| CONTENTS |
| Using Airborne Forces |
| Using Control Disorganization to Inflict Utter Defeat on the Adversary |
| Developing a Cross-Service Strike- and Fire-Capable Reconnaissance System to Increase Fire Efficiency |
| Fighting Piracy on the World Ocean: Goals and Methods |
| The Black Sea Fleet: A Factor for Expanding Combat Capabilities in the Responsibility Zone |
| Airmobile Signal Communication Network: An Effective Relay System within the United Automated Digital Signal Communication System |
| Substantiation of the Ground Forces Formations' EW Control Bodies Composition |
| Decision Support System of a Software Impact Complex against Adversary UAVs |
| Using Different Types of Mathematical Models to Predict the Course and Outcome of Combat Actions |
| Development Prospects for Early Aerospace Attack Warning System Radar Field in Order to Ensure Russia's Military Security |
| Development Trends of Mobile Metrological Complexes to Support the Arctic Forces Group |
| Methodological Issues of Assessing and Verifying Safety of Strategic Missile Systems Beyond Their Warranty Life |
| Military Historical Research Methodology: The Technique and the Purpose of Factor Analysis |
| Key Trends in Improving Airborne Forces Training for 2017-2025 |
| The Role and Place of Engineering Support and Engineer Troops in Military Conflicts |
| Tactical Reconnaissance in Hybrid Warfare |
| Training EW Specialists to Counter Foreign Armies' Unmanned Aerial Vehicles and Robotics |
| Superiority in Aerospace |
| National Aerospace Defense Components |
| US Joint Light Tactical Vehicle Development Program |
| Current Trends in the Development of the British Armed Forces |