References

1. B. Abebe and R. Shanker; A Discrete Quasi Akash Distribution with Applications. Turkiye Klinikleri Journal of Biostatistics, 10(3), 187–199 (2018).
2. C. Silambarasan and R. Elangovan; Length Biased Weighted Two Parameters Quasi Akash Distribution and Its Applications to Blood Cancer Data. Strad Research, 7(9), 188–202, (2020).
3. C. Tsallis; Possible Generalization of Boltzmann-Gibbs Statistics. Journal of Statistical Physics, 52(1), 479– 487 (1988).
4. C.E. Bonferroni; Elementi Di Statistca Generale. Seeber, Firenze (1930).
5. C.R. Rao; On Discrete Distributions Arising Out of Methods of Ascertainment. Sankhya: The Indian Journal of Statistics, Series A, 27(2/4), 311–324 (1965).
6. G. Casella and R.L. Berger; Statistical Inference. 2nd Edition, Brooks/Cole Cengage Learning, Belmont (California) (2021).
7. G.P. Patil and J.K. Ord; On Size-Biased Sampling and Related Form-Invariant Weighted Distributions. Sankhya: The Indian Journal of Statistics, Series B, 38(1), 48–61, (1976).
8. G.P. Patil and C.R. Rao; Weighted Distributions and Size-Biased Sampling with Applications to Wildlife Populations and Human Families. Biometrics, 34(2), 179–189 (1978).
9. J. Lappi and R.L. Bailey; Estimation of the Diameter Increment Function or Other Tree Relations using Angle-Count Samples. Forest Science, 33(3), 725–739 (1987).
10.N. Yahia; Applications to Biomedical Data by using Volume Biased Rayleigh Model. Journal of Computational and Theoretical Nanoscience, 18, 1-6 (2021).
11. P.C.V. Deusen; Fitting Assumed Distributions to Horizontal Point Sample Diameters. Forest Science, 32(1), 146–148 (1986).
12. R. Shanker; A Quasi Akash Distribution and Its Applications. ASR, 30(1), 135–160 (2016).
13.R.A. Fisher; The Effect of Methods of Ascertainment Upon the Estimation of Frequencies. Annals of Eugenics, 6(1), 13–25 (1934).
14. R.B. Ade; D.P. Teltumbade and P.W. Tasare; Charecterizaton and Estimation of Area Biased Quasi Akash Distribution. International Journal of Mathematics Trend and Technology, 67(1), 53–59 (2021).
15. Z. Ahmad; Z. Perveen and M. Ahmad; Some Properties of Volume-Biased Weighted Weibull Distribution. International Journal of Advanced and Applied Sciences, 4(8), 175-179, (2017).
16.Z.W. Birnbaum and S.C. Saunders; Estimation for a Family of Life Distributions with Applications to Fatigue. Journal of Applied Probability, 6(2), 328–347 (1969).