Modeling and Solving the Intersection Inspection Rural Postman Problem

Local governments inspect roads to decide which segments and intersections to repair. Videos are taken using a camera mounted on a vehicle. The vehicle taking the videos proceeds straight or takes a left turn to cover an intersection fully. We introduce the intersection inspection rural postman problem (IIRPP), which is a new variant of the rural postman problem (RPP) that involves turns. We develop integer programming formulations of the IIRPP based on two different graph transformations to generate least-cost vehicle routes. One formulation is based on a new idea of transforming a graph. A second formulation is based on a graph transformation idea from the literature. Computational experiments show that the formulation involving the new graph transformation idea performs much better than the other formulation. We also develop an RPP-based heuristic and a heuristic based on a modified RPP. Heuristic solutions are improved by solving integer programming formulations on an induced subgraph. Computational experiments show that the heuristics based on the modified RPP perform much better than the RPP-based heuristics. The best-performing heuristic generates very good quality IIRPP-feasible routes on large street networks quickly. Summary of Contribution. Our paper addresses a real-world problem faced by local governments during road inspections. The real-world problem that we solve and the methodologies that we use fall at the intersection of computing and operations research. We introduce the intersection inspection rural postman problem, which is a new variant of the rural postman problem that involves turns to capture this real-world scenario. The rural postman problem is an important problem in vehicle routing. Studying new variants of this problem is key to extending the practice and theory of vehicle routing. We develop an integer programming formulation based on a new idea of transforming a graph and also develop heuristics based on the rural postman problem.

The Modified Rural Postman Problem in Vehicle Route Optimization

The submitted paper deals with designing routes of the vehicles, which provide the transport network services. We limit our focus to such tasks, where the priority is the edge service in the transport network and the initial problem is finding an Eulerian path. Regarding to real-life problems, this contribution presents such procedure of solving, which takes into account both the existence of a mixed transport network containing one-way roads and the existence of a wider transport network. In this network, there are only selected edges with possibility of the effective passages. This problem can be solved by the modified Rural Postman Problem assuming the strongly connected network. Linear programming is a suitable tool for designing optimal routes of service vehicles.