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, ...

As the automotive industry moves to higher levels of automated and autonomous driving (Figure 1), lane-level accuracy combined with adherence to strict automotive safety standards is required, but ...

Ford Fusion equipped with Swift Navigation Skylark Precise Positioning Service at the American Center for Mobility, Ypsilanti, Michigan. On a closed course, as soon as the driver gets behind the wheel ...

A new GNSS module enables global centimetre-level positioning without heavy ground infrastructure, combining multi-band satellite signals and cloud-based corrections for robotics, drones, agriculture, ...

Precise positioning technology serves as the backbone of modern infrastructure and transportation systems worldwide. From the initial construction phases of major transportation projects to the daily ...

When you’re a machinist, your stock in trade is precision, with measurements in the thousandths of your preferred unit being common. But when you’re a diemaker, your precision game needs to be even ...

Why this is important: This breakthrough completely redefines what smartwatches are capable of. While GPS first made its way to smartwatches back in 1999, older hardware and high power consumption ...

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 ...

The L-886 goniometers deliver 17° rotation range, 3.5 kg payload capacity, and sub-microradian precision for demanding ...

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 ...