Introduction
AR-SkyStrike is a VR immersive drone tactical training system for the military and security fields launched by SRIZFLY. With “full virtuality and high simulation” as the core, combined with FPV flight goggles, it builds complex battlefield environments such as military airports, ruined cities, desert towns, and command bases, and dynamically simulates actual combat elements such as electromagnetic interference and moving targets. Operators use high-precision simulated FPV drones to perform single-soldier breakthroughs, multi-machine coordination, and red-blue confrontation tasks. The system supports full-process tactical recording, intelligent evaluation, and data analysis. With a global, boundless, and zero-loss virtual training mode, it breaks through the traditional high-cost and low-efficiency bottleneck, and can comprehensively improve the full-scenario tactical literacy and rapid response capabilities of combat units, covering special operations, counter-terrorism actual combat simulations, and other diverse needs.
Technical features
Immersive Interaction
FPV flight goggles use high-resolution binocular display and ultra-low latency image transmission technology to restore the real drone first-person flight experience. Combined with head tracking, it can realize free switching of perspectives and the “gaze lock target” function; through spatial positioning and physical environment mapping technology, the real control actions are seamlessly synchronized to the virtual battlefield.
Practical mission design
A multi-dimensional practical task system is built around typical battlefield environments such as military airports, ruined cities, desert towns and command bases to specifically enhance the operator’s environmental utilization and multi-domain coordination capabilities, thus meeting the full-domain combat needs of UAV combat units in future hybrid warfare.
Core Features
Basic Training
Relying on high-precision 3D environment modeling, low-latency image transmission and physics engine, it accurately simulates real track scenes and immersive control; through track data recording and analysis, multiplayer confrontation and parameter adjustment optimization strategy, it is suitable for skill improvement at all stages from novices to professionals.
Individual training
Individual soldier training integrates covert reconnaissance (visible light/infrared) and simulated bombing functions; FPV suicide attack, through the simulation of high-mobility penetration and damage effectiveness of UAVs, relying on virtual battlefield simulation, the combat effectiveness of individual UAVs is comprehensively improved at low cost and zero risk.
Collaborative training
Collaborative training combines multi-rotor reconnaissance and FPV strike functions, and through virtual multi-terrain scenario linkage training, shares battlefield data in real time, simulates tactical allocation and coordinated reconnaissance and attack, and enhances the effectiveness and damage efficiency of individual collaborative combat.
Damage Assessment
Integrates the real damage model of mortar shells, grenades and suicide bombs, based on the damage radius, real-time feedback of casualties and vehicle damage status, combined with the physical engine to generate damage effects, to achieve highly realistic tactical damage training.
Environment Setup
It integrates dynamic weather conditions such as rain, snow, fog, dust, and sunny and cloudy weather, and superimposes light gradients in the morning, noon, evening, and midnight. It simulates the impact of weather on equipment performance and tactical behavior through a physical engine, and enhances individual soldiers’ adaptability to multiple weather environments and their tactical decision-making capabilities.
Application Cases
- Army unit
- Air Force Early Warning Academy
- Naval University of Engineering
- Information Engineering University
