Reliability modeling and optimization of the number of hot standby units in a system working with two operative units

Authors

  • Batra S Department of Mathematics, Maharshi Dayanand University, Rohtak, Haryana, India
  • Taneja G Department of Mathematics, Maharshi Dayanand University, Rohtak, Haryana, India

Keywords:

Two operative units, hot standby units, Regenerative point Technique, Profit analysis, Optimization

Abstract

In the present paper, a reliability model is developed about the profit analysis and Optimization of number of hot standby units for a system working with two operative units. Hot standby works in a similar manner as operating unit means that when an operating unit fails, hot standby unit works with the same efficiency as the operating unit. The optimization of hot standby units is very important factor for any industry/unit/system for increasing the reliability redundancy and achieving the maximum profit. Thus, reliability models with no/one/two/three hot standby units in a system working with two operative units are developed. The cut-off points with regard to revenue, failure rate, etc. have been obtained to determine as to how many standby unit(s) should be there for the system. Comparative study has also been made to see which and when one of these models is better than the other as far as the profitability of the system is concerned. Semi-Markov processes and regenerative point technique have been used to obtain various performability measures.

References

Goel, L.R. and P. Gupta (1983). Analysis of a Two-Unit Hot Standby System with Three Modes. Microelectronics reliability, 23(6), 1029-1033.

Christov, C. and N. Stoytcheva (1999). Reliability and Safety Research of Hot Standby Microcomputer Signally Systems. Periodica Polytechnica SER-TRANSP. ENG., 27(1-2), 17-28.

Rizwan, S.M., V. Khurana and G. Taneja (2005). Reliability modeling of a hot standby PLC system. Proc. of International conference on communication, computer and power. Sultan Qaboos University, Oman, 486–489.

Parashar, B. and G. Taneja (2007). Reliability and profit evaluation of a PLC hot standby system based on a master slave concept and two types of repair facilities. IEEE Transactions on Reliability, 56(3), 534-539.

Rizwan, S.M., V. Khurana and G. Taneja(2010). Reliability analysis of a hot standby industrial system. International Journal of Modelling and Simulation, 30(3), 315-322.

Kumari, S. and R. Kumar (2017). Comparative Analysis of Two-Unit Hot Standby Hardware-Software Systems with Impact of Imperfect Fault Coverages. International Journal of Statistics and Systems, 12(4), 705-719.

Manocha, A., G. Taneja, S. and Singh (2017). Stochastic and Cost-Benefit Analysis of Two Unit Hot Standby Database System. International Journal of Performability Engineering, 13(1), 63-72.

Batra, S. and G. Taneja (2018).Optimization of Number of Hot Standby Units through Reliability Models for a System Operative with One Unit. Int. j. Agricult. Stat. Sci., 14(1),365-370.

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Published

2024-02-26

How to Cite

Batra, S., & Taneja, G. (2024). Reliability modeling and optimization of the number of hot standby units in a system working with two operative units. COMPUSOFT: An International Journal of Advanced Computer Technology, 8(02), 3059–3068. Retrieved from https://ijact.in/index.php/j/article/view/481

Issue

Section

Original Research Article

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