CN115278557B - RCS-5G rich media message pushing management system based on blockchain - Google Patents

Abstract

The invention provides a block chain-based RCS-5G rich media message pushing management system, which comprises: the script generation end is used for generating a message pushing script of the enterprise end based on the total user information in the user pool and the real-time pushing requirement of the enterprise end; the task deployment end is used for carrying out task deployment on the multiport forwarders based on the message pushing script to obtain deployment tasks of each multiport forwarder; the dynamic dividing end is used for carrying out time stamp division on the dynamic push network corresponding to the deployment task of the multiport repeater to obtain a static push network at each moment; the pushing execution end is used for pushing the message to the corresponding user based on the static pushing network, and meanwhile, the pushing record data is obtained in the recording pushing process; the record generation end is used for generating a push management blockchain record file in real time based on push record data; the method is used for combining the blockchain with the rich media message pushing management, and overcomes the defect of the traditional rich media message pushing mode.

Description

RCS-5G rich media message pushing management system based on blockchain

Technical Field

The invention relates to the technical field of rich media messages, in particular to an RCS-5G rich media message pushing management system based on a blockchain.

Background

At present, 5G messages, namely RCS messages (Rich Communication Services & Suite, rich media communication Suite), can not only realize various rich applications of APP on a short message interface through various interfaces, but also provide brand-new rich media interaction experience for enterprises, merchants and users, and has wide market prospect in the future. As an upgrade product of the short message service of the operator, the application product which can rapidly push the electronic product terminal and the product service is upgraded on the aspects of the use experience of the electronic product pushing and the customer perception experience. The 5G message is based on IP technology, can support multimedia format, has rich expression form, and is not limited to characters, pictures and videos. The method not only inherits the registration-free login and installation-free attributes of the traditional short message, but also ensures the information security on the basis of interaction of encryption transmission, graphic passwords and the like, and is more likely to realize full-flow charging.

The RCS business rich media message provides a message interaction interface for enterprises and individual users, increases interaction capacity on the basis of pictures, videos and the like, and facilitates the enterprises to output personalized services to the users. The value of the RCS commercial rich media message is that it provides a new channel for businesses and users. With this channel, the enterprise can reach the user. The user may also reach the service. To implement RCS commercial rich media messaging, operators set up MaaP (Messaging as a Platform, messaging platform) capability enhanced open platform and Chatbot chat robots on their own network. The platform is oriented towards an enterprise open API interface to provide services.

However, existing RCS-5G rich media message pushing technologies employ multiport transponders, i.e. push messages to other clients through a relay node, which results in a large range of impact of the fault when the relay node fails, and the record of the push management process may also be at risk of being lost and tampered with.

Therefore, the invention provides a RCS-5G rich media message pushing management system based on a blockchain.

Disclosure of Invention

The invention provides a blockchain-based RCS-5G rich media message pushing management system, which is used for combining blockchain with RCS-5G rich media message pushing management, reducing the fault influence range generated when a relay node breaks down based on the decentralization of a blockchain distribution message system and the storage structure attribute of the blockchain, and overcoming the risk of losing or falsifying records in the pushing management process.

The invention provides a block chain-based RCS-5G rich media message pushing management system, which comprises:

the script generation end is used for generating a message pushing script of the enterprise end based on the total user information in the user pool and the real-time pushing requirement of the enterprise end;

the task deployment end is used for carrying out task deployment on the multiport forwarders based on the message pushing script to obtain deployment tasks of each multiport forwarder;

The dynamic dividing end is used for carrying out time stamp division on the dynamic push network corresponding to the deployment task of the multiport repeater to obtain a static push network at each moment;

the pushing execution end is used for pushing the message to the corresponding user based on the static pushing network, and meanwhile, the pushing record data is obtained in the recording pushing process;

the record generation end is used for generating the push management blockchain record file in real time based on the push record data.

Preferably, the script generating end includes:

the target determining module is used for generating a pushing task execution chain based on real-time pushing requirements of the enterprise end, and determining a target pushing user set of each pushing task in the pushing task execution chain in the user pool;

the terminal determining module is used for determining the receiving terminal information of each target pushing user in the target pushing user set based on the total user information, summarizing the pushing terminal information and obtaining a terminal information set corresponding to the pushing task;

the script generation module is used for generating a message pushing script of the enterprise terminal based on the terminal information set and the pushing task execution chain.

Preferably, the task deployment end includes:

the script transmission module is used for transmitting the message pushing script to the corresponding MaaP platform based on the API port of the enterprise terminal;

The task deployment module is used for performing task deployment on the multi-port forwarders based on all the message pushing scripts received by the MaaP platform in a preset period to obtain deployment tasks of each multi-port forwarder.

Preferably, the task deployment module includes:

the time sequence alignment unit is used for acquiring push task execution chains of all the message push scripts received by the MaaP platform in a preset period, and performing time sequence alignment on the push task execution chains of all the message push scripts based on the total continuous execution time period in the push task execution chains to acquire an alignment chain;

the curve generation unit is used for calculating the real-time transmission quantity of the corresponding pushing task based on the terminal information set and the pushing content of each pushing task in the message pushing script, and generating a real-time transmission quantity curve of the pushing task execution chain based on the real-time transmission quantity of each pushing task;

the user determining unit is used for determining a simultaneous execution task set at each moment based on the alignment chain and determining a simultaneous pushing user set based on the simultaneous execution task set;

an address clustering unit, configured to determine a first network address of a receiving terminal of each simultaneous push user in the simultaneous push user set and second network addresses of all multi-port transponders, and cluster the first network addresses based on a first transmission distance between the first network address and the second network address, so as to obtain a clustering result;

The transmission quantity calculation unit is used for determining a pushing user distribution set of each multi-port transponder at the corresponding moment based on the clustering result, and calculating the real-time comprehensive transmission quantity of the corresponding multi-port transponder at the corresponding moment based on a real-time transmission quantity curve of a pushing task execution chain to which each pushed user belongs in the pushing user distribution set;

an allocation judging unit for judging whether a first multi-port repeater with real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port repeater exists;

the system comprises a reassignment unit, a real-time pushing task set and a real-time pushing task set, wherein the reassignment unit is used for reassigning the first multi-port transponder based on the real-time comprehensive transmission quantity and the maximum bearing throughput of the first multi-port transponder when the first multi-port transponder with the real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port transponder exists;

the task allocation unit is used for determining a real-time push task set of each multi-port transponder at a corresponding moment based on a push user allocation set of each multi-port transponder when no first multi-port transponder with the real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port transponder exists;

The task determining unit is used for binding the real-time pushing task set and the time stamp, generating a sub pushing task execution chain corresponding to the multiport repeater, and taking the sub pushing task execution chain as a deployment task corresponding to the multiport repeater.

Preferably, the redistribution unit comprises:

an excess determination subunit, configured to determine, when there is a first multiport repeater whose real-time integrated transmission amount exceeds a maximum bearing throughput of a corresponding multiport repeater, a corresponding excess bearing amount based on the real-time integrated transmission amount and the maximum bearing throughput of the first multiport repeater;

a priority ordering subunit, configured to prioritize the pushed users in the push user allocation set based on a second transmission distance between a first network address of each pushed user in the push user allocation set of the first multiport repeater and a second network address corresponding to the first multiport repeater, so as to obtain a first priority list;

a sequence determining subunit, configured to determine a reassigned user sequence in the corresponding pushing user assignment set based on the real-time transmission amount of the pushing task at the corresponding time of each pushed user and the first priority list;

A remaining calculating subunit, configured to calculate a remaining bearable throughput of the corresponding multiport repeater based on the maximum bearable throughput and the real-time comprehensive transmission amount of the multiport repeater remaining except the first multiport repeater;

a first screening subunit, configured to sequentially screen, based on the real-time transmission amount and the remaining bearable throughput of the push task of each reassigned user at a corresponding time in the reassigned user sequence, a bearable multiport repeater set corresponding to the reassigned user from among the remaining multiport repeaters other than the first multiport repeater;

a final deployment subunit, configured to determine a third transmission distance between the first network address of the reassigned user and the second network address of each bearable multiport repeater in the corresponding bearable multiport repeater set, and use the bearable multiport repeater corresponding to the minimum third transmission distance as a final deployment multiport repeater of the corresponding reassigned user;

and the task determination subunit is used for obtaining a reassignment result based on the final deployment multiport transponder of all reassignment users, and determining a real-time push task set of each multiport transponder at a corresponding moment based on the reassignment result.

Preferably, the dynamic partitioning terminal includes:

the task tree building module is used for building a task execution tree based on the deployment task of the multiport repeater;

the dynamic generation module is used for taking a target push user in a target push user set of each push task in the task execution tree as a network node, taking a corresponding multiport repeater as a network center node, taking a transmission path between the target push user and the multiport repeater as a network path, building a distributed message push network corresponding to the push task based on the network node and the network center node of the corresponding push task in the task execution tree and the network path, and sequencing the distributed message push network based on the execution sequence of the push task in the task execution tree to generate a dynamic push network corresponding to the multiport repeater;

the dynamic dividing module is used for carrying out time sequence division on the dynamic pushing network to obtain a static pushing network at each moment.

Preferably, the pushing execution end includes:

the protocol determining module is used for determining a message pushing protocol based on the static pushing network;

and the pushing execution module is used for pushing the message to the corresponding user based on the message pushing protocol, and meanwhile, the pushing record data is obtained in the record pushing process.

Preferably, the protocol determining module includes:

the task determining unit is used for determining a pushing task set at a corresponding moment based on the task execution tree;

the protocol determining unit is used for determining a message pushing protocol corresponding to the pushing task based on a target pushing user set of the pushing task in the pushing task set.

Preferably, the protocol determining unit includes:

the mode determining subunit is used for determining the transmission mode of the target pushing user set;

and the protocol determination subunit is used for determining the message pushing protocol corresponding to the pushing task based on the transmission mode.

Preferably, the record generating end includes:

the file generation module is used for generating a block storage file at a corresponding moment from the push record data;

and the file binding module is used for binding the block storage file and the time stamp in real time to obtain the push management block chain record file of the enterprise terminal.

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

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of a blockchain-based RCS-5G rich media message push management system in an embodiment of the invention;

FIG. 2 is a schematic diagram of a script generating end in an embodiment of the present invention;

FIG. 3 is a schematic diagram of a task deployment end in an embodiment of the present invention;

FIG. 4 is a schematic diagram of a task deployment module according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a redistribution unit according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a dynamic partitioning end in an embodiment of the present invention;

FIG. 7 is a schematic diagram of a pushing execution end according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a protocol determination module according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a protocol determining unit according to an embodiment of the present invention;

fig. 10 is a schematic diagram of a record generating end according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

the invention provides a block chain-based RCS-5G rich media message pushing management system, which comprises:

the script generation end is used for generating a message pushing script of the enterprise end based on the total user information in the user pool and the real-time pushing requirement of the enterprise end;

the task deployment end is used for carrying out task deployment on the multiport forwarders based on the message pushing script to obtain deployment tasks of each multiport forwarder;

the dynamic dividing end is used for carrying out time stamp division on the dynamic push network corresponding to the deployment task of the multiport repeater to obtain a static push network at each moment;

the pushing execution end is used for pushing the message to the corresponding user based on the static pushing network, and meanwhile, the pushing record data is obtained in the recording pushing process;

the record generation end is used for generating the push management blockchain record file in real time based on the push record data.

In this embodiment, the user pool is the user scope that can be managed by the blockchain-based RCS-5G rich media message push management system.

In this embodiment, the full-scale user information is user-related information of all users in the user pool, for example, receiving terminal information.

In this embodiment, the enterprise terminal is the enterprise terminal that wants to push the RCS-5G rich media message.

In this embodiment, the real-time push requirement is a specific requirement of pushing the RCS-5G rich media message, which is input by the enterprise in real time, and includes: the RCS-5G rich media message pushing task and target pushing user.

In this embodiment, the message pushing script is an executable cultural part for characterizing the message pushing process of the enterprise.

In this embodiment, the multiport repeater is a Hub, and is a device for forwarding the RCS-5G rich media message that needs to be pushed by the enterprise terminal to the user terminal.

In this embodiment, the task deployment is a process of deploying a push task for the multiport repeater.

In this embodiment, the deployment task is a push task deployed in each multiport repeater after performing task deployment on the multiport repeater based on the message push script.

In this embodiment, the dynamic push network is a network that characterizes a push target user of the multiport repeater pushing RCS-5G rich media messages.

In this embodiment, the static push network is a network that performs time stamp division on a dynamic push network corresponding to a deployment task of the multiport repeater to obtain a target user that needs to push the RCS-5G rich media message at each moment.

In this embodiment, the push record data is data for recording a process of pushing a message to a corresponding user based on a static push network.

In this embodiment, the push management blockchain record file is a file of chain-block alternate connection generated based on push record data in real time, and is also a file used for recording a push management process of the RCS-5G rich media message by the RCS-5G rich media message push management system based on blockchain.

The beneficial effects of the technology are as follows: the method combines the blockchain with the RCS-5G rich media message pushing management, carries out RCS-5G rich media message pushing on the target user based on the decentralization attribute of the blockchain distributed message system, reduces the fault influence range generated when the relay node breaks down, records the message pushing management process based on the blockchain storage structure attribute, and overcomes the risk of losing or falsifying the record in the pushing management process.

Example 2:

on the basis of embodiment 1, the script generating end includes:

the target determining module is used for generating a pushing task execution chain based on real-time pushing requirements of the enterprise end, and determining a target pushing user set of each pushing task in the pushing task execution chain in the user pool;

the terminal determining module is used for determining the receiving terminal information of each target pushing user in the target pushing user set based on the total user information, summarizing the pushing terminal information and obtaining a terminal information set corresponding to the pushing task;

The script generation module is used for generating a message pushing script of the enterprise terminal based on the terminal information set and the pushing task execution chain.

In this embodiment, the push task execution chain is chain information generated based on real-time push requirements of the enterprise end and used for characterizing a process of sequentially executing push tasks due to the enterprise end, where the push task execution chain includes content of push tasks and a target push user set.

In this embodiment, the target pushing user set is a set formed by target pushing users that need to be pushed for the pushing task in the pushing task execution chain determined in the user pool.

In this embodiment, the receiving terminal information is information about a receiving terminal of the target push user determined based on the total user information, for example: the network address of the terminal is received.

In this embodiment, the target pushing user is the target user to which the corresponding execution task included in the target pushing user set needs to be pushed.

In this embodiment, the terminal information set is a set obtained by summarizing the received terminal information of all the target push users that perform the tasks.

The beneficial effects of the technology are as follows: by combining the receiving terminal information of the target pushing user set of the pushing task in the pushing task execution chain generated by the real-time pushing requirement of the enterprise end with the task execution chain, executable files which can characterize the pushing task execution sequence and correspond to the target pushing user set are generated.

Example 3:

on the basis of embodiment 1, the task deployment end includes:

the script transmission module is used for transmitting the message pushing script to the corresponding MaaP platform based on the API port of the enterprise terminal;

the task deployment module is used for performing task deployment on the multi-port forwarders based on all the message pushing scripts received by the MaaP platform in a preset period to obtain deployment tasks of each multi-port forwarder.

In this embodiment, the API port is a predefined interface for connecting the MaaP platform and the enterprise terminal.

In this embodiment, the MaaP platform is Massage as a platform, and the message is the platform.

In this embodiment, the preset period is a preset interval time for performing task deployment on the multiport repeater, for example: 24h.

The beneficial effects of the technology are as follows: based on the API ports preset between the enterprise terminal and the MaaP platform, the fixed transmission of the enterprise terminal message pushing script to the corresponding MaaP platform is realized, and the task deployment is carried out on the multi-port transponder based on all the message pushing scripts received by the MaaP platform in a preset period, so that the balance of deployment results can be ensured to a certain extent.

Example 4:

on the basis of embodiment 3, the task deployment module includes:

The time sequence alignment unit is used for acquiring push task execution chains of all the message push scripts received by the MaaP platform in a preset period, and performing time sequence alignment on the push task execution chains of all the message push scripts based on the total continuous execution time period in the push task execution chains to acquire an alignment chain;

the curve generation unit is used for calculating the real-time transmission quantity of the corresponding pushing task based on the terminal information set and the pushing content of each pushing task in the message pushing script, and generating a real-time transmission quantity curve of the pushing task execution chain based on the real-time transmission quantity of each pushing task;

the user determining unit is used for determining a simultaneous execution task set at each moment based on the alignment chain and determining a simultaneous pushing user set based on the simultaneous execution task set;

an address clustering unit, configured to determine a first network address of a receiving terminal of each simultaneous push user in the simultaneous push user set and second network addresses of all multi-port transponders, and cluster the first network addresses based on a first transmission distance between the first network address and the second network address, so as to obtain a clustering result;

the transmission quantity calculation unit is used for determining a pushing user distribution set of each multi-port transponder at the corresponding moment based on the clustering result, and calculating the real-time comprehensive transmission quantity of the corresponding multi-port transponder at the corresponding moment based on a real-time transmission quantity curve of a pushing task execution chain to which each pushed user belongs in the pushing user distribution set;

An allocation judging unit for judging whether a first multi-port repeater with real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port repeater exists;

the system comprises a reassignment unit, a real-time pushing task set and a real-time pushing task set, wherein the reassignment unit is used for reassigning the first multi-port transponder based on the real-time comprehensive transmission quantity and the maximum bearing throughput of the first multi-port transponder when the first multi-port transponder with the real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port transponder exists;

the task allocation unit is used for determining a real-time push task set of each multi-port transponder at a corresponding moment based on a push user allocation set of each multi-port transponder when no first multi-port transponder with the real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port transponder exists;

the task determining unit is used for binding the real-time pushing task set and the time stamp, generating a sub pushing task execution chain corresponding to the multiport repeater, and taking the sub pushing task execution chain as a deployment task corresponding to the multiport repeater.

In this embodiment, the total duration execution period is the duration period in which the task execution chain is executed.

In this embodiment, the alignment chain is an aligned push task execution chain obtained after time sequence alignment is performed on the push task execution chains of all the message push scripts.

In this embodiment, calculating, based on the terminal information set and the push content of each push task in the message push script, a real-time transmission amount of the corresponding push task includes:

determining the transmission capacity of the sub-terminals corresponding to the push content, determining the total number of terminals to be pushed and the transmission distance between each pushed terminal and the corresponding multi-port transponder based on the terminal information set, and sequencing the transmission distances from small to large to obtain a transmission distance sequence;

calculating a change function of real-time transmission quantity of a corresponding pushing task based on the total number of terminals and the transmission capacity and the transmission distance sequence:

in the formula, SC (t) is a change function of real-time transmission quantity of a pushing task, j is a j-th pushed terminal, m is a total number of terminals which need to be pushed based on a terminal information set, and s ₁ For the first transmission distance in the sequence of transmission distances, CR (t) is a function of the change in transmission capacity at sub-position, s ₂ For the second transmission distance in the sequence of transmission distances s _m-1 S for the m-1 th transmission distance in the transmission distance sequence _m For the mth transmission distance in the sequence of transmission distances, v is the standard transmission rate,for CR (t) at +.>Integration of (1),>for CR (t) at +.>Integration of (1),>for CR (t) at +.>Integration of (1),>is-> Deriving t;

calculating the real-time transmission quantity corresponding to the pushing task based on the change function of the real-time transmission quantity of the pushing task;

for example, CR (t) is 10 ⁸ t, m is 3, the transmission distance sequence is: 1. 2, 3, v is 1, then SC (t) is at t.epsilon.0, 1]At 3X 10 ⁸ t，t∈[1,2]At 2X 10 ⁸ t，t∈[2,3]At a time of 10 ⁸ t is CR (1) 3×10 ⁸ ；

Based on the formula, the real-time transmission quantity corresponding to the pushing task can be accurately determined.

In this embodiment, the real-time transmission amount curve is a curve representing a real-time transmission amount change process generated based on the real-time transmission amount of the pushing task.

In this embodiment, the simultaneous execution task set is a set formed by push tasks that need to be simultaneously executed at each moment in the MaaP platform determined based on the alignment chain.

In this embodiment, the simultaneous pushing user set is a user set formed by a target pushing user set for simultaneously executing all pushing tasks included in the task set.

In this embodiment, the first network address is a network address of a receiving terminal of each simultaneous push user in the simultaneous push user set.

In this embodiment, the pushing users simultaneously are users included in the user set.

In this embodiment, the second network address is the network address of the multiport repeater.

In this embodiment, based on a first transmission distance between the first network address and the second network address, the first network address is clustered to obtain a clustering result, which is:

and taking the second network address corresponding to the minimum first transmission distance corresponding to each first network address as a clustering center corresponding to the first network address, clustering the first network addresses with the same clustering center to obtain a class corresponding to each second network address (the clustering center), and taking the determined multiple classes as clustering results.

In this embodiment, the clustering result is a result obtained after clustering the first network address based on the first transmission distance between the first network address and the second network address.

In this embodiment, the pushing user allocation set is a set formed by target pushing users of each multiport repeater at corresponding moments determined based on clustering results.

In this embodiment, based on the clustering result, it is determined that the push user allocation set of each multiport repeater at the corresponding time is: after users corresponding to the first network addresses contained in the class in the clustering result are divided into the multiport forwarders corresponding to the corresponding clustering centers (second network addresses), the users corresponding to all the first network addresses contained in the class corresponding to the second network addresses are summarized, and a pushing user distribution set of the multiport forwarders at corresponding moments is obtained.

In this embodiment, the pushed user is the user included in the pushing task allocation set.

In this embodiment, calculating the real-time integrated transmission amount of the corresponding multiport repeater at the corresponding time based on the real-time transmission amount curve of the push task execution chain to which each pushed user belongs in the push task allocation set includes:

determining a real-time transmission quantity change function based on a real-time transmission quantity curve of a push task execution chain to which each pushed user belongs in the push task distribution set, and calculating real-time comprehensive transmission quantity of the corresponding multiport repeater at a corresponding moment based on the real-time transmission quantity change function:

wherein ZC (t) is a real-time comprehensive transmission quantity change function of the multi-port transponder, i is a pushing task execution chain of the ith pushed user contained in the multi-port transponder, n is the total number of pushing task execution chains of the pushed user contained in the multi-port transponder, SC _i (t) is a real-time traffic volume change function of a push task execution chain to which an i-th pushed user included in the multiport repeater belongs;

determining the real-time comprehensive transmission quantity of the corresponding multi-port transponder at the corresponding moment based on the real-time comprehensive transmission quantity change function of the multi-port transponder;

For example, SC ₁ (t) is 10 ⁸ t，SC ₁ (t) is 2X 10 ⁸ t, ZC (t) is 3×10 ⁸ t, when t=1s, the real-time integrated transmission amount of the multi-port repeater is 3×10 ⁸ ；

Based on the formula, the real-time comprehensive transmission quantity of the multiport repeater at the corresponding moment can be accurately calculated.

In this embodiment, the maximum sustained throughput is the maximum throughput of the multiport repeater.

In this embodiment, the first multi-port repeater is a multi-port repeater with a real-time integrated transmission amount exceeding a maximum bearable throughput of the corresponding multi-port repeater.

In this embodiment, the real-time push task set is a set formed by the push tasks of the determined multiport transponders at the corresponding time based on the real-time integrated transmission amount and the maximum bearing throughput of the first multiport transponder when the first multiport transponder with the real-time integrated transmission amount exceeding the maximum bearing throughput of the corresponding multiport transponder exists, or based on the push user allocation set of each multiport transponder when the first multiport transponder with the real-time integrated transmission amount exceeding the maximum bearing throughput of the corresponding multiport transponder does not exist.

In this embodiment, the sub push task execution chain is chain information representing the push task execution sequence of the corresponding multiport repeater, which is obtained after binding the real-time push task set and the timestamp.

The beneficial effects of the technology are as follows: the method comprises the steps of realizing clustering of simultaneous pushing users corresponding to all real-time pushing tasks contained in a MaaP platform based on the transmission distance of all pushing tasks in the MaaP platform, further realizing initial deployment of all pushing tasks contained in the MaaP platform, determining real-time comprehensive transmission energy after initial deployment based on a real-time energy transmission curve of which task is the aligned task, judging whether the real-time comprehensive transmission energy of a corresponding multiport repeater meets the maximum bearable throughput or not, realizing judgment and verification of an initial deployment result, and carrying out reassignment deployment on the pushing tasks based on the corresponding real-time comprehensive transmission energy and the maximum bearable throughput when the real-time comprehensive transmission energy and the maximum bearable throughput are not met, so that the deployed result ensures pushing efficiency by considering the transmission distance, and also ensures that the throughput of the multiport repeater meets the bearing requirement by comparing the real-time comprehensive transmission energy and the maximum bearable throughput, and further realizing efficient and rapid deployment of all pushing tasks in the MaaP platform.

Example 5:

on the basis of embodiment 4, the reassignment unit includes:

an excess determination subunit, configured to determine, when there is a first multiport repeater whose real-time integrated transmission amount exceeds a maximum bearing throughput of a corresponding multiport repeater, a corresponding excess bearing amount based on the real-time integrated transmission amount and the maximum bearing throughput of the first multiport repeater;

A priority ordering subunit, configured to prioritize the pushed users in the push user allocation set based on a second transmission distance between a first network address of each pushed user in the push user allocation set of the first multiport repeater and a second network address corresponding to the first multiport repeater, so as to obtain a first priority list;

a sequence determining subunit, configured to determine a reassigned user sequence in the corresponding pushing user assignment set based on the real-time transmission amount of the pushing task at the corresponding time of each pushed user and the first priority list;

a remaining calculating subunit, configured to calculate a remaining bearable throughput of the corresponding multiport repeater based on the maximum bearable throughput and the real-time comprehensive transmission amount of the multiport repeater remaining except the first multiport repeater;

a first screening subunit, configured to sequentially screen, based on the real-time transmission amount and the remaining bearable throughput of the push task of each reassigned user at a corresponding time in the reassigned user sequence, a bearable multiport repeater set corresponding to the reassigned user from among the remaining multiport repeaters other than the first multiport repeater;

A final deployment subunit, configured to determine a third transmission distance between the first network address of the reassigned user and the second network address of each bearable multiport repeater in the corresponding bearable multiport repeater set, and use the bearable multiport repeater corresponding to the minimum third transmission distance as a final deployment multiport repeater of the corresponding reassigned user;

and the task determination subunit is used for obtaining a reassignment result based on the final deployment multiport transponder of all reassignment users, and determining a real-time push task set of each multiport transponder at a corresponding moment based on the reassignment result.

In this embodiment, the excess capacity is the difference between the real-time integrated transmission capacity of the first multiport repeater and the corresponding maximum throughput capacity.

In this embodiment, the second transmission distance is a transmission distance between a first network address of each pushed user in the distribution set of push users of the first multiport repeater and a second network address of the corresponding first multiport repeater.

In this embodiment, the first priority list is a list obtained by sorting the pushed users corresponding to the first network addresses according to the order of the second transmission distance from the high to the low, where the priority of the pushed users is represented from the high to the low.

In this embodiment, the remaining bearable throughput is the difference between the maximum bearable throughput of the remaining multiport transponders except the first multiport transponder and the real-time integrated transmission capacity.

In this embodiment, the reassigned user sequence is determined in the corresponding pushing user assignment set based on the real-time transmission amount of the pushing task of each pushed user at the corresponding time and the first priority list, which is:

determining the exceeding bearing capacity of the first multiport repeater, sequentially determining the reassignment users in the first priority list according to the sequence from top to bottom until the sum of the real-time transmission capacity of all the determined reassignment users is not lower than the exceeding bearing capacity, and sequencing all the determined reassignment users based on the determined sequence to obtain a reassignment user sequence.

In this embodiment, the reassigned user sequence is a sequence formed by users that need to be reassigned, which is determined in the corresponding pushing user assignment set based on the real-time transmission amount of the pushing task of each pushed user at the corresponding time and the first priority list.

In this embodiment, the bearable multi-port transponder set is a set of port transponders selected from the remaining multi-port transponders except the first multi-port transponder and bearable to push tasks of the corresponding reassigned user based on the real-time transmission amount and the remaining bearable throughput of the push tasks of each reassigned user in the sequence of reassigned users at the corresponding time.

In this embodiment, based on the real-time transmission amount and the remaining bearable throughput of the push task of each reassigned user at the corresponding moment in the sequence of reassigned users, sequentially screening the bearable multiport repeater set of the corresponding reassigned user among the remaining multiport repeaters except the first multiport repeater, including:

and summarizing the multi-port transponders which are not more than the residual bearable throughput in the real-time transmission quantity and are screened out of the remaining multi-port transponders except the first multi-port transponder, and obtaining bearable multi-port transponder sets corresponding to the reassigned users.

In this embodiment, the third transmission distance is the transmission distance between the first network address of the reassigned user and the second network address of each affordable multiport repeater in the corresponding set of affordable multiport repeaters.

In this embodiment, the final deployment multiport forwarding is the bearable multiport repeater corresponding to the minimum third transmission distance.

In this embodiment, the reassignment results include the clustering results of the end deployed multiport transponders and the non-reassigned pushed users determined by the reassigned users.

The beneficial effects of the technology are as follows: the method comprises the steps of carrying out priority ordering on the reallocated users based on the transmission distance between the first network address of the reallocated users and the second network address of the corresponding first multi-port transponder determined after the first deployment result, combining the remaining bearable throughput of the remaining multi-port transponder and the transmission distance between the reallocated users, realizing the reallocation of the reallocated users, and ensuring the pushing efficiency of the reallocated results in the pushing process to the greatest extent under the condition that the throughput bearing requirement of the multi-port transponder is met when the pushing task is executed subsequently.

Example 6:

on the basis of embodiment 1, the dynamic partitioning terminal includes:

the task tree building module is used for building a task execution tree based on the deployment task of the multiport repeater;

the dynamic generation module is used for taking a target push user in a target push user set of each push task in the task execution tree as a network node, taking a corresponding multiport repeater as a network center node, taking a transmission path between the target push user and the multiport repeater as a network path, building a distributed message push network corresponding to the push task based on the network node and the network center node of the corresponding push task in the task execution tree and the network path, and sequencing the distributed message push network based on the execution sequence of the push task in the task execution tree to generate a dynamic push network corresponding to the multiport repeater;

the dynamic dividing module is used for carrying out time sequence division on the dynamic pushing network to obtain a static pushing network at each moment.

In this embodiment, the task execution tree is a tree structure that characterizes an execution process of pushing the RCS-5G rich media message by the corresponding multiport repeater and is built based on the deployment task of the multiport repeater.

In this embodiment, the network node is the target push user in the target push user set corresponding to the push task, and is also a node in the distributed message push network.

In this embodiment, the network center node is the corresponding multiport repeater, and is also the center node in the distributed message push network.

In this embodiment, the network path is a transmission path between the target push user and the multiport repeater, and is also a path connecting between the network center node and the network node in the distributed message push network.

In this embodiment, a distributed message push network corresponding to a push task is built based on a network node, a network center node and a network path corresponding to the push task in a task execution tree, which is:

and connecting the network center node and the network node through a network path to obtain the divergent network structure.

In this embodiment, the dynamic push network is a dynamic distributed message push network corresponding to the multiport repeater generated after the distributed message push network is ordered based on the execution sequence of push tasks in the task execution tree.

In this embodiment, the static push network is a static distributed message push network at each time obtained after time sequence division of the dynamic push network.

The beneficial effects of the technology are as follows: the method comprises the steps of carrying out time stamp division on a dynamic pushing network generated by a target pushing user set of each pushing task in a task execution tree built based on a deployment task of the multiport repeater, and obtaining a network structure for visualizing the real-time execution process of the pushing task of the multiport repeater.

Example 7:

on the basis of embodiment 1, pushing the execution end includes:

the protocol determining module is used for determining a message pushing protocol based on the static pushing network;

and the pushing execution module is used for pushing the message to the corresponding user based on the message pushing protocol, and meanwhile, the pushing record data is obtained in the record pushing process.

In the embodiment, the message pushing protocol is an application layer text protocol for accurately pushing RCS-5G rich media messages to a corresponding target pushing user set at corresponding time based on a multiport repeater determined by a static pushing network.

The beneficial effects of the technology are as follows: message pushing is carried out on the corresponding user based on the message pushing protocol determined by the static pushing network, so that the accurate pushing of the RCS-5G rich media message by the multiport repeater is realized, the pushing process is recorded, and the recorded data representing the pushing process of the corresponding multiport repeater is obtained.

Example 8:

on the basis of embodiment 7, the protocol determination module includes:

the task determining unit is used for determining a pushing task set at a corresponding moment based on the task execution tree;

the protocol determining unit is used for determining a message pushing protocol corresponding to the pushing task based on a target pushing user set of the pushing task in the pushing task set.

In this embodiment, the push task set is a set formed by push tasks that need to be executed by the corresponding multiport repeater at the corresponding time determined based on the task execution tree.

The beneficial effects of the technology are as follows: the message pushing protocol is determined by the target pushing user based on the pushing task, so that the multiport repeater can accurately push the RCS-5G rich media message to be pushed to the corresponding target pushing user when the corresponding pushing task is executed.

Example 9:

on the basis of embodiment 8, the protocol determination unit includes:

the mode determining subunit is used for determining the transmission mode of the target pushing user set;

and the protocol determination subunit is used for determining the message pushing protocol corresponding to the pushing task based on the transmission mode.

In this embodiment, the transmission manner is, for example:

1. polling: the client sends an Ajax request to the server at regular time, the server returns response information immediately after receiving the request, and the connection is closed; the advantages are that: the back-end program is easy to write; disadvantages: most of the requests are useless, wasting bandwidth and server resources; is suitable for small-sized application;

2. Long polling: the client sends an Ajax request to the server, the server receives the request and holds the connection until a new message exists, and the response information is returned and the connection is closed; after the client processes the response information, a new request is sent to the server; the advantages are that: frequent requests are not required under the condition of no message, and the consumed resources are less; disadvantages: the Hold connection of the server consumes resources, the sequence of returned data cannot be ensured, and the management and maintenance are difficult; the method is suitable for webQQ, hi webpage edition, faceBook IM and the like;

3. long connection: embedding a hidden jframe in the page, setting the src attribute of the hidden iframe as a request for a long connection or adopting a XRH request, and enabling a server side to continuously input data to a client side; the advantages are that: the message arrives immediately, and no useless request is sent; the management is relatively convenient; disadvantages: maintaining a long connection by the server increases overhead; the method is suitable for Gmail chat and the like;

flash Socket: a Flash program using Socket class is embedded in the page, javaScript communicates with a Socket interface of a server side by calling the Socket interface provided by the Flash program, and the JavaScript controls the display advantage of the page after receiving information transmitted by the server side: realizing real instant messaging instead of pseudo instant shortcoming: the client must install a Flash plug-in; the non-HTTP protocol can not automatically pass through the firewall, and is suitable for network interactive games;

Websocket: the network technology for full duplex communication between the browser and the server is provided by the HTML 5; the long connection between the client and the server can be realized by means of the technology, and the two-way real-time communication can be realized; the advantages are that: event driven; asynchronous; client Socket using WS or WSs protocol; the pushing function in the true sense can be realized; disadvantages: a small portion of the browsers are not supported, and the degree and manner of support are different for different browsers.

In this embodiment, a message push protocol corresponding to a push task is determined based on a transmission mode, which is: message push protocols corresponding to push tasks determined based on a preset transmission mode-message push protocol list, for example: the transmission mode is the HTTP protocol used in the polling, long connection, flash Socket and Websocket, and the MQTT protocol used in the M2M transmission mode.

The beneficial effects of the technology are as follows: and determining a message pushing protocol of a corresponding pushing task according to a corresponding transmission mode, thereby providing an important basis for realizing accurate pushing of the RCS-5G rich media message to a corresponding target pushing user.

Example 10:

on the basis of embodiment 1, the record generating end includes:

The file generation module is used for generating a block storage file at a corresponding moment from the push record data;

and the file binding module is used for binding the block storage file and the time stamp in real time to obtain the push management block chain record file of the enterprise terminal.

In this embodiment, the block storage file is a block file for storing data of push record data, and the time stamp of each block storage file must be later than the time stamp of the previous block storage file; the two block storage files are set by the variable second block in the system configuration file protocol.

In this embodiment, the time stamp is the time series verification data that can verify that the block storage file already exists and is complete at each specific time point.

The beneficial effects of the technology are as follows: the block storage file generated by pushing the record data is bound with the time stamp, so that the block chain storage structure attribute record message pushing management process based on the block chain is realized, and the risk of losing or falsifying the record in the pushing management process is overcome.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (7)

1. A blockchain-based RCS-5G rich media message push management system, comprising:

the script generation end is used for generating a message pushing script of the enterprise end based on the total user information in the user pool and the real-time pushing requirement of the enterprise end;

the task deployment end is used for carrying out task deployment on the multiport forwarders based on the message pushing script to obtain deployment tasks of each multiport forwarder;

the dynamic dividing end is used for carrying out time stamp division on the dynamic push network corresponding to the deployment task of the multiport repeater to obtain a static push network at each moment;

the pushing execution end is used for pushing the message to the corresponding user based on the static pushing network, and meanwhile, the pushing record data is obtained in the recording pushing process;

the record generation end is used for generating a push management blockchain record file in real time based on push record data;

the task deployment end comprises:

the script transmission module is used for transmitting the message pushing script to the corresponding MaaP platform based on the API port of the enterprise terminal;

the task deployment module is used for performing task deployment on the multi-port transponders based on all message push scripts received by the MaaP platform in a preset period to obtain deployment tasks of each multi-port transponder;

The task deployment module comprises:

the time sequence alignment unit is used for acquiring push task execution chains of all the message push scripts received by the MaaP platform in a preset period, and performing time sequence alignment on the push task execution chains of all the message push scripts based on the total continuous execution time period in the push task execution chains to acquire an alignment chain;

the curve generation unit is used for calculating the real-time transmission quantity of the corresponding pushing task based on the terminal information set and the pushing content of each pushing task in the message pushing script, and generating a real-time transmission quantity curve of the pushing task execution chain based on the real-time transmission quantity of each pushing task;

the user determining unit is used for determining a simultaneous execution task set at each moment based on the alignment chain and determining a simultaneous pushing user set based on the simultaneous execution task set;

an address clustering unit, configured to determine a first network address of a receiving terminal of each simultaneous push user in the simultaneous push user set and second network addresses of all multi-port transponders, and cluster the first network addresses based on a first transmission distance between the first network address and the second network address, so as to obtain a clustering result;

The transmission quantity calculation unit is used for determining a pushing user distribution set of each multi-port transponder at the corresponding moment based on the clustering result, and calculating the real-time comprehensive transmission quantity of the corresponding multi-port transponder at the corresponding moment based on a real-time transmission quantity curve of a pushing task execution chain to which each pushed user belongs in the pushing user distribution set;

an allocation judging unit for judging whether a first multi-port repeater with real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port repeater exists;

the system comprises a reassignment unit, a real-time pushing task set and a real-time pushing task set, wherein the reassignment unit is used for reassigning the first multi-port transponder based on the real-time comprehensive transmission quantity and the maximum bearing throughput of the first multi-port transponder when the first multi-port transponder with the real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port transponder exists;

the task allocation unit is used for determining a real-time push task set of each multi-port transponder at a corresponding moment based on a push user allocation set of each multi-port transponder when no first multi-port transponder with the real-time comprehensive transmission quantity exceeding the maximum bearing throughput of the corresponding multi-port transponder exists;

The task determining unit is used for binding the real-time pushing task set and the time stamp, generating a sub pushing task execution chain corresponding to the multiport transponder, and taking the sub pushing task execution chain as a deployment task corresponding to the multiport transponder;

wherein, the dynamic partitioning end includes:

the task tree building module is used for building a task execution tree based on the deployment task of the multiport repeater;

the dynamic generation module is used for taking a target push user in a target push user set of each push task in the task execution tree as a network node, taking a corresponding multiport repeater as a network center node, taking a transmission path between the target push user and the multiport repeater as a network path, building a distributed message push network corresponding to the push task based on the network node and the network center node of the corresponding push task in the task execution tree and the network path, and sequencing the distributed message push network based on the execution sequence of the push task in the task execution tree to generate a dynamic push network corresponding to the multiport repeater;

the dynamic dividing module is used for carrying out time sequence division on the dynamic pushing network to obtain a static pushing network at each moment.

2. The blockchain-based RCS-5G rich media message push management system of claim 1, wherein the script generating side comprises:

the target determining module is used for generating a pushing task execution chain based on real-time pushing requirements of the enterprise end, and determining a target pushing user set of each pushing task in the pushing task execution chain in the user pool;

the terminal determining module is used for determining the receiving terminal information of each target pushing user in the target pushing user set based on the total user information, summarizing the pushing terminal information and obtaining a terminal information set corresponding to the pushing task;

the script generation module is used for generating a message pushing script of the enterprise terminal based on the terminal information set and the pushing task execution chain.

3. The blockchain-based RCS-5G rich media message push management system of claim 1, wherein the reassignment unit comprises:

an excess determination subunit, configured to determine, when there is a first multiport repeater whose real-time integrated transmission amount exceeds a maximum bearing throughput of a corresponding multiport repeater, a corresponding excess bearing amount based on the real-time integrated transmission amount and the maximum bearing throughput of the first multiport repeater;

A priority ordering subunit, configured to prioritize the pushed users in the push user allocation set based on a second transmission distance between a first network address of each pushed user in the push user allocation set of the first multiport repeater and a second network address corresponding to the first multiport repeater, so as to obtain a first priority list;

a sequence determining subunit, configured to determine a reassigned user sequence in the corresponding pushing user assignment set based on the real-time transmission amount of the pushing task at the corresponding time of each pushed user and the first priority list;

a remaining calculating subunit, configured to calculate a remaining bearable throughput of the corresponding multiport repeater based on the maximum bearable throughput and the real-time comprehensive transmission amount of the multiport repeater remaining except the first multiport repeater;

a first screening subunit, configured to sequentially screen, based on the real-time transmission amount and the remaining bearable throughput of the push task of each reassigned user at a corresponding time in the reassigned user sequence, a bearable multiport repeater set corresponding to the reassigned user from among the remaining multiport repeaters other than the first multiport repeater;

A final deployment subunit, configured to determine a third transmission distance between the first network address of the reassigned user and the second network address of each bearable multiport repeater in the corresponding bearable multiport repeater set, and use the bearable multiport repeater corresponding to the minimum third transmission distance as a final deployment multiport repeater of the corresponding reassigned user;

and the task determination subunit is used for obtaining a reassignment result based on the final deployment multiport transponder of all reassignment users, and determining a real-time push task set of each multiport transponder at a corresponding moment based on the reassignment result.

4. The blockchain-based RCS-5G rich media message push management system of claim 1, wherein the push execution side comprises:

the protocol determining module is used for determining a message pushing protocol based on the static pushing network;

and the pushing execution module is used for pushing the message to the corresponding user based on the message pushing protocol, and meanwhile, the pushing record data is obtained in the record pushing process.

5. The blockchain-based RCS-5G rich media message push management system of claim 4, wherein the protocol determination module comprises:

The task determining unit is used for determining a pushing task set at a corresponding moment based on the task execution tree;

the protocol determining unit is used for determining a message pushing protocol corresponding to the pushing task based on a target pushing user set of the pushing task in the pushing task set.

6. The RCS-5G rich media message push management system of claim 5, wherein the protocol determination unit comprises:

the mode determining subunit is used for determining the transmission mode of the target pushing user set;

and the protocol determination subunit is used for determining the message pushing protocol corresponding to the pushing task based on the transmission mode.

7. The blockchain-based RCS-5G rich media message push management system of claim 1, wherein the record generating side comprises:

the file generation module is used for generating a block storage file at a corresponding moment from the push record data;

and the file binding module is used for binding the block storage file and the time stamp in real time to obtain the push management block chain record file of the enterprise terminal.