"Vertraging." . . . . "Optimització matemàtica" . . "Optimització matemàtica." . "Investigació operativa" . . "Algorithm Analysis and Problem Complexity" . . "Algorithm Analysis and Problem Complexity." . "Mathematisches Modell." . . "Business." . . "Optimierung." . . "Computer software." . . "Optimaliseren." . . "Circulació." . . "Tourenplanung." . . "Transport publiczny modele matematyczne." . . "Transports publics." . . "Algorismes." . . "TRANSPORTATION General." . . "Openbaar vervoer." . . "Preispolitik." . . "Operations Research/Decision Theory" . . "Operations Research/Decision Theory." . "Transport públic" . . "Operations Research, Mathematical Programming" . . "Operations Research, Mathematical Programming." . "Optimization in public transportation : stop location, delay management and tariff zone design in a public transportation network"@en . "Optimization in public transportation : stop location, delay management and tariff zone design in a public transportation network" . . . . . . . . "Optimization in Public Transportation" . . . . . "Optimization in public transportation : Stop location, delay management and tariff zone design in a public transportation network" . . . . "Optimization in Public Transportation : Stop Location, Delay Management and Tariff Zone Design in a Public Transportation Network" . . . . "\"Customer-Oriented Optimization in Public Transportation\" develops models, results and algorithms for optimizing public transportation from a customer-oriented point of view. The methods used are based on graph-theoretic approaches and integer programming. The specific topics are all motivated by real-world examples which occurred in practical projects. An appendix summarizes some of the basics of optimization needed to interpret the material in the book. In detail, the topics the book covers in its three parts are as follows: Stop location - Does it make sense to open new stations along existing bus or railway lines? If yes, in which locations? The problem is modeled as a continuous covering problem. To solve it, the author develops a finite dominating set and shows that efficient methods are possible if the special structure of the covering matrix is used; Delay management - Should a train wait for delayed feeder trains or should it depart in time? The author builds up two different integer programming models and a model based on project planning methods. Properties and solution methods are developed; Tariff planning.; Part 3 deals with the design of zone tariff systems, in which the fare is determined by the number of zones used by the passengers. The author presents a model for this problem and approaches based on clustering theory."@en . . . . . . . "Stop location, delay management and tariff zone design in a public transportation network" . "Stop location, delay management and tariff zone design in a public transportation network"@en . . . . . "Customer-Oriented Optimization in Public Transportation develops models, results and algorithms for optimizing public transportation from a customer-oriented point of view. The methods used are based on graph-theoretic approaches and integer programming. The specific topics are all motivated by real-world examples which occurred in practical projects. An appendix summarizes some of the basics of optimization needed to interpret the material in the book. In detail, the topics the book covers in its three parts are as follows: 1. Stop location. Does it make sense to open new stations along existing bus or railway lines? If yes, in which locations? The problem is modeled as a continuous covering problem. To solve it the author develops a finite dominating set and shows that efficient methods are possible if the special structure of the covering matrix is used. 2. Delay management. Should a train wait for delayed feeder trains or should it depart in time? The author builds up two different integer programming models and a model based on project planning methods. Properties and solution methods are developed. 3. Tariff planning. Part 3 deals with the design of zone tariff systems, in which the fare is determined by the number of zones used by the passengers. The author presents a model for this problem and approaches based on clustering theory. Audience This book is intended for operations research graduate students and researchers interested in a practical introduction to integer programming and algorithms." . . . . . . . . . . "Optimization in Public Transportation Stop Location, Delay Management and Tariff Zone Design in a Public Transportation Network" . . . . . . . . . . . "Electronic books" . "Electronic books"@en . . . . . . . . . . . . . "Llibres electrònics" . . "Optimization in public transportation : stop Location, delay management and tariff zone design in a public transportation network" . . . . . . . . "Optimization in public transportation stop location, delay management and tariff zone design in a public transportation network" . . . . "Optimization in public transportation stop location, delay management and tariff zone design in a public transportation network"@en . . . . . . . "Develops models, results and algorithms for optimizing public transportation from a customer-oriented point of view. This book uses methods that are based on graph-theoretic approaches and integer programming. It deals with the design of zone tariff systems, in which the fare is determined by the number of zones used by the passengers." . . . . . "Transportproblem." . . "Local transit Mathematical models." . . "Öffentlicher Verkehr." . . "Mathematics." . . "Fahrplan." . . "Electronic books." . . "BUSINESS & ECONOMICS Industries Transportation." . . "Transporte Política gubernamental." . . "Transports publics Modèles mathématiques." . . "Matemàtica." . . "Optimization" . . "Optimization." . "Models matemàtics." . . "Operations research." . . "Mathematical optimization." . . "Algorithms." . . "Optimisation combinatoire." . .