The disclosure provides a data processing method and apparatus, a storage medium and an electronic device. The method includes: performing first processing on data by using a first sub-model corresponding to an artificial intelligence (AI) processing model, to obtain an intermediate processing result, the AI processing model corresponding to the first sub-model and a second sub-model, the first sub-model being generated according to M neural network layers in the AI processing model, the second sub-model being generated according to K neural network layers in the AI processing model, M and K being positive integers greater than or equal to 1; transmitting the intermediate processing result to a first server; and receiving a target processing result from the first server, the target processing result being based on a result of second processing on the intermediate processing result by using the second sub-model.

Embodiments of the present disclosure provide a method, an electronic device, and a computer program product for data compression. The method includes: comparing the size of a first data packet to be compressed with a first threshold size; if the size of the first data packet is greater than the first threshold size, determining at least two second data packets from the first data packet, wherein the size of each second data packet is less than a second threshold size; and respectively compressing the at least two second data packets. In this way, the delay of data compression can be shortened.

The present disclosure describes systems and methods for multi-device media broadcasting or recording with active control. A controller may preview media streams from a plurality of source devices, and may select between the streams, add processing or additional content to the streams, and provide an edited or mixed stream to one or more client or recipient devices. In many implementations, mixing or selective presentation of streams may be accomplished with little to no delay via a lightweight signaling and chunk identification change protocol. In other implementations, processing and mixing instructions may be provided to client devices, which may retrieve the streams and process them locally, reducing or eliminating delay from an intermediary processor or mixer.

Aspects of the present disclosure relate to techniques for signal compression. Certain aspects described in this disclosure can be implemented in a method for wireless communication by a distributed unit (DU). The method generally includes compressing at least one reference signal (RS) in one or more first set of resource elements (REs) of a symbol and data in one or more second set of REs of the symbol, wherein the at least one RS is compressed using a first compression type and the data is compressed using a second compression type, and wherein the first compression type is different than the second compression type; and sending, to a radio unit (RU), the symbol having the at least one RS in the one or more first set of REs and the data in the one or more second set of REs compressed using the first and second compression types, respectively.

A communication recording apparatus includes: a storage unit and a computational unit. The storage unit stores packets transmitted from a transmitter apparatus to a destination apparatus. The computational unit executes a process including deciding, in accordance with a port number included in the received packets, whether the packets are to be compressed, compressing the packets decided to be compressed, and storing the compressed packets in the storage unit.

A transmit device may generate a first part and a second part that are used to advertise a plurality of pieces of network layer reachable information (NLRI) of pieces of destination end information. The first part includes a common information field corresponding to the pieces of NLRI, the common information field includes same information in the pieces of NLRI, the second part includes private information fields corresponding to the plurality of pieces of NLRI, and each of the private information fields includes information other than the same information in NLRI corresponding to each private information field. The first part and the second part may be carried in an advertisement packet, to implement compression and sending of information used to advertise the pieces of NLRI, thereby improving efficiency of advertising a route by the transmit device without affecting normal running of a service.

A method for transmitting data collected by at least one sensor to a monitoring device. The method includes, upon acquisition of a new piece of data by the at least one sensor, acts of calculating a deviation indicator indicating a deviation between the value of the new piece of data and a value predicted for this piece of data by a prediction model representative of previously acquired data, and transmitting the new piece of data to the monitoring device when the deviation indicator is higher than a threshold. Also provided are a monitoring method on a monitoring device, a terminal implementing the transmission method and a server implementing the monitoring method.

A method includes compressing data to generate compressed data having a first block size corresponding to a block-size requirement of a client device. The method further includes encrypting the compressed data to generate an encrypted data packet. The method further includes adding, by a processing device, a padding bit pattern to the encrypted data packet to generate a data block for storage, the data block having a second block size determined by a buffer size of a storage array.

A method includes compressing data to generate compressed data having a first block size corresponding to a block-size requirement of a client device. The method further includes encrypting the compressed data to generate an encrypted data packet. The method further includes adding, by a processing device, a padding bit pattern to the encrypted data packet to generate a data block for storage, the data block having a second block size determined by a buffer size of a storage array.

A computing system may include a server, and a client computing device in communication with the server. The server may be configured to provide a corresponding virtual desktop instance for the client computing device. The computing system may include a local device to be coupled to a given client computing device and to be operable in a given virtual desktop instance associated with the given client computing device, thereby generating client initialization packets. The server may be configured to generate a server mapping table. The given client computing device may be configured to generate a client mapping table, replace a client packet with a client mapping ID number to define compressed client initialization packets, and send the compressed client initialization packets to the server. The server may be configured to replace the client mapping ID number with the client packet in the compressed client initialization packets based upon the server mapping table.