A satellite television antenna system can include a self-pointing satellite antenna and a power inserter coupled to the self-pointing satellite antenna. The power inserter can include an enclosure body and a circuit board disposed inside of the enclosure body. The circuit board includes a microprocessor. The microprocessor can be configured via software code to determine whether a first type of communication protocol is being received from a set top box (STB) coupled to the power inserter, determine a configuration for a first constellation of spacecraft if the first type of communication protocol is being received from the STB, and determine a configuration for a second constellation of spacecraft if the first type of communication protocol is not being received from the STB. The first constellation of spacecraft is different than the second constellation of spacecraft.

A satellite television antenna system can include a self-pointing satellite antenna and a power inserter coupled to the self-pointing satellite antenna. The power inserter can include an enclosure body and a circuit board disposed inside of the enclosure body. The circuit board includes a microprocessor. The microprocessor can be configured via software code to determine whether a first type of communication protocol is being received from a set top box (STB) coupled to the power inserter, determine a configuration for a first constellation of spacecraft if the first type of communication protocol is being received from the STB, and determine a configuration for a second constellation of spacecraft if the first type of communication protocol is not being received from the STB. The first constellation of spacecraft is different than the second constellation of spacecraft.

An image pickup apparatus includes, between a first unit including an image pickup device and a second unit including a video processing circuit, a waveguide path through which a millimeter wave or a submillimeter wave is transmitted, the second unit includes a millimeter-wave carrier-wave generation circuit and a demodulator configured to regenerate, from a millimeter-wave modulated wave generated by the first unit and received through the waveguide path, a video signal generated by the image pickup device, and the first unit includes a processing-transmission circuit configured to receive a millimeter-wave carrier wave through the waveguide path, generate a millimeter-wave modulated wave by superimposing the video signal generated by the image pickup device on the millimeter-wave carrier wave, and transmit the millimeter-wave modulated wave toward the waveguide path.

Introduced here are systems to manage and discover a processing offloader. A first multimedia device may identify a processing offloader in a networked environment. A first multimedia device may determine that a bandwidth of a second multimedia device in the networked environment falls below a threshold bandwidth, indicating that the second multimedia device may process instructions and render multimedia information with increased latency or delay. Based on this determination, the first multimedia device may forward instructions from the second multimedia device to the processing offloader for the processing offloader to process and render multimedia information on behalf of the second multimedia device based on the received instructions. The first multimedia device may forward rendered multimedia information from the processing offloader to the second multimedia device, and the second multimedia device may output the rendered multimedia information to an output device.

Disclosed is a data transmission system having a transmitter and a receiver. The transmitter encodes external input signals to acquire coded transmission data transmitted in multiple paths with different frequency band, and then transmits them to respective receiver; and the receiver performs data fusion on the received transmission signals to acquire coded received data, and decodes it to acquire and output the decoded data. In conclusion, since the received signals are split into a plurality of transmission signals of different frequency bands by the transmitter and the signals are fused in the receiver, the signals are not susceptible to the same frequency interference during transmission, improving the anti-interference of the data transmission system, realizing high-reliability transmission at low cost or in a complex wireless environment, also expanding the applications of the data transmission system.

Disclosed is a data transmission system having a transmitter and a receiver. The transmitter encodes external input signals to acquire coded transmission data transmitted in multiple paths with different frequency band, and then transmits them to respective receiver; and the receiver performs data fusion on the received transmission signals to acquire coded received data, and decodes it to acquire and output the decoded data. In conclusion, since the received signals are split into a plurality of transmission signals of different frequency bands by the transmitter and the signals are fused in the receiver, the signals are not susceptible to the same frequency interference during transmission, improving the anti-interference of the data transmission system, realizing high-reliability transmission at low cost or in a complex wireless environment, also expanding the applications of the data transmission system.

A system and method are provided that, among other things, can reduce the burden on receiving computers, increase data throughput, reduce system failure, and provide components of a scalable and flexible network architecture. Specifically, the system and method provide a multichannel-multicast network environment for use in dynamically assigning data to channels. This configuration is particularly useful in a trading network environment, as it effectively performs channel reassignments in a way not to disturb the receipt of the underlying data. While the example embodiments described herein pertain to electronic trading, the principles of the present invention may be equally applied in other environments where the advantages presented herein are beneficial.

A system and method are provided that, among other things, can reduce the burden on receiving computers, increase data throughput, reduce system failure, and provide components of a scalable and flexible network architecture. Specifically, the system and method provide a multichannel-multicast network environment for use in dynamically assigning data to channels. This configuration is particularly useful in a trading network environment, as it effectively performs channel reassignments in a way not to disturb the receipt of the underlying data. While the example embodiments described herein pertain to electronic trading, the principles of the present invention may be equally applied in other environments where the advantages presented herein are beneficial.

A system and method for controlling an in-vehicle infotainment system to control content in using a primary display includes a mobile device and the in-vehicle infotainment system in communication with the mobile device. The in-vehicle infotainment system comprises the primary display and a first secondary display. The in-vehicle infotainment system receives a first content selection signal for a first content. The first secondary display displays the first content in response to the first content selection signal. The primary display displays a content identifier corresponding to the first content.

A system and method for controlling an in-vehicle infotainment system to control content in using a primary display includes a mobile device and the in-vehicle infotainment system in communication with the mobile device. The in-vehicle infotainment system comprises the primary display and a first secondary display. The in-vehicle infotainment system receives a first content selection signal for a first content. The first secondary display displays the first content in response to the first content selection signal. The primary display displays a content identifier corresponding to the first content.