US Army Selects Anduril Industries for IBCS-M Counter-UAS Command System

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The United States Army has taken a significant step forward in modernizing its command and control capabilities with the selection of Anduril Industries to develop the Integrated Battle Command System – Maneuver (IBCS-M). At the core of this program lies Anduril’s advanced Lattice platform, designed as a next-generation fire control system specifically tailored for Counter-Unmanned Aerial Systems (Counter-UAS) missions. This initiative represents a major leap in how the Army integrates sensors, automates fire control, and accelerates decision-making in the battlespace.

Photo: anduril.com

Lattice Platform for Counter-UAS Operations

The Lattice platform serves as the backbone of IBCS-M, offering a software-centric approach to modern warfare. Unlike traditional static systems, Lattice is built to integrate a wide variety of sensors and weapon systems seamlessly. Its primary functions include automating fire control processes, reducing operator workload, and drastically shortening the time between detection and destruction of hostile targets. By leveraging autonomy and distributed tracking, Lattice ensures that soldiers can respond to aerial threats with unprecedented speed and precision.

Successful Demonstration at Yuma Proving Grounds

A critical milestone for the IBCS-M program was the seven-day demonstration conducted at Yuma Proving Grounds. During this trial, Lattice showcased its ability to integrate new sensors and effectors within hours—a task that traditionally required weeks or months. The system achieved four successful intercepts out of four attempts, proving its reliability and effectiveness in live operational conditions. Key features demonstrated included autonomous fire control, distributed tracking across multiple nodes, and kill-chain optimization, all of which highlight the system’s advanced capabilities in real-world scenarios.

Military Leadership on Counter-UAS Strategy

Alex Miller, Chief Technology Officer of the U.S. Army, emphasized that Counter-UAS operations cannot be treated in the same manner as ballistic missile defense. According to Miller, the future of air defense must be software-centric, adaptive, and maneuverable. He stressed that systems like IBCS-M must support both platoon leaders operating in the field and commanders at centralized bases, ensuring interoperability across diverse sensors and weapon platforms. This perspective underscores the Army’s recognition that modern threats require flexible, scalable solutions rather than rigid legacy systems.

Modernization of Command and Control Systems

The IBCS-M program is part of a broader modernization initiative aimed at transforming the Army’s command and control infrastructure. Legacy systems, often criticized for being too static, are no longer sufficient in a world that demands open, extensible, and rapidly evolving architectures. By adopting platforms like Lattice, the Army is positioning itself to operate in environments where speed, adaptability, and integration are critical to mission success. This modernization effort reflects a shift toward building systems that evolve as quickly as the threats they are designed to counter.

Anduril Industries’ Role in Defense Innovation

Matt Steckman, President and Chief Business Officer of Anduril Industries, highlighted the company’s vision of building modern defense technology rooted in autonomy and advanced command and control. He described IBCS-M as a natural extension of Anduril’s mission to redefine the frontier of air defense. With a proven track record of developing cutting-edge solutions, Anduril’s collaboration with the U.S. Army demonstrates how private industry and military innovation can converge to create systems that are both technologically advanced and operationally practical.

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