Blackmore Sensors and Analytics reported its automotive Doppler lidar system for self-driving cars surpassed expectations in real-world tests in San Francisco’s congested streets and on Bay Area ...

Ronald Wharton, MD: Greetings from the Bronx. This is Dr Ronald Wharton. I am a cardiologist at Montefiore Medical Center at the Albert Einstein College of Medicine, and I am sharing a case which I ...

ADI’s new octal ultrasound receivers reduce system size, complexity, and power consumption for mid- and high-end cart-based ultrasound systems Norwood, MA (04/07/2009) – Ultrasound imaging has evolved ...

Hello and welcome to another imaging case study. This is Ronald Wharton. I am a cardiologist at Montefiore Medical Center and assistant professor of medicine at the Albert Einstein College of Medicine ...

Norwood, Mass — Analog Devices, Inc. has created an IC that simplifies the development of continuous wave (CW) Doppler imaging in stationary and portable ultrasound systems. CW Doppler is an advanced ...

How to optimize typical frequency modulated continuous wave (FMCW) radar range-Doppler signal processing algorithm kernels using both fixed- and floating-point computations on Cadence Tensilica DSPs.

There aren’t many Hackaday Prize entries playing around in RF, save for the handful of projects using off the shelf radio modules. That’s a little surprising to us, considering radio is one of the ...

Analog Devices' AD8333 is a dual-channel I/Q demodulator and phase-shifter for CW Doppler ultrasound. The monolithic Doppler phase-shifter IC achieves a dynamic range of 161 dB/Hz, which is equal to ...

Doppler radar uses the Doppler effect to measure the radial velocity of targets in the antenna's directional beam. The Doppler effect shifts the received frequency up or down based on the radial ...

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 ...