Verfügbarkeit: Robotics, vision and control

Robotics, vision and control: fundamental algorithms in MATLAB

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Bibliographische Detailangaben
1. Verfasser:	Corke, Peter I. 1959- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2011
Schriftenreihe:	Springer tracts in advanced robotics 73
Schlagworte:	Maschinelles Sehen MATLAB Bahnplanung SIMULINK Robotik Mobiler Roboter Roboterarm Visual servoing
Online-Zugang:	FCO01 Inhaltsverzeichnis
Beschreibung:	Zusätzliches Online-Angebot unter www.petercorke.com/RVC
Beschreibung:	XXIV, 570 S. Ill., graph. Darst.
ISBN:	3642201431 9783642201431

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Datensatz im Suchindex

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adam_text	Titel: Robotics, vision and control Autor: Corke, Peter Jahr: 2011 Contents 1 Introduction ................................................................1 1.1 About the Book ..............................................................6 1.1.1 The MATLAB Software .............................................7 1.1.2 Audience and Prerequisites .........................................8 1.1.3 Notation and Conventions ..........................................9 1.1.4 How to Use the Book ...............................................9 1.1.5 Teaching with the Book ........................................... 10 1.1.6 Outline ........................................................... 10 Part I Foundations ..................................................... 13 2 Representing Position and Orientation ................................... 15 2.1 Representing Pose in 2-Dimensions ....................................... 19 2.2 Representing Pose in 3-Dimensions ....................................... 24 2.2.1 Representing Orientation in 3-Dimensions ....................... 25 2.2.2 Combining Translation and Orientation .......................... 37 2.3 Wrapping Up .............................................................. 39 Further Reading ........................................................... 40 Exercises ..................................................................41 3 Time and Motion .........................................................43 3.1 Trajectories ................................................................ 43 3.1.1 Smooth One-Dimensional Trajectories ...........................43 3.1.2 Multi-Dimensional Case .......................................... 46 3.1.3 Multi-Segment Trajectories ....................................... 46 3.1.4 Interpolation of Orientation in 3D ................................48 3.1.5 Cartesian Motion ................................................. 49 3.2 Time Varying Coordinate Frames .......................................... 51 3.2.1 Rotating Coordinate Frame ....................................... 51 3.2.2 Incremental Motion .............................................. 52 3.2.3 Inertial Navigation Systems ...................................... 53 3.3 Wrapping Up .............................................................. 56 Further Reading ........................................................... 56 Exercises .................................................................. 56 Part II Mobile Robots ................................................... 59 4 Mobile Robot Vehicles .................................................... 65 4.1 Mobility ................................................................... 65 4.2 Car-like Mobile Robots .................................................... 67 4.2.1 Moving to a Point ................................................. 71 4.2.2 Following a Line .................................................. 72 4.2.3 Following a Path .................................................. 74 4.2.4 Moving to a Pose ................................................. 75 Contents 4.3 Flying Robots ............................................................. 78 4.4 Wrapping Up .............................................................. 84 Further Reading ........................................................... 84 Exercises .................................................................. 85 5 Navigation ................................................................ 87 5.1 Reactive Navigation ....................................................... 88 5.1.1 Braitenberg Vehicles .............................................. 88 5.1.2 Simple Automata ................................................. 90 5.2 Map-Based Planning ...................................................... 91 5.2.1 Distance Transform .............................................. 93 5.2.2 D* ................................................................ 95 5.2.3 Voronoi Roadmap Method ....................................... 97 5.2.4 Probabilistic Roadmap Method ................................... 99 5.2.5 RRT ............................................................. 102 5.3 Wrapping Up ............................................................. 104 Further Reading ..........................................................105 Exercises ................................................................. 106 6 Localization .............................................................. 107 6.1 Dead Reckoning .......................................................... Ill 6.1.1 Modeling the Vehicle ............................................ Ill 6.1.2 Estimating Pose ................................................. 113 6.2 Using a Map .............................................................. 116 6.3 Creating a Map ...........................................................120 6.4 Localization and Mapping ................................................ 123 6.5 Monte-Carlo Localization ................................................. 125 6.6 Wrapping Up ............................................................. 128 Further Reading .......................................................... 129 Notes on Toolbox Implementation ........................................ 130 Exercises ................................................................. 130 Part III Arm-Type Robots ............................................... 133 7 Robot Arm Kinematics ................................................... 137 7.1 Describing a Robot Arm ..................................................137 7.2 Forward Kinematics ...................................................... 140 7.2.1 A 2-Link Robot .................................................. 141 7.2.2 A 6-Axis Robot .................................................. 143 7.3 Inverse Kinematics ....................................................... 146 7.3.1 Closed-Form Solution ........................................... 146 7.3.2 Numerical Solution .............................................. 149 7.3.3 Under-Actuated Manipulator .................................... 149 7.3.4 Redundant Manipulator ......................................... 150 7.4 Trajectories ............................................................... 152 7.4.1 Joint-Space Motion .............................................. 153 7.4.2 Cartesian Motion ................................................ 155 7.4.3 Motion through a Singularity .................................... 156 7.4.4 Configuration Change ........................................... 157 7.5 Advanced Topics ......................................................... 158 7.5.1 Joint Angle Offsets ............................................... 158 7.5.2 Determining Denavit-Hartenberg Parameters ...................159 7.5.3 Modified Denavit-Hartenberg Notation ......................... 160 7.6 Application: Drawing ..................................................... 162 Contents 7.7 Application: a Simple Walking Robot ..................................... 163 7.7.1 Kinematics ...................................................... 163 7.7.2 Motion of One Leg ............................................... 165 7.7.3 Motion of Four Legs ............................................. 166 7.8 Wrapping Up ............................................................. 167 Further Reading .......................................................... 168 The plot Method .......................................................... 168 Exercises ................................................................. 170 8 Velocity Relationships ................................................... 171 8.1 Manipulator Jacobian ..................................................... 171 8.1.1 Transforming Velocities between Coordinate Frames ..................................... 174 8.1.2 Jacobian in the End-Effector Coordinate Frame .................. 175 8.1.3 Analytical Jacobian .............................................. 176 8.1.4 Jacobian Condition and Manipulability .......................... 177 8.2 Resolved-Rate Motion Control ............................................ 180 8.2.1 Jacobian Singularity ............................................. 182 8.2.2 Jacobian for under-Actuated Robot .............................. 183 8.2.3 Jacobian for over-Actuated Robot ................................ 184 8.3 Force Relationships ....................................................... 186 8.3.1 Transforming Wrenches between Frames ........................ 186 8.3.2 Transforming Wrenches to Joint Space ........................... 186 8.4 Inverse Kinematics: a General Numerical Approach ...................... 187 8.5 Wrapping Up ............................................................. 188 Further Reading ..........................................................189 Exercises .................................................................189 9 Dynamics and Control ................................................... 191 9.1 Equations of Motion ......................................................191 9.1.1 Gravity Term .................................................... 193 9.1.2 Inertia Matrix ................................................... 195 9.1.3 Coriolis Matrix ..................................................196 9.1.4 Effect of Payload ................................................. 197 9.1.5 Base Force ....................................................... 198 9.1.6 Dynamic Manipulability ......................................... 198 9.2 Drive Train ...............................................................200 9.2.1 Friction ..........................................................201 9.3 Forward Dynamics .......................................................202 9.4 Manipulator Joint Control ................................................204 9.4.1 Actuators ........................................................204 9.4.2 Independent Joint Control .......................................204 9.4.3 Rigid-Body Dynamics Compensation ............................211 9.4.4 Flexible Transmission ...........................................213 9.5 Wrapping Up .............................................................215 Further Reading ..........................................................216 Exercises .................................................................217 Part IV Computer Vision ................................................219 10 Light and Color ..........................................................223 10.1 Spectral Representation of Light ..........................................223 10.1.1 Absorption ......................................................225 10.1.2 Reflection .......................................................226 xviii Contents 10.2 Color .....................................................................227 10.2.1 Reproducing Colors .............................................230 10.2.2 Chromaticity Space ..............................................233 10.2.3 Color Names ....................................................236 10.2.4 Other Color Spaces ..............................................236 10.2.5 Transforming between Different Primaries ......................238 10.2.6 What Is White? ..................................................240 10.3 Advanced Topics .........................................................240 10.3.1 Color Constancy .................................................241 10.3.2 White Balancing .................................................241 10.3.3 Color Change Due to Absorption ................................242 10.3.4 Gamma ..........................................................243 10.3.5 Application: Color Image ........................................245 10.4 Wrapping Up .............................................................247 Further Reading ..........................................................248 Data Sources .............................................................249 Exercises .................................................................249 11 Image Formation ........................................................251 11.1 Perspective Transform ....................................................251 11.1.1 Lens Distortion ..................................................261 11.2 Camera Calibration .......................................................262 11.2.1 Homogeneous Transformation Approach ........................262 11.2.2 Decomposing the Camera Calibration Matrix ....................264 11.2.3 Pose Estimation .................................................266 11.2.4 Camera Calibration Toolbox .....................................266 11.3 Non-Perspective Imaging Models .........................................269 11.3.1 Fisheye Lens Camera ............................................270 11.3.2 Catadioptric Camera ............................................272 11.3.3 Spherical Camera ................................................274 11.4 Unified Imaging ..........................................................275 11.4.1 Mapping Wide-Angle Images to the Sphere ....................................................276 11.4.2 Synthetic Perspective Images ....................................278 11.5 Wrapping Up .............................................................280 Further Reading ..........................................................280 Camera Classes ...........................................................282 Exercises .................................................................283 12 Image Processing ........................................................285 12.1 Obtaining an Image ......................................................285 12.1.1 Images from Files ...............................................285 12.1.2 Images from an Attached Camera ...............................289 12.1.3 Images from a Movie File ........................................289 12.1.4 Images from the Web ............................................290 12.1.5 Images from Code ...............................................291 12.2 Monadic Operations ......................................................293 12.3 Diadic Operations ........................................................296 12.4 Spatial Operations ........................................................299 12.4.1 Convolution .....................................................300 12.4.2 Template Matching ..............................................311 12.4.3 Non-Linear Operations ..........................................316 12.5 Mathematical Morphology ...............................................317 12.5.1 Noise Removal ...................................................321 Contents xix 12.5.2 Boundary Detection .............................................322 12.5.3 Hit and Miss Transform .........................................322 12.6 Shape Changing ..........................................................324 12.6.1 Cropping ........................................................324 12.6.2 Image Resizing ..................................................324 12.6.3 Image Pyramids .................................................326 12.6.4 Image Warping ..................................................327 12.7 Wrapping Up .............................................................330 Further Reading ..........................................................330 Sources of Image Data ....................................................332 MATLAB® Software Tools ................................................332 General Software Tools ...................................................332 Exercises .................................................................333 13 Image Feature Extraction ................................................335 13.1 Region Features ..........................................................337 13.1.1 Classification ....................................................337 13.1.2 Representation ..................................................346 13.1.3 Description ......................................................350 13.1.4 Recap ............................................................360 13.2 Line Features .............................................................361 13.3 Point Features ............................................................365 13.3.1 Classical Corner Detectors .......................................366 13.3.2 Scale-Space Corner Detectors ....................................371 13.4 Wrapping Up .............................................................376 Further Reading ..........................................................376 Exercises .................................................................378 14 Using Multiple Images ...................................................381 14.1 Feature Correspondence ..................................................382 14.2 Geometry of Multiple Views ..............................................386 14.2.1 The Fundamental Matrix ........................................388 14.2.2 The Essential Matrix .............................................390 14.2.3 Estimating the Fundamental Matrix .............................391 14.2.4 Planar Homography .............................................396 14.3 Stereo Vision .............................................................401 14.3.1 Sparse Stereo ....................................................401 14.3.2 Dense Stereo Matching ..........................................405 14.3.3 Peak Refinement ................................................412 14.3.4 Cleaning up and Reconstruction .................................413 14.3.5 3D Texture Mapped Display .....................................415 14.3.6 Anaglyphs .......................................................416 14.3.7 Image Rectification ..............................................417 14.3.8 Plane Fitting .....................................................419 14.3.9 Matching Sets of 3D Points ......................................420 14.4 Structure and Motion ....................................................422 14.5 Application: Perspective Correction ......................................428 14.6 Application: Mosaicing ...................................................431 14.7 Application: Image Matching and Retrieval ...............................433 14.8 Application: Image Sequence Processing .................................439 14.9 Wrapping Up .............................................................442 Further Reading ..........................................................442 Resources ................................................................445 Exercises .................................................................446 Contents Part V Robotics, Vision and Control ....................................451 15 Vision-Based Control ....................................................455 15.1 Position-Based Visual Servoing ...........................................456 15.2 Image-Based Visual Servoing .............................................459 15.2.1 Camera and Image Motion ......................................460 15.2.2 Controlling Feature Motion ......................................464 15.2.3 Depth ...........................................................469 15.2.4 Performance Issues ..............................................471 15.3 Using Other Image Features ..............................................473 15.3.1 Line Features ....................................................473 15.3.2 Circle Features ...................................................474 15.4 Wrapping Up .............................................................476 Further Reading ..........................................................476 Exercises .................................................................478 16 Advanced Visual Servoing ...............................................481 16.1 XY/Z-Partitioned IBVS ...................................................481 16.2 IBVS Using Polar Coordinates ............................................484 16.3 IBVS for a Spherical Camera ..............................................486 16.4 Application: Arm-Type Robot ............................................488 16.5 Application: Mobile Robot ................................................489 16.5.1 Holonomic Mobile Robot ........................................489 16.5.2 Non-Holonomic Mobile Robot ...................................491 16.6 Application: Aerial Robot .................................................492 16.7 Wrapping Up .............................................................494 Further Reading ..........................................................494 Exercises .................................................................495 Appendices ..............................................................497 A Installing the Toolboxes .................................................499 B Simulink® ................................................................501 C MATLAB® Objects ........................................................505 D Linear Algebra Refresher ................................................511 E Ellipses ...................................................................517 F Gaussian Random Variables .............................................523 G Jacobians ................................................................527 H Kalman Filter .............................................................529 I Homogeneous Coordinates .............................................533 J Graphs ...................................................................535 K Peak Finding .............................................................539 Bibliography .............................................................543 Index .....................................................................553 Index of People ...........................................................553 Index of Functions, Classes and Methods .................................554 General Index ............................................................558
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id	DE-604.BV039619124
illustrated	Illustrated
indexdate	2024-07-10T00:07:34Z
institution	BVB
isbn	3642201431 9783642201431
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024469571
oclc_num	724964819
open_access_boolean
owner	DE-1043 DE-634 DE-83 DE-703 DE-861 DE-20 DE-573 DE-858
owner_facet	DE-1043 DE-634 DE-83 DE-703 DE-861 DE-20 DE-573 DE-858
physical	XXIV, 570 S. Ill., graph. Darst.
psigel	ZDB-30-PQE
publishDate	2011
publishDateSearch	2011
publishDateSort	2011
publisher	Springer
record_format	marc
series	Springer tracts in advanced robotics
series2	Springer tracts in advanced robotics
spelling	Corke, Peter I. 1959- Verfasser (DE-588)174089309 aut Robotics, vision and control fundamental algorithms in MATLAB Peter Corke Berlin [u.a.] Springer 2011 XXIV, 570 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer tracts in advanced robotics 73 Zusätzliches Online-Angebot unter www.petercorke.com/RVC Maschinelles Sehen (DE-588)4129594-8 gnd rswk-swf MATLAB (DE-588)4329066-8 gnd rswk-swf Bahnplanung (DE-588)4267628-9 gnd rswk-swf SIMULINK (DE-588)4480546-9 gnd rswk-swf Robotik (DE-588)4261462-4 gnd rswk-swf Mobiler Roboter (DE-588)4191911-7 gnd rswk-swf Roboterarm (DE-588)4507425-2 gnd rswk-swf Visual servoing (DE-588)7719524-3 gnd rswk-swf Robotik (DE-588)4261462-4 s Bahnplanung (DE-588)4267628-9 s Maschinelles Sehen (DE-588)4129594-8 s Mobiler Roboter (DE-588)4191911-7 s Roboterarm (DE-588)4507425-2 s Visual servoing (DE-588)7719524-3 s MATLAB (DE-588)4329066-8 s SIMULINK (DE-588)4480546-9 s DE-604 Erscheint auch als Online-Ausgabe 978-3-642-20144-8 Springer tracts in advanced robotics 73 (DE-604)BV016421724 73 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024469571&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Corke, Peter I. 1959- Robotics, vision and control fundamental algorithms in MATLAB Springer tracts in advanced robotics Maschinelles Sehen (DE-588)4129594-8 gnd MATLAB (DE-588)4329066-8 gnd Bahnplanung (DE-588)4267628-9 gnd SIMULINK (DE-588)4480546-9 gnd Robotik (DE-588)4261462-4 gnd Mobiler Roboter (DE-588)4191911-7 gnd Roboterarm (DE-588)4507425-2 gnd Visual servoing (DE-588)7719524-3 gnd
subject_GND	(DE-588)4129594-8 (DE-588)4329066-8 (DE-588)4267628-9 (DE-588)4480546-9 (DE-588)4261462-4 (DE-588)4191911-7 (DE-588)4507425-2 (DE-588)7719524-3
title	Robotics, vision and control fundamental algorithms in MATLAB
title_auth	Robotics, vision and control fundamental algorithms in MATLAB
title_exact_search	Robotics, vision and control fundamental algorithms in MATLAB
title_full	Robotics, vision and control fundamental algorithms in MATLAB Peter Corke
title_fullStr	Robotics, vision and control fundamental algorithms in MATLAB Peter Corke
title_full_unstemmed	Robotics, vision and control fundamental algorithms in MATLAB Peter Corke
title_short	Robotics, vision and control
title_sort	robotics vision and control fundamental algorithms in matlab
title_sub	fundamental algorithms in MATLAB
topic	Maschinelles Sehen (DE-588)4129594-8 gnd MATLAB (DE-588)4329066-8 gnd Bahnplanung (DE-588)4267628-9 gnd SIMULINK (DE-588)4480546-9 gnd Robotik (DE-588)4261462-4 gnd Mobiler Roboter (DE-588)4191911-7 gnd Roboterarm (DE-588)4507425-2 gnd Visual servoing (DE-588)7719524-3 gnd
topic_facet	Maschinelles Sehen MATLAB Bahnplanung SIMULINK Robotik Mobiler Roboter Roboterarm Visual servoing
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024469571&sequence=000004&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV016421724
work_keys_str_mv	AT corkepeteri roboticsvisionandcontrolfundamentalalgorithmsinmatlab

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