Handbook of Geometric Constraint Systems Principles

Name: Handbook of Geometric Constraint Systems Principles
Brand: Taylor & Francis Ltd
SKU: 9781032918303
Price: 186.0 EUR
Availability: InStock

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€186.00

Product variants

Age Group_Uncategorized

algebraic geometry

Audrey St. John

automatic-update

B01=Audrey St. John

B01=Jessica Sidman

B01=Meera Sitharam

Category1=Non-Fiction

Category=PBM

Category=PBV

Combinatorial Characterizations

Combinatorics

Constraint Graph

COP=United Kingdom

Delivery_Pre-order

Edge Disjoint Union

Edge Orbits

Edge Set

eq_isMigrated=2

eq_new_release

Equilibrium Stress

finite point sets

Gain Graph

Generic Rigidity

Geometric Constraint Systems

Geometric Elements

Globally Rigid

Grassmann Cayley Algebra

Independent Set

Inductive Construction

Infinitesimal Motion

Infinitesimally Rigid

Jessica Sidman

Language_English

PA=Not yet available

Price_€100 and above

PS=Forthcoming

pseudo-Euclidean Space

Rigid Graphs

Rigidity Matrix

Rigidity Matroid

softlaunch

Stress Matrix

Symmetric Framework

Symmetry Group

topology

Universally Rigid

Vertex Set

Product details

ISBN 9781032918303
Weight: 453g
Dimensions: 178 x 254mm
Publication Date: 14 Oct 2024
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Paperback
Language: English

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The Handbook of Geometric Constraint Systems Principles is an entry point to the currently used principal mathematical and computational tools and techniques of the geometric constraint system (GCS). It functions as a single source containing the core principles and results, accessible to both beginners and experts.

The handbook provides a guide for students learning basic concepts, as well as experts looking to pinpoint specific results or approaches in the broad landscape. As such, the editors created this handbook to serve as a useful tool for navigating the varied concepts, approaches and results found in GCS research.

Key Features:

- A comprehensive reference handbook authored by top researchers
- Includes fundamentals and techniques from multiple perspectives that span several research communities
- Provides recent results and a graded program of open problems and conjectures
- Can be used for senior undergraduate or graduate topics course introduction to the area
- Detailed list of figures and tables

About the Editors:

Meera Sitharam is currently an Associate Professor at the University of Florida’s Department of Computer & Information Science and Engineering. She received her Ph.D. at the University of Wisconsin, Madison.

Audrey St. John is an Associate Professor of Computer Science at Mount Holyoke College, who received her Ph. D. from UMass Amherst.

Jessica Sidman is a Professor of Mathematics on the John S. Kennedy Foundation at Mount Holyoke College. She received her Ph.D. from the University of Michigan.

Meera Sitharam is currently an Associate Professor at the University of Florida’s Department of Computer & Information Science and Engineering. She received her Ph.D. at the University of Wisconsin, Madison. http://www.cise.ufl.edu/~sitharam

Audrey St. John is an Associate Professor of Computer Science at Mount Holyoke College, who received her Ph. D. from UMass Amherst. http://minerva.cs.mtholyoke.edu/

Jessica Sidman is a Professor of Mathematics on the John S. Kennedy Foundation at Mount Holyoke College. She received her Ph.D. from the University of Michigan. http://www.mtholyoke.edu/~jsidman/