Microwave imaging is similar to CT imaging, but instead of X-rays, the microwaves are used to probe the structure and composition of an object. To facilitate experimentation with microwave imaging, ...

With the speed at which technology advances, there is little room for suboptimal performance and out-of-date tech. Precise ...

Aceinna, a developer of inertial-based guidance and navigation systems for autonomous vehicles and devices, has partnered with Point One Navigation, which delivers precise positioning for the next ...

A research team led by Professor Kaiji Sato (Robotics and Mechatronics Laboratory, Department of Mechanical Engineering, Toyohashi University of Technology) revealed a method for designing with ease ...

Oscilloquartz began a collaborative tech validation alongside Tupaia, showing that carriers and enterprises can attain highly accurate GNSS location by leveraging timing systems already in place. In ...

STMicroelectronics has developed the Teseo VI family of GNSS receivers for high-volume precise positioning in automotive and industrial applications. It is the first to integrate all the necessary ...

COMPASS uses the Geostationary Earth Orbit (GEO) and Inclined Geosynchronous Satellite Orbit (IGSO) satellites, which are more suitable for regional services. Its constellation is composed of 14 ...

The Quectel LG290P is a quad-band, multiconstellation GNSS module that achieves centimeter-level positioning accuracy. It supports multimode and quad-band real-time kinematics (RTK) algorithms, ...

PPP stands for Precise Point Positioning. This technology enables the server to utilize global or regional reference stations to make real-time estimations of satellite orbit errors, clock errors, etc ...

These days, satellite positioning systems play a fundamental role in our society. We are constantly surrounded by this technology, and it has been fully integrated into our lives. It has multiple ...