Dev-Lock Systems, Inc.
Developer of semi-autonomous precision targeting and engagement systems for defense applications. Designs embedded mission computing modules and integrates sensors, stabilization hardware, machine learning-based computer vision, and fire-control software to enable automated detection, classification, tracking and ballistic firing solutions across air, ground and unmanned platforms. Founded as an R&D project and incorporated in 2013 in Denver, Colorado.
Industries
N/A
Products
Rugged embedded mission computer module
Compact, IP67-rated embedded mission computer using MPSoC-class processors designed for low-power operation and multiple digital interfaces for targeting, ISR automation and guided-launch control.
Ultra-portable semi-autonomous remote weapon station
Lightweight, transportable remote weapon station optimized for tripods, vehicles and small airframes that provides autonomous detection, stabilization, laser range-finding and operator display/control.
Stabilized auto-targeting rifle chassis
Lightweight, stabilized chassis that mounts to medium-range rifles to provide sensor-guided aiming corrections, target detection and continuous aim adjustment while retaining manual operation if unpowered.
Miniature stabilized remote weapon station
Compact stabilized remote weapon station family for small drones, unmanned ground vehicles and tripods, supporting small-caliber weapons and offering autonomous detection, tracking and engagement at reduced weights.
Munitions-launch integration package
Modular interface that couples a mission computing and targeting module to a single-launch tube to enable trusted munitions integration on unmanned aerial and ground platforms.
Rugged embedded mission computer module
Compact, IP67-rated embedded mission computer using MPSoC-class processors designed for low-power operation and multiple digital interfaces for targeting, ISR automation and guided-launch control.
Ultra-portable semi-autonomous remote weapon station
Lightweight, transportable remote weapon station optimized for tripods, vehicles and small airframes that provides autonomous detection, stabilization, laser range-finding and operator display/control.
Stabilized auto-targeting rifle chassis
Lightweight, stabilized chassis that mounts to medium-range rifles to provide sensor-guided aiming corrections, target detection and continuous aim adjustment while retaining manual operation if unpowered.
Miniature stabilized remote weapon station
Compact stabilized remote weapon station family for small drones, unmanned ground vehicles and tripods, supporting small-caliber weapons and offering autonomous detection, tracking and engagement at reduced weights.
Munitions-launch integration package
Modular interface that couples a mission computing and targeting module to a single-launch tube to enable trusted munitions integration on unmanned aerial and ground platforms.
Services
Research & Development
Contract and in-house R&D for autonomy, sensing, stabilization, and fire-control technologies applied to weapon and ISR platforms.
System Integration
Integration of embedded computing, sensors, stabilization hardware, and munitions interfaces into legacy and new platforms using modular open-system principles.
Test & Evaluation
Field and live-fire testing services, experiment participation, and performance validation of autonomous targeting and engagement systems.
Technology Transition and Production Support
Support for moving prototypes to production including LRIP planning, production optimization and integration with established platforms using modular open systems standards.
Research & Development
Contract and in-house R&D for autonomy, sensing, stabilization, and fire-control technologies applied to weapon and ISR platforms.
System Integration
Integration of embedded computing, sensors, stabilization hardware, and munitions interfaces into legacy and new platforms using modular open-system principles.
Test & Evaluation
Field and live-fire testing services, experiment participation, and performance validation of autonomous targeting and engagement systems.
Technology Transition and Production Support
Support for moving prototypes to production including LRIP planning, production optimization and integration with established platforms using modular open systems standards.
Expertise Areas
- Autonomy and computer vision for targeting
- Embedded rugged mission computing
- Multi-modal sensor fusion
- Weapon stabilization and actuator systems
Key Technologies
- Machine learning and computer vision
- Sensor fusion (radar, RF, acoustic, optical, thermal)
- MPSoC-class embedded computing
- Visual-based PNT with 3D terrain referencing