CN110636120B

CN110636120B - Distributed resource coordination system and method based on service request

Info

Publication number: CN110636120B
Application number: CN201910848785.0A
Authority: CN
Inventors: 沈伟; 覃士蘅; 陈旭
Original assignee: China Asean Information Harbor Co ltd; Guangxi Dongxin Yilian Technology Co ltd
Current assignee: CHINA-ASEAN INFORMATION HARBOR Co.,Ltd.; Guangxi Dongxin Yilian Technology Co.,Ltd.
Priority date: 2019-09-09
Filing date: 2019-09-09
Publication date: 2022-02-08
Anticipated expiration: 2039-09-09
Also published as: CN110636120A

Abstract

The invention discloses a distributed resource coordination system based on a service request and a method thereof, and on one hand, the invention provides a distributed resource coordination system based on the service request, which comprises a terminal, an eSIM service cloud in signal connection with the terminal and a plurality of nodes arranged in the eSIM service cloud, wherein the nodes comprise an eSIM service platform and a distributed resource coordination system arranged in the eSIM service platform, the distributed resource coordination system is provided with distributed resource coordination system access points, the distributed resource coordination system access points are in signal connection, any one of the distributed resource coordination system access points is used as a main access point connected with the terminal for receiving service request information, and the other distributed resource coordination system access points are used as slave access points. In another aspect, the present invention provides a distributed resource coordination method based on service requests. The invention can effectively search and coordinate the resources required by the service request and synchronize the resource information of each node in real time.

Description

Distributed resource coordination system and method based on service request

Technical Field

The invention belongs to the field of resource scheduling, and particularly relates to a distributed resource coordination system based on a service request and a distributed resource coordination method based on the service request.

Background

An eSIM card, i.e., Embedded-SIM, Embedded SIM card. The eSIM card concept is to embed a conventional SIM card directly onto the device chip rather than adding it as a separate removable component to the device, without the user having to insert a physical SIM card. The existing distributed coordination system for the eSIM resources is mainly used for scheduling and coordinating distributed tasks, and emphasizes on researching how to cooperatively work and allocate resources among a plurality of subtasks. However, in a distributed environment with a plurality of resource nodes, the existing distributed coordination system cannot search and coordinate the resources required by the service request according to the service request, and synchronize the resource information of each node in real time.

Disclosure of Invention

The invention aims to provide a distributed resource coordination system based on a service request, which can effectively search and coordinate resources required by the service request, synchronize resource information of each node in real time and improve the working efficiency.

The second purpose of the invention is to provide a control method of the system.

In order to achieve the first purpose, the invention provides a distributed resource coordination system based on service request, which comprises a terminal for inputting service request information, an eSIM service cloud signal-connected to the terminal and a number of nodes provided in the eSIM service cloud, the node comprises an eSIM service platform for storing and managing card data provided by different operators, a distributed resource coordination system arranged in the eSIM service platform and used for completing the scheduling and usage allocation of card data resources, the distributed resource coordination system is provided with distributed resource coordination system access points used for signal connection among nodes, the distributed resource coordination system access points are in signal connection, any one of the distributed resource coordination system access points serves as a main access point connected with a terminal and used for receiving service request information, and other distributed resource coordination system access points serve as slave access points.

Preferably, the access point of the distributed resource coordination system includes a resource information acquisition module for performing timing refresh on the card data resource information of the node, an instance data synchronization module connected with the resource information acquisition module for synchronizing the card data resource information between nodes, and a service processing module connected with the instance data synchronization module for connecting with a terminal to receive service request information and processing the card data resource information of each node, and the instance data synchronization modules of each node are connected by signals to form a distributed resource coordination network.

Preferably, the service processing module includes an inter-node network overhead calculating module for calculating network delay between the node and other nodes and performing communication speed sorting, a node resource quantity sorting module for sorting the card data resources of each node according to the resources required by the terminal, a node priority sorting module for sorting the use priorities of the card data resources of each node, and a comprehensive weighting calculating module for calculating the result of the inter-node network overhead calculating module, the structure of the node resource quantity sorting module, and the result of the node priority sorting module to obtain the node meeting the requirement, the inter-node network overhead calculating module, the node resource quantity sorting module, and the node priority sorting module are respectively in signal connection with the comprehensive weighting calculating module, and the comprehensive weighting calculating module is in signal connection with the network forwarding module, and the network forwarding modules of the service processing modules are in signal connection with each other and are in signal connection with the terminal.

In order to achieve the second purpose, the invention provides a distributed resource coordination method based on service request, which comprises the following processing steps:

step 1: after the master access point summarizes the card data resource information sent by the slave access points, the card data resource information of each node is sent to each slave access point to realize the synchronization of the card data resource information among the nodes;

step 2: the main access point receives service request information of a terminal, obtains the type and quantity information of required card resources, screens out nodes meeting requirements, and then obtains target nodes meeting the requirements by setting service rules;

and step 3: the main access point sends the request signal to the target node, the target node returns the response to the terminal after the card resource is consumed, and updates the data and sends the data to the main access point to synchronize the card data resource information.

Preferably, when the master access point and the slave access points exceeding the set number cannot be connected in a communication mode, each slave access point marks the master access point as an unavailable state, and then selects one of the slave access points as a preselected master access point until the preselected master access point and the slave access points exceeding the set number can be connected in a communication mode, and then the preselected master access point is determined to be a new master access point.

Preferably, the main access point obtains a target node meeting the requirements through a service processing module according to a set service rule.

Preferably, the service processing module calculates network delay between the master access point and the slave access point through the inter-node network overhead calculation module and performs communication speed sequencing to obtain a communication speed sequencing result, the node resource quantity sequencing module sequences the card data resources of the nodes meeting the requirements according to the resource quantity information required by the terminal to obtain a quantity sequencing result, and the node priority sequencing module sequences the use priority of the card data resources of the nodes meeting the requirements to obtain a priority result; and then, calculating the communication speed sequencing result, the quantity sequencing result and the priority result through a set weighting calculation formula by using a comprehensive weighting calculation module to obtain a target node.

Preferably, the priority ranking rule of the node priority ranking module is that the priority of a node with good performance is higher than that of a node with poor performance, the determination criterion of the node with good performance is the active connection number index of the node, and the higher the active connection number index is, the better the performance is.

Preferably, the active connection number index of a certain node is the active connection number of the node when the node priority ranking module ranks, wherein the active connection number calculation process is that the node starts to process the service request, the active connection number is increased by 1, and the active connection number is decreased by 1 after the processing is finished.

Preferably, the weighting calculation formula of the comprehensive weighting calculation module is:

wherein, ACN is the active connection number of the current node; RTT is the network round-trip delay between the current node and the node where the main access point is located; r_NThe number of the required card data resources on the current node; rs is the total number of the required card data resources in all nodes; wi is the priority weight of the current node; wj is the network overhead weight between nodes of the current node; wk is the weight of the number of the required card resources of the current node; ws is the integrated weight of the current node.

Compared with the prior art, the invention has the beneficial effects that:

in the invention, the distributed resource coordination system access points are arranged in each node and form a master-slave relationship, so that data synchronization, connection and processing are rapid, resources required by a service request can be effectively searched and coordinated, the resource information of each node is synchronized in real time, and the working efficiency is improved. In the invention, the service processing module can effectively select the node with the optimal processing, thereby effectively improving the processing speed and quality. According to the invention, through the connection test of the main access point and the slave access point, the stable work of the used main access point can be effectively ensured, the work can be effectively ensured, and the quality of work selection is improved.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a block diagram of an access point architecture of a distributed resource coordination system according to the present invention;

FIG. 3 is a block diagram of a service processing module according to the present invention;

FIG. 4 is a control flow diagram of the present invention.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

As shown in fig. 1 to 4, the present invention provides a distributed resource coordination system based on service request, comprising a terminal 200 for service request information input, the system comprises an eSIM service cloud 100 in signal connection with a terminal 200 and a plurality of nodes 1 arranged in the eSIM service cloud 100, wherein each node 1 comprises an eSIM service platform 11 for storing and managing card data provided by different operators and a distributed resource coordination system 12 arranged in the eSIM service platform 11 and used for completing scheduling and use allocation of card data resources, the distributed resource coordination system 12 is provided with distributed resource coordination system access points 13 used for signal connection among the nodes 1, the distributed resource coordination system access points 13 are in signal connection, any one of the distributed resource coordination system access points 13 serves as a master access point connected with the terminal 200 and used for receiving service request information, and the other distributed resource coordination system access points 13 serve as slave access points.

The access point 13 of the distributed resource coordination system includes a resource information acquisition module 131 for performing timing refresh on the card data resource information of the node 1, an instance data synchronization module 132 connected with the resource information acquisition module 131 for synchronizing the card data resource information between the nodes 1, and a service processing module 133 connected with the instance data synchronization module 132 for connecting with the terminal 200 to receive service request information and processing the card data resource data of each node 1, where the instance data synchronization modules 132 of each node 1 are connected by signals to form a distributed resource coordination network, so that the whole card data resource information in the eSIM service cloud 100 is synchronized in all the nodes 1.

The service processing module 133 includes an inter-node network overhead calculating module 1331 for calculating network delay between the node 1 and other nodes 1 and performing communication speed sorting, a node resource quantity sorting module 1332 for sorting card data resources of each node 1 according to resources required by the terminal 200, a node priority sorting module 1333 for sorting usage priorities of the card data resources of each node 1, and a comprehensive weighting calculating module 1334 for calculating results of the inter-node network overhead calculating module 1331, structures of the node resource quantity sorting module 1332, and results of the node priority sorting module 1333 to obtain a node 1 meeting requirements, the inter-node network overhead calculating module 1331, the node resource quantity sorting module 1332, and the node priority sorting module 1333 are respectively in signal connection with the comprehensive weighting calculating module 1334, the comprehensive weighting calculating module 1334 is in signal connection with the network forwarding module 1335, the network forwarding modules 1335 of the respective service processing modules 133 are signal-connected to each other and to the terminal 200.

In this embodiment, each node 1 stores and manages different card data resources, for example, one node 1 stores card data resources of three operators, and another node may store card data resources of two operators. The terminal 200 may be a computer or a mobile phone.

The invention also provides a distributed resource coordination method based on the service request, which comprises the following processing steps:

step 1: after the master access point summarizes the card data resource information sent by the slave access points, the card data resource information of each node 1 is sent to each slave access point to realize the synchronization of the card data resource information among the nodes 1;

step 2: the main access point receives the service request information of the terminal 200, obtains the type and quantity information of the required card resources, screens out the nodes 1 meeting the requirements, and then obtains the target nodes meeting the requirements by setting the service rules;

and step 3: the master access point sends the request signal to the target node, the target node returns a response to the terminal 200 after consuming the card resource, and updates the data and sends the data to the master access point for card data resource information synchronization.

When the master access point and the slave access points exceeding the set number cannot be in communication connection, each slave access point marks the master access point as an unavailable state, and then one of the slave access points is selected as a pre-selected master access point until the pre-selected master access point and the slave access points exceeding the set number can be in communication connection, and the pre-selected master access point is determined to be a new master access point. In this embodiment, the master access point marks the master access point unavailable state when more than one-half of the slave access points cannot access the master node.

The main access point obtains a target node meeting the requirements according to the set service rule through the service processing module 133.

The service processing module 133 calculates the network delay between the master access point and the slave access point through the inter-node network overhead calculation module 1331 and performs communication speed sorting to obtain a communication speed sorting result, sorts the card data resources of the node 1 meeting the requirement according to the resource quantity information required by the terminal 200 through the node resource quantity sorting module 1332 to obtain a quantity sorting result, and sorts the use priority of the card data resources of the node 1 meeting the requirement through the node priority sorting module 1333 to obtain a priority result; then, the communication speed ranking result, the quantity ranking result and the priority result are calculated by a set weighting calculation formula through the comprehensive weighting calculation module 1334 to obtain the target node, so that the access is fast.

The priority ranking rule of the node priority ranking module 1333 is that the node 1 with good performance has higher priority than the node 1 with poor performance, the determination standard of the node 1 with good performance is the active connection number index of the node 1, and the higher the active connection number index is, the better the performance is. The active connection number index of a certain node 1 is the active connection number of the node 1 when the node priority ranking module 1333 ranks, wherein the active connection number calculation process is that the node 1 starts to process the service request, the active connection number is increased by 1, and the active connection number is decreased by 1 after the processing is finished. The active connection number is acquired by the resource information acquisition module 131 of the distributed resource coordination system access point 13 of each node 1 and is synchronized among the nodes 1 through the instance data synchronization module 132.

The weighting calculation formula of the integrated weighting calculation module 1334 is:

wherein, ACN is the active connection number of the current node; RTT is the network round-trip delay between the current node and the node where the main access point is located; r_NThe number of the required card data resources on the current node; rs is the total number of the required card data resources in all nodes; wi is the priority weight of the current node; wj is the network overhead weight between nodes of the current node; wk is the weight of the number of the required card resources of the current node; ws is the integrated weight of the current node. Network round-trip delayIn milliseconds. The node 1 with the largest comprehensive weight is a target node, and the lower the number of active connections, the lower the network round-trip delay and the more card data resources are needed, the higher the comprehensive weight calculation result is.

In this embodiment, during operation, the terminal 200 inputs the service request information, and the master access point receives the service request information of the terminal 200, obtains the type and quantity information of the required card resource, thereby screening out the node 1 meeting the requirement, and then obtains the target node meeting the requirement through processing by the service processing module 133; the master access point sends the request signal to the target node, so that access is fast, the target node responds to and returns to the terminal 200 after consuming the card resources, data is updated and sent to the master access point to synchronize the card data resource information, and the master access point sends the card data resource information of each node 1 to each slave access point to realize synchronization of the card data resource information among the nodes 1 after summarizing the card data resource information sent by the slave access points in real time.

The foregoing is merely a preferred embodiment of the invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not intended to be exhaustive or to limit the invention to other embodiments, and to various other combinations, modifications, and environments and may be modified within the scope of the inventive concept as expressed herein, by the teachings or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A distributed resource coordination system based on service request comprises a terminal (200) used for inputting service request information, an eSIM service cloud (100) in signal connection with the terminal (200) and a plurality of nodes (1) arranged in the eSIM service cloud (100), and is characterized in that the nodes (1) comprise eSIM service platforms (11) used for storing and managing card data provided by different operators, a distributed resource coordination system (12) arranged in the eSIM service platforms (11) and used for scheduling and distributing card data resources, the distributed resource coordination system (12) is provided with distributed resource coordination system access points (13) used for signal connection among the nodes (1), the distributed resource coordination system access points (13) are in signal connection among the distributed resource coordination system access points (13), any one of the distributed resource coordination system access points (13) is used as a main access point connected with the terminal (200) and used for receiving service request information, and other distributed resource coordination system access points (13) are used as other sub-access points The distributed resource coordination system access point (13) acts as a slave access point.

2. The distributed resource coordination system based on the service request according to claim 1, wherein the access point (13) of the distributed resource coordination system comprises a resource information collection module (131) for performing timing refresh on the card data resource information of the node (1), an instance data synchronization module (132) connected with the resource information collection module (131) for synchronizing the card data resource information between the nodes (1), and a service processing module (133) connected with the instance data synchronization module (132) for connecting with the terminal (200) to receive the service request information and process the card data resource information of each node (1), and the instance data synchronization modules (132) of each node (1) are connected by signals to form a distributed resource coordination network.

3. The distributed resource coordination system based on service request as claimed in claim 2, wherein said service processing module (133) includes an inter-node network overhead calculation module (1331) for calculating network delay between the node (1) and other nodes (1) and performing communication speed ranking, a node resource quantity ranking module (1332) for ranking the card data resources of each node (1) according to the resources required by the terminal (200), a node priority ranking module (1333) for ranking the use priority of the card data resources of each node (1), and a comprehensive weighting calculation module (1334) for calculating the result of the inter-node network overhead calculation module (1), the structure of the node resource quantity ranking module (1332) and the result of the node priority ranking module (1333) to obtain the node (1) meeting the requirement, the inter-node network overhead calculation module (1331), the node resource quantity sorting module (1332) and the node priority sorting module (1333) are respectively in signal connection with the comprehensive weighting calculation module (1334), the comprehensive weighting calculation module (1334) is in signal connection with the network forwarding module (1335), and the network forwarding modules (1335) of the service processing modules (133) are in signal connection with each other and are in signal connection with the terminal (200).

4. A method for service request based distributed resource coordination according to the system of any of claims 1-3, characterized in that the method comprises the following processing steps:

step 1: after the master access point collects the card data resource information sent by the slave access points, the card data resource information of each node (1) is sent to each slave access point to realize the synchronization of the card data resource information among the nodes (1);

step 2: the main access point receives service request information of a terminal (200), obtains the type and quantity information of required card resources, screens out nodes (1) meeting requirements, and then obtains target nodes meeting the requirements by setting service rules;

and step 3: the main access point sends the request signal to the target node, the target node returns the response to the terminal (200) after the card resource is consumed, and updates the data and sends the data to the main access point to synchronize the card data resource information.

5. The method as claimed in claim 4, wherein when the master access point and more than a set number of slave access points are unable to perform communication connection, each slave access point marks the master access point as unavailable, and then selects one of the slave access points as the pre-selected master access point, and determines the pre-selected master access point as the new master access point until the pre-selected master access point and more than the set number of slave access points can perform communication connection.

6. The method of claim 4, wherein the master access point obtains the target node meeting the requirement according to the set service rule through a service processing module (133).

7. The distributed resource coordination method based on service request according to claim 6, wherein said service processing module (133) calculates network delay between the master access point and the slave access point through the inter-node network overhead calculation module (1331) and performs communication speed sorting to obtain a communication speed sorting result, sorts the card data resources of the node (1) that satisfy the requirement according to the resource quantity information required by the terminal (200) through the node resource quantity sorting module (1332) to obtain a quantity sorting result, and sorts the usage priority of the card data resources of the node (1) that satisfy the requirement through the node priority sorting module (1333) to obtain a priority result; then, calculating the communication speed sequencing result, the quantity sequencing result and the priority result through a set weighting calculation formula by a comprehensive weighting calculation module (1334) to obtain a target node, wherein the weighting calculation formula of the comprehensive weighting calculation module (1334) is as follows:

wherein, ACN is the active connection number of the current node; RTT is the network round-trip delay between the current node and the node where the main access point is located; r_NThe number of the required card data resources on the current node; rs is the total number of the required card data resources in all nodes; w_iThe node priority weight of the current node; w_jThe current node is the current node; w_kThe weight of the required card resource quantity of the current node is obtained; w_sIs the integrated weight of the current node.

8. The distributed resource coordination method based on service request according to claim 7, wherein the priority ranking rule of the node priority ranking module (1333) is that a node (1) with good performance has higher priority than a node (1) with poor performance, the determination criterion of the node (1) with good performance is the active connection number index of the node (1), and the higher the active connection number index is, the better the performance is.

9. The method according to claim 8, wherein the index of the number of active connections of a node (1) is the number of active connections of the node (1) when the node priority ranking module (1333) ranks the node, and the calculation process of the number of active connections is that the number of active connections of the node (1) is increased by 1 when the node (1) starts to process the service request, and the number of active connections is decreased by 1 when the processing is completed.