V.S.S. Yadavalli scite author profile

The paper describes a single perishing product inventory model in which items deteriorate in two phases and then perish. An independent demand takes place at constant rates for items in both phases. A demand for an item in Phase I not satisfied may be satisfied by an item in Phase II, based on a probability measure. Demand for items in Phase II during stock-out is lost. The reordering policy is an adjustable (S, s) policy with the lead-time following an arbitrary distribution. Identifying the underlying stochastic process as a renewal process, the probability distribution of the inventory level at any arbitrary point in time is obtained. The expressions for the mean stationary rates of lost demand, substituted demand, perished units and scrapped units are also derived. A numerical example is considered to highlight the results obtained.

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Modeling Software Fault Removal and Vulnerability Detection and Related Patch Release Policy

Anand¹,

Gupta²,

Klochkov³

et al. 2018

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Critical success factor utility based tool for ERP health assessment: a general framework

Kapur

Nagpal

Khatri

et al. 2014

Int J Syst Assur Eng Manag

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V.S.S. Yadavalli

Software reliability growth model with change-point and effort control using a power function of the testing time

Optimal spares and preventive maintenance frequencies for constrained industrial systems

A single product perishing inventory model with demand interaction

Modeling Software Fault Removal and Vulnerability Detection and Related Patch Release Policy

Critical success factor utility based tool for ERP health assessment: a general framework

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