Disclosed embodiments relate to isolation methods for full-duplex communication. In one example, a full-duplex antenna system includes a Tx (transmit) signal path including one or more elements each, means a power amplifier, one or more filters, and a Tx port of a Tx patch antenna operating at a Tx frequency band to transmit an outgoing signal to a satellite, the one or more elements each further including an Rx (receive) signal path including a low noise amplifier driven by an Rx port of an Rx patch antenna operating at an Rx frequency band to receive an incoming signal from the satellite, the Rx frequency band being separated by a guard band from the Tx frequency band, wherein the filters together with a physical separation between the Tx and Rx signal paths provide sufficient isolation to reduce coupling between the Tx signal path and the Rx signal path, allowing the full-duplex antenna system to operate in full-duplex.

A message handler for receiving and transmitting positional information over a short burst data (SBD) service is provided. The message handler comprises a receiver for receiving packets with positional information from one or more mobile devices over the SBD service, a memory for storing the positional information, a transmitter for sending situational awareness packets to the one or more mobile devices, computer readable medium having computer readable instructions stored thereon for causing the message handler to receive the packets from the one or more mobile devices, store the positional information from the packets in the memory, select positional information based on parameters for the situational awareness packets, the selected positional information comprising at least longitude and latitude, heading and altitude for at least one mobile device, compress and combine the selected information to send in the situational awareness packets based on rules and send the situational awareness packets to the one or more mobile devices.

A message handler for receiving and transmitting positional information over a short burst data (SBD) service is provided. The message handler comprises a receiver for receiving packets with positional information from one or more mobile devices over the SBD service, a memory for storing the positional information, a transmitter for sending situational awareness packets to the one or more mobile devices, computer readable medium having computer readable instructions stored thereon for causing the message handler to receive the packets from the one or more mobile devices, store the positional information from the packets in the memory, select positional information based on parameters for the situational awareness packets, the selected positional information comprising at least longitude and latitude, heading and altitude for at least one mobile device, compress and combine the selected information to send in the situational awareness packets based on rules and send the situational awareness packets to the one or more mobile devices.

Disclosed herein are a method and apparatus for measuring video quality based on a perceptually sensitive region. The quality of video may be measured based on a perceptually sensitive region and a change in the perceptually sensitive region. The perceptually sensitive region includes a spatial perceptually sensitive region, a temporal perceptually sensitive region, and a spatio-temporal perceptually sensitive region. Perceptual weights are applied to a detected perceptually sensitive region and a change in the detected perceptually sensitive region. Distortion is calculated based on the perceptually sensitive region and the change in the perceptually sensitive region, and a result of quality measurement for a video is generated based on the calculated distortion.

A versatile video coning method is provided for an electronic device. The method includes obtaining a video signal; partitioning the video signal into a plurality of coding blocks; generating a residual coding block from each coding block with or without transformation and quantization; splitting the residual coding block into a plurality of sub-blocks and each sub-block into a plurality of pixels; entropy coding a residual symbol level at each pixel in the residual coding block; and outputting a bitstream including entropy coded residual symbol levels. Entropy coding the residual symbol level at each pixel in the residual coding block includes context modeling of the residual symbol level of the pixel in a transform skip mode based on context information of at least three neighboring pixels of the pixel including a first pixel on the left, a second pixel on the above, and a third pixel on the left-above diagonal.

The disclosure provides a manufacturing method of an electronic device. The manufacturing method of the electronic device includes steps as follows. A substrate is provided. A first opening is formed and penetrates the substrate. A polymer layer is formed in the first opening. The polymer layer is in contact with a sidewall of the substrate at the first opening.

The disclosure provides a manufacturing method of an electronic device. The manufacturing method of the electronic device includes steps as follows. A substrate is provided. A first opening is formed and penetrates the substrate. A polymer layer is formed in the first opening. The polymer layer is in contact with a sidewall of the substrate at the first opening.

There are provided mechanisms for processing encoded image data. The method comprises receiving an encoded bitstream comprising parameter set information. The parameter set information may comprise a syntax indicator, a first coded portion comprising first coded sample information for a picture and a second coded portion comprising second coded sample information for the picture. The method further comprises, responsive to a first value of the syntax indicator, decoding the first coded sample information using a picture header syntax element from a picture header of the encoded bitstream. The method further comprises, responsive to the first value of the syntax indicator, decoding the second coded sample information using the picture header syntax element from the picture header of the encoded bitstream.

A method of processing video data comprises obtaining a bitstream and locating intra random access pictures (IRAP) or Gradual Decoder Refresh (GDR) pictures among the encoded pictures in the bitstream. Locating the IRAP or GDR pictures may comprise obtaining, from a picture header Network Abstraction Layer (NAL) unit in the bitstream, a syntax element that indicates that a picture associated with the picture header NAL unit must be either an Intra Random Access Picture (IRAP) or a Gradual Decoder Refresh (GDR) picture. The picture header NAL unit contains syntax elements that apply to all slices of the picture associated with the picture header NAL unit.

Provided are a data transmission method and device. The method includes: processing a first data packet to be sent by using a compression strategy obtained in advance from a receiving end, deleting specified duplicated data comprised in the compression strategy in the first data packet; generating a second data packet to be sent from the processed first data packet, where the second data packet includes a modification record field for indicating the deleted duplicated data; and sending the second data packet to the receiving end.