CN115567725A - Live broadcast control method and device, electronic equipment and storage medium - Google Patents

Abstract

The application relates to the technical field of internet, particularly to the technical field of block chains, and provides a live broadcast control method and device, electronic equipment and a storage medium, which are used for improving the reliability of live broadcast resource recommendation. The method comprises the following steps: receiving a live data stream containing a live object sent by a first client, and detecting the live data stream to obtain a detection result; pushing the live broadcast data stream to the first batch of second clients according to the detection result; if the live broadcast data stream is determined to contain the live broadcast resources to be recommended, acquiring resource reference information related to the live broadcast resources from the block chain; and pushing the live data stream to a second batch of second clients according to the resource reference information so that the second clients display the live data stream in a live interface. The method and the device for pushing the live broadcast resources based on the live broadcast content detection result and the resource reference information carry out live broadcast pushing so as to improve the reliability of live broadcast resource recommendation.

Description

Live broadcast control method and device, electronic equipment and storage medium

Technical Field

The application relates to the technical field of internet, in particular to the technical field of block chains, and provides a live broadcast control method and device, electronic equipment and a storage medium.

Background

Live broadcast is an important way for information propagation in the internet, and resource recommendation in the live broadcast process relates to big data processing in the cloud technology, particularly data storage and data calculation.

In the related art, resource recommendation in a live broadcast process is supported, such as recommending movies, television shows, articles, games, commodities, and the like. Taking the example that the main broadcast recommends commodities in the live broadcast room, if the live broadcast room has low-popular and exaggerated live broadcast with goods, and the hot value of the live broadcast room is high, the commodities can still be continuously recommended to the user, so that the user has poor watching and shopping experience, and is easy to purchase commodities with unreal goods and unreal price. Therefore, how to improve the reliability of the live broadcast resource recommendation is urgently needed to be solved.

Disclosure of Invention

The embodiment of the application provides a live broadcast control method and device, electronic equipment and a storage medium, which are used for improving the reliability of live broadcast resource recommendation.

The first live broadcast control method provided by the embodiment of the application comprises the following steps:

receiving a live data stream containing a live object sent by a first client, and detecting the live data stream to obtain a detection result;

pushing the live broadcast data stream to a first batch of second clients according to the detection result; and

if the live broadcast data stream is determined to contain the live broadcast resource to be recommended, acquiring resource reference information related to the live broadcast resource from a block chain;

and pushing the live data stream to second clients according to the resource reference information so that each second client can display the live data stream in a live interface.

The second live broadcast control method provided by the embodiment of the application comprises the following steps:

responding to a live viewing operation aiming at a live object, and displaying a live data stream of the live object in a live interface;

if the live broadcast data stream contains the live broadcast resource to be recommended, displaying the live broadcast resource and a reference parameter corresponding to the live broadcast resource in the live broadcast interface, wherein the reference parameter is generated based on resource reference information which is acquired from a block chain and is related to the live broadcast resource, the reference parameter is used for representing the credibility of the live broadcast object for description information issued by the live broadcast resource, and the live broadcast data stream is acquired after being pushed according to at least one of a detection result of the live broadcast data stream or the resource reference information.

Optionally, the method further includes:

and if the detection result of the live data stream of the live object is determined to be characterized and detected to be failed, displaying the correction prompt information in the live interface to prompt the live object to adjust the live content.

Optionally, when there are a plurality of live broadcast resources, the reference parameter includes at least one of a first reference parameter and a second reference parameter;

displaying the reference parameters corresponding to the live broadcast resources in the live broadcast interface in at least one of the following modes:

displaying a first reference parameter corresponding to each live broadcast resource in the live broadcast interface;

and displaying the second reference parameter in the live broadcast interface, wherein the second reference parameter is an average value of the first reference parameter corresponding to each live broadcast resource.

Optionally, after the live broadcast resource and the reference parameter corresponding to the live broadcast resource are displayed in the live broadcast interface, the method further includes:

and displaying a detail interface related to the reference parameter in response to a viewing operation triggered by the reference parameter, wherein the detail interface at least comprises detail information related to the reference parameter and a scoring rule.

Optionally, the method further includes:

responding to a live broadcast operation triggered by a live broadcast inlet of the live broadcast object, and displaying an intelligent contract interface, wherein the intelligent contract interface displays an intelligent contract corresponding to virtual resources related to live broadcast, and the intelligent contract is generated based on preset virtual resource settlement rules;

and responding to the confirmation signing operation triggered by the signing control in the intelligent contract interface, displaying the live broadcasting interface, and displaying the live broadcasting data stream in the live broadcasting interface.

Optionally, the reference parameter is determined by:

receiving resource reference information corresponding to the live broadcast resources returned by a server, and determining the reference parameters based on the resource reference information; or

And receiving a reference parameter returned by the server, wherein the reference parameter is determined by the server based on resource reference information corresponding to the live broadcast resource.

Optionally, the resource reference information includes interaction information related to the live broadcast resource and comment information for the live broadcast resource; the determining the reference parameter based on the resource reference information comprises:

determining a first parameter corresponding to the live broadcast resource based on at least one of the interaction quantity and the conversion resource quantity in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource;

determining a second parameter corresponding to the live broadcast resource based on at least one of the word number of the comment information and the emotion keyword in the comment information;

and determining a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

The first live broadcast control device that this application embodiment provided includes:

the detection unit is used for receiving a live data stream containing a live object sent by a first client, detecting the live data stream and obtaining a detection result; and

the first pushing unit is used for pushing the live broadcast data stream to a first batch of second clients according to the detection result; and

the information acquisition unit is used for acquiring resource reference information related to the live broadcast resources from a block chain if the live broadcast data stream is determined to contain the live broadcast resources to be recommended;

and the second pushing unit is used for pushing the live data stream to second batches of second clients according to the resource reference information so that each second client can display the live data stream in a live interface.

Optionally, the first pushing unit is specifically configured to:

and if the detection result is determined to represent that the detection is passed, pushing the live broadcast data stream to the first batch of second clients based on a first flow pool containing the related flow of the first batch of second clients.

Optionally, the second pushing unit is specifically configured to:

generating a reference parameter corresponding to the live broadcast resource based on the resource reference information, wherein the reference parameter is used for representing the credibility of the description information issued by the live broadcast object aiming at the live broadcast resource;

and if the reference parameter is not less than the preset threshold value, pushing the live broadcast data stream to a second batch of second clients based on a second flow pool containing the related flow of the second batch of second clients.

Optionally, the resource reference information includes interaction information related to the live broadcast resource and comment information for the live broadcast resource;

the second pushing unit is specifically configured to:

determining a first parameter corresponding to the live broadcast resource based on at least one of the interaction quantity and the conversion resource quantity in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource;

determining a second parameter corresponding to the live broadcast resource based on at least one of word number of the comment information and emotion keywords in the comment information;

and determining a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

Optionally, the apparatus further comprises:

and the notification unit is used for notifying the first client to display the rectification prompt information in the live broadcast interface if the detection result is determined to indicate that the detection is not passed so as to prompt the live broadcast object to adjust the live broadcast content.

Optionally, the second pushing unit is further configured to:

and returning the resource reference information or reference parameters corresponding to the live broadcast resources generated based on the resource reference information to each second client so that each second client displays the live broadcast resources and the reference parameters in the live broadcast interface, wherein the reference parameters are used for representing the credibility of the description information of the live broadcast object on the live broadcast resources.

Optionally, the apparatus further comprises:

a first feedback unit, configured to receive a viewing request triggered by the second client for the reference parameter;

and acquiring the detail information and the scoring rule related to the reference parameter, and returning the detail information and the scoring rule to the second client so as to enable the second client to display a detail interface related to the reference parameter, wherein the detail interface at least comprises the detail information and the scoring rule related to the reference parameter.

Optionally, the apparatus further comprises:

the second feedback unit is used for receiving a viewing request aiming at the virtual resources related to the live broadcast and sent by the first client;

and if the fact that the settlement triggering condition in the intelligent contract is met is determined, determining the virtual resource corresponding to the live broadcast object based on the settlement rule in the intelligent contract, and returning to the first client side to enable the first client side to display the virtual resource through a resource interaction interface, wherein the intelligent contract is deployed on the block chain after the live broadcast object is determined to trigger and confirm the signing operation.

Optionally, the apparatus further comprises:

and the storage unit is used for storing the object identifier of the live broadcast object and the reference parameter corresponding to the live broadcast resource related to the live broadcast in the block chain in an associated manner after receiving the live broadcast ending request sent by the first client.

Optionally, the storage unit is specifically configured to:

associating the object identification with the reference parameter to generate target data;

and uploading the target data to a block chain node in a block chain network, so that the block chain node writes the target data into a generated data block after performing hash operation and broadcast consensus on the target data.

The second kind live controlling means that this application embodiment provided includes:

the first display unit is used for responding to live viewing operation aiming at a live broadcast object and displaying a live broadcast data stream of the live broadcast object in a live broadcast interface;

the second display unit is configured to display the live broadcast resources and reference parameters corresponding to the live broadcast resources in the live broadcast interface if it is determined that the live broadcast data stream contains live broadcast resources to be recommended, where the reference parameters are generated based on resource reference information related to the live broadcast resources and acquired from a block chain, the reference parameters are used to represent the credibility of the live broadcast object for description information published by the live broadcast resources, and the live broadcast data stream is acquired after being pushed according to at least one of a detection result of the live broadcast data stream or the resource reference information.

Optionally, the apparatus further comprises:

and the third display unit is used for displaying rectification prompt information in the live broadcast interface to prompt the live broadcast object to adjust live broadcast content if the detection result representation of the live broadcast data stream of the live broadcast object fails to pass detection.

Optionally, when there are multiple live broadcast resources, the reference parameter includes at least one of a first reference parameter and a second reference parameter;

the second display unit is specifically configured to display the reference parameter corresponding to the live broadcast resource in the live broadcast interface in at least one of the following manners:

displaying a first reference parameter corresponding to each live broadcast resource in the live broadcast interface;

and displaying the second reference parameter in the live broadcast interface, wherein the second reference parameter is an average value of the first reference parameter corresponding to each live broadcast resource.

Optionally, the second display unit is further configured to display, after the live broadcast resource and the reference parameter corresponding to the live broadcast resource are displayed in the live broadcast interface, a detail interface related to the reference parameter in response to a viewing operation triggered with respect to the reference parameter, where the detail interface at least includes detail information and a scoring rule related to the reference parameter.

Optionally, the apparatus further comprises:

the contract signing unit is used for responding to live broadcast operation triggered by a live broadcast entrance of the live broadcast object and displaying an intelligent contract interface, the intelligent contract interface displays an intelligent contract corresponding to live broadcast related virtual resources, and the intelligent contract is generated based on a preset virtual resource settlement rule;

and responding to the confirmation signing operation triggered by the signing control in the intelligent contract interface, displaying the live broadcasting interface, and displaying the live broadcasting data stream in the live broadcasting interface.

Optionally, the second display unit is further configured to determine the reference parameter by:

receiving resource reference information corresponding to the live broadcast resource returned by the server, and determining the reference parameter based on the resource reference information; or

And receiving a reference parameter returned by the server, wherein the reference parameter is determined by the server based on the resource reference information corresponding to the live broadcast resource.

Optionally, the resource reference information includes interaction information related to the live broadcast resource and comment information for the live broadcast resource; the second display unit is specifically configured to:

determining a first parameter corresponding to the live broadcast resource based on at least one of the interaction quantity and the conversion resource quantity in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource;

determining a second parameter corresponding to the live broadcast resource based on at least one of the word number of the comment information and the emotion keyword in the comment information;

and determining a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

An electronic device provided in an embodiment of the present application includes a processor and a memory, where the memory stores program codes, and when the program codes are executed by the processor, the processor is caused to execute any one of the steps of the live broadcast control method.

Embodiments of the present application provide a computer program product or computer program comprising computer instructions stored in a computer readable storage medium. The processor of the computer device reads the computer instructions from the computer readable storage medium, and the processor executes the computer instructions to cause the computer device to execute the steps of any one of the live control methods.

An embodiment of the present application provides a computer-readable storage medium, which includes program code, when the storage medium runs on an electronic device, the program code is configured to enable the electronic device to execute any one of the steps of the live broadcast control method.

The beneficial effect of this application is as follows:

the embodiment of the application provides a live broadcast control method and device, electronic equipment and a storage medium. According to the embodiment of the application, the live broadcast content is detected, the reference information related to the resources stored in the block chain is obtained, and the live broadcast content is pushed based on the content detection result and the resource reference information, so that the low-quality live broadcast content is not distributed to the user, the condition that the quality of the live broadcast content pushed to audiences is higher based on content detection and block chain verification is ensured, and when the live broadcast is pushed for the second time, the number of second clients is larger, so that more high-quality live broadcast contents are pushed, and the reliability of live broadcast resource recommendation is improved.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. The objectives and other advantages of the application may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic diagram of an application scenario in an embodiment of the present application;

fig. 2 is a flowchart of an implementation of a live broadcast control method in an embodiment of the present application;

FIG. 3 is a schematic diagram of a reference parameter generation method in an embodiment of the present application;

FIG. 4 is a block chain structure in an embodiment of the present application;

fig. 5 is a flowchart of another implementation of a live broadcast control method in the embodiment of the present application;

FIG. 6 is a diagram illustrating a live interface including popular live content according to an embodiment of the present application;

fig. 7 is a schematic view of a live broadcast interface including an altering prompt message in an embodiment of the present application;

FIG. 8A is a diagram illustrating a first reference parameter showing manner in an embodiment of the present application;

FIG. 8B is a diagram illustrating a second reference parameter display method according to an embodiment of the present application;

FIG. 8C is a diagram illustrating a third exemplary reference parameter in an embodiment of the present application;

FIG. 9 is a schematic illustration of a detail interface in an embodiment of the present application;

FIG. 10 is a diagrammatic illustration of an intelligent contract interface in an embodiment of the present application;

FIG. 11 is a diagram illustrating a resource interaction interface in an embodiment of the present application;

fig. 12 is a schematic flowchart of a live broadcast control method based on a blockchain in an embodiment of the present application;

fig. 13 is an interaction timing diagram of a live broadcast control method in an embodiment of the present application;

fig. 14 is a schematic structural diagram of a live broadcast control apparatus in an embodiment of the present application;

fig. 15 is a schematic structural diagram of another live broadcast control apparatus in an embodiment of the present application;

fig. 16 is a schematic diagram of a hardware component of an electronic device to which the embodiments of the present application are applied;

fig. 17 is a schematic diagram of a hardware component structure of another electronic device to which the embodiment of the present application is applied.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the technical solutions of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments described in the present application without any creative effort belong to the protection scope of the technical solution of the present application.

Some concepts related to the embodiments of the present application are described below.

Block chains: the blockchain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism and an encryption algorithm. The block chain (Blockchain) is an important concept of the bitcoin, is essentially a decentralized database, and is used as a bottom technology of the bitcoin, and is a series of data blocks which are generated by correlation through a cryptographic method, wherein each data block contains information of a batch of bitcoin network transactions, and the information is used for verifying the validity (anti-counterfeiting) of the information and generating a next block.

Block chain Network (Blockchain Network): the new block is included in a consensus manner to a set of a series of nodes of the block chain.

Chain Hash Table (Hash Table): the chained hash table is fundamentally composed of a set of linked lists. Each linked list can be viewed as a "bucket," with all elements hashed into specific different buckets.

Smart contract (Smart contract): also known as chain code (chainode) or application code, is a computer protocol intended to propagate, verify or execute contracts in an informative manner. Smart contracts allow trusted transactions, which are traceable and irreversible, to be conducted without a third party. The intelligent contract is deployed in a program in a node of the block chain network, and the node executes the intelligent contract called in the received transaction to update or inquire the key value of the state database for data. The intelligent contract can be automatically triggered to execute when the constraint condition is met, manual intervention is not needed, and the intelligent contract can also be automatically contracted when the condition is not met, and theoretically, all terms agreed in advance can be triggered to execute. The smart contracts encapsulate the relevant processes that interact directly with the block ledger, for example being invoked by an application, performing functions including initiating transactions and querying transactions.

Consensus (Consensus): is a process in a blockchain network for agreeing on transactions in blocks among a plurality of nodes involved, the agreed blocks are to be appended to the end of the blockchain, and the mechanisms for achieving consensus include Proof of workload (Proof of Work, poW), proof of rights of interest (PoS), proof of equity authorization (DPoS), proof of Elapsed Time (Proof of Elapsed Time, poET), and the like.

A client: or called as the user side, refers to a program corresponding to the server for providing local services to the client. Except for some application programs which only run locally, the application programs are generally installed on common clients and need to be operated together with a server. After the internet has developed, the more common clients include web browsers used on the world wide web, email clients for receiving and sending emails, and client software for instant messaging. For this kind of application, a corresponding server and a corresponding service program are required in the network to provide corresponding services, such as database services, e-mail services, etc., so that a specific communication connection needs to be established between the client and the server to ensure the normal operation of the application program. In the embodiment of the present application, the client refers to an application program running in the terminal device and used for providing various services, such as a live client, a video client, or a short video client.

In response to: for indicating the condition or state on which the performed operation depends, when the condition or state on which the performed operation depends is satisfied, the performed operation or operations may be in real time or may have a set delay; there is no restriction on the order of execution of the operations performed unless otherwise specified.

Live data stream and live data stream push: a data stream is an ordered set of data sequences of bytes with a start and an end. In the embodiment of the present application, a live data stream refers to an ordered set of data streams generated by a live object (anchor) in a live process. In the embodiment of the application, the live data stream distributed to the first group of second clients is called a first live data stream, and the live data stream distributed to the second group of second clients is called a second live data stream, wherein the first live data stream and the second live data stream are obtained by copying the live data stream of the first client.

Artificial Intelligence (AI) is a theory, method, technique and application system that uses a digital computer or a machine controlled by a digital computer to simulate, extend and expand human Intelligence, perceive the environment, acquire knowledge and use the knowledge to obtain the best results. In other words, artificial intelligence is a comprehensive technique of computer science that attempts to understand the essence of intelligence and produce a new intelligent machine that can react in a manner similar to human intelligence. Artificial intelligence is the research of the design principle and the realization method of various intelligent machines, so that the machines have the functions of perception, reasoning and decision making.

The artificial intelligence technology is a comprehensive subject and relates to the field of extensive technology, namely the technology of a hardware level and the technology of a software level. The artificial intelligence infrastructure generally includes technologies such as sensors, dedicated artificial intelligence chips, cloud computing, distributed storage, big data processing technologies, operation/interaction systems, mechatronics, and the like. The artificial intelligence software technology mainly comprises a computer vision technology, a voice processing technology, a natural language processing technology, machine learning/deep learning and the like.

Machine Learning (ML) is a multi-domain cross subject, and relates to multiple subjects such as probability theory, statistics, approximation theory, convex analysis and algorithm complexity theory. The special research on how a computer simulates or realizes the learning behavior of human beings so as to acquire new knowledge or skills and reorganize the existing knowledge structure to continuously improve the performance of the computer. Machine learning is the core of artificial intelligence, is the fundamental approach to make computers have intelligence, and is applied in various fields of artificial intelligence. Machine learning and deep learning generally include techniques such as artificial neural networks, belief networks, reinforcement learning, transfer learning, inductive learning, and formula learning.

When detecting live broadcast content of a user, the embodiment of the application adopts a machine learning convolutional neural network model. The training process of the convolutional neural network model relates to the technical field of machine learning, the convolutional neural network model is trained through the machine learning technology in the training process, after a training sample passes through the convolutional neural network model, an output result of the convolutional neural network model is obtained, and model parameters are continuously adjusted through an optimization algorithm in combination with the output result; and in the application process, the convolutional neural network model obtained by training in the training part is used for detecting the live broadcast data stream of the live broadcast object to obtain a detection result.

The following briefly introduces the design concept of the embodiments of the present application:

live broadcast is an important way for information dissemination in the internet, and a main broadcast can recommend resources, such as recommended movies, television shows, articles, games, commodities and the like, through live broadcast. Taking commodity recommendation as an example, the anchor can recommend commodities in a live broadcast delivery mode. With the development of the E-commerce industry, the E-commerce direct broadcast tape becomes a new air port.

In the related technology, live broadcast content is converted into heat degree values based on the performance of a anchor, public domain flow recommendation bit exposure is given according to the heat degree value sequence, and data of each e-commerce platform are stored based on centralized data and are independent of each other. The live broadcast mode of the E-commerce breaks through the current situation that consumers cannot see and touch goods to a great extent, eliminates the link of intermediate commerce, reduces the cost of commerce and improves the efficiency of commerce. However, the live broadcast delivery still has some places which need to be standardized, and the phenomena of exaggerated propaganda, data counterfeiting, recommendation without experience and the like exist in the delivery process of manufacturer commodity information counterfeiting and some network redcasting delivery. This easily causes the transaction dispute problem, takes place to take the goods event of overturning, has reduced consumer's trust to the live broadcast of electricity merchant, causes the waste of social resource. Moreover, with the development of a live broadcast platform, the quality of the anchor is not uniform, the live broadcast effect is poor, and poor watching experience is brought to users. The anchor often exaggerates the efficacy of the quality of the goods for shipment, lacking in public confidence.

In view of this, embodiments of the present application provide a live broadcast control method and apparatus, an electronic device, and a storage medium. According to the embodiment of the application, live content is detected, reference information related to resources stored on a block chain is obtained, the live content is pushed based on a content detection result and the resource reference information, low-quality live content can be guaranteed not to be distributed to users, the fact that the live content with higher quality is pushed to audiences based on content detection and block chain verification is guaranteed, and when second pushing is carried out, the number of second clients is larger, so that more high-quality live content can be pushed, and the reliability of live resource recommendation is effectively improved.

The preferred embodiments of the present application will be described below with reference to the accompanying drawings of the specification, it should be understood that the preferred embodiments described herein are merely for illustrating and explaining the present application, and are not intended to limit the present application, and that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Fig. 1 is a schematic view of an application scenario in the embodiment of the present application. The application scenario diagram includes two terminal devices 110 and a server 120. The terminal device 110 is provided with a client, and the client can be logged in through the terminal device 110. The client related to the embodiment of the present application may be software, or a web page, an applet, and the like, and the server 120 is a background server corresponding to the software, or the web page, the applet, and the like, and the specific type of the client is not limited.

It should be noted that fig. 1 is only an example, and the number of the terminal devices and the servers is not limited in practice, and is not specifically limited in the embodiment of the present application.

The terminal device 110 and the server 120 may communicate with each other through a communication network. In an alternative embodiment, the communication network is a wired network or a wireless network. The terminal device 110 and the server 120 may be directly or indirectly connected through wired or wireless communication, and the application is not limited herein.

In this embodiment, the terminal device 110 is a computer device used by a user, and the computer device may be a computer device having a certain computing capability and running instant messaging software and a website or social contact software and a website, such as a personal computer, a mobile phone, a tablet computer, a notebook, an e-book reader, a smart television, a smart home, and a vehicle-mounted terminal. The server 120 may be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server providing basic cloud computing services such as a cloud service, a cloud database, cloud computing, a cloud function, cloud storage, a Network service, cloud communication, a middleware service, a domain name service, a security service, a Content Delivery Network (CDN), a big data and artificial intelligence platform, and the like.

It should be noted that, in this embodiment of the present application, a live broadcast client may be installed on the terminal device 110, and in addition, a resource interaction platform may also be installed, where the live broadcast client is used for performing live network broadcast and also may be used for watching live broadcasts of other anchor broadcasts, and both the first client and the second client in this embodiment of the present application belong to live broadcast clients. The resource interaction platform is used for displaying various live broadcast resources and carrying out live broadcast resource interaction, such as selling the live broadcast resources and carrying out live broadcast resource transaction. The live broadcast client and the resource interaction platform can be installed in one terminal device or different terminal devices. It should be noted that, in some embodiments, the resource interaction platform may also implement the function of a live client.

The server 120 in the embodiment of the present application may include a live server and may further include an interaction server. The interactive server is used for providing interactive service for the resource interactive platform, so that consumers can perform live broadcast resource interaction with the interactive server through the resource interactive platform. It should be noted that the interaction server and the resource interaction platform may belong to the same company or different companies, and the interaction server and the resource interaction platform are not specifically limited in this embodiment. The live broadcast server is used for providing live broadcast data for the live broadcast client, the live broadcast data are used for displaying a live broadcast webcast room and live broadcast webcast in the live broadcast webcast room at the live broadcast client, the live broadcast server is further used for acquiring resource reference information from the blockchain system, generating reference parameters (scores), and sending the generated reference parameters to the live broadcast client in a live broadcast data mode, so that the live broadcast client displays reference parameters corresponding to live broadcast resources in the live broadcast webcast room.

And the block chain system is used for storing the resource reference information of the sold live broadcast resources and also storing interaction records related to the live broadcast resources. The blockchain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism and an encryption algorithm. The blockchain is essentially a decentralized database, which is a string of data blocks associated by using cryptography, and each data block contains information of a batch of network interactions, which is used for verifying the validity (anti-counterfeiting) of the information and generating the next block. The blockchain may include a blockchain underlying platform, a platform product services layer, and an application services layer.

The block chain underlying platform can comprise processing modules such as user management, basic service, intelligent contract and operation monitoring. The user management module is responsible for identity information management of all blockchain participants, and comprises public and private key generation maintenance (account management), key management, user real identity and blockchain address corresponding relation maintenance (authority management) and the like, and under the authorization condition, interaction conditions of certain real identities are monitored and audited, and rule configuration (wind control audit) of risk control is provided; the basic service module is deployed on all block chain node equipment and used for verifying the validity of the service request, recording the service request to storage after consensus on the valid request is completed, for a new service request, the basic service firstly performs interface adaptation analysis and authentication processing (interface adaptation), then encrypts service information (consensus management) through a consensus algorithm, transmits the service information to a shared account (network communication) completely and consistently after encryption, and performs recording and storage; the intelligent contract module is responsible for registering and issuing contracts, triggering the contracts and executing the contracts, developers can define contract logics through a certain programming language, issue the contract logics to a block chain (contract registration), call keys or other event triggering and executing according to the logics of contract clauses, complete the contract logics and simultaneously provide the function of upgrading and canceling the contracts; the operation monitoring module is mainly responsible for deployment, configuration modification, contract setting, cloud adaptation in the product release process, and visual output of real-time status in product operation, for example: alarm, monitoring network conditions, monitoring node equipment health status, and the like.

The platform product service layer provides basic capability and an implementation framework of typical application, and developers can complete block chain implementation of business logic based on the basic capability and the characteristics of the superposed business. The application service layer provides the application service based on the block chain scheme to the business participants for use.

In a possible application scenario, the servers 120 may be deployed in different regions for reducing communication delay, or different servers 120 may serve the regions corresponding to the terminal devices 110 respectively for load balancing. The plurality of servers 120 enable sharing of data by a blockchain, and the plurality of servers 120 correspond to a data sharing system formed by the plurality of servers 120. For example, terminal device 110 is located at location a and communicatively coupled to server 120, and terminal device 110 is located at location b and communicatively coupled to other servers 120.

Each server 120 in the data sharing system has a node identifier corresponding to the server 120, and each server 120 in the data sharing system may store node identifiers of other servers 120 in the data sharing system, so as to broadcast the generated block to other servers 120 in the data sharing system according to the node identifiers of other servers 120. Each server 120 may maintain a node identifier list as shown in the following table, and store the name of the server 120 and the node identifier in the node identifier list. The node identifier may be an Internet Protocol (IP) address and any other information that can be used to identify the node, and table 1 only illustrates the IP address as an example.

TABLE 1

Server name	Node identification
		Node 1	119.115.151.174
Node 2	118.116.189.145
		…	…
Node N	119.124.789.258

In the following, the live control method provided by the exemplary embodiment of the present application is described with reference to the accompanying drawings in conjunction with the application scenarios described above, it should be noted that the application scenarios described above are only shown for the convenience of understanding the spirit and principles of the present application, and the embodiments of the present application are not limited in this respect. It should be noted that, the following mainly introduces a live broadcast server and a live broadcast control method corresponding to a live broadcast client, where the server in the following is the live broadcast server, and the client is the live broadcast client.

Referring to fig. 2, an implementation flowchart of a live broadcast control method provided in an embodiment of the present application is applied to a server (referred to as a live broadcast server), and a specific implementation flow of the method is as follows:

s21: the server receives a live data stream containing a live object sent by a first client, and detects the live data stream to obtain a detection result;

when the live broadcast data stream is detected, an AI image detection method can be adopted to detect the live broadcast content, and the corresponding detection results are divided into detection passing and detection non-passing. For example, whether the detection is passed can be judged by detecting and analyzing whether the live content contains low-popular content, the live content with low quality and non-compliance such as yellow gambling poison correlation, if so, the detection result represents that the detection is passed, otherwise, the representation detection is not passed.

In the embodiment of the application, when the anchor starts live broadcasting, the server detects live broadcasting content through real-time AI images. Specifically, the principle of implementing AI image detection on live content is image recognition.

In an alternative embodiment, the image recognition is performed by a convolutional neural network. The convolutional neural network utilizes the principle of strong correlation and strong similarity of adjacent pixels in the same image, namely two adjacent pixels in one image have more correlation than two separated pixels in the image, so that the accuracy of a detection result can be effectively improved.

In the embodiment of the present application, the image recognition process may be divided into the following steps: information acquisition, preprocessing, feature extraction and selection, classifier design and classification decision.

The information acquisition means converting information such as light or sound into electrical information by a sensor. In a live broadcast scene, the acquisition of information refers to acquiring basic information of a live broadcast scene, and converting the basic information into information which can be recognized by a machine through a convolutional neural network method. The acquired information is then preprocessed, including but not limited to denoising, smoothing, transforming, etc. operations in image processing, to enhance important features of the live-air images. Further, the feature extraction and selection is performed again, which means that the feature extraction and selection is necessary in the pattern recognition.

In an alternative implementation, the convolutional neural network in the embodiment of the present application is actually divided into two layers, one convolutional layer and one convergence layer. The convolutional layer is used for dispersing a scene picture in a live broadcast into one or 3*3/5*5 small pixel blocks, then arranging the output values in a graph group, representing the content of each area in a photo by using numbers, and respectively representing the height, the width and the color by using axes, thereby obtaining the three-dimensional numerical expression of each graph block. The convergence layer is used to combine the spatial dimensions of this three-dimensional (or four-dimensional) image set with the sampling function to output a joint array containing only relatively important parts of the image. And then, inputting the combined data into a classifier, and classifying by the classifier.

In the embodiment of the application, the classifier design refers to training to obtain an identification rule, and a feature classification can be obtained through the identification rule, so that the image identification technology can obtain high identification rate, and thus, related labels and categories are formed, and further, classification decision is carried out and the image category of a live broadcast is identified.

Optionally, the low quality live content category includes, but is not limited to, some or all of the following:

not complying with the legal regulations, including propaganda of blood fishy violence, murder, maliciousness \35881, and information of other people like curer, slur and slurs, including yellow poison gambling information.

S22: the server pushes the live data stream to a first batch of second clients according to the detection result;

s23: if the server determines that the live broadcast data stream contains the live broadcast resource to be recommended, resource reference information related to the live broadcast resource is obtained from the block chain;

the live resources to be recommended may be movies, television plays, articles, games, commodities, and the like. In this document, mainly a commodity is taken as an example for illustration, and a corresponding application scenario is a commodity recommendation scenario, for example, live delivery.

S24: the server pushes the live data streams to second batches of second clients according to the resource reference information, so that the second clients display the live data streams in a live interface;

and the number of the second clients in the second batch of second clients is more than that of the second clients in the first batch of second clients.

It should be noted that, in the embodiment of the present application, live data stream pushing refers to distributing a live data stream of a first client anchor live to different viewer clients, that is, a second client. Specifically, the live data streams may be copied to obtain a plurality of live data streams, and then the copied live data streams are distributed to second clients corresponding to different viewers respectively. The method shown in fig. 2 includes a process of pushing a live data stream twice, where the first time is to distribute the live data stream to first batches of second clients based on a detection result of live content, and the second time is to distribute the live data stream to the first batches of second clients based on resource reference information.

In the foregoing embodiment, as the live content is detected, the reference information related to the resource stored in the blockchain is obtained, and the live content is pushed based on the content detection result and the resource reference information, it can be ensured that the low-quality live content is not distributed to the user, it is ensured that the live content pushed to the audience is the live content with higher quality obtained based on the content detection and the blockchain verification, and when the second pushing is performed, the number of the second clients is greater, so as to ensure that more high-quality live content is pushed, and thus the reliability of live resource recommendation is improved.

In an optional implementation manner, the live data streams in the present application include a first live data stream and a second live data stream, and actual contents of the first live data stream and the second live data stream are consistent, and "first" and "second" are determined for the push times.

In the embodiment of the present application, step S22 may be implemented based on the following method, and the specific process is as follows:

if the server determines that the detection result represents that the detection is passed, determining a plurality of second clients to be pushed at this time as a first plurality of second clients based on a first flow pool containing related flows of the first plurality of second clients, and copying the direct broadcast data streams to obtain a plurality of first direct broadcast data streams; and then the plurality of first direct-broadcast data streams are respectively sent to the first batch of second clients.

In the embodiment of the present application, the process in step S22 may also be referred to as a live streaming process, and streaming in the present application refers to distributing live data (i.e., a live data stream) of the anchor to different viewers.

In another optional implementation manner, if the server determines that the detection result represents that the detection does not pass, the server notifies the first client to display a rectification prompt message in a live broadcast interface so as to prompt a live broadcast object to adjust the live broadcast content, and corresponding distribution is performed on the live broadcast data stream based on the first traffic pool after the rectification is successful.

For example, the anchor starts live broadcast through the first client, the server detects live broadcast content through real-time AI images, when it is detected that the live broadcast room images contain low-quality content, the server notifies the first client, and the first client plays a window warm in the live broadcast meeting to remind the anchor of modifying, which is specifically shown in fig. 7B and will be described in detail below. If the live broadcast is not changed after the time exceeds 10s, stopping live broadcast recommendation immediately, and forcibly stopping live broadcast according to the situation. When the anchor has finished reforming within 10s, or content compliance is detected, the server will recommend these live content to the first traffic pool.

Then, the server continuously detects whether goods are hung in the live broadcast room or not, when the live broadcast room with goods is detected, the server combines the block chain data to synthesize resource reference information (such as goods sale amount, price, comments and the like) of the anchor program on each large power and commercial platform, and the like to generate reference parameters, which can also be called goods-carrying public praise scores, and branches again based on the reference parameters:

firstly, the server generates a reference parameter corresponding to the live broadcast resource based on the resource reference information; further, comparing the reference parameter with a preset threshold, if the reference parameter is not smaller than the preset threshold, determining a plurality of second clients to be pushed at this time as second clients based on a second traffic pool containing related traffic of the second clients, and copying the live data streams to obtain a plurality of second live data streams; and then, the server respectively sends the plurality of second live broadcast data streams to second batch of second clients. In addition, if the reference parameter is smaller than the preset threshold, the direct broadcast data stream is not shunted for the second time.

In this embodiment of the application, a plurality of second clients to be pushed may be specifically determined according to preferences of users related to the first traffic pool and the second traffic pool, and the like. The first flow pool is a flow pool containing the first batch of client-related flows, and the second flow pool is a flow pool containing the second batch of client-related flows. Generally, when it is determined that live content detection passes, based on the live type (such as education, games, and movies) of the current live broadcast, user traffic which is relatively concerned with the live type is randomly selected from a first traffic pool, and corresponding clients are used as first clients. In addition, when the second pushing is performed based on the resource reference parameters, besides the second batch of second clients can be screened according to the preference of the user, the requirements of the users of the live broadcast platform can be analyzed in modes of big data statistics and the like, and then the clients corresponding to the users with the related requirements of the live broadcast resources in the live broadcast are used as the second batch of clients. For example, if the live broadcast resource related to the live broadcast is summer suit-dress, the client related to the user traffic having the summer suit-dress purchase demand may be used as the second group of clients, and the like, which is not specifically limited herein.

Wherein the first and second clients refer to different audience clients. That is, the specific flow splitting process is as follows: firstly, distributing the direct broadcasting data streams based on AI image detection results, and distributing the obtained first direct broadcasting data streams to a corresponding batch of audience clients. And then, based on the resource reference information stored in the block chain, the live broadcast data streams are shunted again, the obtained second live broadcast data stream is distributed to another corresponding batch of audience clients, and the other batch of audience clients are more in number.

It should be noted that, when there are multiple live broadcast resources, and each live broadcast resource corresponds to one reference parameter, comparing the reference parameter with a preset threshold specifically means: all reference parameters can be averaged, and the average value of the reference parameters is compared with a preset threshold value; or, the minimum value of all the reference parameters is obtained, and the minimum value of the reference parameters is compared with a preset threshold, and the like, which is not specifically limited herein.

For example, if the preset threshold is 4 minutes, the score of the take-goods public praise corresponding to the anchor is judged, and if the score of the take-goods public praise exceeds 4 minutes, the server distributes the take-goods live broadcast room with the higher score to audiences corresponding to a second flow pool (including public domain flow); when the bid score is below 4 points, then a larger traffic recommendation pool, such as the second traffic pool, is not entered.

In the embodiment of the application, the reference parameter is used for representing the reliability of the description information of the live broadcast object for the live broadcast resource, that is, the larger the reference parameter is, the higher the live broadcast reliability is, so that the live broadcast data stream is correspondingly shunted again based on the reference parameter, and the live broadcast content which is pushed to audiences and contains the live broadcast resource with higher public praise based on the block chain check can be effectively ensured, so that the reliability of live broadcast resource recommendation is effectively improved.

It should be noted that, in the embodiment of the present application, both the first traffic pool and the second traffic pool may be understood as audience traffic pools, and in general, the second traffic pool has more traffic than the first traffic pool, that is, the traffic in the second traffic pool is greater than the traffic in the first traffic pool, so as to distribute the live data stream to more audiences.

In an optional implementation manner, the resource reference information includes interaction information related to the live resource and comment information for the live resource. Correspondingly, the reference parameter corresponding to the live broadcast resource may be generated through the following process, as shown in fig. 3, which is a schematic diagram of a reference parameter generation method in an embodiment of the present application, and specifically includes the following steps:

s301: the server determines a first parameter corresponding to the live broadcast resource based on at least one of the interaction quantity and the conversion resource quantity in the interaction information;

the conversion resources are obtained by performing resource interaction on the live broadcast resources, and when the live broadcast resources are commodities, the corresponding conversion resources can be real currency, virtual currency and the like.

For example, the volume of the tape goods sold and the price of the tape goods belong to the interactive information related to the live resources. The goods-carrying sales volume refers to the interaction number, and the higher the goods-carrying sales volume is, the larger the interaction number is; the shipment price refers to the amount of conversion resources, and the higher the shipment price, the larger the amount of conversion resources.

It should be noted that the first parameter may refer to one parameter or may refer to a plurality of parameters, that is, there may be one or a plurality of first parameters. Determining a first parameter a1, for example based on the number of interactions; a first parameter a2 is determined based on the number of conversion resources. Both a1 and a2 may be used as the first parameter, or a weighted average of a1 and a2 may be calculated to obtain a first parameter, and the like, which is not specifically limited herein.

Wherein, when the first parameter a1 is determined based on the tape sales amount, the larger the number of interactions, the larger the first parameter a1. For example, the value of the sales with goods is 1-5 points from low to high, and the corresponding points are generated according to the sales of the same kind; the score rule corresponding to the sales volume is as follows: the number of the parts is 1-100 (1 part), 10w + parts (5 parts), and so on; then, assuming that the highest total sales volume of the same garment is 2w pieces, the score corresponding to the 2w pieces is 5, wherein the score is a1.

When the first parameter a2 is determined based on the price of the goods, the scores corresponding to different prices from low to high are 1 to 5. The score rule corresponding to the price is as follows: the difference between the lowest and highest prices is the total price, which is divided by 5 to produce a score s for each price. The score a2 corresponding to the price of the shipment may refer to: the difference between the maximum price and the price of the loaded goods is multiplied by the score s, like a piece of clothes, the corresponding maximum price is 70, the corresponding minimum price is 50, one price corresponds to 0.25, and the corresponding score a2 is 2.5 if the price of the loaded goods corresponding to the live broadcast is 60.

S302: the server determines a second parameter corresponding to the live broadcast resource based on at least one of the word number of the comment information and the emotion keyword in the comment information;

for example, the scores of different comment information respectively correspond to 1-5 scores from low to high, and the corresponding scores are generated according to the number of the comment words and the keyword information in the comments. The score rule corresponding to the comment information is as follows: when the comment information contains positive keywords such as 'good, recommended, good and high-quality' and the like, the score is 5, and when the comment information contains negative keywords such as 'poor and bad quality', the score is 1, and the specific score comprehensive content and the word number are obtained by weighting.

S303: and the server determines a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

When the first parameter includes a1 and a2, the total score of the price, the sales volume and the comment is divided by 3 to obtain the final score, i.e. the reference parameter. When the first parameter contains only a1 or only a2, or is a weighted average of a1 and a2, the sum of the first parameter and the second parameter is divided by 2 to obtain the final score, i.e. the reference parameter. An optional grading level corresponding to the reference parameter: 4.5-5 (high), 4-4.5 (medium), and less than 4 (low).

It should be noted that, the specific implementation of determining the reference parameter based on the interaction information related to the live broadcast resource and the comment information for the live broadcast resource is only an example, and is not limited specifically herein.

In the above embodiment, the reference parameter of the live broadcast resource is obtained based on the resource reference information stored in the blockchain system, and the live broadcast resource is recommended to the viewer user based on the reference parameter. Because the resource reference information stored in the block chain is not easy to change and can be found, the resource reference information stored in the block chain is effective resource reference information, and therefore, the reference parameter obtained based on the effective resource reference information is real and effective.

In an optional implementation manner, the server may send the plurality of live broadcast data streams to each second client, and return resource reference information or reference parameters corresponding to the live broadcast resources generated based on the resource reference information to each second client, so that each second client displays the live broadcast resources and the reference parameters in a live broadcast interface, where the reference parameters are used to represent the reliability of the live broadcast object on description information issued by the live broadcast resources.

In the embodiment of the application, the server can directly return the resource reference information acquired from the block chain to the second client, and the second client calculates and obtains the reference parameters corresponding to the live broadcast resources based on the received resource reference information and displays the reference parameters; or, the server may return the reference parameter calculated based on the resource reference information to the second client, and the reference parameter is directly displayed by the second client.

In the embodiment of the application, when the reference parameter is displayed to the user through the second client, the user can click and view the detail related to the reference parameter; therefore, when receiving a viewing request triggered by the second client for the reference parameter, the server can acquire the detail information and the scoring rule related to the reference parameter, and return the detail information and the scoring rule to the second client, so that the second client displays a detail interface related to the reference parameter, wherein the detail interface at least comprises the detail information and the scoring rule related to the reference parameter. Such as that shown in fig. 9, and described in detail below.

In addition, in the embodiment of the application, when the anchor reaches the set condition, commission and live income can be returned through an intelligent contract, so that the cargo carrying quality and the live content of the anchor are improved, and the market supervision of the live broadcast industry is standardized. Thus, in an optional embodiment, the server may further receive a viewing request sent by the first client for the live related virtual resource; and if the fact that the settlement triggering condition in the intelligent contract is met is determined, determining the virtual resource corresponding to the live broadcast object based on the settlement rule in the intelligent contract, returning to the first client side to enable the first client side to display the virtual resource through the resource interaction interface, and deploying the intelligent contract to the block chain after the fact that the live broadcast object triggers, confirms and signs the contract. An alternative resource interaction interface is shown in FIG. 11 and described in more detail below.

In the embodiment of the application, after responding to the subscription confirmation operation triggered by the anchor, the terminal device sends the intelligent contract to the block chain network, so that the node in the block chain network installs the intelligent contract. The server judges whether contract terms are met according to the direct broadcast reward and the cargo carrying content. When the anchor initiates a settlement request in the first client, a check request aiming at the live broadcast related virtual resources can be sent to the server, the server can request data from the block chain and judge whether the anchor meets the terms in the intelligent contract, and if the anchor meets the terms in the contract, the system can automatically initiate a settlement process and prompt details. If not, the system may execute other command conditions in the contract.

In another alternative embodiment, the intelligent contract may automatically trigger settlement behavior when the anchor initiates a settlement cash-out request. That is, the first client will request data from the block chain, and determine whether the anchor meets the terms of the intelligent contract, if so, the system will automatically initiate the settlement process and present the details. If not, the system may execute other command conditions in the contract.

Specifically, the term rule of the intelligent contract is as follows:

1. and (4) extracting live broadcast income: the water flows through 2 thousands of months, and the anchor is divided into 45 percent; less than 2 ten thousand of flowing water, the anchor is divided into 40%. The maximum supporting strength of the full platform is provided, and hot recommendations are given to the full platform when the platform is played. In addition, the platform actively gives the anchor live broadcast room high-quality high-end players for diversion, and the popularity and the income are effectively improved.

2. Live commodity commission is extracted as: the commission of the direct-broadcast commodities is 10-20% of the unit price of the commodities according to commodity pricing, the final commodity commission is calculated by the commodity quantity of the actual transaction amount, and the actual transaction amount is generated after direct broadcast for 14 days. (total volume of non live room ended deals).

3. Explanation of settlement process: the anchor meeting the corresponding conditions initiates a cash withdrawal application process in the personal center, the platform automatically transfers money to the corresponding account number based on the set conditions, and the whole process is automatic and does not need to wait.

4. Other additional clauses: other additional terms in the contract.

It should be noted that the rules of the intelligent contracts listed above are only examples, and are not limited herein.

In an optional implementation manner, after receiving the live broadcast end request sent by the first client, the server may further store the object identifier of the live broadcast object and the reference parameter corresponding to the live broadcast resource related to the live broadcast in association with the block chain.

The specific storage process is as follows: the server firstly associates the object identification with the reference parameter to generate target data; and further uploading the target data to a block chain node in a block chain network, so that the block chain node writes the target data into the generated data block after performing hash operation and broadcast consensus on the target data.

It should be noted that the server may be a live server, and may also be an interaction server, and the interaction server records transaction records related to live resources. Hereinafter, the live server and the transaction server are collectively referred to as a computer device.

For example, after the live broadcast is finished, the server generates a block by the anchor id, the loading platform and the loading public praise score, and performs uplink storage. The data is in a distributed storage form, and the storage rule is as follows:

1) The local anchor identification is correlated with the marker-with-cargo data to generate target data. The anchor identification is a unique symbol of the anchor identity, and can be a character string comprising at least one character of numbers, letters and symbols.

In particular, the computer device may associate local anchor identification with the marker-with-cargo data to generate target data. The data format of the target data is in the form of key-value pairs. The computer equipment can generate a key element in the key value pair according to the local anchor identification, generate a value element in the key value pair according to the anchor identification and the data with goods public key, and associate the key element and the value element to generate the target data.

2) And uploading the target data to a block chain node in the block chain network, wherein the uploaded target data is used for indicating the block chain node to write the target data into the data block.

The block link point is a data processing node in the block chain network, and can be used for receiving and processing externally transmitted data. When the block chain link point performs a series of processing on externally transmitted target data to obtain data to be stored, the data to be stored can be sent to a consensus node in the block chain network for consensus operation, and the target data can be written into the data block after consensus is completed. In particular, a computer device may upload target data to a blockchain node in a blockchain network through a network connection. The block chain node can write the anchor marks of the plurality of live broadcast platforms received in a preset time period and target data corresponding to the data with the goods public praise into the data block together.

3) The uploaded target data are also used for indicating the block chain link points to perform Hash operation on the target data, storing the target data to a Hash chain corresponding to the anchor identification in a chain Hash table according to the Hash operation result, and generating a data block according to the chain Hash table after the chain Hash table is identified; the chained hash table includes hash chains respectively corresponding to more than one anchor identification. When the block chain nodes store the target data, the block chain nodes can be stored in a chain hash table mode. The target data corresponding to each anchor identifier may be stored on the same hash chain in the chained hash table. The blockchain node can transmit the key element in the target data into a hash function, and the hash function determines which hash chain the target data corresponds to and the specific position in the hash chain in a hash mode.

For example, a hash function is defined that maps key k to position x in the chained hash table. x is called the hash code of k, formally expressed as: h (k) = x. The purpose of this hash function is to distribute the key elements as evenly and randomly as possible into the chain hash table.

In the embodiment of the present application, when the target data is stored in the form of a chain hash table, reference may be made to the structure shown in fig. 4, which is a schematic structural diagram of a block chain in the embodiment of the present application. In fig. 4, each block includes target data, a hash value of the transaction record stored in the block (the hash value of the block), and a hash value of the previous block, and the blocks are connected by the hash value to form a block chain. The block may include information such as a time stamp at the time of block generation.

Taking block 3 as an example, the target data is stored in the form of hash chains, and the chain hash table includes a plurality of hash chains corresponding to a plurality of different anchor identifiers one to one. The block chain node may associate the anchor identifiers of the multiple live broadcast platforms received within a preset time period with the live broadcast related data to generate multiple target data, and write the multiple target data into the block 3 together.

4) The block chain nodes broadcast target data to be linked in the block chain network, the common identification nodes in the block chain network can execute common identification operation after receiving the broadcast, and when the target data pass the common identification, the block chain nodes can generate data blocks according to the corresponding chain hash tables. The main purpose of the consensus node is to verify the authenticity of the data with the public praise.

The consensus node is a node participating in consensus in the blockchain network, and the number of the consensus nodes participating in consensus can be larger than 6. The consensus node performs a consensus operation, such as POW, which is commonly used.

According to the embodiment of the application, the data are uploaded to the block chain network, so that the live broadcast related data after live broadcast is finished can be prevented from being tampered, and the related result calculated by the follow-up intelligent contract according to the live broadcast related data is accurate.

The following describes a live broadcast control method corresponding to a live broadcast client in detail with reference to the accompanying drawings.

Referring to fig. 5, an implementation flow chart of another live broadcast control method provided in this embodiment of the present application is applied to a client (a live broadcast client, which may be a first client or a second client), and a specific implementation flow of the method is as follows:

s51: the client responds to the live broadcast viewing operation aiming at the live broadcast object, and displays the live broadcast data stream of the live broadcast object in a live broadcast interface;

for example, when the viewer clicks into the live room of anchor a, the user may trigger the following for the live object: and performing live viewing operation of the anchor A, further displaying a live interface of the anchor A at a second client logged in by the audience, and displaying live content of the anchor A in the live interface. Of course, when the anchor a starts the live broadcast, the first client logged in by the anchor a also displays the live broadcast interface of the anchor a.

It should be noted that the first client and the second client in the embodiment of the present application are essentially unified clients, and here, only for the convenience of distinguishing between the audience and the corresponding clients of the anchor, the first client and the second client are used for distinguishing. Of course, anchor a may also view the live broadcast of other anchors through the logged-in client, where the identity of anchor a is essentially a viewer, and the client on which anchor a logs may also be referred to as a second client. For the same reason, when a certain viewer plays directly as a main broadcasting, the logged-in client may also be referred to as a first client, which is not specifically limited herein.

In addition, at the anchor side, if the first client receives a detection result returned by the live broadcast server and determines that the detection result representation detection of the live broadcast data stream of the live broadcast object fails, the rectification prompt information is displayed in the live broadcast interface to prompt the live broadcast object to adjust the live broadcast content.

Fig. 6 is a schematic diagram of a live interface including popular live content according to an embodiment of the present application. Fig. 7 is a schematic view of a live interface including an altering prompt message according to an embodiment of the present application. When the system detects that the low-popular quality live broadcast content appears in the live broadcast room, a pop-up window can be popped up to remind the anchor to correct the live broadcast, otherwise, the risk of being blocked or prohibited exists, for example, a live broadcast interface shown in fig. 7, wherein the correction prompt information is 'the system detects that the low-popular quality live broadcast content exists in the current live broadcast room, please correct the live broadcast content in time, otherwise, the risk of being blocked and prohibited exists'.

It should be noted that, in the embodiment of the present application, the rectification prompt information may be displayed in a pop-up window form as shown in fig. 7, and may also be displayed through a floating layer or other web pages, which is not limited specifically herein.

S52: if the client determines that the live broadcast data stream contains the live broadcast resource to be recommended, the live broadcast resource and a reference parameter corresponding to the live broadcast resource are displayed in a live broadcast interface, wherein the reference parameter is generated based on resource reference information related to the live broadcast resource and acquired from a block chain, the reference parameter is used for representing the credibility of a live broadcast object for description information issued by the live broadcast resource, and the live broadcast data stream displayed by the client is acquired after the live broadcast data stream is pushed according to at least one of a detection result or resource reference information of the live broadcast data stream of the main broadcast end.

For example, the anchor a recommends commodities in the live broadcasting process, and can further display the commodities recommended by the anchor (live broadcasting resources) and reference parameters corresponding to the commodities in a live broadcasting interface at the audience side.

In an alternative embodiment, there may be one or more live resources. When a plurality of live broadcast resources are available, the reference parameter comprises at least one of a first reference parameter and a second reference parameter; at this time, the reference parameters corresponding to the live broadcast resources can be displayed in the live broadcast interface in at least one of the following ways:

displaying a first reference parameter corresponding to each live broadcast resource in a live broadcast interface in a first display mode;

that is, when the reference parameter corresponding to the live broadcast resource is displayed in the live broadcast interface, only the reference parameter corresponding to each live broadcast resource, that is, the first reference parameter, may be displayed. For example, fig. 8A is a schematic diagram illustrating a first reference parameter showing a corresponding score of a product with a public praise in an embodiment of the present application. For example, strawberry mousse cake xxx corresponds to 4.7, cheese blueberry cake xxx corresponds to 4.6, and fresh shrimp xxx Sha Lajuan corresponds to 4.5 …

In the embodiment of the present application, the scores corresponding to the commodities can be displayed in an order from high to low, as shown in fig. 8A, the scores are sequentially from high to low: strawberry mousse cake xxx, cheese blueberry cake xxx, fresh shrimp xxx salad roll …

And displaying a second reference parameter in the live broadcast interface, wherein the second reference parameter is an average value of the first reference parameter corresponding to each live broadcast resource.

This method corresponds to one parameter corresponding to the live broadcast room determined based on the parameter corresponding to each commodity. That is, only the average value of the reference parameter of each live broadcast resource corresponding to the live broadcast, that is, the second reference parameter, is shown, for example, in fig. 8B, which is a schematic diagram of a second reference parameter display manner in the embodiment of the present application, where the average value is 4.6, that is, the second reference parameter is 4.6.

And displaying a first reference parameter and a second reference parameter corresponding to each live broadcast resource in a live broadcast interface.

That is, both the first reference parameter and the second reference parameter corresponding to each live resource may be displayed in the live interface, for example, as shown in fig. 8C, which is a schematic diagram of a third reference parameter display manner in this embodiment of the application.

In an alternative embodiment, the reference parameter is determined by:

receiving resource reference information corresponding to the live broadcast resource returned by the server, and determining reference parameters based on the resource reference information; or receiving a reference parameter returned by the server, wherein the reference parameter is determined by the server based on the resource reference information corresponding to the live broadcast resource.

That is to say, in the embodiment of the present application, the reference parameter displayed at the client side may be directly returned by the server, or may be calculated by the client according to the resource reference information returned by the server.

The specific process of the client for determining the reference parameter based on the resource reference information comprises the following steps:

the client determines a first parameter corresponding to the live broadcast resource based on at least one of the interaction number and the conversion resource number in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource; the client determines a second parameter corresponding to the live broadcast resource based on at least one of the word number of the comment information and the emotion keyword in the comment information; and the client determines a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

It should be noted that the process of obtaining the reference parameter by the client through calculation based on the resource reference information is the same as the corresponding calculation process of the server side listed in fig. 3, and the detailed calculation manner may refer to the above embodiment, and repeated parts are not described again.

In an optional implementation manner, the user may also view a reference parameter corresponding to the live resource displayed in the live interface, and the specific process is as follows:

and displaying a reference parameter related detail interface in response to a viewing operation triggered by the reference parameter, wherein the detail interface at least comprises reference parameter related detail information and a scoring rule.

For example, as shown in fig. 9, it is a schematic diagram of a detail interface in an embodiment of the present application, where the detail information specifically refers to: details of the mouth-of-tablet, fig. 9: the higher the public praise star rating, the better the quality and experience of the commodity in stock. The scoring rule comprises a scoring component and a scoring source, and specifically comprises the following steps: the scoring composition is as follows: public praise scores were based on the commercial products on each major e-commerce platform: and comprehensively generating sales volume, price and user comments. Score source: the scoring is based on a block chain technology and is obtained by integrating past transaction data of the commodity.

In the above embodiment, the user can evaluate the reliability of the live broadcast resource according to the detail information, the scoring rule and the like of the reference parameter corresponding to the live broadcast resource, so as to improve the reliability of the recommendation of the live broadcast resource.

In the embodiment of the application, the anchor can also sign an intelligent contract with a live broadcast platform before live broadcast, and contract a corresponding division rule based on platform rules and commodity commission conditions. If the anchor agrees to sign the contract, and the subsequent wanted cash is provided, a cash-providing request is initiated based on the client, and at the moment, the system automatically settles the current cash-providing amount to the anchor according to the corresponding share proportion.

Fig. 10 is a schematic diagram of an intelligent contract interface according to an embodiment of the present application. When the anchor clicks the live broadcast entrance, the first client responds to the live broadcast operation triggered by the live broadcast object through the live broadcast entrance, and displays an intelligent contract interface as shown in fig. 10, the intelligent contract interface displays an intelligent contract corresponding to virtual resources related to live broadcast, and the intelligent contract is generated based on preset virtual resource settlement rules.

In the embodiment of the present application, the virtual resource refers to an electronic resource such as a live broadcast profit and a commission, and may also refer to a virtual resource, which is not specifically limited herein.

When the anchor clicks a 'contract agreement' button (namely a contract control), the first client responds to the contract confirmation operation triggered by the contract control in the intelligent contract interface, and then the live broadcast can be started, the live broadcast interface is displayed, and the live broadcast data stream of the live broadcast object is displayed in the live broadcast interface. In addition, after the live object triggers and confirms the signing operation, the intelligent contract can be deployed on the block chain.

Fig. 11 is a schematic diagram of a resource interaction interface according to an embodiment of the present application. When the anchor clicks to check income, the first client side can be triggered to send a check request aiming at the virtual resources related to the live broadcast to the server, if the server determines that the balance trigger condition in the intelligent contract is met, the virtual resources corresponding to the anchor are determined based on the balance rule in the intelligent contract, and the virtual resources are returned to the first client side, so that the first client side can display the virtual resources through the resource interaction interface. As shown in fig. 11, the current anchor can raise revenue 3769.00, that is, virtual resources in the embodiment of the present application. In addition, information such as the details of the cash-out, the rules of the cash-out, and the like is displayed. The anchor may cash up by clicking on the "cash up" button shown in fig. 11.

In the embodiment, when the anchor reaches a set condition, commissions and live profits can be returned through the intelligent contract, so that the cargo carrying quality and the live content of the anchor are improved, and the market supervision of the live broadcast industry is standardized.

Fig. 12 is a schematic flowchart illustrating a live broadcast control method based on a block chain according to an embodiment of the present application.

Firstly, the platform (merchant) and the anchor agree on the live tape freight commission settlement rule to generate an intelligent contract.

In some embodiments, the platform contracts with the anchor that live tape commission settlement rules generate intelligent contracts. The aim is to expand the functions of electronic transaction modes such as point of sale and the like to the digital field. The intelligent contracts may avoid the services of third party intermediaries, help the anchor and the merchant exchange property, shares, or anything of value in a transparent, conflict-free manner.

In some embodiments, the most common platform for writing smart contracts is: etherhouse, which implements a nearly graphically complete language on its blockchain, is a prominent intelligent contract framework.

For example, a contract deployment flow may include: starting an Etherhouse node (e.g., geth or testpc); compiling the smart contract using the solc to obtain binary code; sending the compiled intelligent contract to a blockchain network (which consumes ethernet coins and needs to use a default address or a designated address of a node to sign the contract) so as to obtain a blockchain address of the intelligent contract and an Application Binary Interface (ABI) of the intelligent contract, wherein an Object Notation (JSON) representation of the contract Interface comprises variables, events and methods which can be called; the intelligent contract is invoked with the JavaScript API provided by web 3.Js (ethernet coins may be consumed depending on the type of invocation).

In the embodiment of the present application, the web 3.JS is a JavaScript (JS) library that communicates with the ethernet node through a Remote Procedure Call (RPC). web 3.Js can connect to any ethernet node that exposes an RPC interface.

And then, the anchor starts to bring goods, the background counts the goods carrying data of the anchor in the field in real time, and the live goods carrying data is uploaded to the server after the live broadcast is finished.

In some embodiments, the anchor starts live and the server detects live content in real-time AI images. If the content is detected to be low, the pop-up window is warm and reminds the anchor to carry out rectification. If the anchor is not changed after more than 10s, the recommendation of the live broadcast room can be stopped, and the live broadcast is forcibly stopped according to the situation. For the specific implementation process, reference may be made to the foregoing embodiments, and repeated details are not repeated.

If the contents are in compliance or are rectified, the server detects whether goods are hung in a live broadcast room or not, and a block chain is linked to synthesize the goods carrying sales volume, price and evaluation of the anchor broadcast on each large-scale electricity and commerce platform to generate a goods carrying public praise score.

And then, the system judges the score of the goods carrying public praise of the anchor, and if the score exceeds 4 points, the goods carrying live broadcast room with the middle or high score is distributed to audiences. And viewing the commodity purchase by the audience, and linking the anchor id, the goods carrying platform and the goods carrying public praise generation block by the server. For example, the rules for data (distributed storage) uplink can be found in the above embodiments, and repeated descriptions are omitted.

After the live broadcast is finished, the server judges whether contract terms are met according to the live broadcast appreciation and the loaded content. For example, as shown in fig. 12, clause a, clause B, and clause C are listed. The anchor initiates a settlement and cash withdrawal request, the intelligent contract automatically triggers a settlement action, and the system automatically settles the corresponding commission to the anchor when corresponding terms are met. If not, other command conditions in the contract may be executed.

In the embodiment of the application, the live broadcast state of the anchor is intelligently detected based on AI image detection and a block chain intelligent contract, and the low-popular and low-quality live broadcast content is not distributed to the user. And information such as id, a loading platform, loading public praise and the like of different anchor broadcasters is uplinked, so that the live loading content with higher public praise based on block chain verification is pushed to the audience. When the anchor reaches the set conditions, commission and live income can be returned through intelligent contracts, so that the cargo carrying quality and the live content of the anchor are improved, and the market supervision of the live broadcast industry is standardized.

Fig. 13 is an interaction timing chart of a live broadcast control method according to an embodiment of the present application. The specific implementation flow of the method is as follows:

step S1301: the method comprises the steps that a first client responds to live broadcast operation triggered by a live broadcast object, and live broadcast data streams of the live broadcast object are displayed in a live broadcast interface;

step S1302: a first client sends a live data stream containing a live object to a server;

step S1303: the server detects the direct broadcast data stream to obtain a detection result;

step S1304: the server determines that the detection result represents that the detection is passed, and copies the direct broadcast data streams to obtain a plurality of first direct broadcast data streams;

step S1305: the server respectively sends the plurality of first direct-broadcast data streams to a first batch of second clients based on the first flow pool;

step 1306: the second client displays a corresponding first direct-broadcasting data stream in a direct-broadcasting interface;

step S1307: the server detects whether the live data stream contains live resources;

step S1308: the server determines that the live broadcast data stream contains live broadcast resources to be recommended, and resource reference information related to the live broadcast resources is obtained from the block chain;

step S1309: the server generates reference parameters corresponding to the live broadcast resources based on the resource reference information;

step 1310: the server determines that the reference parameter is not smaller than a preset threshold value, and copies the live broadcast data stream again to obtain a plurality of second live broadcast data streams;

step S1311: the server respectively sends the plurality of second live broadcast data streams to a second batch of second clients based on the second flow pool;

step S1312: the server returns reference parameters corresponding to the live broadcast resources generated based on the resource reference information to each second client;

step S1313: the second client displays a corresponding second live broadcast data stream in a live broadcast interface, wherein the second live broadcast data stream comprises live broadcast resources and reference parameters;

step S1314: the second client sends a corresponding viewing request to the server in response to the viewing operation triggered by the reference parameter;

step S1315: the server acquires detail information and scoring rules related to the reference parameters;

step S1316: the server returns the acquired detailed information and the scoring rule to the second client;

step S1317: and the second client displays a detail interface related to the reference parameter, wherein the detail interface comprises detail information related to the reference parameter and a scoring rule.

It should be noted that the second client in fig. 13 is only a simple illustration, and actually, the second client may refer to one or more clients.

Based on the same inventive concept, the embodiment of the application also provides a live broadcast control device. As shown in fig. 14, which is a schematic structural diagram of a live broadcast control apparatus 1400 in the embodiment of the present application, the live broadcast control apparatus may include:

a detecting unit 1401, configured to receive a live data stream including a live object sent by a first client, and detect the live data stream to obtain a detection result;

the first pushing unit 1402 is configured to push the live data stream to the first batch of second clients according to the detection result; and

an information obtaining unit 1403, configured to obtain resource reference information related to the live broadcast resource from the block chain if it is determined that the live broadcast data stream includes the live broadcast resource to be recommended;

the second pushing unit 1404 is configured to push the live data stream to second clients according to the resource reference information, so that each second client displays the live data stream in a live interface.

Optionally, the first pushing unit 1402 is specifically configured to:

and if the detection result is determined to represent that the detection is passed, pushing the live broadcast data stream to the first batch of second clients based on a first flow pool containing the related flow of the first batch of second clients.

Optionally, the second pushing unit 1404 is specifically configured to:

generating a reference parameter corresponding to the live broadcast resource based on the resource reference information, wherein the reference parameter is used for representing the credibility of the description information of the live broadcast object for the live broadcast resource;

and if the reference parameter is not less than the preset threshold value, pushing the live broadcast data stream to a second batch of second clients based on a second flow pool containing the related flow of the second batch of second clients.

Optionally, the resource reference information includes interaction information related to the live broadcast resource and comment information for the live broadcast resource;

the second pushing unit 1404 is specifically configured to:

determining a first parameter corresponding to the live broadcast resource based on at least one of the interaction number and the conversion resource number in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource;

determining a second parameter corresponding to the live broadcast resource based on at least one of the word number of the comment information and the emotion keyword in the comment information;

and determining a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

Optionally, the apparatus further comprises:

the notifying unit 1405 is configured to notify the first client to display the modification prompt information in the live broadcast interface to prompt the live broadcast object to adjust the live broadcast content if it is determined that the detection result indicates that the detection does not pass.

Optionally, the second pushing unit 1404 is further configured to:

and returning the resource reference information or reference parameters corresponding to the live broadcast resources generated based on the resource reference information to each second client so that each second client can display the live broadcast resources and the reference parameters in a live broadcast interface, wherein the reference parameters are used for representing the credibility of the description information of the live broadcast object for the live broadcast resources.

Optionally, the apparatus further comprises:

a first feedback unit 1406, configured to receive a viewing request triggered by the second client for the reference parameter;

and acquiring the detail information and the scoring rule related to the reference parameter, and returning the detail information and the scoring rule to the second client side so that the second client side displays a detail interface related to the reference parameter, wherein the detail interface at least comprises the detail information and the scoring rule related to the reference parameter.

Optionally, the apparatus further comprises:

a second feedback unit 1407, configured to receive a viewing request for a live broadcast-related virtual resource sent by the first client;

and if the fact that the settlement triggering condition in the intelligent contract is met is determined, determining the virtual resource corresponding to the live broadcast object based on the settlement rule in the intelligent contract, returning to the first client side to enable the first client side to display the virtual resource through the resource interaction interface, and deploying the intelligent contract to the block chain after the fact that the live broadcast object triggers, confirms and signs the contract.

Optionally, the apparatus further comprises:

the storage unit 1408 is configured to, after receiving a live broadcast end request sent by a first client, store an object identifier of a live broadcast object and a reference parameter corresponding to a live broadcast resource related to the live broadcast in association with the block chain.

Optionally, the storage unit 1408 is specifically configured to:

associating the object identification with the reference parameter to generate target data;

and uploading the target data to a block chain node in a block chain network, so that the block chain node writes the target data into the generated data block after performing Hash operation and broadcast consensus on the target data.

In the embodiment, the live broadcast content is detected, the reference information related to the resources stored in the blockchain is acquired, and the live broadcast content is pushed based on the content detection result and the resource reference information, so that the live broadcast content with low quality is not distributed to the user, the live broadcast content with high quality, which is pushed to audiences, is obtained based on content detection and blockchain verification, and when the live broadcast is pushed for the second time, the number of the second batch of second clients is large, so that more high-quality live broadcast contents are pushed, and the reliability of live broadcast resource recommendation is improved.

Based on the same inventive concept, the embodiment of the application also provides another live broadcast control device. As shown in fig. 15, which is a schematic structural diagram of another live broadcast control apparatus 1500 in this embodiment of the present application, may include:

the first display unit 1501 is configured to display a live data stream of a live object in a live interface in response to a live viewing operation for the live object;

a second displaying unit 1502, configured to display, if it is determined that the live data stream includes a live resource to be recommended, the live resource and a reference parameter corresponding to the live resource in a live interface, where the reference parameter is generated based on resource reference information related to the live resource acquired from a blockchain, the reference parameter is used to represent a reliability of a description information of a live object issued for the live resource, and the live data stream is obtained after being pushed according to at least one of a detection result of the live data stream or the resource reference information.

Optionally, the apparatus further comprises:

the third displaying unit 1503 is configured to display, if it is determined that the detection result representation detection of the live data stream of the live broadcast object fails, an adjustment prompt message in the live broadcast interface to prompt the live broadcast object to adjust the live broadcast content.

Optionally, when there are a plurality of live broadcast resources, the reference parameter includes at least one of a first reference parameter and a second reference parameter;

the second display unit 1502 is specifically configured to display the reference parameter corresponding to the live broadcast resource in the live broadcast interface in at least one of the following manners:

displaying a first reference parameter corresponding to each live broadcast resource in a live broadcast interface;

and displaying a second reference parameter in the live broadcast interface, wherein the second reference parameter is an average value of the first reference parameter corresponding to each live broadcast resource.

Optionally, the second displaying unit 1502 is further configured to, after displaying the live resources and the reference parameters corresponding to the live resources in the live interface, respond to a viewing operation triggered with respect to the reference parameters, and display a detail interface related to the reference parameters, where the detail interface at least includes detail information and scoring rules related to the reference parameters.

Optionally, the apparatus further comprises:

the contract signing unit 1504 is used for responding to live broadcast operation triggered by a live broadcast object through a live broadcast entrance and displaying an intelligent contract interface, the intelligent contract interface displays an intelligent contract corresponding to virtual resources related to live broadcast, and the intelligent contract is generated based on preset virtual resource settlement rules;

and responding to the confirmation signing operation triggered by a signing control in the intelligent contract interface, displaying the live broadcast interface, and displaying the live broadcast data stream of the live broadcast object in the live broadcast interface.

Optionally, the second display unit 1502 is further configured to determine the reference parameter by:

receiving resource reference information corresponding to the live broadcast resources returned by the server, and determining reference parameters based on the resource reference information; or

And receiving a reference parameter returned by the server, wherein the reference parameter is determined by the server based on the resource reference information corresponding to the live broadcast resource.

Optionally, the resource reference information includes interaction information related to the live broadcast resource and comment information for the live broadcast resource; the second display unit 1502 is specifically configured to:

determining a first parameter corresponding to the live broadcast resource based on at least one of the interaction number and the conversion resource number in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource;

determining a second parameter corresponding to the live broadcast resource based on at least one of the word number of the comment information and the emotion keyword in the comment information;

and determining a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

In the above embodiment, in the live broadcasting process of the live broadcasting object, the live broadcasting resources and the reference parameters corresponding to the live broadcasting resources are displayed to prompt the user and improve the reliability of resource recommendation. And acquiring reference parameters of the live broadcast resources through the resource reference information stored in the blockchain system, and recommending the live broadcast resources to audience users based on the reference parameters. Because the resource reference information stored in the block chain is not easy to change and can be found, the resource reference information stored in the block chain is effective resource reference information, and therefore, the reference parameter obtained based on the effective resource reference information is real and effective.

For convenience of description, the above parts are separately described as modules (or units) according to functional division. Of course, the functionality of the various modules (or units) may be implemented in the same one or more pieces of software or hardware when implementing the present application.

The electronic equipment is based on the same inventive concept as the method embodiment, and the embodiment of the application also provides the electronic equipment. In one embodiment, the electronic device may be a server, such as server 120 shown in FIG. 1. In this embodiment, the electronic device may be configured as shown in fig. 16, and includes a memory 1601, a communication module 1603 and one or more processors 1602.

A memory 1601 for storing computer programs executed by the processor 1602. The memory 1601 may mainly include a storage program area and a storage data area, where the storage program area may store an operating system, a program required for running an instant messaging function, and the like; the storage data area can store various instant messaging information, operation instruction sets and the like.

The memory 1601 may be a volatile memory (volatile memory), such as a random-access memory (RAM); the memory 1601 may also be a non-volatile memory (non-volatile memory), such as a read-only memory (rom), a flash memory (flash memory), a hard disk (HDD) or a solid-state drive (SSD); or the memory 1601 is any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited thereto. The memory 1601 may be a combination of the above.

The processor 1602, may include one or more Central Processing Units (CPUs), a digital processing unit, and the like. A processor 1602, configured to implement the live broadcast control method when calling the computer program stored in the memory 1601.

The communication module 1603 is used for communicating with terminal equipment and other servers.

The embodiment of the present application does not limit the specific connection medium among the memory 1601, the communication module 1603, and the processor 1602. In fig. 16, the memory 1601 and the processor 1602 are connected by a bus 1604, the bus 1604 is depicted by a thick line in fig. 16, and the connection manner between other components is only for illustrative purpose and is not meant to be limiting. The bus 1604 may be divided into an address bus, a data bus, a control bus, and so on. For ease of description, only one thick line is depicted in fig. 16, but only one bus or one type of bus is not depicted.

The memory 1601 stores a computer storage medium, and the computer storage medium stores computer-executable instructions for implementing the live broadcast control method of the embodiment of the present application. The processor 1602 is configured to execute the live control method described above, as shown in fig. 2.

In another embodiment, the electronic device may also be other electronic devices, such as the terminal device 110 shown in fig. 1. In this embodiment, the structure of the electronic device may be as shown in fig. 17, including: communication component 1710, memory 1720, display unit 1730, camera 1740, sensors 1750, audio circuitry 1760, bluetooth module 1770, processor 1780, and the like.

The communication component 1710 is for communicating with a server. In some embodiments, a Wireless Fidelity (WiFi) module may be included, the WiFi module being a short-range Wireless transmission technology, through which the electronic device may help the user to transmit and receive information.

Memory 1720 may be used to store software programs and data. The processor 1780 performs various functions of the terminal device 110 and data processing by executing software programs or data stored in the memory 1720. The memory 1720 may include high-speed random access memory and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device. The memory 1720 stores an operating system that enables the terminal device 110 to operate. In this application, the memory 1720 may store an operating system and various application programs, and may also store codes for executing the live broadcast control method according to this embodiment.

The display unit 1730 may also be used to display a Graphical User Interface (GUI) of information input by the user or information provided to the user and various menus of the terminal device 110. Specifically, the display unit 1730 may include a display screen 1732 provided on the front surface of the terminal device 110. The display screen 1732 may be configured in the form of a liquid crystal display, a light emitting diode, or the like. The display unit 1730 may be configured to display a live interface, an intelligent contract interface, and the like in this embodiment.

The display unit 1730 may also be used to receive input numeric or character information, generate signal inputs related to user settings and function control of the terminal device 110, and particularly, the display unit 1730 may include a touch screen 1731 disposed on a front surface of the terminal device 110, and may collect touch operations of a user thereon or nearby, such as clicking a button, dragging a scroll box, and the like.

The touch screen 1731 may cover the display screen 1732, or the touch screen 1731 and the display screen 1732 may be integrated to implement the input and output functions of the terminal device 110, and after the integration, the touch screen may be referred to as a touch display screen for short. The display unit 1730 in this application may display the application programs and the corresponding operation steps.

The camera 1740 may be used to capture still images, and the user may post comments on the images captured by the camera 1740 through the application. The number of the cameras 1740 may be one or plural. The object generates an optical image through the lens and projects the optical image to the photosensitive element. The photosensitive element may be a Charge Coupled Device (CCD) or a complementary metal-oxide-semiconductor (CMOS) phototransistor. The light sensing elements convert the light signals into electrical signals which are then passed to a processor 1780 for conversion into digital image signals.

The terminal device may further comprise at least one sensor 1750, such as an acceleration sensor 1751, a distance sensor 1752, a fingerprint sensor 1753, a temperature sensor 1754. The terminal device may also be configured with other sensors such as a gyroscope, barometer, hygrometer, thermometer, infrared sensor, light sensor, motion sensor, and the like.

Audio circuitry 1760, speaker 1761, microphone 1762 may provide an audio interface between the user and terminal device 110. The audio circuit 1760 may transmit the electrical signal converted from the received audio data to the speaker 1761, and convert the electrical signal into an audio signal for output by the speaker 1761. Terminal device 110 may also be configured with a volume button for adjusting the volume of the sound signal. On the other hand, the microphone 1762 converts the collected sound signals into electrical signals, which are received by the audio circuitry 1760 and converted into audio data, which are output to the communication assembly 1710 for transmission to, for example, another terminal device 110, or to the memory 1720 for further processing.

The bluetooth module 1770 is used for information interaction with other bluetooth devices having a bluetooth module through a bluetooth protocol. For example, the terminal device may establish a bluetooth connection with a wearable electronic device (e.g., a smart watch) that is also equipped with a bluetooth module through the bluetooth module 1770, so as to perform data interaction.

The processor 1780 is a control center of the terminal device, connects various parts of the entire terminal device using various interfaces and lines, and performs various functions of the terminal device and processes data by operating or executing software programs stored in the memory 1720 and calling data stored in the memory 1720. In some embodiments, processor 1780 may include one or more processing units; the processor 1780 may also integrate an application processor, which primarily handles operating systems, user interfaces, applications, etc., and a baseband processor, which primarily handles wireless communications. It will be appreciated that the baseband processor described above may not be integrated into the processor 1780. In the present application, the processor 1780 may run an operating system, an application program, a user interface display, and a touch response, and the live broadcast control method according to the embodiment of the present application. Further, the processor 1780 is coupled to a display unit 1730.

In some possible embodiments, the aspects of the live control method provided by the present application may also be implemented in the form of a program product including program code for causing an electronic device to perform the steps in the live control method according to various exemplary embodiments of the present application described above in this specification when the program product is run on the electronic device, for example, the electronic device may perform the steps as shown in fig. 2 or fig. 5.

The program product may employ any combination of one or more readable media. The readable medium may be a readable signal medium or a readable storage medium. A readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination of the foregoing. More specific examples (a non-exhaustive list) of the readable storage medium include: an electrical connection having one or more wires, a portable disk, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

The program product of embodiments of the present application may employ a portable compact disc read only memory (CD-ROM) and include program code, and may be run on a computing device. However, the program product of the present application is not limited thereto, and in this document, a readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with a command execution system, apparatus, or device.

A readable signal medium may include a propagated data signal with readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. A readable signal medium may also be any readable medium that is not a readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with a command execution system, apparatus, or device.

Program code embodied on a readable medium may be transmitted using any appropriate medium, including but not limited to wireless, wireline, optical fiber cable, RF, etc., or any suitable combination of the foregoing.

Program code for carrying out operations of the present application may be written in any combination of one or more programming languages, including an object oriented programming language such as Java, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user computing device, partly on the terminal equipment, as a stand-alone software package, partly on the user computing device and partly on a remote computing device, or entirely on the remote computing device or server. In the case of remote computing devices, the remote computing device may be connected to the user computing device through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computing device (e.g., through the internet using an internet service provider).

While the preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (15)

1. A live broadcast control method is characterized by comprising the following steps:

receiving a live data stream containing a live object sent by a first client, and detecting the live data stream to obtain a detection result;

pushing the live broadcast data stream to a first batch of second clients according to the detection result; and

if the live broadcast data stream is determined to contain the live broadcast resource to be recommended, acquiring resource reference information related to the live broadcast resource from a block chain;

and pushing the live data stream to second clients according to the resource reference information so that the second clients display the live data stream in a live interface.

2. The method of claim 1, wherein pushing the live data stream to a first plurality of second clients according to the detection result comprises:

and if the detection result is determined to represent that the detection is passed, pushing the live broadcast data stream to the first batch of second clients based on a first flow pool containing the related flow of the first batch of second clients.

3. The method of claim 1, wherein pushing the live data stream to a second plurality of second clients according to the resource reference information comprises:

generating a reference parameter corresponding to the live broadcast resource based on the resource reference information, wherein the reference parameter is used for representing the credibility of the description information of the live broadcast object for the live broadcast resource;

and if the reference parameter is not less than the preset threshold value, pushing the live broadcast data stream to a second batch of second clients based on a second flow pool containing the related flow of the second batch of second clients.

4. The method of claim 3, wherein the resource reference information includes interaction information related to the live resource and comment information for the live resource;

the generating of the reference parameter corresponding to the live broadcast resource based on the resource reference information includes:

determining a first parameter corresponding to the live broadcast resource based on at least one of the interaction quantity and the conversion resource quantity in the interaction information, wherein the conversion resource is obtained by performing resource interaction on the live broadcast resource;

determining a second parameter corresponding to the live broadcast resource based on at least one of word number of the comment information and emotion keywords in the comment information;

and determining a reference parameter corresponding to the live broadcast resource according to the first parameter and the second parameter.

5. The method of claim 1, wherein the method further comprises:

and if the detection result is determined to represent that the detection is not passed, the first client is informed to display rectification prompt information in the live broadcast interface so as to prompt the live broadcast object to adjust live broadcast content.

6. The method of claim 1, wherein pushing the live data stream to a second plurality of second clients further comprises:

and returning the resource reference information or reference parameters corresponding to the live broadcast resources generated based on the resource reference information to the second clients so that the second clients display the live broadcast resources and the reference parameters in the live broadcast interface, wherein the reference parameters are used for representing the credibility of the live broadcast objects for description information issued by the live broadcast resources.

7. The method of claim 6, wherein the method further comprises:

receiving a viewing request triggered by the second client for the reference parameter;

and acquiring the detail information and the scoring rule related to the reference parameter, and returning the detail information and the scoring rule to the second client so as to enable the second client to display a detail interface related to the reference parameter, wherein the detail interface at least comprises the detail information and the scoring rule related to the reference parameter.

8. The method of claim 1, wherein the method further comprises:

receiving a viewing request for live broadcast related virtual resources sent by the first client;

and if the fact that the settlement triggering condition in the intelligent contract is met is determined, determining the virtual resource corresponding to the live broadcast object based on the settlement rule in the intelligent contract, and returning to the first client side to enable the first client side to display the virtual resource through a resource interaction interface, wherein the intelligent contract is deployed on the block chain after the live broadcast object is determined to trigger, confirm and sign the contract.

9. The method of any one of claims 1 to 8, further comprising:

and after receiving a live broadcast ending request sent by the first client, storing the object identifier of the live broadcast object and the reference parameter corresponding to the live broadcast resource related to the live broadcast in the block chain in an associated manner.

10. The method as claimed in claim 9, wherein the storing the object identifier of the live broadcast object and the reference parameter association corresponding to the live broadcast resource related to the current live broadcast in the block chain comprises:

associating the object identification with the reference parameter to generate target data;

and uploading the target data to a block chain node in a block chain network, so that the block chain node writes the target data into a generated data block after performing hash operation and broadcast consensus on the target data.

11. A live broadcast control method is characterized by comprising the following steps:

responding to a live viewing operation aiming at a live object, and displaying a live data stream of the live object in a live interface;

if the live broadcast data stream contains the live broadcast resource to be recommended, displaying the live broadcast resource and a reference parameter corresponding to the live broadcast resource in the live broadcast interface, wherein the reference parameter is generated based on resource reference information which is acquired from a block chain and is related to the live broadcast resource, the reference parameter is used for representing the credibility of the live broadcast object for description information issued by the live broadcast resource, and the live broadcast data stream is acquired after being pushed according to at least one of a detection result of the live broadcast data stream or the resource reference information.

12. A live control apparatus, comprising:

the detection unit is used for receiving a live data stream containing a live object sent by a first client, detecting the live data stream and obtaining a detection result;

the first pushing unit is used for pushing the live broadcast data stream to a first batch of second clients according to the detection result; and

the information acquisition unit is used for acquiring resource reference information related to the live broadcast resources from a block chain if the live broadcast data stream is determined to contain the live broadcast resources to be recommended;

and the second pushing unit is used for pushing the live data stream to second batches of second clients according to the resource reference information so that each second client can display the live data stream in a live interface.

13. A live control apparatus, comprising:

the first display unit is used for responding to live broadcast viewing operation aiming at a live broadcast object and displaying a live broadcast data stream of the live broadcast object in a live broadcast interface;

the second display unit is configured to display the live broadcast resources and reference parameters corresponding to the live broadcast resources in the live broadcast interface if it is determined that the live broadcast data stream contains live broadcast resources to be recommended, where the reference parameters are generated based on resource reference information related to the live broadcast resources and acquired from a block chain, the reference parameters are used to represent the credibility of the live broadcast object for description information published by the live broadcast resources, and the live broadcast data stream is acquired after being pushed according to at least one of a detection result of the live broadcast data stream or the resource reference information.

14. An electronic device, characterized in that it comprises a processor and a memory, wherein the memory stores program code which, when executed by the processor, causes the processor to carry out the steps of the method of any one of claims 1 to 10 or the steps of the method of claim 11.

15. A computer-readable storage medium, characterized in that it comprises program code for causing an electronic device to perform the steps of the method of any one of claims 1 to 10 or the steps of the method of claim 11, when said storage medium is run on said electronic device.

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