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H. Pham and X. Zhang, "A software cost model with warranty and risk costs", IEEE T. Comput., Vol. 48, pp. 71-75. 1999.
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H. Pham and X. Zhang, "Software release policies with gain in reliability justifying the costs", Ann. Softw. Eng., Vol. 8, pp. 147-166, 1999.
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R. P. Grag, K. Sharma, R. Kumar, and R. K. Grag, "Performance analysis of software reliability models using matrix method", World Academy of Science, Engineering and Technology, Vol. 47, pp. 31- 38, 2010.
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A. L. Goel and K. Okumoto, "Time dependent error detection rate model for software reliability and other performance measures", IEEE T. Reliab., Vol. R-28, pp. 206-211, 1979.
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S. Yamada, M. Ohba, and S. Osaki, "S-shaped reliability growth modeling for software fault detection", IEEE T. Reliab., Vol. 32, pp. 475-484, 1983.
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M. Ohba, "Software reliability analysis models", IBM J. Res. Dev., Vol. 28, pp. 428-443. 1984,
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M. Ohba, "Inflection S-shaped software reliability growth models", Stochastic models in reliability theory, S. Osaki and Y. Hatoyama Eds., Springer- Verlag, Berlin, Vol. 235, pp. 144-162, 1984.
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P. K. Kapur and R. B. Garg, "A software reliability growth model for an error removal phenomenon", Software Engineering Journal, Vol. 7, pp. 291-294, 1992.
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P. K. Kapur, R. B. Garg, and S. Kumar, "Contributions to hardware and software reliability", World Scientific Publishing Co. Ltd., Singapore, 1999.
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H. Pham, "System Software Reliability", Springer, Berlin, pp. 149-149, 2006.
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P. K. Kapur and H. Pham, "A unified approach for developing software reliability growth models in th presence of imperfect debugging and error generation", IEEE T. Reliab., Vol. 60, pp. 331-340, 2011.
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A. Wood, "Predicting software reliability". IEEE Computer, Vol. 11, pp. 69-77, 1996.
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L. Pham and H. Pham, "Software reliability models with time dependent hazard function based on Bayesian approach", IEEE T. Syst. Man. Cy. A, Vol. 30, pp. 25-35, 2000.
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Z. Jelinski and P. B. Moranda, "Software reliability research", Statistical computer performance evaluation, W. Freiberger Ed., Academic Press, New York, pp. 465-497, 1972.
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H. Pham, "Software reliability assessment: imperfect debugging and multiple failure types in software development", EGandG-RAAM-10737, Idaho National Engineering Laboratory, 1993.
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H. Pham, "A software cost model with imperfect debugging, random life cycle and penalty cost", Int. J. Syst. Sci., Vol. 27, pp. 455-463, 1996.
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H. Pham and X. Zhang, "An NHPP software reliability models and its comparison", Int. J. Rel. Qual. Saf. Eng., Vol. 4, pp. 269-282, 1997.
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H. Pham, "Software reliability and cost models: perspectives, comparison, and practice", Eur. J. Oper. Res., Vol. 149, pp. 475-789, 2003.
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H. Pham, L. Nordmann, and X. Zhang, "A general imperfect software debugging model with S-shaped fault detection rate", IEEE T. Reliab., Vol. 48, pp. 169-175, 1999.
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S. Yamada and S. Osaki, "Software reliability growth modeling: Models and applications", IEEE T. Software Eng., Vol. 11, pp. 1431-1437, 1985.
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H. Pham, "Software Reliability", Springer-Verlag, 2000.
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H. Pham, "An Imperfect-debugging fault-detection dependent-parameter software", International Journal of Automation and Computing, Vol. 4, pp. 325- 328, 2007.
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W. Ehrlich, B. Prasanna, J. Stampfel, and J. Wu, "Determining the cost of a stop-testing decision", IEEE Software, Vol, 10, pp. 33-42, 1993.
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X. Zhang, D. R. Jeske and H. Pham, "Calibrating software reliability models when the test environment does not match the user environment", Applied Stochastic Models in Business and Industry, Vol. 18, pp. 87-99, 2002.
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