LuGRE consists of a weak-signal GNSS receiver, a high-gain L-band patch antenna the requisite amplification and filter circuits, designed to track a number of GPS and Galileo signals. Designed by ...

The signal was part of the Lunar GNSS Receiver Experiment (LuGRE) experiment, a co-mission between NASA and the Italian Space Agency. Being able to make use of GPS signals will allow future ...

NASA has successfully beamed GPS signals to the Moon for the first time, marking a breakthrough in space navigation. The Lunar GNSS Receiver Experiment (LuGRE), part of the Blue Ghost mission, has ...

The efforts of Professor Akos and his group helped: propel the low-cost technology enables GPS/GNSS into the mobile phone, pioneer remote sensing receiver architectures using GPS/GNSS signals, provide ...

It successfully acquired signals from four GPS satellites (L1 and L5 frequencies) and one Galileo satellite (E1-E5 bands) during a one-hour observation window. Post-landing, LuGRE will attempt to ...

Firefly Aerospace's Blue Ghost lander will attempt to use Earth's GPS system from the lunar surface. If successful, this will ...

The system engaged and successfully destroyed a moving target using advanced INS/GNSS/Laser Seeker guidance technology. "Aselsan tests Gökberk laser system against FPV drone threats " was ...

NASA’s Goddard Space Flight Center confirmed that LuGRE successfully acquired and tracked signals from GPS and Galileo constellations at 2 a.m. EST on March 3. This is the first time GNSS ...