infiniDome and Marvel Robotics have introduced a strategic collaboration to develop IroNav, a brand new class of full-stack resilient autonomy answer designed for a actuality the place dependable navigation can now not be assumed, offering end-to-end mission autonomy that mixes vision-based navigation with resilient flight management in a single, built-in structure.
The collaboration comes at a time when GNSS disruption is now not confined to army theaters or remoted battle zones. Interference is more and more affecting routine operations throughout protection, maritime, and homeland safety domains, forcing operators to rethink how autonomy is designed and deployed.
The choice to collaborate was pushed by a shared evaluation that, for superior autonomous missions, combining navigation resilience and vision-based autonomy unlocks capabilities that neither area delivers by itself. In IroNav, this integration extends past navigation: the joint product delivers “full protection autonomy” that protects not solely place and timing (PNT), but additionally the steadiness and continuity of the drone’s management loop in degraded or hostile RF situations. This perception was formed by each firms’ prior operational expertise in difficult environments.
Somewhat than treating GNSS denial as an edge case, IroNav is constructed across the assumption that interference is changing into a persistent operational situation. The joint answer displays a shared imaginative and prescient: autonomy shouldn’t degrade when GPS fails; it ought to adapt and proceed working.
IroNav brings collectively two domains which can be typically addressed individually. infiniDome’s experience in navigation resilience and safety is tightly built-in with Marvel Robotics’ vision-based autonomy and precision touchdown capabilities, forming a single navigation structure relatively than a set of fallback modes. Critically, the system is designed to take advantage of GNSS when it’s nonetheless accessible, even when partially jammed: leveraging infiniDome’s adjustable antenna to maximise usable sign and preserve mission continuity. When GNSS is briefly misplaced or when the surroundings is spoofed, the answer transitions to a whole GNSS-denied safety envelope, enabling the platform to proceed working and full the mission. Navigation, decision-making, and management are executed absolutely onboard, lowering dependence on exterior infrastructure, communications hyperlinks, or steady human supervision.
A central component of the answer is WonderLand, Marvel Robotics’ vision-based precision touchdown functionality, which allows autonomous operations on transferring platforms, maritime environments, and unprepared terrain, even in absolutely GNSS-denied or spoofed situations. Built-in into IroNav, it extends resilience past mid-flight navigation to full mission completion, together with probably the most failure-prone phases of autonomous operations. This implies operators can confidently execute both time-sensitive strike profiles (“hit the goal”) or sustained missions corresponding to ISR, even by way of GNSS disruption, with out redesigning the mission idea round GPS availability.
“For years, the business handled GPS denial as a nook case,” mentioned a senior government at infiniDome. “Right now, it is a design constraint. IroNav is our reply to that shift, combining resilience and autonomy right into a system that retains working when situations deteriorate.”
Or Epstein, Co-Founder and Chief Enterprise Officer at Marvel Robotics, added that the collaboration represents a strategic step for the corporate. “We see IroNav as a chance to increase our vision-based autonomy into new operational and geographic markets,” Epstein mentioned. “Working with infiniDome permits us to deal with extra advanced mission profiles and speed up adoption in areas the place navigation resilience is changing into a vital requirement.”At the moment in superior growth, IroNav is being formed by way of shut collaboration and early buyer engagement, together with ongoing trials with prospects in India. The answer is meant for operators who view navigation resilience as a strategic functionality relatively than a checkbox—and who’re prepared to spend money on a system designed from the bottom up for contested environments. and for continuity of operations throughout the complete mission lifecycle.
