TECH Talk: Quantum Sensing for Geospatial Applications

The speaker discusses how they first learned about Quantumsensing and navigation, their conversation with Gavin via email, and the interest among people in the topic.

Gavin, the administrator of the real-time network (RTN) for the state, is introduced and welcomed for the presentation on Quantum sensing for geospatial applications.

The presentation on Quantum sensing for geospatial applications is initiated, highlighting the relevance of Quantum sensing in conflict zones and its comparison with classical bits and Quantum particles.

Explanation of the application of physics principles in Quantum sensing, focusing on superposition, quantum particles, and the sensitivity of atoms in Quantum sensing technologies.

Discussions on the practicality of Quantum sensing and Quantum computing in geospatial applications, emphasizing the potential benefits in surveying, GPS, and positioning technologies.

Exploration of the risks associated with jamming and spoofing in navigation systems, including incidents, tracking technologies, and the development of tools to detect and prevent interference.

Overview of using quantum sensors to improve geomagnetic field monitoring, with a focus on gravimetric sensors for underground mapping and detection of tunnels or voids.

Discussion on the advancements in Quantum technologies, such as Quantum gyroscope, differential measuring techniques, ground-based sensors, and the potential applications in mobile mapping systems.