[1] Rheinmetall. Handbook on Weaponry. Second English Edition. 1982.
[2] C. Farrar., D. W. Leeming. Military Ballistics-A Basic Manual. Royal Military College of Science, Shrivenham, UK: Brassey’s Defence Publishers. 1982.
[3] D. Mauchant, K. D. Rice, M. A. Riley, D. Leber, D. Samarov, A. L. Forster,. Analysis of Three Different Regression Models to Estimate the Ballistic Performance of New and Environmentally Conditioned Body Armor, U.S. Department of Commerce & National Institute of Standards and Technology. 2011.
[4] L. Yang, L. Kun, S. Xiaodong, Y. Xiaoxian. Monte Carlo ballistic Simulation Applied to Dispersion Analysis of Starting Control Points for Antitank Missile. International Conference on Electronic & Mechanical Engineering and Information Technology. 12-14 August. 2929-2932. 2011.
[5] B. Tahenti, F. Coghe, R. Nasri, M. Pirlot,. Armor’s Ballistic Resistance Simulation Using Stochastic Process Modeling, International Journal of Impact Engineering, Vol. 102,140-146. 2017.
[6] T. H. Johnson, L. Freeman, J. Hester, J. L. Bell,. A Comparison of Ballistic Resistance Testing Techniques in the Department of Defense, IEEE Transactions on Reliability, Vol. 2 : 1442- 1455. 2014.
[7] B. U. Nguyen. Assessment of a Ballistic Missile Defense System. Defense & Security Analysis, Vol. 30, No. 1, 4–16. 2015.
[8] C. Cheng, X. B. Zhang,. Interior ballistic charge design based on a modified particle swarm optimizer, Struct Multidisc Optim, Vol. 46 : 303–310. 2012.
[9] J. Toivola., S. Moilanen., and H. R. Jussila. Force, Pressure and Strain Measurements for Traditional Heavy Mortar Launch Cycle. Rakenteiden Mekaniikka (Journal of Structural Mechanics) Vol. 44, No 4, pp. 309-329. 2011.
[10] D. Froemberg, M. Schmiedeberg, E. Barkai, and V. Zaburdaev. Asymptotic densities of ballistic Levy walks. arXiv:1412.0984v1 [cond-mat.stat-mech]. 2014.
[11] P. Andreoletti, D. Loukianova, C. Matias. “Parametric estimation of a one-dimensional ballistic random walk in a Markov reversible environment. arXiv:1407.4905v1 [math.ST]. 2014.
[12] M. Falconnet, D. Loukianova, and C. Matias. Asymptotic normality and efficiency of the maximum likelihood estimator for the parameter of a ballistic random walk in a random environment. arXiv:1302.0425v2 [math.ST]. 2013.
[13] F. Comets, M. Falconnet, , D. Loukianova, C. Matias. Maximum likelihood estimator consistency for ballistic random walk in a parametric random environment”. arXiv:1210.6328v2 [math.ST]. 2012.
[14] H. Guo, E. Pohl, and A. Gerokostopoulos. Determining the Right Sample Size for Your Test: Theory and Application. Reliability and Maintainability Symposium, January, 2013. IEEE Transactions on Reliability. 2013.
[15] J. Macqueen. Some methods for classification and analysis of multivariate observations. Procceding of the 5th Berkeley Symposium on Mathematical Statistics and Probability, University of California. 1967.
[17] A. Marshall, W. Olkin. Life Distributions Structure of Nonparametric, Semiparametric, and Parametric Families. Published by Springer Series in Statistics. 2007.
[18] R. B. Nelsen. An Introduction to Copulas, Lectures Notes in Statistics, 139, Springer Verlag, New York. 1999.
[19] C. E. Ebeling. An introduction to reliability and maintainability engineering. Tata McGraw-Hill Education. 2004.