Distributed Control of Robotic Networks A Mathematical Approach to Motion Coordination Algorithms

This self-contained introduction to the distributed control of robotic networks offers a distinctive blend of computer science and control theory. The book presents a broad set of tools for understanding coordination algorithms, determining their correctness, and assessing their complexity; and it a...

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Hlavní autori: Bullo, Francesco, Cortés, Jorge, Martínez, Sonia
Médium: E-kniha Kniha
Jazyk:English
Vydavateľské údaje: Princeton, N.J Princeton University Press 2009
Vydanie:1
Edícia:Princeton Series in Applied Mathematics
Predmet:
1-center problem
Adjacency matrix
Algebraic topology (object)
Algorithm
Analysis of algorithms
Bellman–Ford algorithm
Bounded set (topological vector space)
Calculation
Cartesian product
Chebyshev center
Circulant matrix
Circumscribed circle
Cluster analysis
Combinatorial optimization
Combinatorics
Communication complexity
Computation
Computational complexity theory
Computational geometry
Computer algorithms
Computer simulation
COMPUTERS / Computer Science
Connectivity (graph theory)
Consensus (computer science)
Control function (econometrics)
Control Systems
Differentiable function
Dimensional analysis
Directed graph
Discrete time and continuous time
Disk (mathematics)
Distributed algorithm
Dynamical system
Eigenvalues and eigenvectors
Estimation
Function composition
Information theory
Initial condition
Instance (computer science)
Kinematics
Laplacian matrix
Leader election
Linear dynamical system
Linear interpolation
Linear programming
Lipschitz continuity
Markov chain
Mathematical optimization
Mathematics
MATHEMATICS / Applied
Network model
Norm (mathematics)
Numerical integration
Optimal control
Optimization problem
Parameter (computer programming)
Permutation matrix
Polytope
Process Design, Control & Automation
Proportionality (mathematics)
Quantifier (logic)
Quantization (signal processing)
Robotics
Robotics and Control Systems
Robots
Robots > Control systems
Robustness (computer science)
Scientific notation
Sensor
Simply connected space
Simultaneous equations
State space
Stochastic
Stochastic matrix
Strongly connected component
Synchronous network
Technology
TECHNOLOGY & ENGINEERING
TECHNOLOGY & ENGINEERING / Robotics
Theorem
Time complexity
Topology
Vector field
Connectivity (graph theory)
Cluster analysis
Dynamical system
Robustness (computer science)
Stochastic
Synchronous network
Leader election
Eigenvalues and eigenvectors
Kinematics
Laplacian matrix
Calculation
Combinatorics
Circumscribed circle
Vector field
Discrete time and continuous time
Parameter (computer programming)
Linear interpolation
Stochastic matrix
Computer simulation
Simply connected space
Estimation
Disk (mathematics)
Topology
Algorithm
Computational geometry
Proportionality (mathematics)
Computation
Quantifier (logic)
Analysis of algorithms
Algebraic topology (object)
Mathematical optimization
Time complexity
Directed graph
Bellman–Ford algorithm
Sensor
Polytope
Function composition
State space
Combinatorial optimization
Quantization (signal processing)
Lipschitz continuity
Markov chain
Linear dynamical system
Network model
Computational complexity theory
Dimensional analysis
Theorem
Control function (econometrics)
Cartesian product
Differentiable function
Numerical integration
Initial condition
Bounded set (topological vector space)
Linear programming
Adjacency matrix
Instance (computer science)
Consensus (computer science)
Permutation matrix
Simultaneous equations
Strongly connected component
Norm (mathematics)
Optimal control
Circulant matrix
Distributed algorithm
Communication complexity
Scientific notation
Optimization problem
Information theory
1-center problem
Chebyshev center
ISBN:9780691141954, 0691141959, 0691146640, 9780691146645, 1400831474, 9781400831470
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  • Distributed control of robotic networks: A mathematical approach to motion coordination algorithms (Princeton series in applied mathematics) -- Contents -- Preface -- Chapter One: An introduction to distributed algorithms -- Chapter Two: Geometric models and optimization -- Chapter Three: Robotic network models and complexity notions -- Chapter Four: Connectivity maintenance and rendezvous -- Chapter Five: Deployment -- Chapter Six: Boundary estimation and tracking -- Bibliography -- Algorithm Index -- Subject Index -- Symbol Index
  • Front Matter Table of Contents Preface Chapter One: An introduction to distributed algorithms Chapter Two: Geometric models and optimization Chapter Three: Robotic network models and complexity notions Chapter Four: Connectivity maintenance and rendezvous Chapter Five: Deployment Chapter Six: Boundary estimation and tracking Bibliography Algorithm Index Subject Index Symbol Index
  • Title Page Preface Table of Contents 1. An Introduction to Distributed Algorithms 2. Geometric Models and Optimization 3. Robotic Network Models and Complexity Notions 4. Connectivity Maintenance and Rendezvous 5. Deployment 6. Boundary Estimation and Tracking Bibliography Algorithm Index Subject Index Symbol Index
  • Intro -- Preface -- An introduction to distributed algorithms -- Elementary concepts and notation -- Matrix theory -- Dynamical systems and stability theory -- Graph theory -- Distributed algorithms on synchronous networks -- Linear distributed algorithms -- Notes -- Proofs -- Exercises -- Geometric models and optimization -- Basic geometric notions -- Proximity graphs -- Geometric optimization problems and multicenter functions -- Notes -- Proofs -- Exercises -- Robotic network models and complexity notions -- A model for synchronous robotic networks -- Robotic networks with relative sensing -- Coordination tasks and complexity notions -- Complexity of direction agreement and equidistance -- Notes -- Proofs -- Exercises -- Connectivity maintenance and rendezvous -- Problem statement -- Connectivity maintenance algorithms -- Rendezvous algorithms -- Simulation results -- Notes -- Proofs -- Exercises -- Deployment -- Problem statement -- Deployment algorithms -- Simulation results -- Notes -- Proofs -- Exercises -- Boundary estimation and tracking -- Event-driven asynchronous robotic networks -- Problem statement -- Estimate update and cyclic balancing law -- Simulation results -- Notes -- Proofs -- Exercises -- Bibliography -- Algorithm Index -- Subject Index -- Symbol Index
  • Subject Index
  • Chapter Four. Connectivity maintenance and rendezvous
  • Chapter Two. Geometric models and optimization
  • Chapter Six. Boundary estimation and tracking
  • -
  • /
  • Algorithm Index
  • Contents
  • Symbol Index
  • Frontmatter --
  • Preface
  • Chapter One. An introduction to distributed algorithms
  • Chapter Three. Robotic network models and complexity notions
  • Chapter Five. Deployment
  • Bibliography