Neural computing: theory and practice
Neural computing: theory and practice
Routing winter gritting vehicles
CO89 Selected papers of the conference on Combinatorial Optimization
The split delivery vehicle scheduling problem with time windows and grid network distances
Computers and Operations Research
Towards a model and algorithm management system for vehicle routing and scheduling problems
Decision Support Systems
Local Search in Combinatorial Optimization
Local Search in Combinatorial Optimization
Drive: Dynamic Routing of Independent Vehicles
Operations Research
Diversion Issues in Real-Time Vehicle Dispatching
Transportation Science
Complexity and Reducibility of the Skip Delivery Problem
Transportation Science
MIS research: a profile of leading journals and universities
ACM SIGMIS Database
Dynamic Vehicle Routing Based on Online Traffic Information
Transportation Science
Routing for a Just-in-Time Supply Pickup and Delivery System
Transportation Science
Journal of Intelligent & Fuzzy Systems: Applications in Engineering and Technology - SBRN'02
Optimal vehicle routing with real-time traffic information
IEEE Transactions on Intelligent Transportation Systems
Ant system: optimization by a colony of cooperating agents
IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics
Computers and Operations Research
Planning for a bus-based evacuation
OR Spectrum
Combination and comparison of different genetic encodings for the vehicle routing problem
EUROCAST'11 Proceedings of the 13th international conference on Computer Aided Systems Theory - Volume Part I
Heuristics for determining a patrol path of an unmanned combat vehicle
Computers and Industrial Engineering
Computers and Industrial Engineering
Development and assessment of the SHARP and RandSHARP algorithms for the arc routing problem
AI Communications - 18th RCRA International Workshop on “Experimental evaluation of algorithms for solving problems with combinatorial explosion”
An event-driven optimization framework for dynamic vehicle routing
Decision Support Systems
Expert Systems with Applications: An International Journal
A hybrid meta-heuristic for multi-objective vehicle routing problems with time windows
Computers and Industrial Engineering
Anticipatory routing of police helicopters
Expert Systems with Applications: An International Journal
Metaheuristic Approaches for Vehicle Routing Problems
International Journal of Information Systems and Supply Chain Management
The impact of food perishability issues in the vehicle routing problem
Computers and Industrial Engineering
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This paper presents a methodology for classifying the literature of the Vehicle Routing Problem (VRP). VRP as a field of study and practice is defined quite broadly. It is considered to encompass all of the managerial, physical, geographical, and informational considerations as well as the theoretic disciplines impacting this ever emerging-field. Over its lifespan the VRP literature has become quite disjointed and disparate. Keeping track of its development has become difficult because its subject matter transcends several academic disciplines and professions that range from algorithm design to traffic management. Consequently, this paper defines VRP's domain in its entirety, accomplishes an all-encompassing taxonomy for the VRP literature, and delineates all of VRP's facets in a parsimonious and discriminating manner. Sample articles chosen for their disparity are classified to illustrate the descriptive power and parsimony of the taxonomy. Moreover, all previously published VRP taxonomies are shown to be relatively myopic; that is, they are subsumed by what is herein presented. Because the VRP literature encompasses esoteric and highly theoretical articles at one extremum and descriptions of actual applications at the other, the article sampling includes the entire range of the VRP literature.