ALL DOMAIN FIRES

Product Knowledge is actively soliciting demonstrable capabilities aligned to specific US Department of War-identified interest areas; companies and developers with mature or near-term solutions should submit inquiries via email to guru@productknowledge.cc and include the following information as a single consolidated submission: Company Name, Company Address, Company Point of Contact, POC email address and phone number, a concise two-page capability description, representative images, and videos of the capability; briefing decks or existing marketing materials may be included as supplemental attachments.

Submissions should focus on practical, employment-ready capabilities rather than conceptual research or long-term development efforts.

All Domain Fires
All Domain Fires enable commanders to impose effects across depth and domains through distributed, survivable, and scalable fires architectures that integrate autonomous systems, precision munitions, and long-range strike capabilities. By combining containerized launchers, layered air defense, cost-effective munitions, and deep-penetration teaming systems, these capabilities complicate enemy targeting while sustaining fires tempo. In large scale combat operations (LSCO), all domain fires shape the deep fight, protect maneuver forces, and enable convergence by synchronizing sensors and shooters to disrupt enemy maneuver, degrade protection systems, and isolate critical infrastructure before decisive engagement.​

a. Containerized Missiles and Rockets
Containerized missile and rocket systems integrate launchers into ISO-standard containers for rapid deployment, concealment, and mobility. These systems can fire precision rockets, anti-ship missiles, or land-attack munitions from dispersed, low-signature positions.​
Operationally, containerized launchers support distributed fires architectures, reducing vulnerability to counter-battery and long-range strike systems. They enable surprise, deception, and rapid displacement, reinforcing FM 3-0 deep operations and distributed lethality principles.​

b. Autonomous SHORAD with Laser-Seeking Interceptors
Autonomous SHORAD systems employ automated sensors and laser-seeking interceptors to defeat UAS, rockets, loitering munitions, and low-altitude aircraft. Their automation reduces engagement time and increases hit probability.​
Operationally, these systems protect maneuver formations, breaching teams, and command posts from persistent aerial reconnaissance and fires. They maintain freedom of action under UAS saturation and contribute to layered air defense across the brigade AO.​

c. Cost-Effective Offensive & Defensive Munitions
Cost-effective munitions include simplified precision weapons, loitering munitions, and affordable interceptors designed for mass production and sustained employment. Their reduced cost enables stockpiling and large-scale fires during prolonged operations.​
Operationally, they allow commanders to maintain fires tempo without depleting strategic munitions. These systems are ideal for counter-reconnaissance, counter-UAS, and area suppression tasks, supporting endurance and adaptability in LSCO.​

d. Operational Attritable/Resuable Penetrate & Defeat Teaming System
This teaming system pairs expendable and reusable autonomous air platforms to penetrate enemy IADS and deliver kinetic or non-kinetic effects. Expendable elements absorb fires and saturate sensors while reusable platforms exploit gaps to execute strikes or EW missions.​
Operationally, this capability supports deep shaping by degrading enemy air defenses before joint and Army aircraft enter contested airspace. It reduces risk to crewed platforms and contributes to operational paralysis by disrupting enemy protective systems.​

e. Operational Long Rage Precision Fires
Operational LRPF systems deliver precision effects at extended ranges to interdict enemy maneuver, destroy C2 nodes, and degrade logistics. They integrate advanced guidance and multi-domain targeting to ensure accuracy and responsiveness.​
Operationally, LRPF enables divisions and corps to shape the deep fight before the enemy reaches the close area. They support convergence by synchronizing sensors, shooters, and command systems across domains.​

f. Anti-Infrastructure Launched Effect
Anti-infrastructure launched effects target critical enemy nodes such as bridges, rail hubs, fuel depots, and hardened logistics facilities. They integrate specialized warheads or loitering capabilities to attack infrastructure with precision.​
Operationally, these effects degrade enemy operational reach, isolate formations, and disrupt sustainment networks. They directly support FM 3-0 shaping operations by constraining enemy freedom of movement and reducing their ability to generate combat power.​