A transmitter is configured to transmit a series of command signals and a series of data signals. The transmitter includes a serializer and a multiplexer. The serializer is configured to generate the series of data signals. The multiplexer, coupled to the serializer, is configured to selectively output the series of command signals or the series of data signals

A transmitter is configured to transmit a series of command signals and a series of data signals. The transmitter includes a serializer and a multiplexer. The serializer is configured to generate the series of data signals. The multiplexer, coupled to the serializer, is configured to selectively output the series of command signals or the series of data signals

The present disclosure in some embodiments provides a packet loss recovery apparatus and a packet loss recovery method for use in an Internet Protocol Television (IPTV) multicast service, which utilizes additional information received from an IPTV UE for causing a cache server to detect and transmit a lost packet to the IPTV UE to recover the packet loss.

A system for communicating data over a transmission line is disclosed. In one example implementation, the system may include a transmitter configured to modulate a control signal onto an RF signal using amplitude-shift keying modulation to generate a transmit signal. The system may include a receiver and a transmission line coupling the transmitter to the receiver. The transmitter may be configured to transmit the transmit signal over the transmission line to the receiver, and the receiver may be configured to de-modulate the control signal and extract clock information associated with the transmitter. In some embodiments, the system may include a tuning circuit and a modal antenna, and the tuning circuit may be or include the receiver. The receiver may be configured to adjust a mode of the modal antenna based on the control signal transmitted by the transmitter.

Disclosed are an electronic device and a method for controlling same. The disclosed electronic device re-samples data received from a first external electronic device, on the basis of the difference in speed between the clock speed of the first external electronic device and the clock speed of the disclosed electronic device, and transmits the re-sampled data to a second external electronic device.

Disclosed are an electronic device and a method for controlling same. The disclosed electronic device re-samples data received from a first external electronic device, on the basis of the difference in speed between the clock speed of the first external electronic device and the clock speed of the disclosed electronic device, and transmits the re-sampled data to a second external electronic device.

In accordance with a first aspect of the present disclosure, an ultra-wideband (UWB) receiver is provided, comprising: an attack mitigation unit configured to mitigate one or more attacks on a correlation function; a correlation unit configured to perform the correlation function by correlating an input signal received by the UWB receiver with a predefined sequence and to generate a correlation output based on correlating said input signal with the predefined sequence; and a first path detection unit configured to receive the correlation output and to detect a first path by evaluating the correlator output during a correlation window, said correlation window being a predefined period of time. In accordance with a second aspect of the present disclosure, a corresponding method of operating a UWB receiver is conceived. In accordance with a third aspect of the present disclosure, a computer program is provided for carrying out said method.

In accordance with a first aspect of the present disclosure, an ultra-wideband (UWB) receiver is provided, comprising: an attack mitigation unit configured to mitigate one or more attacks on a correlation function; a correlation unit configured to perform the correlation function by correlating an input signal received by the UWB receiver with a predefined sequence and to generate a correlation output based on correlating said input signal with the predefined sequence; and a first path detection unit configured to receive the correlation output and to detect a first path by evaluating the correlator output during a correlation window, said correlation window being a predefined period of time. In accordance with a second aspect of the present disclosure, a corresponding method of operating a UWB receiver is conceived. In accordance with a third aspect of the present disclosure, a computer program is provided for carrying out said method.

A transmitter is configured to transmit a series of command signals and a series of data signals. The transmitter includes a serializer and a multiplexer. The serializer is configured to generate the series of data signals. The multiplexer, coupled to the serializer, is configured to selectively output the series of command signals or the series of data signals.

A transmitter is configured to transmit a series of command signals and a series of data signals. The transmitter includes a serializer and a multiplexer. The serializer is configured to generate the series of data signals. The multiplexer, coupled to the serializer, is configured to selectively output the series of command signals or the series of data signals.