Modules
Modularity and encapsulation are integral to Field Pursuit’s autonomous systems, providing comprehensive solutions for modern battlefield challenges. These technologies work together to enhance situational awareness, protect personnel, and optimize operational outcomes.
Curiosity Module
The Curiosity Module is an aggressive and exploratory AI system designed to actively investigate concealed or hard-to-access threats. Equipped with advanced sensors and robotic arm mechanisms, this module enables:
Debris Exploration: Actively examines areas under and around debris to uncover hidden dangers.
Proactive Threat Detection: Uses advanced imaging and AI to identify suspicious objects or potential hazards in concealed spaces.
Robotic Manipulation: Features a robotic arm for interacting with objects, clearing small obstacles, or gathering samples.
Close-Quarters Operation: Operates effectively in confined or cluttered environments to enhance threat detection capabilities.
Vision Module
The Vision Module design encompasses unparalleled real-time terrain mapping and reconnaissance capabilities. By employing high-resolution cameras and advanced imaging sensors, this module enables:
Detailed Terrain Analysis: Captures and processes high-definition images to identify potential threats and obstacles.
Early Threat Identification: Utilizes machine learning algorithms to recognize IEDs, ambush setups, and other hazards.
360-Degree Awareness: Incorporates multi-directional cameras and sensors to ensure comprehensive coverage of the operational environment.
Data Integration: Seamlessly integrates with command systems to relay critical information for informed decision-making.
Path Module
The Path Module focuses on ensuring safe navigation through complex and hazardous terrains. With its advanced obstacle avoidance and route planning technologies, the Path Module offers:
AI-Powered Navigation: Employs real-time decision-making algorithms to identify the safest and most efficient routes.
Obstacle Detection and Avoidance: Leverages lidar, radar, and other sensory inputs to detect and bypass physical obstructions.
Dynamic Re-Routing: Continuously analyzes environmental changes and adapts routes to maintain mission efficiency and safety.
Autonomous Mobility: Supports fully autonomous operations, reducing the need for manual control in high-risk situations.