Selecting the Number of Sensor Scans in Surveillance Operations (2312.07857v1)

Abstract: Searching for concealed threats within a surveillance region is an important role for military sensors. One prominent case is the search for a submarine by a helicopter deploying a dipping sonar in anti-submarine warfare. Another is the utilisation of an uncrewed aerial vehicle for remote detection of land mines. These platforms will deploy an appropriate sensor to search within a given region for a potential threat. The sensors employed may not provide continuous surveillance, but may have active periods where the inherent sensor is scanning for threats. The reasons for disjoint activation periods may be both functional as well as tactical. Therefore, given a specified search pattern under which the surveillance platform operates, the question of the number of sensor scans required becomes relevant for search mission pre-planning. Hence it is not only important to develop a modelling framework to assess performance but it is of relevance to consider whether a minimum number of sensor scans can be determined to guarantee a desired level of performance. Consequently this paper introduces a framework for this and illustrates how it can be utilised in practice.