIVITY AND RANGE ................................................................... 75 4.1.3 DETECTION ROBUSTNESS AND EMI SUPPRESSION ................................. 78 4.1.4 NOISE SUPPRESSION AND FINAL SENSING CIRCUIT DESIGN .................. 79 4.1.5 SIGNAL PROCESSING ............................................................................ 81 4.2 EVALUATION ...................................................................................................... 84 4.2.1 DETECTION OF DIFFERENTLY GROUNDED OBJECTS .................................. 84 4.2.2 DETECTION VOLUME ............................................................................ 85 4.2.3 RANGE UNCERTAINTY ......................................................................... 88 4.3 CONCLUSION ................................................................................................. 88 III PROXIMITY SERVOED REACTIVE MOTIONS FOR COLLISION AVOIDANCE 91 5 REAL-TIME CONTROL SYSTEM 95 5. 1 SYSTEM OVERVIEW ......................................................................................... 95 5.2 REAL-TIME ROBOT CONTROL INTERFACE .............................................................. 96 6 SAMPLING-BASED METHODS FOR DYNAMIC COLLISION AVOIDANCE 101 6.1 CONCEPT ............................................................................................................ 101 6.2 TASK-PRIORITY DEFINITION IN TASK SPACE ........................................................... 103 6.3 AVOIDANCE VECTOR SAMPLING ............................................................................. 105 CONTENTS IX 6.4 REPULSIVE MOTION INTEGRATION ......................................................................... 106 6.5 QUALITY SCORES .................................................................................................. 107 6.6 EVALUATION AND DISCUSSION ............................................................................. 110 7 CONSTRAINED QUADRATIC OPTIMIZATION FOR DYNAMIC OBSTACLE AVOIDANCE 119 7.1 CONCEPT ........................................................................................................... 119 7.2 QUADRATIC PROGRAM AND CONSTRAINT DEFINITION ............................................... 119 7.2.1 OBJECTIVE FUNCTION ............................................................................. 120 7.2.2 JOINT CONSTRAINTS ................................................................................ 121 7.2.3 COLLISION AVOIDANCE CONSTRAINTS ........................................................ 125 7.2.4 COLLISION AVOIDANCE CONSTRAINT PARAMETER CONFIGURATION ............. 126 7.2.5 CONSTRAINT SATISFACTION THROUGH PRIORITY DEFINITION ......................... 127 7.3 EVALUATION AND CONCLUSION ............................................................................. 128 IV PROXIMITY SERVOED REACTIVE ACTIONS FOR IMPACT ATTENUATION 135 8 VARIABLE IMPEDANCE CONTROL FOR IMPACT ATTENUATION 139 8.1 CONCEPT .......................................................................................................... 141 8.2 STIFFNESS CONTROL .......................................................................................... 142 8.3 STABILITY .......................................................................................................... 144 8.4 ENERGY-TANK-BASED STIFFNESS CONTROL .......................................................... 146 8.5 EVALUATION AND CONCLUSION ........................................................................... 148 9 IMPROVING THE ATTENUATION EFFECTIVENESS OF IMPEDANCE CONTROLLERS BY JOINT RECONFIGURATION 153 9.1 CONCEPT .......................................................................................................... 154 9.2 JOINT RECONFIGURATION .................................................................................... 156 9.2.1 MANIPULABILITY APPROACH .................................................................... 156 9.2.2 INERTIA MATRIX APPROACH .................................................................... 157 9.2.3 QUADRATIC PROGRAM INTEGRATION ........................................................... 158 9.2.4 COLLISION ON ANY LINK .......................................................................... 159 9.3 EVALUATION AND CONCLUSION ........................................................................... 160 X CONTENTS V SUMMARY AND OUTLOOK 165 10 SUMMARY AND OUTLOOK 167 10.1 SUMMARY OF THE RESULTS .................................................................................. 167 10.1.1 PERCEPTION ....................................................................................... 167 10.1.2 OBSTACLE AND COLLISION AVOIDANCE ................................................... 168 10.1.3 IMPACT ATTENUATION ........................................................................... 169 10.2 OUTLOOK ...................................................................................................... 170 10.2.1 OUTLOOK FOR THE EXISTING SYSTEM ...................................................... 170 10.2.2 OUTLOOK FOR POTENTIAL APPLICATIONS ................................................... 172 BIBLIOGRAPHY 175 APPENDIX 187 A INVERSE MATRIX NOTATION ............................................................................... 187 B SENSOR SCHEMATICS ........................................................................................ 190 LIST OF FIGURES 193
adam_txt	C ONTENTS ABSTRACT III I INTRODUCTION 1 1 BACKGROUND AND MOTIVATION 3 1.1 BACKGROUND . 3 1.2 BRIDGING THE PERCEPTION GAP . 5 1.3 ON-ROBOT PROXIMITY PERCEPTION . 8 1.4 OVERVIEW OF ON-ROBOT PROXIMITY PERCEPTION APPLICATIONS . 10 1.5 CLOSING THE SERVOING LOOP WITH REACTIVE MOTIONS AND ACTIONS . 11 1.6 MAIN CONTRIBUTIONS AND AIM OF THE THESIS . 13 2 BASIC KNOWLEDGE AND RELATED RESEARCH 17 2.1 ON-ROBOT PROXIMITY PERCEPTION: ARTIFICIAL SKINS . 17 2.1.1 SENSING MODALITIES . 18 2.1.2 CAPACITIVE PROXIMITY SENSING . 22 2.1.2.1 CAPACITANCE MEASUREMENT . 22 2.1.2.2 CAPACITIVE PROXIMITY SENSING TOPOLOGIES . 24 2.1.2.3 INFERRING PROXIMITY FROM CAPACITANCE . 25 2.1.3 OVERVIEW OF ON-ROBOT PROXIMITY SENSING SYSTEMS . 27 2.2 REACTIVE MOTIONS . 34 2.2.1 INVERSE DIFFERENTIAL KINEMATICS . 34 2.2.2 TASK PRIORITIES . 38 2.2.3 SOLVING IDK WITH CONSTRAINED OPTIMIZATION . 39 2.2.4 OVERVIEW ON REACTIVE MOTION GENERATION WITH ON-ROBOT PROX IMITY PERCEPTION . 42 2.3 IMPACT ATTENUATION . 45 2.3.1 IMPEDANCE CONTROLLERS . 46 VII VIII CONTENTS 2.3.2 OVERVIEW OF NON-MECHANICAL IMPACT ATTENUATION METHODS . . 48 II PROXIMITY PERCEPTION 51 3 ARCHITECTURE OF THE ON-ROBOT PROXIMITY PERCEPTION SYSTEM 53 3.1 CONCEPT . 53 3.1.1 DUAL MODALITY PROXIMITY SENSING MODULE . 54 3.2 MECHANICAL DESIGN . 56 3.3 COMMUNICATION . 57 3.3.1 INTER-SENSOR COMMUNICATION . 60 3.4 PROXIMITY DATA PROCESSING AND SELF-MEASUREMENT REMOVAL . 64 3.4.1 POINT CLOUD GENERATION AND CLASSIFICATION . 65 3.4.2 POINT CLOUD BUFFER . 70 4 CAPACITIVE PROXIMITY SENSING 73 4.1 DESIGN CONSIDERATIONS . 73 4.1.1 MAIN OBJECTIVES . 73 4.1.2 SENSITIVITY AND RANGE . 75 4.1.3 DETECTION ROBUSTNESS AND EMI SUPPRESSION . 78 4.1.4 NOISE SUPPRESSION AND FINAL SENSING CIRCUIT DESIGN . 79 4.1.5 SIGNAL PROCESSING . 81 4.2 EVALUATION . 84 4.2.1 DETECTION OF DIFFERENTLY GROUNDED OBJECTS . 84 4.2.2 DETECTION VOLUME . 85 4.2.3 RANGE UNCERTAINTY . 88 4.3 CONCLUSION . 88 III PROXIMITY SERVOED REACTIVE MOTIONS FOR COLLISION AVOIDANCE 91 5 REAL-TIME CONTROL SYSTEM 95 5. 1 SYSTEM OVERVIEW . 95 5.2 REAL-TIME ROBOT CONTROL INTERFACE . 96 6 SAMPLING-BASED METHODS FOR DYNAMIC COLLISION AVOIDANCE 101 6.1 CONCEPT . 101 6.2 TASK-PRIORITY DEFINITION IN TASK SPACE . 103 6.3 AVOIDANCE VECTOR SAMPLING . 105 CONTENTS IX 6.4 REPULSIVE MOTION INTEGRATION . 106 6.5 QUALITY SCORES . 107 6.6 EVALUATION AND DISCUSSION . 110 7 CONSTRAINED QUADRATIC OPTIMIZATION FOR DYNAMIC OBSTACLE AVOIDANCE 119 7.1 CONCEPT . 119 7.2 QUADRATIC PROGRAM AND CONSTRAINT DEFINITION . 119 7.2.1 OBJECTIVE FUNCTION . 120 7.2.2 JOINT CONSTRAINTS . 121 7.2.3 COLLISION AVOIDANCE CONSTRAINTS . 125 7.2.4 COLLISION AVOIDANCE CONSTRAINT PARAMETER CONFIGURATION . 126 7.2.5 CONSTRAINT SATISFACTION THROUGH PRIORITY DEFINITION . 127 7.3 EVALUATION AND CONCLUSION . 128 IV PROXIMITY SERVOED REACTIVE ACTIONS FOR IMPACT ATTENUATION 135 8 VARIABLE IMPEDANCE CONTROL FOR IMPACT ATTENUATION 139 8.1 CONCEPT . 141 8.2 STIFFNESS CONTROL . 142 8.3 STABILITY . 144 8.4 ENERGY-TANK-BASED STIFFNESS CONTROL . 146 8.5 EVALUATION AND CONCLUSION . 148 9 IMPROVING THE ATTENUATION EFFECTIVENESS OF IMPEDANCE CONTROLLERS BY JOINT RECONFIGURATION 153 9.1 CONCEPT . 154 9.2 JOINT RECONFIGURATION . 156 9.2.1 MANIPULABILITY APPROACH . 156 9.2.2 INERTIA MATRIX APPROACH . 157 9.2.3 QUADRATIC PROGRAM INTEGRATION . 158 9.2.4 COLLISION ON ANY LINK . 159 9.3 EVALUATION AND CONCLUSION . 160 X CONTENTS V SUMMARY AND OUTLOOK 165 10 SUMMARY AND OUTLOOK 167 10.1 SUMMARY OF THE RESULTS . 167 10.1.1 PERCEPTION . 167 10.1.2 OBSTACLE AND COLLISION AVOIDANCE . 168 10.1.3 IMPACT ATTENUATION . 169 10.2 OUTLOOK . 170 10.2.1 OUTLOOK FOR THE EXISTING SYSTEM . 170 10.2.2 OUTLOOK FOR POTENTIAL APPLICATIONS . 172 BIBLIOGRAPHY 175 APPENDIX 187 A INVERSE MATRIX NOTATION . 187 B SENSOR SCHEMATICS . 190 LIST OF FIGURES 193
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spelling	Ding, Yitao Verfasser (DE-588)1268376841 aut Fast perception-action loops with proximity sensors for robotic manipulators Yitao Ding 1. Auflage Düren Shaker 2022 x, 199 Seiten Illustrationen, Diagramme 21 cm x 14.8 cm, 314 g txt rdacontent n rdamedia nc rdacarrier Progress in Robotics/Fortschritte der Robotik 3 Dissertation Technische Universität Chemnitz 2022 Manipulator (DE-588)4037349-6 gnd rswk-swf Automatische Handlungsplanung (DE-588)4211191-2 gnd rswk-swf Näherungssensor (DE-588)4565478-5 gnd rswk-swf Obstacle Avoidance Reactive Motions Impact Attenuation Proximity Servoing Proximity Perception Capacitive Proximity Sensors Collision Avoidance (DE-588)4113937-9 Hochschulschrift gnd-content Manipulator (DE-588)4037349-6 s Automatische Handlungsplanung (DE-588)4211191-2 s Näherungssensor (DE-588)4565478-5 s DE-604 Shaker Verlag (DE-588)1064118135 pbl Progress in Robotics/Fortschritte der Robotik 3 (DE-604)BV046343819 3 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033854633&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20220825 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Ding, Yitao Fast perception-action loops with proximity sensors for robotic manipulators Progress in Robotics/Fortschritte der Robotik Manipulator (DE-588)4037349-6 gnd Automatische Handlungsplanung (DE-588)4211191-2 gnd Näherungssensor (DE-588)4565478-5 gnd
subject_GND	(DE-588)4037349-6 (DE-588)4211191-2 (DE-588)4565478-5 (DE-588)4113937-9
title	Fast perception-action loops with proximity sensors for robotic manipulators
title_auth	Fast perception-action loops with proximity sensors for robotic manipulators
title_exact_search	Fast perception-action loops with proximity sensors for robotic manipulators
title_exact_search_txtP	Fast perception-action loops with proximity sensors for robotic manipulators
title_full	Fast perception-action loops with proximity sensors for robotic manipulators Yitao Ding
title_fullStr	Fast perception-action loops with proximity sensors for robotic manipulators Yitao Ding
title_full_unstemmed	Fast perception-action loops with proximity sensors for robotic manipulators Yitao Ding
title_short	Fast perception-action loops with proximity sensors for robotic manipulators
title_sort	fast perception action loops with proximity sensors for robotic manipulators
topic	Manipulator (DE-588)4037349-6 gnd Automatische Handlungsplanung (DE-588)4211191-2 gnd Näherungssensor (DE-588)4565478-5 gnd
topic_facet	Manipulator Automatische Handlungsplanung Näherungssensor Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033854633&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV046343819
work_keys_str_mv	AT dingyitao fastperceptionactionloopswithproximitysensorsforroboticmanipulators AT shakerverlag fastperceptionactionloopswithproximitysensorsforroboticmanipulators

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