Applications
Omnisense positioning technology is applied across autonomous systems, research environments, and operational deployments where performance and resilience are critical.
Autonomous navigation
Omnisense technology supports autonomous navigation and landing in environments where GNSS performance is degraded, unreliable, or unavailable.
Recent developments in extended-range ranging have reduced infrastructure density requirements, improving deployment economics while maintaining high-accuracy performance. Originally developed within the Dronehome project (with ESA) to support autonomous landing capability, these advances are applicable to a wide range of navigation systems.
Integration and deployability
The same core positioning approach can be integrated with complementary navigation and sensing techniques, providing an independent positioning layer that enhances overall system resilience. Extended-range ranging improves deployment economics while maintaining performance.
Animal Tracking & Behavioural Research
Omnisense positioning data has supported academic research investigating animal movement, space use, welfare, and behavioural response under varying environmental conditions.
Deployments in controlled and real-world farm environments have enabled detailed analysis of heat stress response, bunching behaviour, and lameness indicators in dairy cattle, requiring consistent long-term accuracy and reliable operation.
Selected publications and project details are available on request.
Industrial, infrastructure & defence
Beyond research environments, Omnisense positioning technology has been applied to people and asset tracking in industrial and defence contexts where robustness, reliability, and operational continuity are critical.
Applications include tracking within complex indoor and GNSS-challenged environments, infrastructure settings, and operational contexts requiring dependable location awareness.
All applications are underpinned by a common positioning foundation designed for flexibility across radio bands and deployment environments.
A common positioning foundation
All deployments are underpinned by a shared positioning architecture designed for flexibility across radio bands and operational contexts.