A decision making model for aircraft resources management

鄭德建, Cheng, Tak-kin.

January 1996

published_or_final_version / Business Administration / Master / Master of Business Administration

Airplanes - Seats.

Airlines - Management.

Airlines - Planning.

Decision-making.

Topics in airline operations

Rosenberger, Jay Michael

12 1900

No description available.

Airlines Planning

Scheduling Mathematics

Heuristic programming

Mathematical optimization

A model for predicting air travel demand in small communities

Donnelly, R.(Rick)

January 1985

Call number: LD2668 .T4 1985 D66 / Master of Regional and Community Planning

Masters theses

Airline crew pairing optimization problems and capacitated vehicle routing problems

Qiu, Shengli

11 April 2012

Crew pairing and vehicle routing are combinatorial optimization problems that have been studied for many years by researchers worldwide. The aim of this research work is to investigate effective methods for solving large scale crew pairing problems and vehicle routing problems. In the airline industry, to address the complex nature of crew pairing problems, we propose a duty tree method followed by a primal-dual subproblem simplex method. The duty tree approach captures the constraints that apply to crew pairings and generate candidate pairings taking advantage of various proposed strategies. A huge number of legal pairings are stored in the duty tree and can be enumerated. A set partitioning formulation is then constructed, and the problem is solved using a primal-dual subproblem simplex method tailored to the duty tree approach. Computational experiments are conducted to show the effectiveness of the methods. We also present our efforts addressing the capacitated vehicle routing problem (CVRP) that is the basic version of many other variants of the problem. We do not attempt to solve the CVRP instances that have been solved to optimality. Instead, we focus on investigating good solutions for large CVRP instances, with particular emphasis on those benchmark problems from the public online library that have not yet been solved to optimality by other researchers and determine whether we can find new best-known solutions. In this research, we propose a route network that can store a huge number of routes with all routes being legal, a set partitioning formulation that can handle many columns, and the primal-dual subproblem simplex method to find a solution. The computational results show that our proposed methods can achieve better solutions than the existing best-known solutions for some difficult instances. Upon convergence of the primal-dual subproblem simplex method on the giant-tour based networks, we use the near optimal primal and dual solution as well as solve the elementary shortest path problem with resource constraints to achieve the linear programming relaxation global optimal solution.

Crew pairing

Duty tree

Primal-dual subproblem simplex

Capacitated vehicle routing

Set partitioning

Combinatorial optimization

Scheduling

Airlines Planning

Flight crews