UA

Military simulators

Combat Operations Simulator for Training Crews of the 2S6 ‘Tunguska’ Self-Propelled Anti-Aircraft Gun and Missile System

About the simulator

The multimedia training system for the crew of the 2S6 “Tunguska” anti-aircraft missile and gun system is designed for the education and training of the crew members (commander, senior operator, operator-gunner, mechanic-driver) of the 2S6 “Tunguska” AAGMS. The purpose of this simulator is to develop and reinforce the skills of driving the combat vehicle (for the mechanic-driver), as well as target reconnaissance and firing with anti-aircraft guns and missiles in all operating modes of the AAGMS within a classroom setting. Additionally, the system can be used as a training mock-up to study the control elements of the 2S6 “Tunguska” AAGMS. Thanks to specialized software, it is now possible to conduct exercises under complex air conditions with interference, engaging both air and ground targets. The software also allows selecting different types of terrain, setting the time of day, and changing weather conditions—all within a classroom training environment.
Simulator Package Includes:
  • Interactive Training Mock-up of the Commander and Senior Operator Workstations
  • Interactive Training Mock-up of the Operator-Gunner Workstation
  • Computerized Mechanical Mock-up of the Driver-Mechanic Workstation
  • Automated Instructor Workstation (AWS)
  • Specialized Software
The system can be used independently as a training model for studying the control units of the 2S6 \"Tunguska\" surface-to-air missile and gun system, as well as in conjunction with specialized software for combat situation simulation.
Interactive Training Mock-up of the Commander and Senior Operator Workstations of the 2S6 Tunguska Self-Propelled Anti-Aircraft Gun and Missile System
Designed to develop combat operation skills of the Commander and Senior Operator of the 2S6 ‘Tunguska’ Self-Propelled Anti-Aircraft Gun and Missile System.
Mock-up Package Includes:
  • Steel Frame Structure
  • Visualization Panel with Touchscreen Technology
  • Mock-up of the TKN-3 Observation Device with Visualization Display
  • Mock-up of the OTs2 Manipulator
  • Mock-ups of SU5 Control Unit Interfaces
  • Computing Unit and Communication Equipment (Headsets) for the Commander and Senior Operator
Interactive Training Mock-up of the Operator-Gunner Workstation of the 2S6 Tunguska Self-Propelled Anti-Aircraft Gun and Missile System
Designed to develop combat operation skills of the Operator-Gunner of the 2S6 ‘Tunguska’ Self-Propelled Anti-Aircraft Gun and Missile System.
Mock-up Package Includes:
  • Steel Frame Structure
  • Visualization Panel with Touchscreen Technology
  • Mock-up of the POO-2 Optical Targeting Equipment Unit with Visualization Display
  • Mock-ups of the Operator-Gunner Control Panel Interfaces
  • Computing Unit and Communication Equipment (Headset)
Computerized Mechanical Mock-up of the Driver-Mechanic Workstation of the 2S6 ‘Tunguska’ Self-Propelled Anti-Aircraft Gun and Missile System
Designed for practicing driving skills of the 2S6 “Tunguska” air defense missile and gun system combat vehicle, it ensures that the dimensions and arrangement of the equipment correspond to the actual sizes and placement of the main driver mechanic control elements of the 2S6 “Tunguska” system. It also ensures that the ranges of movement (travel), forces, and feedback of the mock-up control elements (levers, pedals, switches) match the characteristics of the real equipment of the 2S6 “Tunguska” system.
Mock-up Package Includes:
  • Steel Frame Structure, Desk, and Seat
  • Mock-up Steering Wheel
  • Mock-up Gear Shift Lever
  • Mock-up Fuel Supply Pedal (Throttle Pedal)
  • Mock-ups of Left and Right Parking Brake Levers
  • Clutch Pedal
  • Brake Pedal
  • Mock-up Manual Fuel Supply Control Device
  • Sensor Suite with Electronic Controller
  • Computing Unit
  • Touchscreen Monitors and Input Devices (Keyboard and Mouse)
  • Audio System and Headset
Instructor (Training Supervisor) Workstation is Designed for:
Computerized Mechanical Mock-up of the Driver-Mechanic Workstation of the 2S6 ‘Tunguska’ Self-Propelled Anti-Aircraft Gun and Missile System
  • Creation of situational and audio-target environments during the preparation and execution of training tasks through the use of various scenarios of air and ground conditions, simulation of actions by allied and enemy units and equipment controlled by artificial intelligence, application of diverse training conditions including choice of terrain, type of locality, season, and time of day, as well as environmental effects such as rain, snow, wind, fog, or smoke.
  • Monitoring Task Execution with the Ability to Dynamically Modify Training Conditions and Obtain Comprehensive Information on Cadet Actions”
  • “Capability to Intervene in Cadet Actions in Case of Errors”
  • “Monitoring Training Mission Execution and Assessing Knowledge Acquired by Cadets Through Test-Based Tasks”
  • “Recording and Documentation of Mission Execution Processes and Results
  • Training of the crew of the 2S6 "Tunguska" anti-aircraft missile and gun complex (ZRGK) in driving the combat vehicle, target reconnaissance, and engaging targets with anti-aircraft guns and missiles in all operating modes of the ZRGK, under complex air conditions, with electronic countermeasures, against aerial and ground targets, during day and night, across various types of terrain and different weather conditions.
  • Preparation and Monitoring of Traini
The Software Package Includes Specialized Applications and Electronic Libraries Designed for
  • Modeling and Simulation of the Operating Principles of Assemblies, Components, and Systems of the 2S6 ‘Tunguska’ Self-Propelled Anti-Aircraft Gun and Missile System
  • Modeling and Simulation of Interactive Tasks Corresponding to Combat Vehicle Driving Exercises
  • Modeling (Visualization) of 2S6 ‘Tunguska’ Firing Operations During Target Tracking and Engagement, Including Simulation of Fire Impact Results on the Target
  • Reproduction of Terrain, Instrument Fields of View, and Background Environment (Combat Activity, Gunfire, Explosions, etc.) Within a Unified Information Environment, Including Dynamic Changes During Task Execution
  • Integrated 3D Simulation of Training and Combat Environments Closely Approximating Real Conditions, Utilizing Various Air and Ground Scenario Configurations, AI-Controlled Friendly and Enemy Units and Equipment, and Diverse Training Conditions Including Terrain Selection, Terrain Type, Season, Time of Day, and Environmental Effects Such as Rain, Snow, Wind, Fog, and Smoke
  • Physics-Based Modeling of Projectile and Bullet Ballistics, Effects of Munitions on Equipment and Personnel, and Movement of Wheeled and Tracked Vehicles Across Various Terrain Types with Obstacle Consideration to Achieve Realistic Simulation
  • Integration with Higher-Level Training and Simulation Systems with Capability to Exchange Data on Status, Position, and Mission Execution, Enabling Multiple Homogeneous and/or Heterogeneous Simulator Systems to Operate Within a Unified Information Environment
  • Provision of Real-Time Interaction Between the Complex and Other Simulators Within a Unified Simulation Environment Using the Standard Data Exchange Protocol Adopted by NATO — STANAG 4603
  • Preparation and Monitoring of Training Mission Execution
  • Assessment of Knowledge and Skills Acquired by Cadets
  • Recording and Documentation of Mission Execution Processes and Results