Exact and approximate route set generation for resilient partial observability in sensor location problems

Marco Rinaldi, Francesco Viti
2017 Transportation Research Part B: Methodological  
Sensor positioning is a fundamental problem in transportation networks, as the location of sensors strongly determines how traffic flows are observable and hence manageable. This paper aims to develop a methodology to determine sensor locations on a network such that an optimal trade-off solution is found between the amount of sensors installed and the resilience of the sensor set. In particular, we propose exact and heuristic solutions for identifying the optimal route sets such that no other
more » ... oute would include any additional information for finding optimal full and partial observability solutions. This is an important contribution to sensor location problems, as route-based link flow inference problems have non-unique solutions, strongly depending on the used link-route information. The properties of the new methodology are analysed and illustrated through different case studies, and the advantages of the algorithms are quantified both for full and for partial observability solutions. Thanks to the route sets found by our approach, we are able to find full observability solutions characterized by a small number of sensors, while yet being efficient also in terms of partial observability. We perform validation tests on both small and real-life sized network instances.
doi:10.1016/j.trb.2017.08.007 fatcat:axlpfegibze5znwi7satitihxm