CN110730160A - Self-adaptive remote browsing visual stream transmission method - Google Patents

Abstract

The invention discloses a self-adaptive remote browsing visual stream transmission method, which comprises the following steps: s1, collecting client instructions, enabling a client to operate through a final client according to self requirements, enabling various operation instructions to be collected and integrated by the final client, S2, sending the client instructions to an encoder, S3, transmitting the instructions to a media server by the encoder, S4, identifying the types of the instructions, enabling a decoder to decode the language before the information check process of the multimedia data decoded in S3, meanwhile, identifying the decoded instruction information, judging the transmission type of the instruction information, S5, classifying the identification results, and S6, feeding back the identification results to the final client. The self-adaptive remote browsing visual stream transmission method realizes the self-adaptive function through instruction information identification and classification, achieves the purpose of efficiently and pertinently feeding back the information needed to be known by a client, and can realize better information processing effect through simpler steps.

Description

Self-adaptive remote browsing visual stream transmission method

Technical Field

The invention relates to the technical field of transmission methods, in particular to a self-adaptive remote browsing visual stream transmission method.

Background

The self-adaptation is a process of automatically adjusting a processing method, a processing sequence, processing parameters, boundary conditions or constraint conditions according to data characteristics of processing data in the processing and analyzing processes so as to adapt to statistical distribution characteristics and structural characteristics of the processed data, thereby obtaining the optimal processing effect.

Information transfer is the communication process of transferring data from one device to another. Taking the server and the terminal as an example, the server forms a data stream from the data and then transmits the data stream to the terminal. The data stream may be transmitted to the terminal in two ways: one is submitted to broadcasting front-end equipment such as a satellite and the like and sent to all terminals through a broadcasting network such as satellite broadcasting and the like; the other is to save the data in an internet server or submit the data to a cache server on a content distribution network, and provide a uniform resource descriptor terminal to actively access the data stream data through an internet protocol.

In the prior art, a media server is connected with a single transmission server, and different types of instruction information from a final client are transmitted or fed back through the transmission server of the same type, so that the adaptability is poor, or the self-adaptive function is not provided at all, which causes poor pertinence in the information transmission process, high transmission error rate and low transmission efficiency.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a self-adaptive remote browsing visual stream transmission method, which has the advantage of self-adaptive information transmission and solves the problems of poor pertinence and low efficiency of information transmission feedback.

(II) technical scheme

In order to realize the purposes of self-adaptive information transmission, strong pertinence and high efficiency, the invention provides the following technical scheme: an adaptive remote browsing visual streaming method, comprising the steps of:

s1, collecting client instructions

And the customer operates through the final client according to the self requirement, and various operation instructions are collected by the final client and are integrated.

S2, sending the client instruction to the encoder

And finally, the client sends a demand instruction, the demand instruction information is transmitted to the encoder after wireless transmission, and the client instruction is written into a server language required by the media server through the encoder.

S3, the encoder sends the instruction to the media server

The encoder translates the instruction from the final client into the server language, transmits the server language to the media server through wireless transmission, then the media server decodes the language through the decoder, then corresponds to the corresponding multimedia data according to the decoded instruction information, and checks the multimedia data.

S4, identifying the type of the instruction

Before the process of information-checking the decoded multimedia data in S3, the decoder already decodes the language, and at the same time, it is necessary to identify the decoded command information and determine the transmission type.

S5, classifying the recognition result

And classifying the recognition result, and then transmitting the corresponding multimedia data to the corresponding transmission server by the media server according to the recognition result.

S6, feeding back to the final client

The transmission server transmits the multimedia data to the corresponding final client, the final client expresses the multimedia data in various forms, and the client browses according to the multimedia data presented at the final client.

Preferably, the media server in step S5 is connected to two types of transmission servers, one type is a single-issue transmission server, the other type is a group-issue transmission server, and the recognition result is divided into two categories, one type is one-to-one instruction information, one type is one-to-many instruction information, the one-to-one instruction information corresponds to the single-issue transmission server, and the one-to-many instruction information corresponds to the group-issue transmission server.

Preferably, the multimedia data in step S6 is represented by one or more of text, image, audio or video.

Preferably, the final client in step S1 is a smart phone, a computer or other multimedia devices.

Preferably, the transmission modes between the final client, the encoder, the media server and the transmission server in the steps S1 to S6 are wireless transmission and optical fiber cable transmission.

Preferably, when the recognition result in the step S5 is classified as one-to-one instruction information, the final client in the step S1 and the final client in the step S6 are the same final client, and when the recognition result in the step S5 is classified as one-to-many instruction information, the final client in the step S1 and the final client in the step S6 are not the same final client, and the number of the final clients in the step S6 is plural.

(III) advantageous effects

Compared with the prior art, the invention provides a self-adaptive remote browsing visual stream transmission method, which has the following beneficial effects:

the self-adaptive remote browsing visual stream transmission method realizes the self-adaptive function through instruction information identification and classification, thereby achieving better information processing effect. The self-adaptation is a process of automatically adjusting a processing method, a processing sequence, processing parameters, boundary conditions or constraint conditions according to data characteristics of processing data in the processing and analyzing processes so as to adapt to statistical distribution characteristics and structural characteristics of the processed data, thereby obtaining the optimal processing effect. After receiving the instruction information sent by the final client, the self-adaptive remote browsing visual stream transmission method identifies and classifies the instruction information, and then selects a proper transmission server according to the identification result, so that the information needed to be known by the client is fed back efficiently and pertinently, the self-adaptive remote browsing visual stream transmission method has a self-adaptive function, and can realize a better information processing effect through simpler steps.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows: an adaptive remote browsing visual streaming method, comprising the steps of:

s1, collecting client instructions

The client operates through the final client according to self requirements, various operation instructions are collected by the final client and integrated, and the final client is a smart phone, a computer or other multimedia equipment.

S2, sending the client instruction to the encoder

And finally, the client sends a demand instruction, the demand instruction information is transmitted to the encoder after wireless transmission, and the client instruction is written into a server language required by the media server through the encoder.

S3, the encoder sends the instruction to the media server

The encoder translates the instruction from the final client into the server language, transmits the server language to the media server through wireless transmission, then the media server decodes the language through the decoder, then corresponds to the corresponding multimedia data according to the decoded instruction information, and checks the multimedia data.

S4, identifying the type of the instruction

Before the process of information-checking the decoded multimedia data in S3, the decoder already decodes the language, and at the same time, it is necessary to identify the decoded command information and determine the transmission type.

S5, classifying the recognition result

And classifying the recognition result into one-to-one instruction information, and then transmitting the corresponding multimedia data to the single-shot transmission server by the media server according to the one-to-one instruction information.

S6, feeding back to the final client

The transmission server transmits the multimedia data to the corresponding final client, the final client expresses the multimedia data in various forms, the client browses according to the multimedia data presented at the final client, and the multimedia data finally browsed by the client is expressed in the expression forms of characters, images, audios or videos, or one or more of the characters, images, audios or videos.

Example two: an adaptive remote browsing visual streaming method, comprising the steps of:

s1, collecting client instructions

The client operates through the final client according to self requirements, various operation instructions are collected by the final client and integrated, and the final client is a smart phone, a computer or other multimedia equipment.

S2, sending the client instruction to the encoder

And finally, the client sends a demand instruction, the demand instruction information is transmitted to the encoder after wireless transmission, and the client instruction is written into a server language required by the media server through the encoder.

S3, the encoder sends the instruction to the media server

The encoder translates the instruction from the final client into the server language, transmits the server language to the media server through wireless transmission, then the media server decodes the language through the decoder, then corresponds to the corresponding multimedia data according to the decoded instruction information, and checks the multimedia data.

S4, identifying the type of the instruction

Before the process of information-checking the decoded multimedia data in S3, the decoder already decodes the language, and at the same time, it is necessary to identify the decoded command information and determine the transmission type.

S5, classifying the recognition result

And classifying the recognition result into one-to-many instruction information, and then transmitting the corresponding multimedia data to the mass-sending transmission server by the media server according to the one-to-many instruction information.

S6, feeding back to the final client

The transmission server transmits the multimedia data to the corresponding final client, the final client expresses the multimedia data in various forms, the client browses according to the multimedia data presented at the final client, and the multimedia data finally browsed by the client is expressed in the expression forms of characters, images, audios or videos, or one or more of the characters, images, audios or videos.

Example three: an adaptive remote browsing visual streaming method, comprising the steps of:

s1, collecting client instructions

The client operates through the final client according to self requirements, various operation instructions are collected by the final client and integrated, and the final client is a smart phone, a computer or other multimedia equipment.

S2, sending the client instruction to the encoder

And finally, the client sends a demand instruction, the demand instruction information is transmitted to the encoder after being transmitted by the optical fiber, and the client instruction is written into the server language required by the media server through the encoder.

S3, the encoder sends the instruction to the media server

The encoder translates the instruction from the final client into the server language, transmits the server language to the media server through optical fiber transmission, then the media server decodes the language through the decoder, then corresponds to the corresponding multimedia data according to the decoded instruction information, and performs information check on the multimedia data.

S4, identifying the type of the instruction

Before the process of information-checking the decoded multimedia data in S3, the decoder already decodes the language, and at the same time, it is necessary to identify the decoded command information and determine the transmission type.

S5, classifying the recognition result

And classifying the recognition result, and then transmitting the corresponding multimedia data to the corresponding transmission server by the media server through the optical fiber according to the recognition result.

S6, feeding back to the final client

The transmission server transmits the multimedia data to the corresponding final client through the optical fiber, the final client expresses the multimedia data in various forms, the client browses according to the multimedia data presented at the final client, and the multimedia data finally browsed by the client is expressed in the expression forms of characters, images, audios or videos, or one or more of the characters, images, audios or videos.

The invention has the beneficial effects that: the self-adaptive remote browsing visual stream transmission method realizes the self-adaptive function through instruction information identification and classification, thereby achieving better information processing effect. The self-adaptation is a process of automatically adjusting a processing method, a processing sequence, processing parameters, boundary conditions or constraint conditions according to data characteristics of processing data in the processing and analyzing processes so as to adapt to statistical distribution characteristics and structural characteristics of the processed data, thereby obtaining the optimal processing effect. After receiving the instruction information sent by the final client, the self-adaptive remote browsing visual stream transmission method identifies and classifies the instruction information, and then selects a proper transmission server according to the identification result, so that the information needed to be known by the client is fed back efficiently and pertinently, the self-adaptive remote browsing visual stream transmission method has a self-adaptive function, and can realize a better information processing effect through simpler steps.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An adaptive remote browsing visual streaming method, comprising the steps of:

s1, collecting client instructions

The client operates through the final client according to the self requirement, and various operation instructions are collected by the final client and are integrated;

s2, sending the client instruction to the encoder

Finally, the client sends a demand instruction, the demand instruction information is transmitted to an encoder after wireless transmission, and the client instruction is written into a server language required by the media server through the encoder;

s3, the encoder sends the instruction to the media server

The encoder translates the instruction from the final client into a server language, transmits the server language to the media server through wireless transmission, then the media server decodes the language through a decoder of the media server, corresponds to corresponding multimedia data according to the decoded instruction information, and performs information check on the multimedia data;

s4, identifying the type of the instruction

Before the process of information checking the decoded multimedia data in S3, the decoder already decodes the language, and at the same time, it needs to identify the decoded command information and determine its transmission type;

s5, classifying the recognition result

Classifying the recognition result, and then transmitting the corresponding multimedia data to the corresponding transmission server by the media server according to the recognition result;

s6, feeding back to the final client

The transmission server transmits the multimedia data to the corresponding final client, the final client expresses the multimedia data in various forms, and the client browses according to the multimedia data presented at the final client.

2. The adaptive remote browsing visual streaming method of claim 1, wherein the media server in step S5 is connected to two types of transmission servers, one type is a single-shot transmission server and the other type is a group-shot transmission server, the recognition result is divided into two broad types, one type is one-to-one instruction information, one type is one-to-many instruction information, the one-to-one instruction information corresponds to the single-shot transmission server, and the one-to-many instruction information corresponds to the group-shot transmission server.

3. The adaptive remote visual streaming method according to claim 1, wherein the multimedia data in step S6 is represented by one or more of text, image, audio or video.

4. The adaptive remote browsing visual streaming method of claim 1, wherein the final client in step S1 is a smart phone, a computer or other multimedia device.

5. The adaptive remote browsing visual streaming method of claim 1, wherein the transmissions between the final client, the encoder, the media server and the transmission server in steps S1-S6 are wireless transmission and optical fiber cable transmission.

6. The adaptive remote browsing visual streaming method of claim 1, wherein when the recognition result in the step S5 is classified as one-to-one instruction information, the final client in the step S1 and the final client in the step S6 are the same final client, and when the recognition result in the step S5 is classified as one-to-many instruction information, the final client in the step S1 and the final client in the step S6 are not the same final client, and the number of the final clients in the step S6 is plural.