Capabilities
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Edge-Based Autonomy & Kill-Web Integration
We deliver distributed, edge-first autonomous systems that enable manned-unmanned teaming and multi-domain, multi-sensor kill-chain fusion.
Our solutions reduce latency, ensure continuity in contested environments, and give commanders faster, more decisive decision advantage. -
Modular Hardware for Scalable ISR & Control
We engineer lightweight, energy-efficient hardware platforms purpose-built to host evolving software capabilities.
This hardware-enabled, software-defined approach reduces the technological footprint, lowers logistical demands, and accelerates field upgrades. -
Mission-Aligned Systems Engineering & Technical Services
We pair advanced technology with warfighter-focused systems engineering—from concept development and force design to integration and sustainment.
Our approach ensures resilient, interoperable solutions that scale, endure, and align with JADC2 and coalition force requirements.
Projects
It all begins with an idea. We turn that spark into mission-ready solutions.
NEBIS
"Give a solution, solve the moment. Teach a system, empower the mission."
Neural Edge Base Intelligence System is a Deputy Assistant Secretary of Defense for Energy Resilience and Optimization (ODASD(ER&O)), Operational Energy project. NEBIS takes unmanned systems to the next level. By incorporating novel energy conservation methods, the NEBIS platform operates efficiently both as a standalone system and within dynamic meshes of multi-domain, heterogeneous networks. It serves as the compute backbone for fusing raw data at the edge into unified, actionable intelligence - advancing ISR to the next level. The NEBIS Edge Energy Watchdog (NEEW) and Dynamic Power Modulation (DPM) continuously monitors and manages energy usage to maximize on-station time and mission endurance.
NEBIS MICRO
"Small enough to be everywhere, but smart enough to act alone."
Neural Edge Based Intelligence System – Micro is an extreme-edge payload that brings advanced ISR capabilities to Group 1 UAS and man-portable platforms, delivering high-performance, on-device AI in a compact, low-SWaP form factor. Designed for DDIL and contested environments, it operates as both a standalone intelligence node and a decentralized mesh participant, transforming raw sensor data into refined, actionable insights at the point of collection to accelerate the warfighter’s OODA loop. Through asynchronous federation and onboard ISR-T processing, NEBIS Micro enables local object detection, signal classification, and pattern recognition while sharing critical targeting metadata across the JADC2 kill web—reducing reliance on reachback and enabling faster, more autonomous decision-making at the edge.
MFALCON
“She may not look like much, but she’s got it where it counts” - Han Solo
The Modular, Flexible, Adaptive, Lightweight Container for Operational Testing of Next-Generation Payloads provides a standardized testbench for SOCOM modular payloads. The ruggedized enclosure supports up to eighteen (18) 1U SOCOM payloads operating simultaneously, enabling true apples-to-apples hardware evaluation. Standard power provisioning delivers 12V at up to 30A from a 110V input. Integrated networking includes an internal switch with DHCP, while external interfaces support Ethernet and sensor connections. The system is also provisioned for Starlink connectivity.
Siren Song
"If I have seen further, it is by standing on the shoulders of giants." - Isaac Newton
Was an ONR Code 31 Science and Technology project with stakeholders from both Naval Special Warfare and the Marine Corps intent on facilitating Manned/Unmanned Teaming of Surface and Arial Systems (USV/UAV) with Naval Expeditionary Forces. The Siren’s Song team consists of a composite group of companies who provide unmanned platforms, SIGINT, IMINT, and COMMS payloads (conforming to SOCOM Mod Payload standards), for situational awareness/mission management in a neuro-symbolic, AI mesh, partnered with PMA 263’s Payload IPT. The operational focus is to conduct autonomous at-the-edge fusion of available ISR-T information, minimizing the cognitive load on operators, and decreasing the fog of war supporting ISR-T mission sets.