Process-driven support resource allocation simulation and optimization for missile equipment
With the deepening demand for the real combat-oriented and systematic development of missile equipment,the support activities of missiles equipment have become increasingly complex,which brings challenges to the allocation of support resource.Therefore,a process-driven simulation and optimization method for support resource allocation of missile equipment is proposed.Firstly,a process-driven support activities simulation model and algorithm for missile equipment are constructed based on the characteristic of high timeliness requirements and multiple resource constraints for missile equipment support activities.Secondly,an optimization model for missile equipment support resources is presented with the goal of support efficiency and the constraint of the economic scale.Finally,a simulation example is constructed to verify the effectiveness and adaptability of the proposed approach.The results show that the proposed process-driven support resource allocation simulation and optimization method can effectively plan the support activities schemes of missile equipment,evaluate the capability and optimize the support resource allocation for equipment,which can provide reliable support for the rational use and optimal resource scheduling of missile equipment.
support resource optimizationsimulation and optimizationmissile equipmentsupport activity simulation
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