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 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 ...

He has been involved with GPS/GNSS related research for more than 20 years investigating all elements of the receiver from the antenna, front end radio design, signal processing and navigation ...

STMicroelectronics has unveiled the Teseo VI family of GNSS receivers. The new receivers integrate multi-constellation and quad-band signal processing on a single chip, achieving centimeter-level ...

GE: Calian GNSS smart antennas (GNSS receiver built-in to the antenna) have built in Inertial Measurement Units (IMU). We also have smart antennas that employ the L1-L5 observation pair rather than L1 ...

The unique baseband architecture provides configurability for very low power applications with reduced sampling rates, select signals, and power-down modes. View Multi-constellation and ...

This GNSS RF Receiver IP is silicon-proven in 22nm ULP process node, offers comprehensive support for all current satsatellite-based navigation systems, encompassing GPS (US), Galileo (EU), GLONASS ...

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 ...

Topcon Positioning Systems has announced the latest addition to its HiPer family of global navigation satellite system (GNSS) receivers. The HiPer CR is a compact and lightweight GNSS receiver ...

NASA and the Italian Space Agency made history on March 3 when the Lunar GNSS Receiver Experiment (LuGRE) became the first technology demonstration to acquire and track Earth-based navigation ...