The University of Dodoma

Personal Biodata

Name:	Srinivasa Rao Gadde
Gender:	Male
Nationality:	United Republic of Tanzania
Language:	English

Personal Contacts

Office Contacts

gadde.srinivasa@udom.ac.tz
114

Prof. Srinivasa Rao Gadde

Professor

About Srinivasa

Gadde Srinivasa Rao is presently working as a Professor of Statistics at the Department of Mathematics and Statistics, University of Dodoma, Tanzania. He boasts more than 190 publications in different peer-reviewed journals in national and international well-reputed journals, including the Journal of Applied Statistics, International Journal of Advanced Manufacturer Technology, IEEE Access, Communications in Statistics Theory and methods, Communications in Statistics Simulation and Computation, Journal of Testing and Evaluation, Arabian Journal for Science and Engineering, International Journal of Quality & Reliability Management, Economic Quality Control Quality and Reliability Engineering International, Quality and Reliability Engineering International and Journal of Statistical Computation and Simulation. His papers have been cited more than 2267 times with h-index 24 and i-10 index 64 (Google Coalitions). He is a reviewer of more than 60 well-reputed international journals. He is the author of four book/ book chapters published in Elsevier, Springer Nature and Taylor & Francis. His research interests include statistical inference, statistical process control, applied Statistics, acceptance sampling plans, reliability estimation and Neutrosophic statistics. He supervised one (1) PhD student and twenty (20) MSc students. He is currently supervising three (3) PhD students and four (4) MSc students. He got world scientists' recognition in AD Scientific Index- 2024. He got the first rank among the faculty member at the University of Dodoma, Tanzania. He is the President of the NSIA branch of Tanzania, Neutrosophic Science International Association (NSIA).

Academic Qualifications
Professional Qualifications

S/N	Study Level	Qualification Name	Institution	Year
1	Doctor of Philosophy	PhD in Statistics	Acharya Nagarjuna University	1998 - 2002
2	Master`s	MSc Statistics	Acharya Nagarjuna University	1986 - 1988
3	Bachelor	BSc ( Maths, Statistics and Physics)	Acharya Nagarjuna University	1982 - 1985

Records Not Found.

S/N	Title
1	Rao, G.S. (2013J). One-sided Cumulative Sum (CUSUM) control charts for the Erlang-truncated exponential distribution, Computational Methods in Science & Technology, 19(4) 229-234. DOI: 10.12921/cmst.2013.19.04.229-234.
2	Aslam, M., Rao, G.S., Khan, N., and Jun, CH. (2014 a). SkSP-V sampling plan for the exponentiated Weibull distribution, Journal of Testing and Evaluation, 42 (3), 687-694. doi:10.1520/JTE20130051.
3	Rao, G.S. and Ramesh, Ch. (2014 b). Acceptance sampling plans for percentiles based on the exponentiated half logistic distribution, Applications and Applied Mathematics: An international Journal, 9(1), 39- 53.
4	Aslam, M., Rao, G.S. and Khan, N. (2014 c). Improved group acceptance sampling plan for the Weibull distribution, European Journal of Scientific Research, 121(2), 174–182.
5	Rao, P.R. and Rao, G.S. (2014d). Acceptance sampling plans for Marshall-Olkin extended Weibull distribution, International Journal of Agricultural and Statistical Science, 10 (1), 21–26.
6	Rao, G.S. (2014e). Estimation of reliability in multicomponent stress-strength based on generalized Rayleigh distribution, Journal of Modern Applied Statistical Methods, 13(1), 367–379. DOI: 10.22237/jmasm/1398918180.
7	Rao, G.S., Rosaiah,K., Sridhar Babu, M., and Siva Kumar, D.C.U. (2014f). A two-stage group sampling plan based on truncated life tests for a exponentiated Fréchet distribution, European Scientific Journal, 10 (33), 145–160.
8	Rao, G.S., and Rao, B.S. (2014g). Group acceptance sampling plans for resubmitted lots for life tests based on half logistic distribution, Journal of Data Science, 12,647–660.
9	Aslam, M., Balamurali, S., Azam, M., Rao, G.S., and Jun, CH. (2015a). Mixed multiple dependent state sampling plans based on process capability index. Journal of Testing and Evaluation, 43(1), 171–178. doi:10.1520/JTE20130009.
10	Rao, G.S. (2015b). An economic reliability test plan based on truncated life tests for Marshall-Olkin extended Weibull distribution, International Journal of Mathematics and Computational Science, 1(2), 50–54.
11	Rao, G.S. (2015c). Estimation of stress-strength reliability from truncated Type-I generalized logistic distribution. Int. J. of Mathematics in Operational Research, 7(4), 372–382. DOI: 10.1504/IJMOR.2015.070188.
12	Rao, G.S. and Ramesh, Ch. (2015d). An exponentiated half logistic distribution to develop a group acceptance sampling plans with truncated time. Journal of Statistics and Management Systems, 18(6), 519–531. http://dx.doi.org/10.1080/09720510.2014.968376.
13	Rao, G.S., Aslam, M., and Kundu, D. (2015e). Burr-XII distribution parametric estimation and estimation of reliability of multicomponent stress-strength. Communications in Statistics-Theory and Methods, 44(23), 4953–4961. http://dx.doi.org/10.1080/03610926.2013.821490.
14	Rao, G.S., Rosaiah, K. and Prasad, S.V.S.V. (2015 f). Group acceptance sampling plans for resubmitted lots for life tests based on type-II generalized log logistic distribution. European Journal of Scientific Research, 136(1), 98–106.
15	Rao, G.S., Rosaiah, K., and Sridharbabu, M. (2015g). Estimation of reliability in multicomponent stress-strength based on exponentiated Fréchet distribution, International Journal of Applied Research and Studies, IV(12), 1–10.
16	Rao, G.S., Aslam, M., and Kantam, R.R.L. (2016a). Bootstrap confidence intervals of CNpk for inverse Rayleigh and log-logistic distributions. Journal of Statistical Computation and Simulation, 86(5), 862–873. http://dx.doi.org/10.1080/00949655.2015.1040799.
17	Rao, G.S. and Ramesh, Ch. (2016b). Group acceptance sampling plans for resubmitted lots under exponentiated half logistic distribution, Journal of Industrial and Production Engineering, 33(2), 114-122. http://dx.doi.org/10.1080/21681015.2015.1111265.
18	Rosaiah, K., Rao, G. S. and SridharBabu, M. (2016c). An economic reliability test plan for exponentiated Fréchet distribution. Asian Journal of Science and Technology, 7(2), 2455–2459.
19	Rao, G.S., Rosaiah, K. and Sridharbabu, M. (2016d). Group acceptance sampling plans for lifetimes following an exponentiated Fréchet distribution, International Journal of Applied Research and Studies, V(3), 1–13. DOI: 10.20908/ijars.v5i3.9466.
20	Rao, G.S., Rosaiah, K., SridharBabu, M., and Sivakumar, D. C. U. (2016e). A new acceptance sampling plans based on percentiles for exponentiated Fréchet distribution. Economic Quality Control, 31(1), 37–44. DOI: 10.1515/eqc-2015-0011.
21	Rosaiah, K, Rao, G.S. Sivakumar, D.C.U. and Kalyani, K. (2016f). The Odd generalized exponential log-logistic distribution, International Journal of Mathematics and Statistics Invention, 4(5), 21-29.
22	Rao, B. S and Rao, G. S. (2016g). A two-stage group acceptance sampling plan based on life tests for half logistic distribution, Model Assisted Statistics and Applications, 11(3), 203-211. DOI: 10.3233/MAS-160368.
23	Rao, G.S., Rosaiah, K. and Babu, M.S. (2016h). Estimation of stress-strength reliability from exponentiated Fréchet distribution, International Journal of Advanced Manufacturing Technology, 86, 9–12, 3041–3049. doi:10.1007/s00170-016-8404-z.
24	Rosaiah, K., Rao, G.S. and Prasad, S V S V S V. (2016i). A group acceptance sampling plans based on truncated life tests for Type-II generalized log-logistic distribution, ProbStat Forum, 9, 88-94.
25	G.S. Rao, Rosaiah, K., Kalyani, K. and Sivakumar, D.C.U. (2016J). A new acceptance sampling plans based on percentiles for odds exponential log-logistic distribution, The Open Statistics & Probability Journal, 7, 45–52. DOI: 10.2174/1876527001607010045.
26	Rosaiah, K, Rao, G.S., Kalyani, K., and Sivakumar, D.C.U. (2016k). Group acceptance sampling plans for lifetimes following an odds exponential log logistic distribution, Sri Lankan Journal of Applied Statistics, 17(3), 201-216. DOI: http://doi.org/10.4038/sljastats.v17i3.7903.
27	Aslam, M., Rao, G. S, Ahmad, L., and Jun, C-H. (2017a). A control chart for multivariate Poisson distribution using repetitive sampling. Journal of Applied Statistics, 44:1, 123–136. DOI: 10.1080/02664763.2016.1164837.
28	Rao, G. S. (2017 b). Reliability estimation in multicomponent stress-strength based on Erlang-truncated exponential distribution, International Journal of Quality & Reliability Management, 34 (3), 438–445. DOI 10.1108/IJQRM-11-2012-0147.
29	Rao, G. S. and Aslam, M. (2017c). Resubmitted lots with single sampling plans by attributes under the conditions of zero-inflated Poisson distribution, Communications in Statistics-Simulation and Computation, 46(3), 1814–1824. DOI:10.1080/03610918.2015.1016236.
30	Rosaiah, K, Rao, G.S., Kalyani, K. and Sivakumar, D.C.U. (2017d). Odds exponential log-logistic distribution: properties and estimation, Journal of Mathematics and Statistics, 13 (1): 14–23. DOI: 10.3844/jmssp.2017.14.23.
31	Kashif, M, Aslam, M, Ali Hussein, A.M, Khan, K., Rao, G.S., and Khan, M.I. (2017e). Construction of bootstrap confidence intervals for CNpk in case of Birnbaum Saunders distribution, Science International (Lahore), 29(2), 279–284. http://sci-int.com/pdf/17467729721.
32	Rao, G.S., Aslam, M., and Arif, O. H. (2017f). Estimation of reliability in multicomponent stress-strength based on two parameter exponentiated Weibull distribution. Communications in Statistics-Theory and Methods, 46(15), 7495–7502. DOI: 10.1080/03610926.2016.1154155.
33	Rosaiah K., Rao, G.S., Kalyani, K., and Sivakumar D.C.U. (2017g). Group acceptance sampling plan for resubmitted lots based on life tests for odds exponential log logistic distribution, International Journal of Quality & Reliability Management, 34(8), 1343–1351. doi.org/10.1108/IJQRM-01-2016-0013.
34	Kashif, M., Aslam, M., Rao, G.S., Al-Marshadi, A.H., and Jun, C-H. (2017h). Bootstrap confidence intervals of the modified process capability index for Weibull distribution, Arabian Journal for Science and Engineering, 42(11), 4565–4573. doi.org/10.1007/s13369-017-2562-7.
35	Kashif, M., Aslam, M., Jun, C-H., Al-Marshadi, A.H., and Rao, G.S. (2017i). The efficacy of process capability indices using median absolute deviation and their bootstrap confidence intervals, Arabian Journal for Science and Engineering, 42(11), 4941–4955, DOI 10.1007/s13369-017-2699-4.
36	Arnold, K.F., Josephat, K.P and Rao, G.S. (2017j). Estimation of reliability in multicomponent stress-strength based on Dagum distribution, Stochastics and Quality Control, 32(2), 77–85. DOI: 10.1515/eqc-2017-0009.
37	Rao, G.S. (2018a). A control chart for time truncated life tests using exponentiated half logistic distribution, Applied Mathematics & Information Sciences: An International Journal, 12 (1), 125–131. http://dx.doi.org/10.18576/amis/120111.
38	Rosaiah, K., Rao, G. S., and Sridhar Babu, M. (2018b). An attribute control chart under truncated life tests for the exponentiated Fréchet distribution, Quality-Access to Success, 19(163), 47–51.
39	Patowary, A. N., Dutta, B. Barman, M. P., and Rao, G.S. (2018c). Accidental deaths in India: forecasting with ARIMA model. Environment and Ecology, 36 (3), 761–766.
40	Saleh, A. A. and Rao, G.S. (2018d). A statistical analysis on O level students’ performance in Dodoma secondary schools, International Journal of Applied Research, 4(11), 157–170.
41	Khan, N., Rao, G.S. & Aslam, M. (2018e). Design of chart for a Birnbaum Saunders distribution under accelerated hybrid censoring, Journal of Statistics and Management Systems, 21(8), 1419–1432. DOI: 10.1080/09720510.2018.1470753.
42	Rosaiah, K. Rao, G.S., Kalyani, K., Sivakumar, D. C. U. (2018f). Odds exponential log-logistic distribution: an economic reliability test plan, International Journal of Science and Research, 7(11), 1653-1660.
43	Rao, G. S., Aslam, M., Azam, M. and Jun, C-H. (2018g). A control chart based on two-piece normal distribution using repetitive sampling, Pakistan Journal of Statistics and Operation Research, XIV (4), 961–973. DOI: http://dx.doi.org/10.18187/pjsor.v14i4.1561.
44	Prasad, S V S V S V., Rosaiah, K., and Rao, G.S. (2018h). A two stage group sampling plans based on truncated life tests for Type II generalized log-logistic distribution, International Journal of Scientific Research in Mathematical and Statistical Sciences, 5(6), 228–243. https://doi.org/10.26438/ijsrmss/v5i6.228243.
45	Noel, M.E., and Rao, G.S. (2018i). Demographic factors influencing the prevalence of H.I.V/AIDS in Mbeya region of Tanzania, Journal of Biostatistics and Epidemiology, 4(4), 232–243.
46	Aslam, M., Rao, G.S., Khan, N. and Al-Abbasi, F.A. (2019a). EWMA control chart using repetitive sampling for monitoring blood glucose levels in Type-II diabetes patients, Symmetry 2019, 11(1), article 57, 1–10. DOI.org/10.3390/sym11010057.
47	Rao, G. S., Rosaiah, K., and Sridhar Babu, M. (2019b). Group acceptance sampling plans for resubmitted lots under exponentiated Fréchet distribution, International Journal of Computing Science and Mathematics, 10(1), 11–21.
48	Aldosari MS, Aslam M, Rao, G.S., and Jun C‐H. (2019c). An attribute control chart for multivariate Poisson distribution using multiple dependent state repetitive sampling, Quality and Reliability Engineering International, 35(2), 627–643. https://doi.org/ 10.1002/qre.2426.
49	Rao, G.S., Sauda, M., and Josephat, K.P. (2019d). Estimation of stress-strength reliability from exponentiated inverse Rayleigh distribution, International Journal of Reliability, Quality and Safety Engineering, 26(1), 1–17. DOI: 10.1142/S0218539319500050.
50	Aslam, M., Rao, G.S., AL-Marshadi, A. H. and Jun, C‐H. (2019e). A nonparametric HEWMA-p control chart for variance in monitoring processes, Symmetry, 11(3), article 356, 1-10. https://doi.org/10.3390/sym11030356.
51	Sivakumar, D. C. U., Rosaiah, K. Rao, G.S. and Kalyani, K. (2019f). Odd Generalized exponential log-logistic distribution-group acceptance sampling plan, Statistics in Transition new series, 20(1), 433–446. DOI: 10.21307/stattrans-2019-006
52	Rao, G. S., Rosaiah, K., and Sridhar Babu, M. (2019g). Bootstrap confidence intervals of CNpk for exponentiated Fréchet distribution, Life cycle Reliability and safety Engineering, 8(1), 33–41. doi.org/10.1007/s41872-018-0069-1.
53	Aslam, M., Rao, G.S., Aldosari, M. S. and Jun, C-H. (2019h). A new hybrid EWMA chart using coefficient variation, International Journal of Quality & Reliability Management, 36(4), 587–600. https://doi.org/10.1108/IJQRM-12-2017-0285.
54	Rao, G.S., Ali Raza, M., Aslam, M., Al-Marshadi, A.H. and Jun, C-H. (2019i). A variable control chart based on process capability index under generalized multiple dependent state sampling, IEEEAccess, 7(1), 34031–34044. DOI: 10.1109/ACCESS.2019.2903892.
55	Rao, G.S., Sauda, M. (2019j). Exponentiated inverse Rayleigh distribution and an application to coating weights of iron sheets data, Journal of Probability and Statistics, Vol. 2019, Article ID 7519429, 1–13. https://doi.org/10.1155/2019/7519429.
56	Rao, G.S., Albassam, M. and Aslam, M. (2019k). Evaluation of bootstrap confidence intervals using a new non-normal process capability index, Symmetry 2019, 11(4), 1–10, article 484, doi:10.3390/sym11040484.
57	Aslam, M., Rao, G.S., AL-Marshadi, A.H., Ahmad, L. and Jun, C-H. (2019l). Control charts monitoring process capability index using median absolute deviation for some popular distributions, Processes, 2019, 7, 287. doi:10.3390/pr7050287.
58	Sivakumar, D. C. U., Rao, G. S., Rosaiah, K., and Kalyani, K. (2019m). A two-stage group sampling plan based on truncated life tests for an odd generalized exponential log-logistic distribution, Current Journal of Applied Science and Technology, 35(4): 1–14. DOI: 10.9734/CJAST/2019/v35i430191.
59	Rao, G. S., Rosaiah, K., and Prasad, S. V. S. V. S. V. (2019n). New acceptance sampling plans based on percentiles for type-II generalized log logistic distribution, American Journal of Applied Mathematics and Statistics, Vol. 7, No. 4, 131–137. DOI: 10.12691/ajams-7-4-2.
60	Rao, G.S., Jilani, Sd., Rao, A.V., and Bhanu Prakash, S. (2019o). A new acceptance sampling plans based on percentiles for Type II generalized half-logistic distribution, Journal of Computer and Mathematical Sciences (An International Research Journal), 10(6), 1354–1363.
61	Rao, G.S., Rosaiah, K., Sivakumar, D. C. U., and Kalyani, K. (2019p). Odd generalized exponential log logistic distribution: a new acceptance sampling plans based on percentiles, International Journal of Advances in Applied Sciences, 8(3), 176–183. DOI: 10.11591/ijaas.v8i3.pp176-183
62	Rao, G.S., Bhatti, F.A., Aslam, M. and Albassam, M. (2019q). Estimation of reliability in a multicomponent stress-strength system for the exponentiated moment-based exponential distribution, Algorithms, 12( 12), 246, 1–12. doi:10.3390/a12120246.
63	Rao, G.S., Jilani, Sd., Rao, A.V., and Bhanu Prakash, S. (2019r). Group Acceptance Sampling Plans for Lifetimes Following a Type II generalized half logistic distribution, International Journal of Agricultural and Statistical Science, 15(2), 461-467.
64	Rao, G. S., Rosaiah, K., and Prasad, S. V. S. V. S. V. (2019s). Bootstrap confidence intervals of CNpk for type-II generalized log logistic distribution, Journal of Industrial Engineering International, 15 (Suppl 1), 87–94. doi:10.1007/s40092-019-0320-z.
65	Rao, G. S., Fulment, A.K. & Josephat, P.K. (2019t). Attribute control charts for the Dagum distribution under truncated life tests, Life Cycle Reliability and Safety Engineering, 8(4), 329–335. DOI: 10.1007/s41872-019-00090-3.
66	Rao, G. S., Kalyani, K., Rosaiah, K. and Sivakumar, DCU. (2019u). A time-truncated two-stage group acceptance sampling plan for odds exponential log-logistic distribution, Life Cycle Reliability and Safety Engineering, 8(4), 337–345. doi:10.1007/s41872-019-00091-2.
67	Haq, U.A.M. , Rao, G.S., Albassam, M., and Aslam, M. (2020a). Marshall-Olkin Power Lomax distribution for modeling of wind Speed data. Energy Reports, 6, 1118–1123. https://doi.org/10.1016/j.egyr.2020.04.033.
68	Rao, G.S., Jilani, S. and Rao, A.V. (2020b). Group acceptance sampling plans for resubmitted lots for Type II generalized half-logistic distribution. Journal of Scientific Research, 12 (3), 311-325. doi: http://dx.doi.org/10.3329/jsr.v12i3.44406
69	Rameshnaidu, Ch., Rao, G.S. and Rosaiah, K. (2020c). An economic reliability test plan for exponentiated half logistic distributed lifetimes. International Journal of Statistics and Applied Mathematics, 5(2): 140–148.
70	Gupta, N.J. Rao, G.S., Nagasailaja, A. and Rao, A.V. (2020d). Modern Acceptance Sampling Plans from Truncated Life Tests based on Percentiles for Exponentiated Weibull Distribution. The International journal of analytical and experimental modal analysis, XII (IV), 1760–1770. DOI:18.0002. IJAEMA. 2020. V12I3. 200001.0156507.
71	Rao, G.S., and Edwin, P. (2020e). Time truncated control chart using log logistic distribution. Biometrics & Biostatistics International Journal, 9(2), 76–82. DOI: 10.15406/bbij.2020.09.00303.
72	Rao, G.S., Rosaiah, K. and Rameshnaidu, Ch. (2020f). A Two-stage group sampling plan based on truncated life tests for exponentiated half logistic distribution, Computational Methods in Science and Technology, 26(2), 55–64 (Poland). DOI:10.12921/cmst.2020.0000017.
73	Rao, G.S., Aslam, M., Rasheed, U. and Jun, C-H. (2020g). Mixed EWMA-CUSUM chart for COM-Poisson distribution, Journal of Statistics and Management Systems, 23(3), 511–527 (UK). DOI: 10.1080/09720510.2019.1639947.
74	Rosaiah, K. Rao, G.S., Sivakumar, D. C. U., and Kalyani, K., (2020h). An economic reliability test plans for odd generalized exponential log-logistic distribution. International Journal of Statistics and Reliability Engineering , 7(1), 13–21 (India).
75	Pius Marthin and Rao, G.S. (2020i). Generalized Weibull-Lindley (GWL) Distribution in Modeling Life-Time Data. Journal of Mathematics, Volume 2020, Article ID 2049501, 15 pages, (UK). https://doi.org/10.1155/2020/2049501.
76	Aslam, M., Shafqat, A., Rao, G. S., Malela-Majika, J and Shongwe, S.C. (2020j). Multiple dependent state repetitive sampling-based control chart for Birnbaum-Saunders distribution, Journal of Mathematics, Volume 2020, Article ID 8539361, 11 pages (UK). https://doi.org/10.1155/2020/8539361.
77	Rao, G.S., Rosaiah, K. and Rameshnaidu, Ch. (2020k). Design of multiple-deferred state sampling plans for exponentiated half logistic distribution, Cogent Mathematics & Statistics, 7:1, 1857915, 1-14, 2020k (UK). DOI: 10.1080/25742558.2020.1857915.
78	Aslam, M., Rao, G.S., Shafqat, A., Liaquat, A. Rehan, A.K.S. (2021a). Monitoring circuit boards products in the presence of indeterminancy, Measurement, 168 (2021), 108404, 1–7 (UK). https://doi.org/10.1016/j.measurement. 2020.108404.
79	M. SridharBabu, G. S. Rao, and K. Rosaiah (2021b). Double-Acceptance Sampling Plan for Exponentiated Fre´chet Distribution with Known Shape Parameters, Mathematical Problems in Engineering Volume 2021, Article ID 7308454, 9 pages, https://doi.org/10.1155/2021/7308454, Publisher: Hindawi.
80	Aslam, M., Rao, G. S. and Khan, N. (2021c) Singlestage and twostage total failurebased groupsampling plans for the Weibull distribution under neutrosophic statistics, Complex & Intelligent Systems, 7(2), 891–900 (Switzerland). https://doi.org/10.1007/s40747-020-00253-1, Publisher: Springer Nature.
81	Rao, G.S., Sauda, M., and Abbas, P. (2021d). Estimation of multicomponent stress-strength reliability from exponentiated inverse Rayleigh distribution, Journal of Statistics and Management Systems, 24 (3), 499–519 (UK). DOI: 10.1080/09720510.2020.1761094.
82	Aslam, M., Rao, G.S., Saleem, M., Sherwani, R.A.K., and Jun, C-H. (2021e). Monitoring Mortality Caused by COVID-19 Using gamma distributed variables based on generalized multiple dependent state sampling, Computational and Mathematical Methods in Medicine, Volume 2021, Article ID 6634887, 17 pages (UK), https://doi.org/10.1155/2021/6634887, Hindawi.
83	Rao, G.S. and Naga Durgamamba, A. (2021f). Group acceptance sampling plan for Re-submitted lots: size biased Lomax distribution, Pakistan Journal of Statistics and Operation Research, 17(2), 357–366 (PK). DOI: http://dx.doi.org/10.18187/pjsor.v17i23314.
84	Kalyani K, Rao, G.S., K. Rosaiah, and Sivakumar D.C.U. (2021g). Repetitive acceptance sampling plan for odds exponential log-logistic distribution based on truncated life test, Journal of Industrial and Production Engineering, 38:5, 395–400 (UK) . https://doi.org/10.1080/21681015.2021.1931492, Taylor and Francis Ltd.
85	M.H. Almeida, P.L. Ramos, G.S. Rao, and F.A. Moala (2021h). Objective Bayesian inference for the capability index of the gamma distribution, Quality and Reliability Engineering International, 37(5), 2235–2247 (UK). https://DOI:10.1002/qre.2854. Publisher: John Wiley & Sons.
86	Rao, G.S., Aslam, M., and Jun, C-H. (2021i). A variable sampling plan using generalized multiple dependent state based on a one-sided process capability index, Communications in Statistics-Simulation and Computation, 50:9, 2666–2677 (UK). https://doi:10.1080/03610918.2019.1612431, Taylor and Francis Ltd.
87	Khan, N, Liaquat, A, Rao, G. S., Aslam, M. and AL-Marshadi, A. H. (2021j). A new X-bar control chart for multiple dependent state sampling using neutrosophic exponentially weighted moving average statistics with application to monitoring road accidents and road injuries, International Journal of Computational Intelligence Systems, 14:182, 1-11, https://doi.org/10.1007/s44196-021-00033-w, Publisher: Atlantis Press International, UK.
88	Rao, G.S. and Aslam, M. (2021k). Inspection plan for COVID-19 patients for Weibull distribution using repetitive sampling under indeterminacy, BMC Medical Research Methodology, 21(229), 1-15. https://doi.org/10.1186/s12874-021-01387-7 Publisher: Springer Nature (UK), Impact Factor: 4.615 (2020).
89	Rao, G.S., Arnold, K. F. and Josephat, K. P. (2021l). Design of multiple dependent state sampling plan application for COVID-19 data using exponentiated Weibull distribution, Complexity, 2021, Article ID 2795078, 10 pages, 2021, https://doi.org/10.1155/2021/2795078, Publisher: Hindawi Limited, Egypt.
90	Rao, G.S., Jilani, Sk. and Rao, A.V. (2021m). Designing of multiple dependent state repetitive sampling plan for type-II generalized half logistic distribution, International Journal of System Assurance Engineering and Management, 12(6):1397–1409. https://doi.org/10.1007/s13198-021-01338-x, Publisher: Springer Nature (Switzerland) (December 2021).
91	Rosaiah, K. Rao, G.S., and Prasad, S.V.S.V.S.V. (2021n). A control chart for time truncated life tests using type-ii generalized log logistic distribution, Biometrics & Biostatistics International Journal, 10(4):138–143. http://doi.org/10.15406/bbij.2021.10.00340, Publisher: MedCrave Publishing.
92	Adeoti, OA and Rao, G.S. (2021o). Moving average control charts for the Rayleigh and inverse Rayleigh distributions under time truncated life test, Quality and Reliability Engineering International, 37(8), 3552–3567, https://doi.org/10.1002/qre.2933. Publisher: John Wiley and Sons Ltd.
93	Rao, G.S., Jilani, S. and Rao, A.V. (2021p). Design of repetitive acceptance sampling plan for truncated life test using type II generalized half-logistic distribution, Songklanakarin Journal of Science and Technology, 43 (5), 1491–1498. Publisher: Prince of Songkla University.
94	Aslam, M., Rao, G.S., Liaquat, A, and Jun, C-H. (2022a). A new control chart using GINI CPK. Communications in Statistics-Theory and Methods, 51(1), 197–211. https://doi.org/10.1080/03610926.2020.1746971. Publisher: Taylor and Francis Ltd.
95	Prasad, SVSVSV, Rao, G.S., Rosaiah, K. (2022b). Reliability estimation of type-II generalized log-logistic distribution, Biometrics & Biostatistics International Journal, 11(1):36–46, 2022b (USA) DOI: https://doi.org/10.15406/bbij.2022.11.00352, Publisher: MedCrave Group
96	Rao, G.S., Al-Omari, A. I. (2022c). Attribute Control Charts Based on TLT for Length-Biased Weighted Lomax Distribution, Journal of Mathematics, Volume 2022, Article ID 3091850, 1-15, 2022c, Publisher: Hindawi Limited, https://doi.org/10.1155/2022/3091850, Publisher: Hindawi Limited
97	Aslam, M., Rao, G.S. and Albassam, M. (2022d). Sampling inspection plan to test daily COVID-19 cases using gamma distribution under indeterminacy based on multiple dependent scheme, International Journal of Environmental Research and Public Health. 19, 5308, 1–14, Publisher: MDPI, https://doi.org/10.3390/ijerph19095308.
98	Rao, G.S. and Evodia, A. M. (2022e). Queueing systems in the cafeterias at the University of Dodoma, Tanzania. April, Int. J. of Mathematics in Operational Research, 22 (1), 127–141, Publisher: Inderscience publishers, DOI: 10.1504/IJMOR.2021.10040971.
99	Olatunde A. A. and Rao, G.S. (2022f) Attribute control chart for Rayleigh distribution using repetitive sampling under truncated life test, Journal of Probability and Statistics, Volume 2022, Article ID 8763091, 1–11, https://doi.org/10.1155/2022/8763091, Publisher: Hindawi.
100	Aslam, M., Rao, G. S., Khan, N., & Ahmad, L. (2022g). Two-stage sampling plan using process loss index under neutrosophic statistics, Communications in Statistics-Simulation and Computation, 51(6), 2831–2841, https://doi.org/10.1080/03610918.2019.1702212, Publisher:Taylor and Francis Ltd.
101	Shukla,S., Abhimanyu, S.Y., Rao, G.S., Mahendra, S., and Tripathi, H. (2022h). Alpha power transformed Xgamma distribution and applications to reliability, survival and environmental data, Journal of Scientific Research, 66(3), 330–346, DOI: 10.37398/JSR.2022.660338.
102	El-Morshedy, M., Zahra, A., Rao, G.S., Ilyas, M. and Al-Bossly, A. (2022i). On Predictive Modeling for the Al2O3 Data Using a New Statistical Model and Machine Learning Approach, Advances in Civil Engineering, Volume 2022, Article ID 9348980, 1–11, https://doi.org/10.1155/2022/9348980, Publisher: Hindawi.
103	Rao, G. S., Jilani, Sd. and Rao, A.V. (2022j). A double acceptance sampling plan for Type II generalized half logistic distribution with known shape parameter, Journal of Applied Probability and Statistics 2022, Vol. 17, No. 2, pp. 1–19, Publisher: Islamic Countries Society of Statistical Sciences.
104	Rao, G.S., Aslam, M., Sherwani, R.A.K., Shehzad, M.A. and Jun, C-H. (2022k). Generalized multiple dependent state sampling plans for coefficient of variation, Communications in Statistics-Theory and Methods, 51:20, 6990–7005, 2022k, https://doi.org/10.1080/03610926.2020.1869989, Publisher: Taylor and Francis Ltd.
105	Saha, M., Yadav, A.S., Rao, G.S., Dey, S. and Sarkar, B. (2022l). Control charts using bootstrap method for logistic-exponential percentiles, Journal of Scientific Research, 66 (5), 137-143, http://dx.doi.org/10.37398/JSR.2022.660517, Publisher: Institute of Science, Banaras Hindu University, Varanasi, India.
106	Jyothi, P., Rao, G.S. and Rosaiah, K. (2022m). New Acceptance Sampling Plans Based on Percentiles for the New Rayleigh-Pareto Distribution, Journal of Information and Computational Science, 12(11), 48–59. DOI:10.12733.JICS.2022.V12I11.535569.72007.
107	Filbert, A., Rao, G.S. and Deogratias, E. (2022n). Students’ performance evaluation for secondary school in Mbulu district using mean and dispersion charts grade and fixed grading method, Biometrics & Biostatistics International Journal, 11(4), 152-157. DOI: 10.15406/bbij.2022.11.00370, Publisher: MedCrave Group.
108	Arnold, K. F., Rao, G. S., and Kirigiti, P. J. (2022o). The odd log-logistic generalized exponential distribution: Application on survival times of chemotherapy patients data, F1000Research 2022, 11:1444, 1-19. https://doi.org/10.12688/f1000research.127363.1, F1000 Research Ltd, member of Taylor & Francis Group.
109	Rao, G.S., Aslam, M. (2023a). Various Sampling Inspection Plan for Cancer Patients using Gamma Distribution under Indeterminacy, Cognitive Intelligence with Neutrosophic Statistics in Bioinformatics, Elsevier, Book chapter 11, 203-236, https://doi.org/10.1016/B978-0-323-99456-9.00009-X
110	Nuhu, S. and Rao, G.S. (2023b). Application of discriminant analysis to predict students’ performances in Mathematics in advanced secondary schools, European Journal of Statistics, 3(8), 1–10, DOI: https://doi.org/10.28924/ada/stat.3.8, Publisher: Ada Academica.
111	Rao, G.S. and Josephat, K. P. (2023c). Testing average traffic fatality using sampling plan for exponentiated half-logistic distribution under indeterminacy, Scientific African, 20, e01646, 1–9, https://doi.org/10.1016/j.sciaf.2023.e01646, Publisher: Elsevier.
112	Rao, G.S. (2023d). Neutrosophic log-logistic distribution model in complex alloy metal melting point applications, International Journal of Computational Intelligence Systems, 16(1), 1–12, https://doi.org/10.1007/s44196-023-00218-5, Publisher: Springer Nature.
113	Sivakumar, DCU, Rosaiah, K., Rao, G.S., and Kalyani, K. (2023e). Group acceptance sampling plans for resubmitted lots under odd generalized exponential log-logistic distribution, European Journal of Statistics, Vol. 3(9), 91–18, DOI: https://doi.org/10.28924/ada/stat.3.9, Publisher: Ada Academica.
114	Rao, G.S., Norouzirad, M. and Mazarei, D. (2023f). Neutrosophic generalized exponential distribution with application, Neutrosophic Sets and Systems, 55, 471-485, https://doi.org/10.5281/zenodo.7832786, Publisher: University of New Mexico.
115	Rao, G.S., Rosaiah, K. and Rameshnaidu, Ch. (2023g). Multiple dependent state repetitive sampling plans for exponentiated half logistic distribution, International Journal of Management Science and Engineering Management, 18(2), 118–125, https://doi.org/10.1080/17509653.2021.2024097, Publisher: Taylor and Francis Ltd.
116	Khan, N., Rao, G. S., Sherwani, R.A.K., AL-Marshadi, A.H. and Aslam, M. (2023h). Uncertainty-based sampling plans for various statistical distributions, AIMS Mathematics, 8(6), 14558–14571, doi: 10.3934/math.2023744, AIMS Press.
117	Sivakumar, DCU, Rao, G.S., Rosaiah, K. and Kalyani, K. (2023i). Double Acceptance Sampling Plans for odds generalized log-logistic distribution based on truncated life test, Digital Manufacturing Technology (DMT), 3(1), 76–90, https://doi.org/10.37256/dmt.3120232480, Publisher: Universal Wiser.
118	Nagasaritha, K., Rao, G.S. and Rosaiah, K. (2023j). Survival analysis of cancer patients using a new Lomax Rayleigh distribution, Journal of Applied Mathematics, Statistics and Informatics, Journal of Applied Mathematics, Statistics and Informatics, 19(1), 19-46, https://doi.org/10.2478/jamsi-2023-0002, Publisher: Sciendo.
119	Alomair MA, Ahmad Z, Rao GS, Al-Mofleh H, Khosa SK, and Al Naim AS (2023k) A new trigonometric modification of the Weibull distribution: Control chart and applications in quality control, PLOS ONE, 18(7):1-27 e0286593. https://doi.org/10.1371/journal.pone.0286593, Publisher: Public Library of Science.
120	Kamal M, Rao GS, Alsolmi MM, Ahmad Z, Aldallal R, Rahaman, MM (2023l) A new statistical methodology using the sine function: Control chart with an application to survival times data, PLOS ONE 18(8), 1-29, e0285914. 2023l, https://doi.org/10.1371/journal.pone.0285914, Publisher: Public Library of Science.
121	Nagasaritha, K, Rosaiah, K., Rao, GS. and Kirigiti, PJ. (2023m). Application of the multiple dependent state sampling strategy to late adolescent suicide rates, BMC Medical Research Methodology, 23:192, 1–14. https://doi.org/10.1186/s12874-023-02007-2, Publisher: Springer Nature.
122	Rao, G.S. and Josephat, K. P. (2023n). Repetitive sampling inspection plan for cancer patients using exponentiated half-logistic distribution under indeterminacy, Scientific Reports, 13, 13743, 1–11, https://doi:10.1038/s41598-023-40445-6, Publisher: Springer Nature.
123	Odhah, O.H., Alshanbari, M.H, Ahmad, Z. and Rao, G.S. (2023o). A weighted cosine-G family of distributions: properties and illustration using time-to-event data, Axioms 2023, 12(9), 849, 1-20, 2023 https://doi.org/10.3390/axioms12090849, Publisher: MDPI AG.
124	Adeyeye, S.J., Adewara, A.J, Rao, G.S., Adekeye, S.K., Adedotun, A.F. and Aako, L.O. (2023p). Design of multiple dependent state sampling plan using Zech distribution with application to real life data. Reliability: Theory & Applications, 18(3), 471-48, Publisher: Gnedenko Forum, https://doi.org/10.24412/1932-2321-2023-374-471-481.
125	Norouzirad, M., Rao, G.S. and Mazarei, D. (2023q). Neutrosophic Generalized Rayleigh Distribution with Applications, Neutrosophic Sets and Systems, 58, 248–262. https://doi.org/10.5281/zenodo.8404464, Publisher: University of New Mexico.
126	Alshanbari, H.M., Rao, G.S., Seong, J.-T., and Khosa, S.K. (2023r). A New Sine-Based Distributional Method with Symmetrical and Asymmetrical Natures: Control Chart with Industrial Implication, Symmetry, 15(10), 1-22, https://doi.org/10.3390/sym15101892, Publisher: MDPI AG.
127	Azmat, S., Sabir, Q. U. A., Tariq, S., Shafqat, A., Rao, G. S. and Aslam, M. (2023s). Monitoring air quality using the neural network based control chart, MAPAN-Journal of Metrology Society of India 38(4), 888–893, https://doi.org/10.1007/s12647-023-00663-9, Publisher: Springer.
128	Rao, G.S. and Adeoti, O.A. (2023t). Multiple Dependent States Repetitive Sampling Control Chart for Monitoring Rayleigh Distributed Data. Journal of Industrial Engineering International, 18(3), 1–15, 2023t https://doi.org/10.30495/JIEI.2023.1961477.1236, Publisher: SpringerOpen.
129	Alshanbari, H.M.; Rao, G.S.; Seong, J.-T.; Salem, S.; Khosa, S.K. (2023u). A New Cosine-Originated Probability Distribution with Symmetrical and Asymmetrical Behaviors: Repetitive Acceptance Sampling with Reliability Application. Symmetry, 15(12), 2187; 1-15, https://doi.org/10.3390/sym15122187, Publisher: MDPI AG.
130	Arnold, K. F., Rao, G. S., and Kirigiti, P. J. (2024a). Sampling plan for lab extracted beverages data with multiple dependent states using the odd log-logistic distribution. Journal of Statistics Applications & Probability, 13(1), 157–168. http://dx.doi.org/10.18576/jsap/130111, Publisher: Natural Sciences Publishing.
131	Rao, G.S. Aslam, M., Faten, S. A. and Jun, C-H. (2024b). Comparing the efficacy of coefficient of variation control charts using generalized multiple dependent state sampling with various run-rule control charts. Scientific Reports, 14, 2726 (2024), 1–17. https://doi.org/10.1038/s41598-024-53296-6, Publisher: Springer Nature.
132	Benson, B.K., Rao, G.S. and Kirigiti, P. J. (2024c). Application of Odd Lomax log-logistic distribution to cancer data. Heliyon, 10(6), e27376, 1–17. https://doi.org/10.1016/j.heliyon.2024.e27376, Publisher: Elsevier.
133	Jilani, S., Rao, G.S. and Rao, A.V. (2024d). Designing of multiple dependent state sampling plans for Type-II generalized half logistic distribution. Research in Mathematics 11(1), 1–10, https://doi.org/10.1080/27684830.2024.2326706, Publisher: Taylor and Francis Ltd.
134	Mbwambo, S.H., Mbago, M.C. and Rao, G.S. (2024e). Socio-environmental predictors of diabetes incidence disparities in Tanzania mainland: a comparison of regression models for count data. BMC Medical Research Methodology, 24, 75, 1–11. https://doi.org/10.1186/s12874-024-02166-w.
135	Rao, G.S., Aslam, M., Kirigiti, J.P., AlHusseini, Z. and Albassam, M. (2024f). Life-truncated multiple dependent state plan for imprecise Weibull distributed data,Scientific Reports, 14: 7149, 1–10, .Publisher: Nature Publishing Group.
136	Alshanbari, H.M., Zubair,A., El-Bagoury, A.H., Odhah, O.H. and Rao, G.S. (2024g). A new modification of the Weibull distribution: model, theory, and analyzing engineering data sets. Symmetry 2024, 16(5), 611; https://doi.org/10.3390/sym16050611
137	Saghir, A. Rao, G.S., Aslam, M. and Janjua, A.A. (2024h). Pareto distribution-based Shewhart control chart for early detection of process mean shifts. Journal of Statistical Theory and Applications, 23(1), 26-43. https://doi.org/10.1007/s44199-024-00071-1 Publisher: Springer Nature
138	Arnold, K. F., Rao, G.S. and Kirigiti, P. J. (2024i). Multiple Dependent State Repetitive Sampling Plan Odd Log-logistic Generalized Exponential Distribution with Application to Beverage Product’s Carbon Dioxide Pressure and Concentration. Life Cycle Reliability and Safety Engineering, 13(2), 147-159. https://doi.org/10.1007/s41872-024-00254-w Publisher: Springer Nature

Records Not Found.

S/N	Title
1	Aslam, M., Rao, G. S. and Albassam, M. (2019). Time-truncated life tests using the generalized multiple dependent state sampling plans for various life distributions. Book Title: Statistical Quality Technologies, Publisher: Springer Nature Switzerland AG
2	Rao, G.S., and Aslam, M. (2023). Various Sampling Inspection plans for Cancer Patients using Gamma Distribution under Indeterminacy, Book title: Cognitive Intelligence with Neutrosophic Statistics in Bioinformatics, Elsevier, European Union, https://www.elsevier.com/books/cognitive-intelligence-with-neutrosophic-statistics-in-bioinformatics/smarandache/978-0-323-99456-9" >https://www.elsevier.com/books/cognitive-intelligence-with-neutrosophic-statistics-in-bioinformatics/smarandache/978-0-323-99456-9

S/N	Title
1	Sridhar Babu, M., Rosaiah, K., and Rao, G.S. (2020). Statistical Quality Control Methods for Exponentiated Frechat Distribution. Publisher: Book Publisher International, UK, e-ISBN: 978-93-90431-17-5, Print-ISBN: 978-93-90431-09-0, DOI: 10.9734/bpi/mono/978-93-90431-09-0.

S/N	Title
1	Some Contributions on Acceptance Sampling Plans for Exponentiated Half Logistic Distribution, Awarded Nov. 2020

Records Not Found.

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