Harmonic radar systems represent a significant advancement in radar technology by exploiting the nonlinear response of specially designed tags or transponders. These systems operate by transmitting a ...

The benefits of AoP radar sensor technology will be apparent in a range of application types, reducing RF design complexity ...

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 ...

Artificial intelligence and machine learning (AI/ML) are driving the development of next-generation radar perception. However, these AI/ML-based perception models require enough data to learn patterns ...

Modern communications and sensing technologies have revolutionized the way cars are designed. To increase safety and move toward autonomous driving (AD), new vehicles must include systems that can ...

In the fast-evolving field of uncrewed aerial vehicles () the need for sophisticated detect and avoid (DAA) capabilities has never been more important. Developing these technologies is critical in ...

Radar and LiDAR are two key technologies for sensing the surrounding environment, widely used in industries such as automotive, robotics, security, and environmental monitoring. The fundamental ...

PALM BEACH, Fla., Aug. 05, 2025 (GLOBE NEWSWIRE) -- FN Media Group News Commentary - Radar is a cornerstone of modern technology and has been instrumental in fields from aviation to defense.

As radar technology continues to advance, it offers an increasingly broad range of capabilities, making it a viable alternative to traditional passive infrared (PIR) sensors. With radar’s enhanced ...