CN111626531B - Risk control method, apparatus, system and storage medium - Google Patents

Abstract

The embodiment of the application provides a risk control method, equipment, a system and a storage medium, wherein the system comprises a first node, a second node and a risk control node respectively connected with the first node and the second node, and the method comprises the following steps: the method comprises the steps that a first node collects progress information of a current task; the risk control node receives the progress information sent by the first node and determines whether the task has a risk of overtime progress according to the progress information; and when the task has the risk of exceeding the progress, the risk control node sends the standby plan of the task to the second node so that the second node presents the standby plan to an administrator of the task. The embodiment of the application can control the task process, ensure the smooth execution of the task and avoid the overtime of the task.

Description

Risk control method, apparatus, system and storage medium

Technical Field

The embodiment of the application relates to the technical field of artificial intelligence, in particular to a risk control method, equipment, a system and a storage medium.

Background

Scenic spots are typically densely populated, involving a large number of activities, and are widely available. To attract tourists, scenic spots are often planned, held for a variety of activities, such as evening performances, windmill knots, good sound games, game knots, fluorescent night runs, etc. However, when the scenic spot is used for carrying out the activity, a lot of uncontrollable properties exist, such as equipment faults, operation and maintenance security personnel do not arrive at the right place on time, and for a series of uncontrollable problems occurring in the process of carrying out the activity, scenic spot management personnel cannot take corresponding measures to carry out the treatment, and cannot comprehensively and timely master the running state of the activity, so that the smooth carrying out of the scenic spot activity is seriously affected. Therefore, how to timely control the activity development state and avoid the risk are the problems to be solved in the current activity preparation process.

Disclosure of Invention

The embodiment of the application provides a risk control method, equipment, a system and a storage medium, which are used for realizing control of a task process and ensuring smooth execution of a task.

A first aspect of an embodiment of the present application provides a risk control method, which is applicable to a risk control system, where the system includes: a first node, a second node, and a risk control node connected to the first node and the second node, respectively, the method comprising:

the first node acquires progress information of a current task; the risk control node receives the progress information sent by the first node and determines whether the task has a risk of overtime progress according to the progress information; and when the task has the risk of exceeding the progress, the risk control node sends the standby plan of the task to the second node so that the second node presents the standby plan to an administrator of the task.

In one embodiment, the risk control node sends a standby plan for a task to the second node, comprising:

and the risk control node extracts a preset template from a database, writes the standby solution of the task into the preset template according to the format of the preset template to generate a standby plan, and sends the standby plan to the second node.

In one embodiment, the task includes a plurality of links, the system includes a plurality of the first nodes, and progress information of each of the links of the task is collected by at least one of the first nodes.

And determining whether the task has a risk of overtime progress according to the progress information, wherein the method comprises the following steps:

and determining whether links with the progress exceeding risk are included in the task according to a plurality of pieces of progress information acquired by a plurality of first nodes, and if so, determining that the task has the progress exceeding risk.

In one embodiment, the system includes a plurality of second nodes, each of the second nodes corresponding to a link of the task.

The risk control node sending a standby plan of a task to the second node to cause the second node to present the standby plan to an administrator of the task, comprising:

and sending the standby plan of the link with the progress exceeding risk to a second node corresponding to the link, so that the second node presents the standby plan to an administrator of the task.

In one embodiment, the sending the standby plan of the link with the progress exceeding risk to the second node corresponding to the link includes:

determining the task execution time remaining by the link with the progress exceeding risk from the preset task period; and selecting a standby plan which can be completed within the execution time of the residual task from all standby plans corresponding to links with the progress exceeding risk, and sending the standby plan to a second node corresponding to the links.

In one embodiment, the sending the standby plan of the link with the progress exceeding risk to the second node corresponding to the link includes:

the risk control node determines other links which have relevance to the links with the out-of-date risk in task execution according to the association relation among links in the locally stored task; searching a target standby plan from a local database according to the task deadlines of the other links so as to enable the tasks of the other links to be executed as expected through the target standby plan; and sending the target standby plan to a second node corresponding to the link with the out-of-date risk.

A second aspect of an embodiment of the present application provides a risk control system, including: the system comprises a first node, a second node and a risk control node respectively connected with the first node and the second node, wherein the first node is used for collecting progress information of a current task, and the risk control node comprises:

and the determining module is used for receiving the progress information sent by the first node and determining whether the task has a risk of overtime progress according to the progress information.

And the sending module is used for sending the standby plan of the task to the second node when the task has the risk of exceeding the progress, so that the second node presents the standby plan to an administrator of the task.

In one embodiment, the transmitting module includes:

and the generation sub-module is used for extracting a preset template from the database, and filling the standby solution of the task into the preset template according to the format of the preset template to generate a standby plan.

And the sending submodule is used for sending the standby plan to the second node.

In one embodiment, the task includes a plurality of links, the system includes a plurality of the first nodes, and progress information of each of the links of the task is collected by at least one of the first nodes; the determining module includes:

the first determining submodule is used for determining whether links with the progress exceeding risk are included in the task according to a plurality of pieces of progress information acquired by a plurality of first nodes, wherein if the links with the progress exceeding risk exist, the risk that the progress exceeding occurs in the task is determined.

In one embodiment, the system includes a plurality of second nodes, each of the second nodes corresponding to a link of the task.

And the sending module is used for sending the standby plan of the link with the progress exceeding risk to a second node corresponding to the link, so that the second node presents the standby plan to an administrator of the task.

In one embodiment, the transmitting module includes:

the first processing sub-module is used for determining the task execution time remaining by the link with the progress exceeding risk from the preset task deadline; and selecting a standby plan which can be completed within the execution time of the residual task from all standby plans corresponding to links with the progress exceeding risk, and sending the standby plan to a second node corresponding to the links.

In one embodiment, the transmitting module includes:

the second processing sub-module is used for determining other links which have relevance with the links with the out-of-date risk in task execution according to the relevance relation among links in the locally stored tasks; searching a target standby plan from a local database according to the task deadlines of the other links so as to enable the tasks of the other links to be executed as expected through the target standby plan; and sending the target standby plan to a second node corresponding to the link with the out-of-date risk.

A third aspect of an embodiment of the present application provides a risk control node, including:

a processor;

a memory for storing executable instructions of the processor;

the method of the first aspect described above may be performed when the processor executes the executable instructions.

A fourth aspect of an embodiment of the present application provides a computer readable storage medium comprising instructions which, when run on the computer, can perform the method of the first aspect described above.

In the embodiment of the application, the first node is set to acquire the progress information of the current task, the risk control node is set to receive the progress information sent by the first node, whether the task has the risk of exceeding the progress or not is determined according to the progress information, and if so, the standby plan of the task is sent to the second node, so that the second node presents the standby plan to an administrator of the task. According to the embodiment of the application, the first acquisition node is used for acquiring the progress information of the task, the task progress can be controlled, the risk control node is used for analyzing the progress information of the task, the out-of-date risk of the task can be timely found, and the available standby plan can be timely provided when the risk is found, so that an administrator can timely know the risk and execute the standby plan to avoid the out-of-date task, the task can be timely carried out, and the risk management and control capability is improved.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a flow chart of a risk control method provided by an embodiment of the present application;

FIG. 2 is a flow chart of a liability backtracking process provided by an embodiment of the present application;

FIG. 3 is a schematic diagram of a risk control system according to an embodiment of the present application;

FIG. 4 is a flowchart of a risk control method according to an embodiment of the present application;

FIG. 5 is a schematic diagram of a risk control system according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a risk control system according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a risk control system according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The terms "comprises" and "comprising" and any variations thereof, in the description and claims, are intended to cover a non-exclusive inclusion, such that a device that comprises a sequence of steps or structures is not necessarily limited to those structures or steps that are expressly listed or inherent to such process or device but may include other steps or structures not expressly listed or inherent to such process or device.

At present, large-scale activities such as evening performance, inspection ceremony, music evening performance and the like are carried out by manual monitoring and management, but time and capacity of people are limited, management staff cannot normally control progress conditions of all links in real time, even can not find out overtime risks existing in all links, and once the overtime conditions of the tasks occur in a certain link or a plurality of links, the whole task progress can be influenced.

Aiming at the problems, the embodiment of the application provides a risk control scheme, which monitors each link in the task process by arranging a risk control system and provides a standby plan in time when an out-of-date risk occurs in a certain link so as to ensure the on-schedule performance of the task and overcome the defect of manual monitoring management.

The technical solutions of the embodiments of the present application are described in detail below with reference to specific examples.

Fig. 1 is a flowchart of a risk control method provided in an embodiment of the present application, where the method is applicable to a risk control system, and the system at least includes a first node, a second node, and risk control nodes respectively connected to the first node and the second node, where the first node is used to collect progress information of a task, and in this embodiment, the "task" may be exemplarily understood as a large-scale activity with many links, such as a evening performance, a curtain opening, and a wide range. The method comprises the following steps:

step 101, a first node collects progress information of a current task.

The "task" referred to in this embodiment may include D ₁ 、D ₂ 、D ₃ 、D ₄ ……D _N N links, each link may include K ₁ 、K ₂ 、K ₃ ……K _M Sub-links, e.g. for carrying out a evening event, substantially comprising D ₁ Creative, D ₂ Demonstration of D ₃ Propaganda, D ₄ Opening a screen … … D _N Executing N links, wherein propaganda link D ₃ May include K ₁ Propaganda document, K ₂ Propaganda film, K ₃ Propaganda channel … … K _M A plurality of sub links such as propaganda cost and the like, a curtain opening link D ₄ May contain K ₁ Moderator, K ₂ Leading, K ₃ Media reporter … … K _M Executing link D in several sub-links such as color cutting _N May contain K ₁ Cloth yard, K ₂ Apparatus, K ₃ Security, K ₄ Performers … … K _M Viewers, etc.

The first node in this embodiment is configured to collect progress information of a task. Specifically, the number of the first nodes may be one or more, when the number of the first nodes is one, the first nodes may be used to collect progress information of each link or each sub-link in the current task, and when the number of the first nodes is more than one, different first nodes may be used to collect progress information of different links or sub-links.

In one implementation, the first node in this embodiment may be specifically a terminal device provided with a man-machine interaction interface. When a task of a certain link or sub-link of the task is completed, an operator inputs indication information for indicating that the task of the link or sub-link is completed through a human-computer interaction interface, and the first node sends the progress of the link or sub-link to the risk control node after receiving the indication information. Or when a certain link or sub-link is supposed to be completed before a preset certain time node, but the first node does not acquire the indication information for indicating that the link or sub-link is completed before the time node, the first node sends progress information for indicating that the link or sub-link does not complete tasks on time to the risk control node.

Of course, the first node in the present application is not limited to the above terminal device, but may be any other device, such as a camera, a fingerprint sensor, etc., and the manner of collecting task progress information is similar to that of the above terminal device, which is not described herein again.

Step 102, the risk control node receives the progress information sent by the first node, and determines whether the task has a risk of overtime progress according to the progress information.

Specifically, after receiving the progress information sent by the first node, the risk control node firstly analyzes the content of the progress information, when the received certain progress information is used for indicating that a task of a certain link or sub-link H is completed, the risk control node compares the time of receiving the progress information with a time threshold corresponding to the link or sub-link H, if the time of receiving the progress information does not exceed the time threshold, it is determined that the link or sub-link H cannot cause the task to be out of date, otherwise, it is determined that the link or sub-link H can cause the task to be out of date, that is, the task has the risk of out of date.

When certain progress information received by the risk control node is used for indicating that a certain link or sub-link I is not completed before a preset time node or before a time threshold corresponding to the link or sub-link I is not received, determining that the link or sub-link I can cause overtime of a task, that is to say, the task has overtime risk.

And step 103, when the task has the risk of exceeding the progress, the risk control node sends the standby plan of the task to the second node so that the second node presents the standby plan to an administrator of the task.

In this embodiment, a standby plan may be set for each link or sub-link in advance, and when it is determined that the overtime risk of the task is caused by a certain link or sub-link, the standby plan of the link or sub-link is sent to the second node, so that an administrator can timely obtain information of the overtime risk and the standby plan information from the second node, and further timely adjust the task execution policy according to the standby plan, thereby ensuring that the task is completed on time.

Alternatively, the standby plan referred to in this embodiment may be generated in real time. Specifically, when the risk control node determines that a certain link or sub-link does not complete a task on time, a preset template can be extracted from a database, the preset template can include information such as names, types, start and end time, whether the examination is needed, and the like, a preset solution of the link with the excessive risk is filled into the preset template to generate a standby plan, when the preset template includes information for indicating that the examination is needed, the standby plan is examined and approved according to a preset examination rule after the standby plan is generated, and then the examined and approved standby plan is sent to a second node, and when the standby plan does not need to be examined and approved, the generated standby plan is directly sent to the second node to ensure that the task is completed on time. That is, the above manner of generating the standby plan in real time may be exemplarily summarized as extracting a preset template from the database, and filling the standby solution of the task into the preset template according to the format of the preset template to generate the standby plan.

For example, in the risk control system of the present embodiment, the risk control node may trace back a link that does not complete a task on time, or even trace back a responsible person to the link, based on the progress information reported by the first node. Specifically, fig. 2 is a flowchart of a liability backtracking provided in an embodiment of the present application, in fig. 2, a first node corresponds to a sub-link with an out-of-date risk one by one, when a risk control system receives progress information sent by the first node, if it is determined that the progress information indicates that a task is not completed on time in a certain sub-link, risk control backtracks to the first node that sends the progress information first, and backtracks to the sub-link and a responsible person of the sub-link according to a corresponding relationship between the first node and the sub-link, and further, a subordinate link of the sub-link and a responsible person of the sub-link may be determined according to a pre-recorded subordinate relationship between the sub-link and the task link.

In this embodiment, the first node is set to collect the progress information of the current task, the risk control node is set to receive the progress information sent by the first node, and whether the task has a risk of exceeding the progress is determined according to the progress information, if so, the standby plan of the task is sent to the second node, so that the second node presents the standby plan to an administrator of the task. According to the method, the progress information of the task is collected through the first collection node, the task progress can be controlled, the progress information of the task is analyzed through the risk control node, the out-of-date risk of the task can be timely found, an available standby plan is timely provided when the risk is found, an administrator can timely know the risk, the standby plan is executed to avoid the out-of-date task, and accordingly the task can be carried out in good order, and the risk management and control capability is improved.

Fig. 3 is a schematic structural diagram of a risk control system according to an embodiment of the present application, where, as shown in fig. 3, the system aims at a task including n links, where n is greater than 1, and each link may include a plurality of sub-links, for example, in fig. 3, link 2 includes n sub-links. The system comprises a plurality of first nodes and a second node, wherein progress information of each link or each sub-link of a task is collected through at least one first node, the first node is connected with a risk control node, and the risk control node is connected with the second node.

In order to more clearly understand the technical solution of the present application, the following description will take fig. 3 as an example to illustrate the technical solution of the embodiment of the present application:

assuming that a first node corresponding to the sub-link 1 in the link n does not acquire a message for indicating that the task of the sub-link 1 is completed before a time threshold corresponding to the sub-link 1, the first node sends information for indicating that the sub-link 1 has an excessive risk to a risk control node, the risk control node analyzes the information after receiving the information to acquire an identifier of the first node, and determines that the sub-link 1 has an excessive risk according to a corresponding relation between the pre-stored first node identifier and the task link, after that, the risk control node acquires a standby plan of the sub-link 1 from a database and sends the standby plan and the information for indicating that the sub-link 1 has an excessive risk to a second node, and the second node presents the information to an administrator after receiving the information sent by the risk control node, so that the administrator executes the standby plan in time to ensure that the whole task is smoothly performed.

Fig. 4 is a flowchart of a risk control method provided by the embodiment of the present application, and fig. 5 is a schematic structural diagram of a risk control system provided by the embodiment of the present application, as shown in fig. 5, where a task according to the embodiment includes n links, n is greater than 1, the risk control system includes a plurality of first nodes and a plurality of second nodes, each link or each sub-link of the task is collected by at least one first node, and each second node corresponds to one link or sub-link of the task, as shown in fig. 4, and on the basis of the system shown in fig. 5, the method includes the following steps:

step 201, the plurality of first nodes collect progress information of a current task.

Step 202, a risk control node receives the progress information acquired by the plurality of first nodes, determines whether links with the progress exceeding risk are included in the task according to the progress information acquired by the plurality of first nodes, and if yes, determines that the task has the progress exceeding risk.

And 203, when the task has the risk of overtime in progress, sending a standby plan of a link with the risk of overtime in progress to a second node corresponding to the link, so that the second node presents the standby plan to an administrator of the task.

In the system shown in fig. 5, the system may or may not have the same progress requirements for each link or sub-link in the task, e.g., a link with a higher workload may require completion in a longer period of time, and a link with a lower workload may require completion in a shorter period of time. Of course, this is for illustration only and not for the purpose of limiting the application solely.

Further, since a task is composed of multiple links and/or sub-links, if one link or sub-link cannot complete the task on time, the whole task will be out of date, in this case, the embodiment needs to analyze the progress information sent by each first node, and when at least one link or sub-link is found to be unable to complete the task on time, it is determined that the task has an out-of-date risk, and the standby plans of the links or sub-links are sent to the corresponding second nodes, so that an administrator of each link or sub-link can make adjustment in time, and normal operation of the task is ensured.

Wherein the methods available in this embodiment include the following when determining the standby protocol:

in one possible implementation manner, first, the task execution time remaining between a link or sub-link with an out-of-date risk and a preset task period is determined, further, a standby plan which can be completed within the remaining task execution time is selected from all standby plans corresponding to the link or sub-link, and the standby plan is sent to a corresponding second node.

In another possible implementation manner, when determining that an out-of-date risk exists in a certain link or sub-link of a task, considering possible influences among different links, the risk control node determines other links having relevance in task execution with the link with the out-of-date risk according to the association relationship among the links stored locally.

Further, when determining the standby plan, firstly determining the requirements of other links on the task deadline, then searching and obtaining a target standby plan capable of ensuring the task of the other links to be executed as expected from a local database according to the requirements of the other links on the task deadline, and sending the target standby plan to a corresponding second node.

According to the embodiment of the application, the plurality of first nodes are arranged, and the progress information of different links or sub-links is acquired through different first nodes, so that the control of an administrator on each link of a task can be improved. When determining that links or sub-links which cannot complete the task on time exist in the task, generating a standby plan, and timely notifying management personnel of the corresponding links or sub-links, timely avoiding the out-of-date risk and ensuring normal operation of the task.

Fig. 6 is a schematic structural diagram of a risk control system provided by an embodiment of the present application, as shown in fig. 6, where the system includes a first node 51, a second node 52, and a risk control node 53 connected to the first node and the second node, respectively, where the first node 51 is configured to collect progress information of a task, and the risk control node 53 includes:

and the determining module 531 is configured to receive the progress information sent by the first node, and determine, according to the progress information, whether the task has a risk of overtime progress.

And the sending module 532 is configured to send a standby plan of the task to the second node when the task has a risk of exceeding the progress, so that the second node presents the standby plan to an administrator of the task.

In one embodiment, the sending module 532 includes:

the generation sub-module is used for extracting a preset template from a database, and filling the standby solution of the task into the preset template according to the format of the preset template to generate a standby plan;

and the sending submodule is used for sending the standby plan to the second node.

The system provided in this embodiment can be used to execute the method in the embodiment of fig. 1, and the execution manner and the beneficial effects thereof are similar, and are not described herein again.

Fig. 7 is a schematic structural diagram of a risk control system according to an embodiment of the present application, as shown in fig. 7, where, on the basis of the embodiment of fig. 6, the task includes a plurality of links, the system includes a plurality of first nodes, and progress information of each of the links of the task is collected by at least one first node; the determining module 531 includes:

the first determining submodule 5311 is configured to determine, according to a plurality of the progress information acquired by a plurality of the first nodes, whether the task includes a link with a risk of overtime, where if there is a risk of overtime, it is determined that the task has a risk of overtime.

The system comprises a plurality of second nodes, and each second node corresponds to one link of the task.

The sending module 532 is configured to send the standby plan of the link with the progress exceeding risk to a second node corresponding to the link, so that the second node presents the standby plan to an administrator of the task.

In one embodiment, the sending module 532 includes:

the first processing sub-module is used for determining the task execution time remaining by the link with the progress exceeding risk from the preset task deadline; and selecting a standby plan which can be completed within the execution time of the residual task from all standby plans corresponding to links with the progress exceeding risk, and sending the standby plan to a second node corresponding to the links.

In one embodiment, the sending module 532 includes:

the second processing sub-module is used for determining other links which have relevance with the links with the out-of-date risk in task execution according to the relevance relation among links in the locally stored tasks; searching a target standby plan from a local database according to the task deadlines of the other links so as to enable the tasks of the other links to be executed as expected through the target standby plan; and sending the target standby plan to a second node corresponding to the link with the out-of-date risk.

The system provided in this embodiment can be used to execute the method in the embodiment of fig. 3, and the execution manner and the beneficial effects thereof are similar, and are not described herein again.

The embodiment of the application also provides a risk control node which is suitable for a risk control system, and the system further comprises a first node and a second node, wherein the first node is used for collecting the progress information of the task, and the second node is used for presenting a standby plan to related management staff when any link or sub-link of the task has the progress exceeding risk. The risk control node includes:

a processor; and the memory is used for storing executable instructions of the processor.

The method of the embodiments of fig. 1 or 3 described above may be performed when the processor executes the executable instructions.

According to the method, the first node is set to collect the progress information of the current task, the risk control node is set to receive the progress information sent by the first node, whether the task has the risk of exceeding the progress or not is determined according to the progress information, if so, the standby plan of the task is sent to the second node, so that the second node presents the standby plan to an administrator of the task, the administrator can control the whole task process, corresponding measures are timely taken when the task has the risk of exceeding the progress, and the task is guaranteed to be carried out in time.

The embodiment of the application also provides a computer readable storage medium, which includes instructions, when the instructions run on the computer, the computer can execute the method shown in the above embodiment, and the execution mode and the beneficial effects of the method are similar to those of the method described in the above embodiment and are not repeated herein.

Finally, it should be noted that, as will be appreciated by those skilled in the art, all or part of the above-described methods may be implemented by a computer program for instructing relevant hardware, where the program may be stored in a computer readable storage medium, and the program may include the steps of the above-described embodiments of the methods when executed. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM), a random-access memory (RAM), or the like.

The functional units in the embodiment of the application can be integrated in one processing module, or the individual physical existence of the units can be realized, or two or more units can be integrated in one module. The integrated modules may be implemented in hardware or in software functional modules. The integrated modules, if implemented as software functional modules, may also be stored on a computer readable storage medium for sale or use as a stand-alone product. The above-mentioned storage medium may be a read-only memory, a magnetic disk, an optical disk, or the like.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (7)

1. A risk control method, the method being applicable to a risk control system, the system comprising: a first node, a second node, and a risk control node connected to the first node and the second node, respectively, the method comprising:

the first node acquires progress information of a current task;

the risk control node receives the progress information sent by the first node and determines whether the task has a risk of overtime progress according to the progress information;

when the task has the risk of exceeding the progress, the risk control node sends a standby plan of the task to the second node so that the second node presents the standby plan to an administrator of the task;

the risk control node receives the progress information sent by the first node, and determines whether the task has a risk of overtime progress according to the progress information, and the risk control node comprises the following steps:

after receiving the progress information sent by the first node, the risk control node analyzes the content of the progress information, when the received progress information is used for indicating that the task of a certain link or sub-link is completed, the risk control node compares the time for receiving the progress information with a time threshold corresponding to the link or sub-link, if the time for receiving the progress information does not exceed the time threshold, the link or sub-link is determined to not cause the overtime of the task, otherwise, the link or sub-link is determined to cause the overtime of the task;

the system comprises a plurality of second nodes, wherein each second node corresponds to one link of the task;

the risk control node sending a standby plan of a task to the second node to cause the second node to present the standby plan to an administrator of the task, comprising:

determining the residual task execution time of a link with a progress exceeding risk from a preset task period; selecting a standby plan which can be completed within the execution time of the residual task from all standby plans corresponding to links with the progress exceeding risk, and sending the standby plan to a second node corresponding to the links so that the second node presents the standby plan to an administrator of the task;

or the risk control node determines other links which have relevance with links with out-of-date risk in task execution according to the relevance relation among links in the locally stored task; searching a target standby plan from a local database according to the task deadlines of the other links so as to enable the tasks of the other links to be executed as expected through the target standby plan; and sending the target standby plan to a second node corresponding to the link with the out-of-date risk, so that the second node presents the standby plan to an administrator of the task.

2. The method of claim 1, wherein the risk control node sends a standby plan for a task to the second node, comprising:

the risk control node extracts a preset template from a database, and writes the standby solution of the task into the preset template according to the format of the preset template to generate a standby plan;

and sending the standby plan to the second node.

3. A method according to claim 1 or 2, wherein the task comprises a plurality of links, the system comprises a plurality of the first nodes, and progress information of each of the links of the task is collected by at least one of the first nodes;

and determining whether the task has a risk of overtime progress according to the progress information, wherein the method comprises the following steps:

and determining whether links with the progress exceeding risk are included in the task according to a plurality of pieces of progress information acquired by a plurality of first nodes, and if so, determining that the task has the progress exceeding risk.

4. A risk control system, the system comprising: the system comprises a first node, a second node and a risk control node respectively connected with the first node and the second node, and is characterized in that the first node is used for collecting progress information of a current task, and the risk control node comprises:

the determining module is used for receiving the progress information sent by the first node and determining whether the task has a risk of overtime progress according to the progress information;

the sending module is used for sending the standby plan of the task to the second node when the task has the risk of exceeding the progress, so that the second node presents the standby plan to an administrator of the task;

the determining module is specifically configured to: after receiving the progress information sent by the first node, the risk control node analyzes the content of the progress information, when the received progress information is used for indicating that the task of a certain link or sub-link is completed, the risk control node compares the time for receiving the progress information with a time threshold corresponding to the link or sub-link, if the time for receiving the progress information does not exceed the time threshold, the link or sub-link is determined to not cause the overtime of the task, otherwise, the link or sub-link is determined to cause the overtime of the task;

the system comprises a plurality of second nodes, wherein each second node corresponds to one link of the task;

the sending module is specifically configured to: determining the residual task execution time of a link with a progress exceeding risk from a preset task period; selecting a standby plan which can be completed within the execution time of the residual task from all standby plans corresponding to links with the progress exceeding risk, and sending the standby plan to a second node corresponding to the links so that the second node presents the standby plan to an administrator of the task;

or the risk control node determines other links which have relevance with links with out-of-date risk in task execution according to the relevance relation among links in the locally stored task; searching a target standby plan from a local database according to the task deadlines of the other links so as to enable the tasks of the other links to be executed as expected through the target standby plan; and sending the target standby plan to a second node corresponding to the link with the out-of-date risk, so that the second node presents the standby plan to an administrator of the task.

5. The system of claim 4, wherein the transmitting module comprises:

the generation sub-module is used for extracting a preset template from a database, and filling the standby solution of the task into the preset template according to the format of the preset template to generate a standby plan;

and the sending submodule is used for sending the standby plan to the second node.

6. A risk control node, comprising:

a processor;

a memory for storing executable instructions of the processor;

the method of any of the preceding claims 1-3, when executed by the processor.

7. A computer readable storage medium comprising instructions which, when run on the computer, can perform the method of any of the preceding claims 1-3.