Since the early 2000s, ultra-wideband (UWB) technology has gradually found its way into a variety of commercial applications that require secure and fine-ranging capabilities. Well-known examples are ...

This chapter covers active sensing of the atmosphere using both ground-based and satellite-borne radars. Owing to the vast expanse of weather, hydrometeors, and atmospheric gases, in situ measurements ...

REZZATO, Italy--(BUSINESS WIRE)--ARIA Sensing proudly announces the launch of "Hydrogen," a groundbreaking Ultra-Wideband (UWB) Radar System-On-Chip (SoC) that sets a new industry benchmark as the ...

Abstract: Traditional active radars transmit a powerful electromagnetic pulse and record the echo's delay time and power to measure target properties of interest, such as range, velocity, and ...

The Radar Concepts department develops innovative techniques, technologies and information retrieval algorithms for future radar remote sensing systems, missions and applications. The research areas ...

The AWR and IWR families of mmWave sensors are based on Texas Instruments’ 45-nm RFCMOS process and bring the entire RF, analog, and digital signal processing chain into a single die. Working in the ...

Machine-generated contents note: 1.1. Introduction -- 1.2. Energy Sources and Radiation Principles -- 1.3. Energy Interactions in the Atmosphere -- 1.4. Energy Interactions with Earth Surface Features ...

Active sensing encompasses the use of a transmitter and at least one receiver to measure (sense) the transmission or scattering properties of a medium at radio frequencies. In transmission ...