한티미디어 / (주)한티에듀

Principles of Robot Motion

Theory, Algorithms, and Implementations

역/저자	KEVIN LYNCH \| Howie M. Choset \| Seth Hutchinson

ISBN	9780262033275

판형	229*203

페이지	603

정가	49,000 원

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목 차

Robot motion planning has become a major focus of robotics. Research findings can be applied not only to robotics but to planning routes on circuit boards, directing digital actors in computer graphics, robot-assisted surgery and medicine, and in novel areas such as drug design and protein folding. This text reflects the great advances that have taken place in the last ten years, including sensor-based planning, probabalistic planning, localization and mapping, and motion planning for dynamic and nonholonomic systems. Its presentation makes the mathematical underpinnings of robot motion accessible to students of computer science and engineering, rleating low-level implementation details to high-level algorithmic concepts.

Foreword	p. xv
Preface	p. xvii
Acknowledgments	p. xxi
Introduction	p. 1
Overview of Concepts in Motion Planning	p. 9
Overview of the Book	p. 12
Mathematical Style	p. 13
Bug Algorithms	p. 17
Bug1 and Bug2	p. 17
Tangent Bug	p. 23
Implementation	p. 30
What Information: The Tangent Line	p. 31
How to Infer Information with Sensors: Distance and Gradient	p. 32
How to Process Sensor Information: Continuation Methods	p. 35
Configuration Space	p. 39
Specifying a Robot's Configuration	p. 40
Obstacles and the Configuration Space	p. 43
Circular Mobile Robot	p. 43
Two-Joint Planar Arm	p. 45
The Dimension of the Configuration Space	p. 47
The Topology of the Configuration Space	p. 50
Homeomorphisms and Diffeomorphisms	p. 51
Differentiable Manifolds	p. 55
Connectedness and Compactness	p. 58
Not All Configuration Spaces Are Manifolds	p. 59
Embeddings of Manifolds in R[superscript n]	p. 59
Matrix Representations of Rigid-Body Configuration	p. 60
Parameterizations of SO(3)	p. 66
Example Configuration Spaces	p. 68
Transforming Configuration and Velocity Representations	p. 69
Potential Functions	p. 77
Additive Attractive/Repulsive Potential	p. 80
Gradient Descent	p. 84
Computing Distance for Implementation in the Plane	p. 85
Mobile Robot Implementation	p. 86
Brushfire Algorithm: A Method to Compute Distance on a Grid	p. 86
Local Minima Problem	p. 89
Wave-Front Planner	p. 90
Navigation Potential Functions	p. 93
Sphere-Space	p. 93
Star-Space	p. 96
Potential Functions in Non-Euclidean Spaces	p. 99
Relationship between Forces in the Workspace and Configuration Space	p. 100
Potential Functions for Rigid-Body Robots	p. 101
Path Planning for Articulated Bodies	p. 104
Roadmaps	p. 107
Visibility Maps: The Visibility Graph	p. 110
Visibility Graph Definition	p. 110
Visibility Graph Construction	p. 113
Deformation Retracts: Generalized Voronoi Diagram	p. 117
GVD Definition	p. 118
GVD Roadmap Properties	p. 119
Deformation Retract Definition	p. 121
GVD Dimension: The Preimage Theorem and Critical Points	p. 123
Construction of the GVD	p. 126
Retract-like Structures: The Generalized Voronoi Graph	p. 129
GVG Dimension: Transversality	p. 130
Retract-like Structure Connectivity	p. 133
Lyapunov Control: Sensor-Based Construction of the HGVG	p. 136
Piecewise Retracts: The Rod-Hierarchical Generalized Voronoi Graph	p. 138
Silhouette Methods	p. 141
Canny's Roadmap Algorithm	p. 142
Opportunistic Path Planner	p. 151
Cell Decompositions	p. 161
Trapezoidal Decomposition	p. 162
Morse Cell Decompositions	p. 168
Boustrophedon Decomposition	p. 169
Morse Decomposition Definition	p. 170
Examples of Morse Decomposition: Variable Slice	p. 172
Sensor-Based Coverage	p. 178
Complexity of Coverage	p. 182
Visibility-Based Decompositions for Pursuit/Evasion	p. 187
Sampling-Based Algorithms	p. 197
Probabilistic Roadmaps	p. 202
Basic PRM	p. 203
A Practical Implementation of Basic PRM	p. 208
PRM Sampling Strategies	p. 216
PRM Connection Strategies	p. 225
Single-Query Sampling-Based Planners	p. 227
Expansive-Spaces Trees	p. 230
Rapidly-Exploring Random Trees	p. 233
Connection Strategies and the SBL Planner	p. 238
Integration of Planners: Sampling-Based Roadmap of Trees	p. 238
Analysis of PRM	p. 242
PRM Operating in R[superscript d]	p. 243
([epsilon, alpha, beta])-Expansiveness	p. 246
Abstract Path Tiling	p. 250
Beyond Basic Path Planning	p. 253
Control-Based Planning	p. 253
Multiple Robots	p. 254
Manipulation Planning	p. 257
Assembly Planning	p. 259
Flexible Objects	p. 260
Biological Applications	p. 262
Kalman Filtering	p. 269
Probabilistic Estimation	p. 270
Linear Kalman Filtering	p. 272
Overview	p. 273
A Simple Observer	p. 274
Observing with Probability Distributions	p. 277
The Kalman Filter	p. 282
Kalman Filter Summary	p. 284
Example: Kalman Filter for Dead Reckoning	p. 285
Observability in Linear Systems	p. 287
Extended Kalman Filter	p. 289
EKF for Range and Bearing Localization	p. 290
Data Association	p. 292
EKF for Range-Only Localization	p. 294
Kalman Filter for SLAM	p. 294
Simple SLAM	p. 294
Range and Bearing SLAM	p. 296
Bayesian Methods	p. 301
Localization	p. 301
The Basic Idea of Probabilistic Localization	p. 302
Probabilistic Localization as Recursive Bayesian Filtering	p. 304
Derivation of Probabilistic Localization	p. 308
Representations of the Posterior	p. 310
Sensor Models	p. 322
Mapping	p. 328
Mapping with Known Locations of the Robot	p. 328
Bayesian Simultaneous Localization and Mapping	p. 337
Robot Dynamics	p. 349
Lagrangian Dynamics	p. 349
Standard Forms for Dynamics	p. 353
Velocity Constraints	p. 357
Dynamics of a Rigid Body	p. 361
Planar Rotation	p. 362
Spatial Rotation	p. 363
Trajectory Planning	p. 373
Preliminaries	p. 374
Decoupled Trajectory Planning	p. 374
Zero Inertia Points	p. 378
Global Time-Optimal Trajectory Planning	p. 384
Direct Trajectory Planning	p. 384
Optimal Control	p. 385
Nonlinear Optimization	p. 389
Grid-Based Search	p. 392
Nonholonomic and Underactuated Systems	p. 401
Preliminaries	p. 402
Tangent Spaces and Vector Fields	p. 405
Distributions and Constraints	p. 407
Lie Brackets	p. 409
Control Systems	p. 414
Controllability	p. 416
Local Accessibility and Controllability	p. 419
Global Controllability	p. 422
Simple Mechanical Control Systems	p. 424
Simplified Controllability Tests	p. 425
Kinematic Reductions for Motion Planning	p. 434
Simple Mechanical Systems with Nonholonomic Constraints	p. 438
Motion Planning	p. 440
Optimal Control	p. 440
Steering Chained-Form Systems Using Sinusoids	p. 444
Nonlinear Optimization	p. 445
Gradient Methods for Driftless Systems	p. 446
Differentially Flat Systems	p. 447
Cars and Cars Pulling Trailers	p. 450
Kinematic Reductions of Mechanical Systems	p. 462
Other Approaches	p. 465
Mathematical Notation	p. 473
Basic Set Definitions	p. 475
Topology and Metric Spaces	p. 478
Topology	p. 478
Metric Spaces	p. 479
Normed and Inner Product Spaces	p. 480
Continuous Functions	p. 481
Jacobians and Gradients	p. 483
Curve Tracing	p. 487
Implicit Function Theorem	p. 487
Newton-Raphson Convergence Theorem	p. 488
Representations of Orientation	p. 489
Euler Angles	p. 489
Roll, Pitch, and Yaw Angles	p. 491
Axis-Angle Parameterization	p. 492
Quaternions	p. 494
Polyhedral Robots in Polyhedral Worlds	p. 499
Representing Polygons in Two Dimensions	p. 499
Intersection Tests for Polygons	p. 502
Configuration Space Obstacles in Q = R[superscript 2]: The Star Algorithm	p. 507
Configuration Space Obstacles in Q = SE(2)	p. 508
Computing Distances between Polytopes in R[superscript 2] and R[superscript 3]	p. 509
Analysis of Algorithms and Complexity Classes	p. 513
Running Time	p. 513
Complexity Theory	p. 515
Completeness	p. 520
Graph Representation and Basic Search	p. 521
Graphs	p. 521
A* Algorithm	p. 527
Basic Notation and Assumptions	p. 530
Discussion: Completeness, Efficiency, and Optimality	p. 531
Greedy-Search and Dijkstra's Algorithm	p. 532
Example of A* on a Grid	p. 533
Nonoptimistic Example	p. 535
D* Algorithm	p. 536
Optimal Plans	p. 546
Statistics Primer	p. 547
Distributions and Densities	p. 548
Expected Values and Covariances	p. 550
Multivariate Gaussian Distributions	p. 551
Linear Systems and Control	p. 552
State Space Representation	p. 552
Stability	p. 554
LTI Control Systems	p. 557
Observing LTI Systems	p. 559
Discrete Time Systems	p. 562
Stability	p. 562
Controllability and Observability	p. 563
Bibliography	p. 565
Index	p. 597
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