The article deals with the artillery manual gunnery in accordance with the modernization of the czech artillery. The article describes the results of research aimed at innovating manual (alternative) methods of determining the firing data so that they are applicable on the contemporary battlefield and are compatible with the nature of the data used by artillery within the NATO. The issue of the article is aimed primarily at determining the firing data by the use of meteorological techniques, while presenting the outputs of a comparative analysis of procedures used in the czech artillery with the procedures applied by the US army. The main contribution of the article is a critical evaluation of the approaches of both armies and a proposal for innovation of existing procedures so that the most beneficial requirements are applied and negatives are eliminated.
This paper describes methods of eliminating Unmanned Aerial Vehicles (UAV) nondestructively, using Electronic Warfare Methods. The aim is to introduce certain methods of UAV detection and elimination in a complex environment and terrain, e.g., in an urban and battlefield environment, that will result in finding the control device position and the UAV itself. Neural networks, cyber penetration elements, and wireless network scanning programs are all used to address this issue. The output of this article is a new concept of a comprehensive solution, which can be implemented into the existing complex system of electronic defence against UAVs, e.g., within the allied base. Conclusions will be also used to further improve the above-mentioned topics at the authors' workplace, within the frame of long-term projects and specifically as a part of solutions applicable to the force protection of combat support units, namely field artillery, which is described here in detail.
The Army of the Czech Republic is part of a broad military (security) alliance (such as NATO, EU, UN), and is deployable both on its territory, but also on the territory of the states of the members of the alliance, or anywhere in the world. The article focuses on inference of principles and limits for more efficient using of mile rule in school and combat condition. The Linear and Angular issues (which contains mile rule) in perspective Artillery Fire Control System called PVNPG-14M are the important area of the present defence research of Fire Support Department of University of Defence in Brno. The efficient using of artillery rules is necessary condition for the case without automated command, control, and information systems. Only under conditions of comparable efficiency can tasks of the required quality be fulfilled in the event of a malfunction of the automated system. Decision-making processes carried out by the commanders in the present and in the upcoming future depend on the correct application of the presented rules. The paper defines appropriate Linear and Angular variables for common use by Artillery and Mechanized commanders. The presented results are based on the analysis performed in the classroom and at the same time during live combat exercises.
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