Website: http://www.fibrx.io
CEO: Kamel Greene
Email: [email protected]
CEO LinkedIn: https://www.linkedin.com/in/kamelgreene/
Total Revenue: $0
Total Funding Received: $200,000
Location: Las Vegas, Nevada, United States
Industry: Infrastructure, Oil & Gas, Internet of Things, Cybersecurity, Artificial intelligence and machine learning, and Space tech
Corrosion and structural failures cost $2.5T globally each year. Industries like defense, aerospace, energy, offshore wind, and oil & gas rely on outdated, reactive inspections. These methods miss early damage, causing costly downtime and safety risks. FibrX delivers 24/7 AI-powered monitoring using fiber optics and digital twins, enabling real-time insights and predictive maintenance across a $900B market.
FibrX delivers a proprietary AI-powered Platform-as-a-Service that uses fiber optic sensors to monitor strain, temperature, and corrosion in real time. Data is sent to a secure cloud platform, where AI algorithms generate predictive insights. A digital twin dashboard visualizes asset health, enabling proactive maintenance. The system is lightweight, non-invasive, and built for defense, aerospace, energy, and offshore environments.
We hold a partially exclusive license with the U.S. Navy and have partnerships with Israel Aerospace Industries of North America. We also have formal collaborations with UC San Diego, Bowie State University, and the University of Arizona on R&D.
FibrX operates as a Platform-as-a-Service (PaaS), generating revenue through multi-annual contracts that include an upfront implementation fee and ongoing subscription pricing based on infrastructure size and sensor volume. We target sectors like defense, offshore wind, aerospace, and energy—part of a $900B SAM. With a 5% capture, our SOM is $45B.
FibrX is led by a mission-driven team with deep expertise in national security, materials science, AI, and commercialization. CEO Kamel Greene has built and scaled dual-use tech ventures and worked with the Department of Energy and the Department of Defense. CTO Carson Townsend is a mechanical engineer with expertise in fiber optic sensing, robotics, and system integration. Chief Engineer Dr. Armen Kvryan is a corrosion expert for the U.S. Navy and a former researcher at NASA and SpaceX. VP of Strategy Tremain Davis and VP of Partnerships Julius Valentine bring strong experience in government contracting and strategic growth. Our team has access to exclusive patented technology licensed from the U.S. Navy, giving us a defensible IP moat. Combined with our established relationships across DoD, NASA, and top-tier universities, we bring unmatched insight, technical capability, and credibility to modernize critical infrastructure monitoring at scale.
Our target audience includes operators of mission-critical infrastructure in high-risk, high-cost industries—specifically defense agencies, aerospace OEMs, offshore wind operators, oil & gas companies, and advanced energy sectors. These stakeholders manage aging or sensitive assets where failure is costly and safety is paramount, and they seek smarter, real-time solutions.
Luna Innovations, GE Inspection, and legacy Micro-FOSS systems. These solutions are often expensive, invasive, and lack real-time analytics. Emerging AI + IoT monitoring startups may also enter the space. FibrX stands out with its patented fiber optic platform, AI-driven insights, and cost-effective, scalable deployment across defense and industrial sectors.
FibrX holds a partially exclusive license to patented U.S. Navy technology, giving us a defensible IP position. We’re 10–20x more cost-effective than legacy systems, deployable in extreme conditions, and designed to align with Weapon Open System Architecture (WOSA) principles—making us ideal for defense and industrial applications where reliability is critical.
Now is the moment. By 2030, AI data centers may consume 20% of U.S. power, driving rapid deployment of nuclear and offshore energy systems. Meanwhile, over 50% of U.S. infrastructure is 30+ years old, and corrosion costs exceed $276B annually. The need for smarter, scalable monitoring has never been more urgent.