The acquisition of the radio frequency signal from the Artemis II crewed mission to the moon by NASA's Deep Space Network ...

Russian scientists have proposed a new algorithm for automatic decoding and interpreting the decoder weights, which can be used both in brain-computer interfaces and in fundamental research. The ...

Researchers developed a method to enable quantum sensors to detect any arbitrary frequency, with no loss of their ability to measure nanometer-scale features. Quantum sensors detect the most minute ...

The need for high-frequency semiconductor devices is surging, fueled by growing demand for advanced telecommunications, faster sensors, and increasingly autonomous vehicles. The advent of ...

The evolution of communications is about taking one kind of thing and making it better, faster, and more reliable. USB 1 evolved into USB 2; FireWire 400 morphed into FireWire 800; 10 Mbps Ethernet ...

A new quantum sensor can analyze the full spectrum of radio frequency and real-world signals, unleashing new potentials for soldier communications, spectrum awareness and electronic warfare. Army ...

A new congressionally mandated report from the National Academies of Sciences, Engineering, and Medicine assesses the likelihood of harmful interference from Ligado Networks’ authorized use of the ...

The acquisition of the radio frequency signal from the Artemis II crewed mission to the Moon by NASA's Deep Space Network (DSN) is indicated by the peak in the data signal shown on the top computer ...