Scientists at the Advanced Science Research Center at the CUNY Graduate Center (CUNY ASRC) have discovered a way to control ...

AmpliTech Group, Inc. (Nasdaq: AMPG, AMPGW), a vertically integrated designer and manufacturer of advanced RF, microwave, and quantum signal-processing solutions, today announced the alignment and ...

Uncover how mixed-signal ICs are transforming medical wearables with smaller and more power-efficient sensor integration, ...

NeuralCloud Solutions to deploy its CardioYield platform in a multi-stage pilot program with a full-service cardiology clinic in Canada.Enhance Holter ECG analysis accuracy, efficiency, and workflow a ...

A new design paradigm combines mechanical, electrical, thermal, and optical aspects in an integrated system concept.

Whether it's designing microchips, advancing machine learning, or keeping the national grid stable, each branch of EEE demands a blend of technical mastery, persistence, and curiosity.

An AI system that can predict what a patient's knee X-ray will look like a year in the future could transform how millions of ...

In addition to radar sensing capabilities, this IR-UWB transceiver offers another feature that sets it apart from existing ...

Scientists have built a “microwave brain” chip that processes information at radar-like speeds while sipping power. It could revolutionize how AI and communication devices operate, from smartwatches ...

A university has used artificial intelligence to create a tool to predict the future X-rays of osteoarthritis patients.

Sound and vibration control are essential for technologies like ultrasound imaging, microelectronics, and advanced sensors. Traditionally, these systems rely on fixed designs, limiting flexibility.