CN114862066A - Enterprise full-process trusted management system based on block chain technology - Google Patents

Abstract

The invention provides an enterprise full-process trusted management system based on a block chain technology, which comprises a process issuing module, a task recording module, an authority authentication module and a process data analysis module, wherein the process issuing module is used for formulating and issuing process information; the system implements the process through the task issuing module, guarantees the reliability of the task through authority authentication in the implementation process, realizes the traceability of the process through the task recording module, optimizes the process through the process data analysis module, and improves the efficiency under the condition of guaranteeing the normal progress of the process.

Description

Enterprise full-process trusted management system based on block chain technology

Technical Field

The invention relates to the field of enterprise management, in particular to an enterprise full-process trusted management system based on a block chain technology.

Background

In the normal operation of an enterprise, one process management system can improve the operation efficiency of the enterprise, especially for a large enterprise, the matters are various and complex, if the process is managed by manpower, careless and even some violation situations are easy to occur, while the traceability can not be realized when the common process management processes the process task, and meanwhile, the system can not optimize the process, which results in lower process completion efficiency.

The foregoing discussion of the background art is intended only to facilitate an understanding of the present invention. This discussion is not an acknowledgement or admission that any of the material referred to is part of the common general knowledge.

A number of authorization systems have now been developed, and through a large number of searches and references, it is found that existing authorization systems are as disclosed in the publications US08739161B1, KR101171214B1, CN111460078B and JP2016143331A, which generally include a server and a client for information interaction with the server, the client being installed on a terminal device of a user and used for automatically synchronizing with a file of the server in real time. By constructing the engineering supervision enterprise knowledge base management system based on the process, the knowledge management of the whole process of the enterprise and the quick search work of the related knowledge of the knowledge base are realized. However, the system is only used for searching relevant knowledge in the process, the management of the process is not comprehensive enough, the safety degree is not high enough, and the completion efficiency of the process needs to be improved.

Disclosure of Invention

The invention aims to provide an enterprise whole-process credible management system based on a block chain technology aiming at the existing defects.

The invention adopts the following technical scheme:

an enterprise full-process trusted management system based on a block chain technology comprises a process issuing module, a task recording module, an authority authentication module and a process data analysis module, wherein the process issuing module is used for formulating and issuing process information, the task issuing module issues tasks according to the process information, the task recording module records the completion condition of the tasks through the block chain technology, the authority authentication module is used for authenticating the authority of a user, and the process data analysis module analyzes and optimizes the process according to the completion condition of the tasks;

the process information is a task chain, the task chain comprises a contact task positioned at the head of the chain and other actual tasks, and the actual tasks comprise a revocable process task and a non-revocable process task;

the task issuing module comprises a task management unit and a task terminal unit, wherein the task management unit sends task information to the task terminal unit according to a task chain, and the task terminal unit returns the task information to the task management unit after completing a task;

when one is present

When the task is a revocable process task, the process data analysis module calculates the corresponding process

Jump index of performer User

：

；

Wherein the content of the first and second substances,

and

for two tasks that are adjacent in the same task chain,

for a preceding task，

In order to be the task at a later stage,

for the duty ratio of the two adjacent tasks,

is that

The average effective completion rate of the task is,

the average effective completion rate of the User is obtained;

when the jump index is

When the flow data is larger than the threshold value, the flow data analysis module analyzes the flow data

Judging the task as a skipped task, and sending the information to the task management unit, wherein the task management unit directly skips the task chain when sending the task information

A task;

the flow data analysis module counts the probability that each revocable flow task is used as a leaping task

：

；

Wherein the content of the first and second substances,

show that

The task being a jump task

The number of task performer users is,

indicating execution

The number of users of the task;

when a task can be cancelled

When the value is larger than the revocation threshold value, the flow data analysis module sends an optimization suggestion to a creator of a task chain where the revocable flow task is located, and the revocable flow task is deleted in the corresponding task chain according to the suggestion;

further, in the task processing process, if the task completion condition does not reach the standard, the task management unit returns the task information to the previous task terminal unit, and the task management unit calculates the effective completion rate of each user in processing the corresponding task according to the following formula

：

；

Wherein the content of the first and second substances,

the total number of times the User has been the performer of the task,

for the User to holdThe total number of one-time passes during task execution;

further, the flow data analysis module calculates the average effective completion rate of each task according to the following formula

：

；

Wherein the content of the first and second substances,

the number of users who perform task tasks;

further, the process data analysis module calculates an average effective completion rate of each user

：

；

Wherein the content of the first and second substances,

the total number of tasks that need to be performed for the User;

further, the flow data analysis module calculates the load ratio of two adjacent tasks according to the following formula

：

。

The beneficial effects obtained by the invention are as follows:

the system issues tasks in the process through the task issuing module, prevents the users from directly issuing the tasks, authenticates the authority of a task executor when issuing the tasks, and improves the reliability of the tasks.

For a better understanding of the features and technical content of the present invention, reference should be made to the following detailed description of the invention and accompanying drawings, which are provided for purposes of illustration and description only and are not intended to limit the invention.

Drawings

FIG. 1 is a schematic view of the overall structural framework of the present invention;

FIG. 2 is a schematic diagram of the task chain configuration of the present invention;

FIG. 3 is a schematic diagram of the task publishing module of the present invention;

FIG. 4 is a schematic diagram of the task terminal unit of the present invention;

FIG. 5 is a diagram illustrating a transition from task skipping processing according to the present invention.

Detailed Description

The following is a description of embodiments of the present invention with reference to specific embodiments, and those skilled in the art will understand the advantages and effects of the present invention from the disclosure of the present specification. The invention is capable of other and different embodiments and its several details are capable of modification in various other respects, all without departing from the spirit and scope of the present invention. The drawings of the present invention are for illustrative purposes only and are not intended to be drawn to scale. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention.

The first embodiment.

The embodiment provides an enterprise full-process trusted management system based on a block chain technology, which is combined with fig. 1 and comprises a process issuing module, a task recording module, an authority authentication module and a process data analysis module, wherein the process issuing module is used for making and issuing process information, the task issuing module issues tasks according to the process information, the task recording module records the completion condition of the tasks through the block chain technology, the authority authentication module is used for authenticating the authority of a user, and the process data analysis module analyzes and optimizes the processes according to the completion condition of the tasks;

the process information is a task chain, the task chain comprises a contact task positioned at the head of the chain and other actual tasks, and the actual tasks comprise a revocable process task and a non-revocable process task;

the task issuing module comprises a task management unit and a task terminal unit, wherein the task management unit sends task information to the task terminal unit according to a task chain, and the task terminal unit returns the task information to the task management unit after completing a task;

when one is present

When the task is a revocable process task, the process data analysis module calculates the corresponding process

Jump index of performer User

：

；

Wherein the content of the first and second substances,

and

for two tasks that are adjacent in the same task chain,

in order to be the task in advance,

in order to be the task at a later stage,

for the duty ratio of the two adjacent tasks,

is that

The average effective completion rate of the task is,

the average effective completion rate of the User is obtained;

when the jump index is

When the flow data is larger than the threshold value, the flow data analysis module analyzes the flow data

Judging the task as a skipped task, and sending the information to the task management unit, wherein the task management unit directly skips the task chain when sending the task information

A task;

the flow data analysis module counts the probability of each revocable flow task as a leap task

：

；

Wherein, the first and the second end of the pipe are connected with each other,

show that

The task being a jump task

The number of users of the task performer,

indicating execution

The number of users of the task;

when a task can be cancelled

When the value is larger than the revocation threshold value, the flow data analysis module sends an optimization suggestion to a creator of a task chain where the revocable flow task is located, and the revocable flow task is deleted in the corresponding task chain according to the suggestion;

in the process of task processing, if the task completion condition does not reach the standard, the task management unit returns the task information to the last task terminal unit, and the task management unit calculates the effective completion rate of each user in processing the corresponding task according to the following formula

：

；

Wherein the content of the first and second substances,

the total number of times the User has been the performer of the task,

the total number of times of one-time passing when the User executes the task;

the flow data analysis module calculates the average effective completion rate of each task according to the following formula

：

；

Wherein the content of the first and second substances,

the number of users who perform task tasks;

the flow data analysis module calculates the average effective completion rate of each user

：

；

Wherein the content of the first and second substances,

the total number of tasks that need to be performed for the User;

the flow data analysis module calculates the load ratio of two adjacent tasks according to the following formula

：

。

Example two.

The embodiment includes all contents in the first embodiment, and provides an enterprise full-process trusted management system based on a block chain technology, which includes a process issuing module, a task recording module and a permission authentication module, wherein the process issuing module is used for making and issuing process information, the task issuing module issues tasks to corresponding users according to the process information, the task recording module is used for recording completed tasks, and the permission authentication module is used for authenticating the permissions of the users;

the process issuing module is only used for logging in by a user with high-level authority, the authority authentication module authenticates the user logging in the process issuing module, and then the user can use the function of the process issuing module, the process issuing module can display the existing process information, the user can add, delete and edit the process information in the process issuing module, each piece of complete process information is a task chain, in combination with the graph 2, the head of the task chain is a contact task, the contact task records the user information capable of triggering the contact task, each contact task is provided with the number of the user, the task which is not the head of the chain in the task chain is an actual task, and the actual task records the lowest authority level of the user capable of executing the task and the specific content of the actual task;

with reference to fig. 3, the task issuing module includes a task management unit and a task terminal unit, the task terminal unit is distributed on a terminal device of a user, the user can see the task management unit, the task management unit is arranged in the system, the user cannot see the task terminal unit, with reference to fig. 4, the task terminal unit includes a contact task component, an actual task component and a data transmission component, a contact task that can be triggered by the user is displayed on the contact task component, if the user has no permission to trigger any contact task, the contact task component is in a hidden state, the user can specify executor information of a next task on the contact task component and click a corresponding contact task, the contact task component sends the executor information and a number of the corresponding contact task to the task management unit, the actual task component is used for receiving task information issued by the task management unit, the system comprises a task management unit, a task terminal unit, a task chain, a permission authentication module and a permission authentication module, wherein the user executes tasks according to task information, the user specifies executor information of a next task in the completed task information, an actual task assembly sends the completed task information to the task management unit, the task information is not displayed in the actual task assembly after being sent to the task management unit, a data transmission assembly is used for adding additional data required by the next task, the additional data is sent to the task management unit along with the task information, the task management unit is used for receiving contact task information and actual task information sent by the task terminal unit, the task management unit combines the received task information with the specific content of the next task as new task information according to the task chain and sends the new task information to a formulated executor, and the permission authentication module authenticates the permission of the executor before the task management unit sends the task information, if the authentication is not passed, the task management unit sends a prompt to a corresponding task terminal unit to request a change executor;

the task recording module records tasks by adopting a block chain technology, when the task management unit receives task information sent by the task terminal unit, the task recording module backups effective information in the task information, wherein the effective information comprises task content, task executors or issuers and task completion time or task issuance time, and when all tasks of the whole task chain are completed, the task recording module packs the backed-up data into a block and records the block in the block chain;

in the process of task processing, if the task completion condition does not reach the standard, the task information is returned to the last task terminal unit through the task management unit, and the task management unit counts the effective completion rate of each user in processing the corresponding task

：

；

Wherein the content of the first and second substances,

in the form of a user name,

in order to be the name of the task,

the total number of times the User has been the performer of the task,

the total number of times of one-time passing when the User executes the task;

the system also comprises a flow data analysis module, wherein the flow data analysis module analyzes and processes the actual task in each task chain according to the effective completion rate data of the task;

the flow data analysis module calculates the average effective completion rate of each task

：

；

Wherein the content of the first and second substances,

the number of users who perform task tasks;

the flow data analysis module calculates the average effective completion rate of each user

：

；

Wherein the content of the first and second substances,

the total number of tasks that need to be performed for the User;

the process data analysis module calculates the load ratio of two adjacent tasks

：

；

Wherein the content of the first and second substances,

the representation of the preceding task is shown,

representing the following task;

the flow data analysis module divides all actual tasks into two types, one type is a revocable flow task, the other type is a non-revocable flow task, the revocable flow task refers to a task type that a user only audits the last task and does not relate to adding and deleting specific task information when processing the task, and the non-revocable flow task refers to a task type that the user relates to adding and deleting specific task information when processing the task;

when one is present

When the task is a revocable process task, the process data analysis module calculates the corresponding process

Jump index of performer User

：

；

When the jump index is described in conjunction with FIG. 5

When the flow data is larger than the threshold value, the flow data analysis module analyzes the flow data

The task is judged to skip the task and the information is sent to the task management unit, and the task management unit directly skips the task information when sending the task information

Task is sent to

An executor of a next task of the task;

the flow data analysis module counts the probability of each revocable flow task as a leap task

：

；

Wherein, the first and the second end of the pipe are connected with each other,

show that

The task being a jump task

The number of users of the task performer,

indicating execution

The number of users of the task;

when a task can be cancelled

And when the value is greater than the revocation threshold value, the flow data analysis module sends an optimization suggestion to a creator of the task chain where the revocable flow task is located, and the revocable flow task is deleted in the corresponding task chain according to the suggestion.

The disclosure is only a preferred embodiment of the invention, and is not intended to limit the scope of the invention, so that all equivalent technical changes made by using the contents of the specification and the drawings are included in the scope of the invention, and further, the elements thereof can be updated as the technology develops.

Claims (5)

1. An enterprise full-process trusted management system based on a block chain technology is characterized by comprising a process issuing module, a task recording module, a permission authentication module and a process data analysis module, wherein the process issuing module is used for making and issuing process information, the task issuing module issues tasks according to the process information, the task recording module records the completion condition of the tasks through the block chain technology, the permission authentication module is used for authenticating the permission of a user, and the process data analysis module analyzes and optimizes the process according to the completion condition of the tasks;

the process information is a task chain, the task chain comprises a contact task positioned at the head of the chain and other actual tasks, and the actual tasks comprise a revocable process task and a non-revocable process task;

the task issuing module comprises a task management unit and a task terminal unit, wherein the task management unit sends task information to the task terminal unit according to a task chain, and the task terminal unit returns the task information to the task management unit after completing a task;

when one is present

When the task is a revocable process task, the process data analysis module calculates the corresponding process

Jump index of performer User

：

；

Wherein the content of the first and second substances,

and

for two tasks that are adjacent in the same task chain,

in order to be the task in advance,

in order to be the task at a later stage,

for the duty ratio of the two adjacent tasks,

is that

The average effective completion rate of the task is,

the average effective completion rate of the User is obtained;

when the jump index is

Greater than thresholdWhen the value is positive, the flow data analysis module analyzes the value

Judging the task as a skipped task, and sending the information to the task management unit, wherein the task management unit directly skips the task chain when sending the task information

A task;

the flow data analysis module counts the probability of each revocable flow task as a leap task

：

；

Wherein the content of the first and second substances,

show that

The task being a jump task

The number of users of the task performer,

indicating execution

The number of users of the task;

when a task can be cancelled

And when the value is greater than the revocation threshold value, the flow data analysis module sends an optimization suggestion to a creator of the task chain where the revocable flow task is located, and the revocable flow task is deleted in the corresponding task chain according to the suggestion.

2. The system of claim 1, wherein during task processing, if the task completion status does not meet the standard, the task management unit returns task information to the previous task terminal unit, and the task management unit calculates the effective completion rate of each user in processing the corresponding task according to the following formula

：

；

Wherein the content of the first and second substances,

the total number of times the User has been the performer of the task,

the total number of one pass when the User executes the task.

3. The system of claim 2, wherein the process data analysis module calculates the average effective completion rate of each task according to the following formula

：

；

Wherein the content of the first and second substances,

is the number of users performing the task.

4. The system of claim 3, wherein the process data analysis module calculates an average effective completion rate for each user

：

；

Wherein the content of the first and second substances,

the total number of tasks that need to be performed for the User.

5. The system of claim 4, wherein the process data analysis module calculates the load ratio between two adjacent tasks according to the following formula

：

。

Images