Improving transport optimization to smart city's competitiveness

The proposal of an intelligent logistics model that allows help the optimization of a Smart City is presented in this research, and thereby achieve reduce traffic accidents specifically those related to transport any type of product to generate energy. In addition, the problem of routing of vehicles (VRP) is the approach from which faces the problem of logistics, management and distribution of goods from one point to a destination. When is required to distribute loads to the classic problem, then it is considered the VRP with the capacity extension of (CVRP). The present research focuses on using a group of instances with the purpose of implementing an improvement transport model of hydrocarbonsation in the Metropolitan Area of Cuernavaca (MAC). The proposed algorithm used in this work is described below: a) start form the depot, b) examine the outputs that have not been served, outputs may be feasible and infeasible, c) for choose the best feasible outputs, for example having the shortest distance, insert it into the route and position before the last exit on that route, d) if there are more feasible outputs, repeat from point b), but to create a new route and start the flow from the point a), e) if all exits were covered, but finish initiate flow from the point a). The results show that the route can be optimized by distributing and reordering of units so that all points are covered to a Smart City.