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Cyber-Physical Resilience

Our cyber-physical resilience technologies leverage simulations, attack emulation, and artificial intelligence to make critical systems more adaptable to fight through cyberattacks, ensuring systems remain operational in contested situations.

Securing Essential Systems

Our cyber-physical security technologies enhance the resilience of unmanned vehicles, robotic systems, and industrial controls, improving reliability, adaptability, and uninterrupted performance even during attack.

Adaptive AI Defense

Adaptive AI Defense

Machine learning and AI driven defenses dynamically identify and mitigate evolving threats.

Impact-Centric Analytics

Impact-Centric Analytics

Advanced analytics assess the severity, scope, and cascading effects of cyberattacks, providing clear insights to guide actions towards the safest operation decisions.

Mission-Critical Defense

Mission-Critical Defense

Our cyber-physical defense systems are designed to retain functionality of critical systems even when partially compromised, mitigating disruptions to the mission.

Safeguarding Against Cyber Threats

Integer’s cyber-physical resilience technologies protect critical systems — including unmanned vehicles, robotic systems, and industrial controls — against evolving cyber threats. Our technology identifies vulnerabilities, assesses operational impacts, and deploys adaptive, targeted defenses.

Context-aware mechanisms enable dynamic prioritization of mission-critical operations, ensuring continuity and resilience in contested, resource-constrained environments. Decision support tools, with advanced analytics and AI, enhance system adaptability to sustain performance across diverse mission scenarios.

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Integer uses a consequence-driven approach to cyber-physical resilience that maintains operational capability and ensures mission reliability of critical systems in a rapidly changing threat environment.

Simulating Cyber Resilience

Our cyber-physical resilience technologies leverage simulations, attack emulation, and artificial intelligence to make critical systems more adaptable to fight through cyberattacks, ensuring systems remain operational in contested situations.

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Capabilities

The image features a close-up of a map, highlighting specific elements labeled as VAV-1, USU-1, and DESTROYER-1. The visual is represented in the form of a screenshot or diagram.
The image features a close-up of a map, highlighting specific elements labeled as VAV-1, USU-1, and DESTROYER-1. The visual is represented in the form of a screenshot or diagram.

Unmanned Systems

Uncrewed Systems Icon

We develop tools to coordinate autonomous systems and provide better and faster decisions responsive to mission objectives and true field conditions.

The image depicts a group of icebergs floating in the water. The scene showcases the majestic beauty of these frozen formations, highlighting their varying shapes and sizes against the backdrop of the sea.
The image depicts a group of icebergs floating in the water. The scene showcases the majestic beauty of these frozen formations, highlighting their varying shapes and sizes against the backdrop of the sea.

Sensors and Perception

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We provide multi-modal, optionally passive sensing systems for manned and unmanned platform navigation, collision avoidance, target identification, and situational awareness.

Military vessels and drone in the water.
Military vessels and drone in the water.

Power and Energy Systems

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We create predictive energy management systems and offer high-speed decision aids to operators of power and energy equipment.

A 3D model showcasing a futuristic robot alongside a sleek, modern ship in a dynamic pose.
A 3D model showcasing a futuristic robot alongside a sleek, modern ship in a dynamic pose.

Advanced Manufacturing

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We apply digital engineering tools to optimize manufacturing processes and improve the speed, quality, and cost of advanced systems and materials fabrication.

Ship highlighted on a map.
Ship highlighted on a map.

Cyber-Physical Resilience

Cyber Physical Icon

We use simulations, machine learning, and artificial intelligence to make embedded systems more resilient against cyberattacks.

in the news

Jul 14, 2025

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7 min read

Heard at CVPR 25: Computer Vision AI Trends Driving Maritime Autonomy

Pictured: Luis Robles, Senior Computer Vision Engineer; James Cutler, Perception Engineer; Ryan Jeon, Ph.D., Computer Vision Engineer II; Regan Willis, Senior Software Engineer; and Tristan Kyzer, Perception Engineering Manager (l to r)   We’re committed to implementing the latest tools and innovating cutting-edge software engineering to advance defense tech. As part of that commitment, members

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Jun 25, 2025

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6 min read

Building Smarter Boats: A Student Spotlight on LSU’s Autonomous Vessel Capstone with Integer

Recently at one of our Baton Rouge events with our LSU team, a group of six LSU College of Engineering seniors debuted their final design capstone project that we sponsored throughout the school year: a catamaran-style unmanned surface vessel (USV). On a warm, sunny day by the water, our team of engineers, along with LSU

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Jun 23, 2025

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4 min read

Celebrating International Women in Engineering Day with Dr. Crystal Pee Bowman

As International Women in Engineering Day recognizes the contributions of women in engineering and encourages them to enter the field, we’re delighted to highlight the contributions of Crystal Pee Bowman, Ph.D., Integer’s Technical Program Manager – Workforce Development. In this role, Dr. Pee Bowman focuses on workforce development for the Department of Defense, with a

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