More accurate navigation systems and improved wireless communications may not come from traditional electronics, but rather from atoms. Researchers at Penn State and the National Institute of ...
A quadrupole mass analyser designed for fusion research combines radiation hardness with the ability to distinguish between ...
Companies collaborate on innovative approach to Machine Learning-based perception and functional safety with Aptiv PULSE ...
Few missions in modern air warfare carry as much prestige — and as much danger — as the Wild Weasel. Born out of desperate ...
The platform supports autonomous drone operations, including GPS-denied navigation, obstacle avoidance and mission planning, ...
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Auburn's autonomous racer hits 163.6 mph at IAC

Operating from Auburn University’s GPS and Vehicle Dynamics Laboratory (GAVLAB), the Autonomous Tiger Racing (ATR) team ...
Spread the love“`html GPS technology has become integral to our lives, guiding us to our destinations with remarkable precision. However, even the most advanced GPS systems can sometimes falter, ...
RideBuddy recognised for leveraging AI, sensor fusion and real-time analytics to transform corporate mobility into a ...
Quantum sensing uses quantum physics to measure movement or acceleration with high precision, which could help aircraft ...
Russian satellites have been identified as the cause of mysterious, seconds-long bursts of GPS interference across Europe—a rare example of human-made GPS interference coming from space. But ...
The U.S. Naval Research Laboratory (NRL) has successfully launched the GNSS Orbiting Situational Awareness Sensor (GOSAS), one of three advanced experimental payloads. GOSAS was aboard the Space Test ...
We’ve come to expect the U.S.-based global positioning system (GPS) to be available and ubiquitous for the countless military, commercial, and consumer applications dependent on it. Its diverse uses ...