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Ralph Savelsberg

. (2007). GUI Missile Flyout: A General Program for Simulating Ballistic Missiles. Science and Global Security , 15, 133-146. Forden, G. E. (2009a, April 20). DPRK: U'nha-2 powered trajectory. Retrieved November 6, 2012, from Arms Control Wonk: http://forden.armscontrolwonk.com/archive/2262/dprk-unha-2-powered-trajectory Forden, G. E. (2009b, May 15). DPRK: Why did the 2006 launch fail? Retrieved November 6, 2012, from Arms Control Wonk: http://forden.armscontrolwonk.com/archive/2298/dprk-why-did-the-2006-launch

Open access

Lucia Husenicova

-korea-had-spurned-talks-with-u-s-due-to-trumps-latest-sanctions/ Meyer, Patrik K. U.S. Threat of War on North Korea: Fulfilling‚ Rocket Man‘ Kim Jong Un’s Wishes , “The Diplomat”, September 27, 2017. Web. https://thediplomat.com/2017/09/us-threat-of-war-on-north-korea-fulfilling-rocket-man-kim-jonguns-wishes/ Miller, Steven E., Stephen W. Bosworth, and Siegfried S. Hecker. Dealing with North Korea’s Nuclear Program . “Bulletin of the American Academy of Arts and Sciences”, vol. 65, no. 4 (2012), pp. 12–17. Web. http://www.jstor.org/stable/23359193 Nikish, Larry. A. Korea: U.S. – South Korea Relations: Issue for

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B. Zygmunt, K. Motyl, B. Machowski, M. Makowski and E. Olejniczak

Abstract

A mathematical-physical model of a supersonic missile was built, taking into account the mass and inertia properties. The model was implemented in the MathCAD14 simulation program. A numerical analysis of the missile ballistics was conducted and basic parameters were determined: range, altitude, velocity and acceleration, which enabled a test range program for manufactured missile models to be drawn up. Initial flight tests of missiles were carried out at the test range. Satisfactory accordance of experimental and theoretical dynamic parameters of the missile under study was obtained.

Open access

Karolis Aleksa

Abstract

This article presents an interpretation of the US capacity to force North Korea to abandon the development of nuclear weapons, based on the analysis of the conventional balance between the U.S. and North Korea. It is also an attempt to evaluate the impact of the US military transformation on defence policy decisions of the potential opponents of the US. The first (theoretical) part of the article presents the assumptions of theoretical interpretation as well as the fundamentals of evaluating the conventional balance between the US and North Korea. The second part of the article highlights the key moments of the US and the international community’s so far unsuccessful attempts to force North Korea to give up its nuclear weapons and explains the reasons for such unsuccessful policy. The third part of this paper analyzes the conventional balance between the US and North Korea, taking into account the conventional forces of those countries, their long range conventional strike programmes as well as the missile defence programmss - this analysis presupposes the failure of the US to prevent North Korea from nuclear weapon development

Open access

Zbigniew Koruba, Piotr Szmidt and Daniel Gapiński

new Polish 35 mm naval weapon system [in Polish], conference materials of 11th International Armament Conference on Scientific Aspects of Armament & Safety Technology, 2016. [4] Gapiński D., Koruba Z., Krzysztofik I., The model of dynamics and control of modified optical scanning seeker in anti-aircraft rocket missile, ‘Mechanical System and Signal Processing’, 2014, Vol. 45, Issue 2, pp. 433-447. [5] Gapiński D., Krzysztofik I., Program selection of air targets detected by the scan-track head [in Polish], ‘Zeszyty Naukowe AMW’, 2014

Open access

Paweł Dobrzyński, Stanisław Lipski, Bogdan Machowski, Rafał Miętkiewicz and Sławomir Tamberg

Russian efforts, March 2005, [online], https://calhoun.nps.edu/bitstream/handle/10945/2321/05Mar_Bartak.pdf?sequence=1 [access 19.04.2018]. [6] Piorun MANPADS Missile Programme Delayed. Deliveries Expected Soon , [online], http://www.defence24.com/piorun-manpads-missile-programme-delayed-deliveries-expected-soon [access 19.04.2018]. [7] Prospective Operations in Confined and Shallow Waters , Study Paper, Centre of Excellence for Operations in Confined and Shallow Waters, Kiel 2015. [8] Zieliński Z., Szulc T., Grom i Piorun nie dla MON? , ‘Raport

Open access

Paweł Ruchała, Robert Placek, Wit Stryczniewicz, Jan Matyszewski, Dawid Cieśliński and Bartosz Bartkowiak

References [1] Okninski, A., 2015, “An optimization of sounding rockets for microgravity research”, 66th International Astronautical Congress, Jerusalem, IAC-15, A2, 5, 10, x30167. [2] Walczewski, J., 1982, Polish sounding rocket program (Polskie rakiety badawcze) , Wydawnictwa Komunikacji i Łączności, Warsaw. [3] Wiśniowski, W. and Wolański, P., 2014, „Rola Instytutu Lotnictwa w badaniach kosmicznych” (Institute of Aviation Activities in the field of space research), Prace Instytutu Lotnictwa (Transactions of the Institute of Aviation), No

Open access

Peter Kvasnica

References [1] Bajborodin J.V., Board systems of navigation control (in Russian), Transport, Moskva (1975). [2] Blakelock J.H., Automatic control of aircraft and Missiles, Second Edition, John Wiley & Sons, Inc., New York, USA (1991). [3] Cellier F.E., Kofman E., Continuous System Simulation, Basic Principles of Numerical Integration, New York, USA, Springer, vol. 2, pp. 25-32 (2006). [4] Clark R.N., Control System Dynamics, 2nd ed, Cambirdge University Press, New York, USA (2005

Open access

K. Motyl, M. Magier, J. Borkowski and B. Zygmunt

. Majewski, and J. Szymonik, “Explicit ballistic M-model: a refinement of the implicit modified point mass trajectory model”, Bull. Pol. Ac.: Tech. 64 (1), 81-89 (2016). [9] L. Baranowski, “Effect of the mathematical model and integration step on the accuracy of the results of computation of artillery projectile flight parameters”, Bull. Pol. Ac.: Tech. 61 (2), 475-484 (2013). [10] B. Zygmunt and K. Motyl, “Computer assisted of a rocket flight modelling using MathCad programme”, Mechanik 7, 973-980 (2011), [in Polish]. [11] B

Open access

Lyall Di Trapani and Tamer Inanc

References Bhattacharya, R. (2006). Optragen: A Matlab toolbox for optimal trajectory generation, Proceedings of the 45th IEEE Conference on Decision and Control, San Diego, CA, USA , pp. 6832-6836. Bryson, A. E. J. and Ho, Y. C. (1975). Applied Optimal Control: Optimization, Estimation and Control , Taylor and Francis, Levittown, PA. Davison, A. (2005). Killer Game Programming in Java , O'Reilly Media Inc., Sebastopol, CA. de Boor, C. (2001). A