Chirp measurements in radar applications are used to determine the quality of transmitted pulses. The primary quality indicators revolve around the need for the transmitted pulse to be free of ...

Guided wave radar technology is highly suited to very difficult level measurement applications. A typical guided wave radar setup will involve a transmitter that is installed on top of a vessel or ...

Most people are perfectly fine with normal weather apps. You get your forecast, current weather conditions, and a functional but otherwise unimpressive weather radar ...

Passive radar systems have emerged as a transformative technology in remote sensing by exploiting non-cooperative illuminators such as GNSS, communication, television, and radio signals. Unlike ...

Borehole radar technology represents a critical advancement in geophysical exploration, enabling detailed imaging of subsurface structures through the use of high‐frequency electromagnetic waves. This ...

Radar systems generally consist of a transmitter which can produce electromagnetic signal and which is radiated into space using an antenna. When this signals strikes an object it reflects into many ...

Georgia Tech scientists and engineers are pursuing the dictum that “smaller is better” to develop a new breed of highly-integrated silicon-based microchips capable of operating in ultra-sophisticated ...

A new generation of powerful RF CMOS smart sensors can be used by automakers and retailers in a wide range of in-vehicle systems, offering attractive features that enhance a car owner’s overall ...

Communications and sensing technologies have transformed the automotive industry. More and more, cars include features and systems to interact with their environment, gaining awareness of the ...