Exail Launches GNSS-Denied Navigation System as INS Market Heads for $11.92 Billion by 2030
Updated
Updated · marketsandmarkets.com · Jun 15
Exail Launches GNSS-Denied Navigation System as INS Market Heads for $11.92 Billion by 2030
3 articles · Updated · marketsandmarkets.com · Jun 15
Summary
Exail unveiled a rapidly deployable navigation system for GNSS-denied environments, aimed at keeping military units operating when GPS and other satellite signals are jammed, spoofed or unavailable.
Built on fiber optic gyroscope technology, the system provides assured positioning, navigation and timing without vehicle modifications or dedicated infrastructure, and can be fielded within minutes across tactical to high-performance missions.
The launch targets a growing defense requirement as electronic warfare threats push militaries to seek navigation resilience across land, air, maritime and unmanned platforms.
MarketsandMarkets estimates the inertial navigation system market at $9.42 billion in 2026 and projects it will reach $11.92 billion by 2030, reflecting demand from defense modernization, autonomous systems and multi-domain operations.
Can Exail's new system outmaneuver defense giants in the race for GPS-free navigation?
Is fiber-optic navigation the answer, or is strengthening military GPS a smarter defense against electronic warfare?
Beyond the battlefield, could this GPS-independent technology soon guide autonomous cars and drones through our cities?
Exail’s Rapid GNSS-Denied Navigation System: Transforming Defense and Commercial Markets in a $438M Industry by 2036
Overview
In June 2026, Exail launched a rapidly deployable navigation system that sets a new standard for resilient operations in challenging environments. This innovative solution provides immediate navigation capabilities, effectively countering GNSS unavailability and ensuring continuous operational functionality for field units in contested areas. With its plug-and-play philosophy, Exail’s system drastically reduces the time needed to become operational—from days to just minutes. This unparalleled speed of deployment allows military forces, who often face dynamic and unpredictable conditions, to swiftly integrate the system into existing setups and maintain mission-critical navigation even when satellite signals are denied.