ADELPHI, Md. -- A new, miniature, low-frequency antenna with enhanced bandwidth will enable robust networking among compact, mobile robots in complex environments. In a collaborative effort between ...

Due to the difficulties of propagating radio waves through concrete and metal, covering the varied range wireless communications in complex structures has traditionally been a job that could only be ...

Today, miniaturized devices require the use of antennas that are smaller than their wavelength. Wide bandwidth microstrip antennas get a lot of interest from designers due to their flexibility and ...

Antennas used with ground penetrating radar (GPR) come in different shapes and sizes. The largest antennas typically radiate the lower frequencies necessary to detect the deepest targets. The smallest ...

The OM-DW Series ceiling-mount antennas support all popular frequency bands from 860 MHz through 5.88 GHz, eliminating the need to stock multiple antenna frequencies. They tout wide bandwidth ...

The need for, and benefits of, reconfigurable antennas. How metamaterials combined with novel assembly techniques were combined to create a physically reconfigurable antenna. The performance ...

In the realm of modern satellite communication, SpaceX's Starlink system stands out for its innovative use of phased array antenna technology. This advanced technology is the backbone of Starlink's ...

Our Hackaday readership represent a huge breadth of engineering experience and knowledge, and we get a significant number of our story tips from you. For instance, today we are indebted to ...

A new, miniature, low-frequency antenna with enhanced bandwidth will enable robust networking among compact, mobile robots in complex environments. A new, miniature, low-frequency antenna with ...