Probability Theory of Classical Euclidean Optimization Problems
Yukich, Joseph E.
Probability Theory of Classical Euclidean Optimization Problems [electronic resource] / by Joseph E. Yukich. - X, 154 p. online resource. - Lecture Notes in Mathematics, 1675 0075-8434 ; . - Lecture Notes in Mathematics, 1675 .
Subadditivity and superadditivity -- Subadditive and superadditive euclidean functionals -- Asymptotics for euclidean functionals: The uniform case -- Rates of convergence and heuristics -- Isoperimetry and concentration inequalities -- Umbrella theorems for euclidean functionals -- Applications and examples -- Minimal triangulations -- Geometric location problems -- Worst case growth rates.
This monograph describes the stochastic behavior of the solutions to the classic problems of Euclidean combinatorial optimization, computational geometry, and operations research. Using two-sided additivity and isoperimetry, it formulates general methods describing the total edge length of random graphs in Euclidean space. The approach furnishes strong laws of large numbers, large deviations, and rates of convergence for solutions to the random versions of various classic optimization problems, including the traveling salesman, minimal spanning tree, minimal matching, minimal triangulation, two-factor, and k-median problems. Essentially self-contained, this monograph may be read by probabilists, combinatorialists, graph theorists, and theoretical computer scientists.
9783540696278
10.1007/BFb0093472 doi
Geometry.
Distribution (Probability theory.
Geometry.
Probability Theory and Stochastic Processes.
QA440-699
516
Probability Theory of Classical Euclidean Optimization Problems [electronic resource] / by Joseph E. Yukich. - X, 154 p. online resource. - Lecture Notes in Mathematics, 1675 0075-8434 ; . - Lecture Notes in Mathematics, 1675 .
Subadditivity and superadditivity -- Subadditive and superadditive euclidean functionals -- Asymptotics for euclidean functionals: The uniform case -- Rates of convergence and heuristics -- Isoperimetry and concentration inequalities -- Umbrella theorems for euclidean functionals -- Applications and examples -- Minimal triangulations -- Geometric location problems -- Worst case growth rates.
This monograph describes the stochastic behavior of the solutions to the classic problems of Euclidean combinatorial optimization, computational geometry, and operations research. Using two-sided additivity and isoperimetry, it formulates general methods describing the total edge length of random graphs in Euclidean space. The approach furnishes strong laws of large numbers, large deviations, and rates of convergence for solutions to the random versions of various classic optimization problems, including the traveling salesman, minimal spanning tree, minimal matching, minimal triangulation, two-factor, and k-median problems. Essentially self-contained, this monograph may be read by probabilists, combinatorialists, graph theorists, and theoretical computer scientists.
9783540696278
10.1007/BFb0093472 doi
Geometry.
Distribution (Probability theory.
Geometry.
Probability Theory and Stochastic Processes.
QA440-699
516