Vulnerability Modules for Multi Domain Operations
Abstract
This effort will design and develop Vulnerability Modules for Multi Domain Operations against current and emerging high priority threats. Investigates and conducts experiments on High Energy Laser Lethality against Unmanned Aerial Systems, Cruise Missiles and Rotary Wing aircraft. The effort will fund research and conduct experiments to optimize aimpoints for rapid and effective High Energy Laser weapon systems fire control solutions. This effort's subtasks are: oSmart Vulnerability Modules oAimpoint-specific Fire Control Algorithms oTarget System Response oHEL engagement Performance Scoring (Army Mobile Performance Scoring Sensor) Each task is in support of the design and development of Multi-Domain Operations Vulnerability Modules against current and emerging priority threats - primarily Unmanned Aerial Systems, Cruise Missiles and Rotary Wing aircraft. The effort will fund research and conduct experiments to understand target High Energy Laser vulnerabilities and create smart methods to optimize aimpoints for effective High Energy Laser weapon systems fire control solutions. The evaluation of Target System Response's will further improve fire control systems by providing potential kill signatures to the operator. A key component to the generated Vulnerability Modules products is validation of prototypes using the Vulnerability Modules. The Army's Mobile Performance Scoring System is specifically designed to collect data to validate Vulnerability Modules. The Army Mobile Performance Scoring Sensor is two pieces - a hardware piece that tracks and collects data; and a software piece that estimates the total energy applied to the aimpoint to compare against the Vulnerability Modules values. The software will be designed to work with multiple collection telescopes such that Army Mobile Performance Scoring Sensor is a family of products.
Document Details
- Document Type
- Accomplishment
- Publication Date
- Oct 01, 2025
- Source ID
- 9273021613ae1d6323cb0b9b90910cd2