Multifunction radar systems have evolved to perform a host of tasks from surveillance to target tracking, realising complex electronic support measures with high precision. At the heart of these ...

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 ...

Emerging radar and signal processing technology is enabling Navy surface ships to achieve a ground-breaking measure of radar-detection range and precision--all while enabling ship defense systems to ...

BlighterNexus Track can run on any industrial-grade PC, as part of the BlighterNexus platform, and features a web-based ...

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 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 ...

Using radar commonly deployed to track speeders and fastballs, researchers have developed an automated system that will allow cars to peer around corners and spot oncoming traffic and pedestrians. The ...

Radar devices are among the most important RF applications, with direct impact on aerospace missions, military endeavors, ship and submarine navigation, and road traffic control and monitoring. The ...

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 ...