This solution could not only help submarines sense where they are without risking exposure, but also elevate a tactical ...

The hope is that the technology will form part of a Quantum Inertial Navigation System (Q-INS) that is resistant to jamming and spoofing by hostile actors. The UK and many other countries rely on ...

Inertial Navigation Systems (INS) are crucial for navigation in various applications, including aerospace, marine, and terrestrial vehicles. These systems use a combination of accelerometers and ...

The Royal Navy and Imperial College London think a quantum navigation system might be the answer. Of course, Heisenberg says you can’t know your speed and position simultaneously. But at the ...

Technology tested on the flight will form part of a Quantum Inertial Navigation System which will be able to operate independent of traditional satellite GPS navigation. Development of the ...

Inertial Measurement Units (IMUs) are critical components in navigation systems, providing essential data for determining the position and orientation of vehicles, aircraft, and other moving objects.

Other sensors used for inertial navigation systems will all have their own sources ... The atoms are forced into a quantum superposition of being both hit and not hit by the pulse.

enabling advanced inertial navigation, gravity mapping, and exploration of natural resources. Quantum sensors are essential components of quantum computing and quantum communication systems. They can ...

The company offers inertial measurement units, inertial navigation systems, assured position navigation and timing, GNSS tracking, lidar scanning, alternative navigation and visual navigation ...

The Institute of Quantum Technologies and the Institute for Satellite Geodesy and Inertial Sensingare involved in the ... transfers them to the commercial market for Global Navigation Satellite System ...