Space-Time Adaptive Processing (STAP) has emerged as a pivotal technique in enhancing the performance of modern airborne radar systems through the simultaneous exploitation of spatial and temporal ...

Automation in automotive electronics has driven the next leap of innovation in transportation, fueled by a fundamental premise: In automotive applications, vehicles must be able to sense their ...

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 ...

Atomathic, a radar technology company is making a bold claim: that long-standing safety blind spots around large vehicles ...

Guided by the U.S. Army Research Laboratory, researchers from the Bradley Department of Electrical and Computer Engineering at Virginia Polytechnic Institute and State University are examining the ...

Radar is cropping up everywhere in new car designs: sensing around the car to detect hazards and feed into decision making for braking, steering, and parking and in the cabin for driver and occupancy ...

Why 3D radar is important to ADAS and software-defined vehicles. How NXP’s SAF86xx SAF86xx radar SoC simplifies antenna deployment. Advanced driver-assistance systems (ADAS) and software-defined ...

Radar (acronym for Radio Detection and Ranging) uses radio waves to detect objects in the environment. It allows determining the distance (known as range), angular position (bearing), and velocity.

Radar plays an important role in automated driving because it can accurately measure the distance, position, and velocity of targets. On this front, Renesas Electronics enters the automotive radar ...

China’s latest 6G experiment turns a classic vulnerability of stealth aircraft into an asset, capturing hostile radar pulses ...