Precision time synchronization between two remote sites is desired in many applications such as global positioning satellite systems, long-baseline interferometry, coherent radar detection and ...

$$\Delta t_{{\mathrm{AB}}} = \frac{1}{2}\left[ {T_{{\mathrm{AA}}} - T_{{\mathrm{AB}}} - T_{{\mathrm{BB}}} + T_{{\mathrm{BA}}}} \right] + \frac{1}{2}\left[ {T ...

The movements of the Sun, Moon and stars have long been used to keep track of time, and now engineers from the University of Tokyo have proposed a new way to use the cosmos to precisely track time, ...

In the power generation industry, accurate time-keeping by supervisory control systems is of utmost importance. Operational failures can propagate rapidly across plant systems and trigger a chain ...

No audio available for this content. A new receiver for GPS and other GNSS improves time-synchronization accuracy in areas with severe reception conditions, such as among buildings and in mountainous ...

No audio available for this content. Septentrio’s mosaic-T is built specifically for resilient and precise time and frequency synchronization under challenging conditions. (Photo: Septentrio) Fugro ...

When the power is out, you need answers — fast. First, you’ll need precise details about what happened and when. The cause could be external or internal, and a single disturbance can initiate a series ...

Facebook has taken a break from the election business to make a breakthrough in global synchronized timekeeping. The tech titan has compared the two leading time protocols used in networks and done a ...