P. V. Ushakumari scite author profile

In this paper we study a k-out-of-n reliability system in which a single unreliable server maintains n identical components. The reliability system is studied under the (N,T) policy. An idle server takes a vacation for a random amount of time T and then attends to any failed component waiting in line upon completion of the vacation. The vacationing server is recalled instantaneously upon the failure of the Nth component. The failure times of the components are assumed to follow an exponential distribution. The server is subject to failure with failure times exponentially distributed. Repair times of the component, fixing times of the server, and vacationing times of the server are assumed to be of phase type. Using matrix-analytic methods we perform steady state analysis of this model. Time spent by a failed component in service, total time in the repair facility, vacation time of the server, non-vacation time of the server, and time until failure of the system are all shown to be of phase type. Several performance measures are evaluated. Illustrative numerical examples are presented.

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On (s, S) inventory system with random lead time and repeateddemands

Ushakumari

2006

International Journal of Stochastic Analysis

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We consider an (s,S) inventory system with random lead time and repeated demands of unsatisfied demands from the orbit. Whenever the inventory level falls to the level s, an order is placed to bring the level to S. The quantity ordered is M=S−s. Demands to the system are served immediately if there is a positive inventory. Otherwise it will go to a pool of unsatisfied customers called orbit. After a random amount of time, that demand is retried for service. We assume a Markovian setup for the time between consecutive arrivals, replenishments, and retrials. We obtained the condition for ergodicity of the system, steady state system size probabilities, expected length of the busy period of the system, expected inventory level, expected number of customers waiting in the orbit, expected waiting times, and so forth. A control problem is studied and some numerical illusrtations are provided.

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k-out-of-n system with repair: the max(N,T) policy

Ushakumari

Krishnamoorthy

2004

Performance Evaluation

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P. V. Ushakumari

k-out-of-n: G system with repair: the D-policy

Energy Efficient Data Acquisition Techniques Using Context Aware Sensing for Landslide Monitoring Systems

A k‐out‐of‐n reliability system with an unreliable server and phase type repairs and services: the (N, T) policy

On (s, S) inventory system with random lead time and repeateddemands

k-out-of-n system with repair: the max(N,T) policy

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