FIELD: instrument engineering.
SUBSTANCE: invention relates to the navigational instrument making and can find application in the troops automated control systems (ACS) for the radio control areas (RCA) determination, in which the rationally located mobile radio-receiving systems (MRRS) best operation conditions must be ensured and the MRRS movement optimum routes determination in the selected RCA or during the RCA change. For this, performing intended for the MRRS deployment area preliminary analysis, study and evaluation by the optimization method, for example, by dynamic programming method using the additive quality criterion (target function), at that, as the criterion constituents using the mathematical, informational or geometric primitives, characterizing, for example, the MRRS deployment areas inapplicability and these areas exclusion from the calculation, with the MRRS movement optimum route determination subsequent determination from the location point to the selected receiving positions based on the movement route passing conditions, moved MRRS tactical and technical characteristics and certain optimality criteria (minimum time spent on movement, shortest by length path, minimum energy costs, protective and masking properties of the terrain, etc.). As the movement optimal route selection tool, it is proposed to use the Dijkstra algorithm. At that, the following methods are used: the MRRS deployment areas selection method, based on the terrain evaluation method; MRRS movement method, with their adaptation according to the RES EA level, inside the selected RCA; methodology of the MRRS movement to the new geographic area in the event of their retargeting. Considering: concept of the geoinformation systems and new information technologies integration; operational and tactical operating conditions and performance characteristics of the MRRS intended for placement in the selected area; terrain tactical properties in combination with seasonal climatic and weather conditions; assessment of the possibilities for the MRRS application in the terrain geographically primitive area and the RCA optimized by the RES EA level; travel optimal route determination during the MRRS adaptation within the RCA; MRRS movement to the unevaluated area in case of retargeting optimum route determination, followed by its minimization and optimization in accordance with the deployment areas selection methodology; time spent for the MRRS movement, travel length, energy costs, etc.
EFFECT: expansion of functional capabilities on the basis of improvement in the RCA determination method, ensuring reduction in the time spent for the RCA selection, optimization of the MRRS adaptation process to the RCA by the EA level and the MRRS movement optimal route determination process during adaptation within the selected RCA or movement to the new geographic area in the case of the MRRS retargeting.
1 cl, 1 dwg
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Authors
Dates
2018-06-04—Published
2017-05-02—Filed