For each: the challenge and our solution.
Critical infrastructure operators face growing pressure on their communication networks from physical threats, extreme weather, and tightening regulation. Ensuring operational continuity, network isolation, and rapid service recovery demands communication technologies that complement conventional connectivity, and take over when it fails.
Our optical wireless communication solutions provide physically diverse, independently deployable links that complement existing fiber and RF networks, keeping critical services connected even when traditional infrastructure is unavailable or compromised. This independent communication layer increases network resilience and availability, reduces dependence on any single technology, and helps operators meet the security, resilience, and auditability requirements of frameworks such as NIS2, ENS, and other critical infrastructure standards.
Typical applications include fiber protection at critical nodes, RF backup and multilink architectures, operational continuity in extreme scenarios, segmentation and isolation of critical networks, and temporary high-capacity links during maintenance, upgrades, or construction. Optical wireless also enables new resilient services, from over-the-air distribution of Positioning, Navigation and Timing (PNT) signals for highly reliable synchronization to last-mile connectivity for Smart Cities and other mission-critical urban infrastructure.
Modern defense operations depend on resilient, secure, low-signature communications that perform in congested, contested, and electronically degraded environments. As electronic warfare capabilities evolve, reliable connectivity becomes a precondition for mission success and operational superiority.
Our optical wireless communication solutions deliver secure, low-latency, highly resilient links that complement conventional RF systems, maintaining connectivity even when the radio spectrum is degraded, denied, or under attack. Their low probability of interception and detection (LPI/LPD) makes them particularly suited to missions where discretion and survivability are critical.
Built on modular, scalable, low-SWaP (Size, Weight, and Power) architectures, they integrate across a wide range of platforms and adapt to different operational environments and mission profiles.
Typical applications include resilient ISR-to-C2 networks with multilink RF fallback, tactical optical communications in RF-contested environments, and high-performance links for unmanned and autonomous systems (UXVs).
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