The ultimate autonomous countermeasure system.

AFSCV.

Safety is critical in combat.

The AFSCV (Autonomous Fire System Countermeasure Vehicle) is a cutting-edge unmanned electronic warfare vehicle, developed through a collaboration between Starcrest Ground Combat Motor Group, Auctus Computing, Starcrest Defense Systems, and Nu Experya. Designed to operate autonomously in high-threat environments, the AFSCV is equipped with advanced jamming systems that disrupt enemy radar, targeting systems, and communication networks.

Its primary role is air defense and countermeasure deployment, utilizing automated flare-launching systems to misdirect incoming enemy aircraft and missiles while simultaneously scrambling hostile electronic guidance systems. Though lightly armored, the AFSCV’s stealth profile and mobility allow it to evade direct confrontation while providing essential battlefield protection for allied forces. With its AI-driven electronic warfare suite, the AFSCV represents a new era in autonomous defense, ensuring superiority in contested airspace and electronic warfare operations.

Features:

Multiple Banded Communication Systems

The AFSCV (Autonomous Fire System Countermeasure Vehicle) is equipped with multi-banded communication systems, ensuring encrypted, secure transmissions between the vehicle and its operator. This advanced communication suite prevents signal interception and interference, maintaining a direct, protected link during electronic warfare operations. Additionally, the AFSCV is capable of operating autonomously, utilizing onboard AI-driven decision-making based on live battlefield data. It seamlessly integrates with recon UAVs, ground forces, and electronic surveillance units, allowing it to adjust countermeasures, deploy flares, and jam enemy systems in real time. By continuously processing sensor feedback and situational updates, the AFSCV ensures dynamic, adaptive protection, reinforcing its role as a vital electronic warfare asset on the modern battlefield

Variable Countermeasure Suite

The AFSCV (Autonomous Fire System Countermeasure Vehicle) is equipped with a variable countermeasure suite, designed to provide comprehensive protection for armored vehicles and ground troops in contested environments. One of its key defensive systems is a high-capacity flare dispensing system, capable of deploying infrared countermeasures across a five-mile radius, effectively neutralizing IR-guided missiles and rendering them virtually useless. Additionally, the AFSCV can deploy tactical smokescreens, obscuring allied movements and breaking enemy target locks in both urban and open-field engagements.

Beyond physical defenses, the AFSCV features electronic countermeasures (ECM) that disrupt enemy targeting systems, communications, and sensor arrays, ensuring hostile forces struggle to maintain battlefield awareness. These ECM capabilities allow the AFSCV to jam missile guidance systems, radar locks, and even some drone operations, reinforcing its role as a crucial electronic warfare asset. Its ability to seamlessly integrate into combined arms formations makes it a force multiplier, shielding friendly units from enemy detection and missile attacks while preserving their tactical mobility.

Solar Power

The AFSCV (Autonomous Fire System Countermeasure Vehicle) incorporates a solar-assisted power system, featuring four compact solar panels that enable it to harness solar energy while maintaining near-silent operation. This design significantly reduces reliance on traditional fuel sources, ensuring extended operational endurance in remote or contested environments where refueling might be impractical. The integration of solar energy also enhances its stealth capabilities, allowing the AFSCV to function discreetly without generating excessive heat or noise that could compromise its position. By combining energy efficiency with advanced electronic warfare systems, the AFSCV remains a self-sustaining, highly adaptable asset in modern battlefields.

Unmanned Operations

The AFSCV (Autonomous Fire System Countermeasure Vehicle) is fully unmanned, eliminating the risk of crew casualties while maintaining continuous battlefield presence. Its autonomous capabilities allow it to process real-time battlefield data, integrating information from recon UAVs, ground sensors, and allied forces to dynamically adjust its electronic warfare tactics, countermeasures, and defensive deployments. This AI-driven approach ensures rapid response to emerging threats, enabling the AFSCV to jam enemy systems, deploy flares, and disrupt missile guidance without requiring direct operator control. By functioning as a self-sufficient electronic warfare asset, the AFSCV enhances force survivability and operational efficiency, solidifying its role as a critical tool in modern autonomous warfare.