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Finding Interkilling Time Probability Distribution in Stochastic Combats  

홍윤기 (한성대학교 산업 및 기계시스템공학부)
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Journal of the military operations research society of Korea / v.28, no.2, 2002 , pp. 56-69 More about this Journal
Abstract
A technique of finding both probability density and distribution function for interkilling times is considered and demonstrated. An important result is that any arbitrary interfiring time random variables fit to this study, The interfiring renewal density function given a certain interfiring probability density function can be applied to obtain the corresponding interkilling renewal density function which helps us to estimate the expected number of killing events in a time period. The numerical inversion of Laplace transformation makes these possible and the results appear to be excellent. In case of ammunition supply is limited, an alternative way of getting the probability density function of time to the killing is investigated. The convolution technique may give us a means of settling for this new problem.
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