Search results for "birth-death process"

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Logistic Growth Described by Birth-Death and Diffusion Processes

2019

We consider the logistic growth model and analyze its relevant properties, such as the limits, the monotony, the concavity, the inflection point, the maximum specific growth rate, the lag time, and the threshold crossing time problem. We also perform a comparison with other growth models, such as the Gompertz, Korf, and modified Korf models. Moreover, we focus on some stochastic counterparts of the logistic model. First, we study a time-inhomogeneous linear birth-death process whose conditional mean satisfies an equation of the same form of the logistic one. We also find a sufficient and necessary condition in order to have a logistic mean even in the presence of an absorbing endpoint. Then…

General MathematicsGompertz functionLogistic regressionConditional expectation01 natural sciencestransition probabilities03 medical and health sciencesFano factorComputer Science (miscellaneous)Applied mathematicsItô equationLimit (mathematics)0101 mathematicsLogistic functionStratonovich equationEngineering (miscellaneous)first-passage-time problem030304 developmental biologyMathematicslogistic model0303 health scienceslcsh:MathematicsItô equation010102 general mathematicsdiffusion processeslogistic model; birth-death process; first-passage-time problem; transition probabilities; Fano factor; coefficient of variation; diffusion processes; Itô equation; Stratonovich equation; diffusion in a potentiallcsh:QA1-939Birth–death processcoefficient of variationDiffusion processbirth-death processInflection pointdiffusion in a potentialMathematics
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A Time-Non-Homogeneous Double-Ended Queue with Failures and Repairs and Its Continuous Approximation

2018

We consider a time-non-homogeneous double-ended queue subject to catastrophes and repairs. The catastrophes occur according to a non-homogeneous Poisson process and lead the system into a state of failure. Instantaneously, the system is put under repair, such that repair time is governed by a time-varying intensity function. We analyze the transient and the asymptotic behavior of the queueing system. Moreover, we derive a heavy-traffic approximation that allows approximating the state of the systems by a time-non-homogeneous Wiener process subject to jumps to a spurious state (due to catastrophes) and random returns to the zero state (due to repairs). Special attention is devoted to the cas…

time-non-homogeneous jump-diffusion processesComputer scienceGeneral Mathematicsdouble-ended queues01 natural sciencestransition densitiesdouble-ended queues; time-non-homogeneous birth-death processes; catastrophes; repairs; transient probabilities; periodic intensity functions; time-non-homogeneous jump-diffusion processes; transition densities; first-passage-time010104 statistics & probabilitysymbols.namesakeZero state responseWiener processrepairsComputer Science (miscellaneous)Applied mathematicstime-non-homogeneous birth-death processes0101 mathematicsSpurious relationshipEngineering (miscellaneous)Queuefirst-passage-timeQueueing theorytransient probabilitieslcsh:Mathematics010102 general mathematicslcsh:QA1-939catastrophesperiodic intensity functionssymbolsDouble-ended queueFirst-hitting-time modelConstant (mathematics)Mathematics; Volume 6; Issue 5; Pages: 81
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