CN111784186A - Task allocation method for multi-role user of working platform - Google Patents

Abstract

The invention discloses a task allocation method of a working platform for multi-role users, which comprises the following steps: s1: the system comprises a login working platform, a user needs to be authenticated when logging in the platform according to own information, and the system comprises a login module and an encryption module, wherein the login module is used for authenticating when logging in, the user with bad records refuses to log in, basic information of the user is encrypted through the encryption module, and the basic information comprises identity card photos, academic calendars, hobbies, marital conditions, credit conditions, attendance conditions and previous task completion quality on the platform; s2: counting and summarizing, wherein the working platform counts and summarizes the human resource materials and makes a table; s3: and (6) evaluating and summarizing. The invention carries out preferred selection, is simple and clear, quickly selects the optimal user, can ensure that the user has the right of independent selection, has better fault tolerance rate, transmits by different channels, prevents tasks from being intercepted in the transmission process and improves the security of file transmission.

Description

Task allocation method for multi-role user of working platform

Technical Field

The invention relates to the technical field of task allocation of a working platform, in particular to a task allocation method of the working platform facing multi-role users.

Background

The work platform is an internet platform which provides various work management related services in a crowdsourcing mode. The packet sender issues work task requirements to a work platform, the platform decomposes the tasks, searches matched packet receivers from a platform talent library according to the skill requirements of each subtask, and distributes the subtasks to the proper packet receivers; the packet receiving party starts working after receiving the assigned subtasks, and submits working results to the platform after the subtasks are completed; and the packet sender and the packet receiver receive the task delivery result and examine the task delivery result.

When a packet sender issues a task, the packet sender selects the task according to the requirements of a plurality of role users, compares the task completion quality with the capacity of different role users, and selects the most suitable user to arrange a proper task, so that the task completion degree is improved.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a task allocation method of a working platform facing a multi-role user.

In order to achieve the purpose, the invention adopts the following technical scheme:

a task allocation method for a multi-role user of a working platform comprises the following steps:

s1: the system comprises a login working platform, a user needs to be authenticated when logging in the platform according to own information, and the system comprises a login module and an encryption module, wherein the login module is used for authenticating when logging in, the user with bad records refuses to log in, basic information of the user is encrypted through the encryption module, and the basic information comprises identity card photos, academic calendars, hobbies, marital conditions, credit conditions, attendance conditions and previous task completion quality on the platform;

s2: the working platform counts and summarizes the human resource materials, forms are made, the human resource materials are scored during statistics, users are ranked in different categories according to scores, preference selection is conveniently conducted according to the scores of the users with multiple roles during task allocation, and the optimal user is selected simply, clearly and quickly;

s3: evaluating and summarizing, namely analyzing the task load of each user in each time period according to the evaluation result, and drawing a bar graph for comparison, wherein the time period is hour, and the highest task load is 10;

s4: counting the task amount, and issuing different tasks on a working platform by a packet issuing party by taking a block chain as a medium;

s5: the task sub-packaging, gradually sub-packaging the total task, and dividing the total task into small tasks which can be independently completed by different users;

s6: task encryption, namely encrypting different tasks to facilitate subsequent transmission work;

s7: task allocation, namely generating a task allocation result according to the task quantity of each task in each time interval and the task load quantity of each packet receiver in each time interval;

s8: task transmission, namely transmitting the packaged and encrypted tasks to a user after the tasks are distributed;

s9: whether the task is accepted is confirmed, the user previews the transmitted task after receiving the transmitted task, then judges, clicks to confirm the task if the task is considered to be completed, refuses to accept the task if the task is not considered to be completed, and returns to S7 for redistribution.

As a further scheme of the invention: the S2 includes a statistic module, which classifies the data according to the statistics, including the total working time, the working frequency, the learning condition, the task completion quality, and the number of complaints, and separately counts the data.

As a further scheme of the invention: the S3 comprises an evaluation module, and the evaluation module is used for evaluating and scoring the user during evaluation, wherein the task load amount per hour is scored, the task conformity amount exceeds 10 scores of 0.5, 8 scores between 0.4 and 0.5, 6 scores between 0.3 and 0.4, 4 scores between 0.2 and 0.3 and 1 score lower than 0.2.

As a further scheme of the invention: in the step S4, the task is counted when being transmitted to the work platform, and information such as time required to complete the task, task requirements and the like is listed when the task is counted, so that the later-stage viewing and query are facilitated, and the distribution efficiency is improved.

As a further scheme of the invention: the S5 comprises a calculation module, the task amount is calculated through the calculation module, the sub-packet amount is determined according to the task amount, the whole task is subdivided into a plurality of small tasks, the problem that the whole task is inconvenient to distribute is avoided, and the task distribution completion efficiency is improved.

As a further scheme of the invention: the S6 comprises an encryption module which is used for encrypting the task before transmission, so that the leakage of task information is prevented, and the safety during task distribution is improved.

As a further scheme of the invention: and the S7 comprises a control distribution module which comprises a processor and distributes according to the load of the user in each time period evaluated by the evaluation module, and the distribution time, the user data scores and the task load scores in the statistics summary are fully considered during distribution to perform preferential distribution, so that the task distribution success rate is improved.

As a further scheme of the invention: the S9 comprises a decryption module, the decryption module is used for decrypting when the task is transmitted to the user side, then the task content is watched, the codes in the decryption module are transmitted through channels of the block chain, the user receives the codes and then decrypts the codes to transmit the codes through different channels, the task is prevented from being intercepted in the transmission process, and the safety of file transmission is improved.

As a further scheme of the invention: the S8 comprises a detection module which detects the task transmission time, when the task is transmitted, if the transmission is not completed within 10 minutes, the transmission is automatically stopped, then the automatic retransmission is carried out, and if the transmission cannot be normally carried out for 3 times continuously, a signal is transmitted through an alarm device to remind a user of timely solving the problem.

As a further scheme of the invention: and the S9 comprises a storage module, and the task receiving information is stored after the user receives the task, so that the user can conveniently check the task at the later stage.

The invention has the beneficial effects that:

1. the task allocation method includes the steps that the scores are scored during statistics, users are ranked in different categories according to the scores, preference selection is conveniently conducted according to the scores of the users with multiple roles during task allocation, and the optimal user is selected simply, clearly and quickly;

2. the user previews the transmitted task and judges the task, the user clicks to confirm the task to be accepted if the task can be finished, if the task cannot be finished, the user refuses to accept the task, and the task returns to S7 to be redistributed, so that the user has the right of self-selection, and the fault tolerance rate is better;

3. the task quantity is calculated through the calculation module, the sub-packet quantity is determined according to the task quantity, and the whole task is subdivided into a plurality of small tasks, so that the problem that the whole task is inconvenient to distribute is avoided, and the task distribution completion efficiency is improved;

4. the task is encrypted before transmission, so that the leakage of task information is prevented, and the safety during task allocation is improved;

5. the load of the user in each time period is distributed according to the evaluation of the evaluation module, the distribution time, the user data scores and the task load scores in the statistics summary are fully considered during distribution, preferential distribution is carried out, and the task distribution success rate is improved;

6. the codes in the decryption module are transmitted through channels of the block chain, and the user receives the codes and decrypts the codes to transmit the codes through different channels, so that the tasks are prevented from being intercepted in the transmission process, and the file transmission safety is improved.

Drawings

Fig. 1 is a flowchart of a task allocation method for a multi-role user oriented work platform according to the present invention.

Fig. 2 is a schematic system module diagram of a task allocation method for a multi-role user for a working platform according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1-2, a task allocation method for a multi-role user for a working platform includes the following steps:

s1: the system comprises a login working platform, a user needs to be authenticated when logging in the platform according to own information, and the system comprises a login module and an encryption module, wherein the login module is used for authenticating when logging in, the user with bad records refuses to log in, basic information of the user is encrypted through the encryption module, and the basic information comprises identity card photos, academic calendars, hobbies, marital conditions, credit conditions, attendance conditions and previous task completion quality on the platform;

s2: the working platform counts and summarizes the human resource materials, forms are made, the human resource materials are scored during statistics, users are ranked in different categories according to scores, preference selection is conveniently conducted according to the scores of the users with multiple roles during task allocation, and the optimal user is selected simply, clearly and quickly;

s3: evaluating and summarizing, namely analyzing the task load of each user in each time period according to the evaluation result, and drawing a bar graph for comparison, wherein the time period is hour, and the highest task load is 10;

s4: counting the task amount, and issuing different tasks on a working platform by a packet issuing party by taking a block chain as a medium;

s5: the task sub-packaging, gradually sub-packaging the total task, and dividing the total task into small tasks which can be independently completed by different users;

s6: task encryption, namely encrypting different tasks to facilitate subsequent transmission work;

s7: task allocation, namely generating a task allocation result according to the task quantity of each task in each time interval and the task load quantity of each packet receiver in each time interval;

s8: task transmission, namely transmitting the packaged and encrypted tasks to a user after the tasks are distributed;

s9: whether the task is accepted is confirmed, the user previews the transmitted task after receiving the transmitted task, then judges, clicks to confirm the task if the task is considered to be completed, refuses to accept the task if the task is not considered to be completed, and returns to S7 for redistribution.

The S2 comprises a statistic module which is used for classifying the users during statistics, wherein the statistics comprises total working time, working frequency, academic situations, task completion quality and complaint times, and the statistics is divided into statistics, the S3 comprises an evaluation module which is used for evaluating and scoring the users through the evaluation module during evaluation, the task load per hour is scored, the task conformity amount exceeds 10 scores of 0.5, 8 scores of 0.4-0.5, 6 scores of 0.3-0.4, 4 scores of 0.2-0.3 and 1 score of less than 0.2.

It should be particularly noted that, the S5 includes a calculation module, the task amount is calculated by the calculation module, then the sub-packet amount is determined according to the task amount, the whole task is subdivided into a plurality of small tasks, the whole task is prevented from being inconveniently allocated, and the task allocation completion efficiency is improved, the S6 includes an encryption module, the task is encrypted before transmission, so that the task information is prevented from being leaked, and the security during task allocation is improved, the S7 includes a control allocation module, the control allocation module includes a processor, the allocation is performed according to the load amount of the user in each time period evaluated by the evaluation module, the allocation time, the user data score and the task load score in the statistical summary are fully considered during allocation, the preferential allocation is performed, and the task allocation success rate is improved.

It is specifically pointed out that S9 includes a decryption module, the decryption module decrypts the task when the task is transmitted to the user side, and then views the task content, the code in the decryption module is transmitted through a channel of a block chain, the user decrypts the task after receiving the task and transmits the task through different channels, so as to prevent the task from being intercepted during transmission, and improve the security of file transmission, S8 includes a detection module, which detects the transmission time of the task, and automatically stops transmission if the transmission is not completed within 10 minutes during task transmission, and then automatically retransmits the task, and S9 includes a storage module, which stores the received information of the task after the user receives the task, so as to facilitate later-stage viewing.

Example 2

Referring to fig. 1-2, a task allocation method for a multi-role user for a working platform includes the following steps:

s1: the system comprises a login working platform, a user needs to be authenticated when logging in the platform according to own information, and the system comprises a login module and an encryption module, wherein the login module is used for authenticating when logging in, the user with bad records refuses to log in, basic information of the user is encrypted through the encryption module, and the basic information comprises identity card photos, academic calendars, hobbies, marital conditions, credit conditions, attendance conditions and previous task completion quality on the platform;

s2: the working platform counts and summarizes the human resource materials, forms are made, the human resource materials are scored during statistics, users are ranked in different categories according to scores, preference selection is conveniently conducted according to the scores of the users with multiple roles during task allocation, and the optimal user is selected simply, clearly and quickly;

s3: evaluating and summarizing, namely analyzing the task load of each user in each time period according to the evaluation result, and drawing a bar graph for comparison, wherein the time period is hour, and the highest task load is 10;

s4: counting the task amount, and issuing different tasks on a working platform by a packet issuing party by taking a block chain as a medium;

s5: the task sub-packaging, gradually sub-packaging the total task, and dividing the total task into small tasks which can be independently completed by different users;

s6: task encryption, namely encrypting different tasks to facilitate subsequent transmission work;

s7: task allocation, namely generating a task allocation result according to the task quantity of each task in each time interval and the task load quantity of each packet receiver in each time interval;

s8: task transmission, namely transmitting the packaged and encrypted tasks to a user after the tasks are distributed;

s9: whether the task is accepted is confirmed, the user previews the transmitted task after receiving the transmitted task, then judges, clicks to confirm the task if the task is considered to be completed, refuses to accept the task if the task is not considered to be completed, and returns to S7 for redistribution.

The S2 comprises a statistic module which is used for classifying the users during statistics, wherein the statistics comprises total working time, working frequency, academic situations, task completion quality and complaint times, and the statistics is divided into statistics, the S3 comprises an evaluation module which is used for evaluating and scoring the users through the evaluation module during evaluation, the task load per hour is scored, the task conformity amount exceeds 10 scores of 0.5, 8 scores of 0.4-0.5, 6 scores of 0.3-0.4, 4 scores of 0.2-0.3 and 1 score of less than 0.2.

It should be particularly noted that, in the S4, when the task is transmitted to the work platform, the task is counted, and when the task is counted, information such as time required to complete the task, task requirements, and the like are listed, so as to facilitate later-stage viewing and query, and improve distribution efficiency, the S5 includes a calculation module, calculates task amount through the calculation module, determines sub-packet amount according to the task amount, subdivides the entire task into a plurality of small tasks, thereby avoiding inconvenient distribution of the entire task, and improving task distribution efficiency, the S6 includes an encryption module, encrypts the task before transmission, prevents leakage of task information, and improves safety when the task is distributed, the S7 includes a control distribution module, the control distribution module includes a processor, and distributes the task according to the load amount of the user evaluated by the evaluation module in each time period, and fully considers distribution time, when distributing the task, And counting the user data scores and the task load scores in the summary, performing preferential allocation, and improving the success rate of task allocation.

It should be noted that, in said S9, a decryption module is included, through which decryption is performed when the task is transmitted to the user end, then watching the task content, transmitting the codes in the decryption module through a channel of a block chain, decrypting after receiving by a user, the transmission is carried out through different channels, the task is prevented from being intercepted in the transmission process, the safety of the file transmission is improved, the S8 comprises a detection module which detects the transmission time of the task, automatically stopping transmission if the transmission is not completed within 10 minutes at the time of task transmission, and then automatically retransmitting, if normal transmission can not be carried out for 3 times continuously, the alarm device transmits a signal to remind a user to solve the problem in time, and the S9 comprises a storage module, and the task receiving information is stored after the user receives the task, so that the user can conveniently check the task at the later stage.

Example 3

Referring to fig. 1-2, a task allocation method for a multi-role user for a working platform includes the following steps:

s1: the system comprises a login working platform, a user needs to be authenticated when logging in the platform according to own information, and the system comprises a login module and an encryption module, wherein the login module is used for authenticating when logging in, the user with bad records refuses to log in, basic information of the user is encrypted through the encryption module, and the basic information comprises identity card photos, academic calendars, hobbies, marital conditions, credit conditions, attendance conditions and previous task completion quality on the platform;

s2: the working platform counts and summarizes the human resource materials, forms are made, the human resource materials are scored during statistics, users are ranked in different categories according to scores, preference selection is conveniently conducted according to the scores of the users with multiple roles during task allocation, and the optimal user is selected simply, clearly and quickly;

s3: evaluating and summarizing, namely analyzing the task load of each user in each time period according to the evaluation result, and drawing a bar graph for comparison, wherein the time period is hour, and the highest task load is 10;

s4: counting the task amount, and issuing different tasks on a working platform by a packet issuing party by taking a block chain as a medium;

s5: the task sub-packaging, gradually sub-packaging the total task, and dividing the total task into small tasks which can be independently completed by different users;

s6: task encryption, namely encrypting different tasks to facilitate subsequent transmission work;

s7: task allocation, namely generating a task allocation result according to the task quantity of each task in each time interval and the task load quantity of each packet receiver in each time interval;

s8: task transmission, namely transmitting the packaged and encrypted tasks to a user after the tasks are distributed;

s9: whether the task is accepted is confirmed, the user previews the transmitted task after receiving the transmitted task, then judges, clicks to confirm the task if the task is considered to be completed, refuses to accept the task if the task is not considered to be completed, and returns to S7 for redistribution.

The S2 comprises a statistic module which is used for classifying the users during statistics, wherein the statistics comprises total working time, working frequency, academic situations, task completion quality and complaint times, and the statistics is divided into statistics, the S3 comprises an evaluation module which is used for evaluating and scoring the users through the evaluation module during evaluation, the task load per hour is scored, the task conformity amount exceeds 10 scores of 0.5, 8 scores of 0.4-0.5, 6 scores of 0.3-0.4, 4 scores of 0.2-0.3 and 2 scores of less than 0.2.

It should be particularly noted that, in the S4, when the task is transmitted to the work platform, the task is counted, and when the task is counted, information such as time required to complete the task, task requirements, and the like are listed, so as to facilitate later-stage viewing and query, and improve distribution efficiency, the S5 includes a calculation module, calculates task amount through the calculation module, determines sub-packet amount according to the task amount, subdivides the entire task into a plurality of small tasks, thereby avoiding inconvenient distribution of the entire task, and improving task distribution efficiency, the S6 includes an encryption module, encrypts the task before transmission, prevents leakage of task information, and improves safety when the task is distributed, the S7 includes a control distribution module, the control distribution module includes a processor, and distributes the task according to the load amount of the user evaluated by the evaluation module in each time period, and fully considers distribution time, when distributing the task, And counting the user data scores and the task load scores in the summary, performing preferential allocation, and improving the success rate of task allocation.

It should be noted that, in said S9, a decryption module is included, through which decryption is performed when the task is transmitted to the user end, then watching the task content, transmitting the codes in the decryption module through a channel of a block chain, decrypting after receiving by a user, the transmission is carried out through different channels, the task is prevented from being intercepted in the transmission process, the safety of the file transmission is improved, the S8 comprises a detection module which detects the transmission time of the task, automatically stopping transmission if the transmission is not completed within 10 minutes at the time of task transmission, and then automatically retransmitting, if normal transmission can not be carried out for 4 times continuously, a signal is transmitted by the alarm device to remind a user to solve the problem in time, and the S9 comprises a storage module, and the task receiving information is stored after the user receives the task, so that the user can conveniently check the task at the later stage.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A task allocation method for a multi-role user of a working platform comprises the following steps:

s1: the system comprises a login working platform, a user needs to be authenticated when logging in the platform according to own information, and the system comprises a login module and an encryption module, wherein the login module is used for authenticating when logging in, the user with bad records refuses to log in, basic information of the user is encrypted through the encryption module, and the basic information comprises identity card photos, academic calendars, hobbies, marital conditions, credit conditions, attendance conditions and previous task completion quality on the platform;

s2: counting and summarizing, wherein the working platform counts and summarizes the human resource materials and makes a table;

s3: evaluating and summarizing, namely analyzing the task load of each user in each time period according to the evaluation result, and drawing a bar graph for comparison, wherein the time period is hour, and the highest task load is 10;

s4: counting the task amount, and issuing different tasks on a working platform by a packet issuing party by taking a block chain as a medium;

s5: the task sub-packaging, gradually sub-packaging the total task, and dividing the total task into small tasks which can be independently completed by different users;

s6: task encryption, namely encrypting different tasks to facilitate subsequent transmission work;

s7: task allocation, namely generating a task allocation result according to the task quantity of each task in each time interval and the task load quantity of each packet receiver in each time interval;

s8: task transmission, namely transmitting the packaged and encrypted tasks to a user after the tasks are distributed;

s9: whether the task is accepted is confirmed, the user previews the transmitted task after receiving the transmitted task, then judges, clicks to confirm the task if the task is considered to be completed, refuses to accept the task if the task is not considered to be completed, and returns to S7 for redistribution.

2. The method for assigning tasks to multi-role users according to claim 1, wherein the S2 comprises a statistic module, and the statistic module classifies the tasks according to the statistics, including the total work time, the work frequency, the academic situation, the task completion quality, and the number of complaints, and performs separate statistics.

3. The method for assigning tasks to multi-role users according to claim 1, wherein S3 includes an evaluation module, and the evaluation module scores the user for evaluation, and scores the task load per hour, wherein the task compliance exceeds 0.5 for 10 points, 0.4-0.5 for 8 points, 0.3-0.4 for 6 points, 0.2-0.3 for 4 points, and less than 0.2 for 1 point.

4. The method for distributing tasks to the multi-role users on the working platform according to claim 1, wherein the tasks are counted when being transmitted to the working platform in the step S4, and information such as time required to be completed and task requirements are listed when the tasks are counted, so that the later-stage viewing and querying are facilitated, and the distribution efficiency is improved.

5. The method for distributing tasks to the multi-role users on the working platform according to claim 1, wherein the step S5 comprises a calculating module, the calculating module is used for calculating the task amount, and then the sub-packaging amount is determined according to the task amount, so as to subdivide the whole task into a plurality of small tasks.

6. The method for task allocation of a working platform to a multi-role user according to claim 1, wherein said S6 comprises an encryption module for encrypting the task before transmission.

7. The method for task allocation of a multi-role user oriented work platform of claim 6, wherein said S7 comprises a control allocation module, and said control allocation module comprises a processor.

8. The method for distributing tasks to the multi-role users on the working platform according to claim 1, wherein the S9 comprises a decryption module, the decryption module decrypts the tasks when the tasks are transmitted to the user terminal, and then the task content is viewed.

9. The method for distributing tasks to the multi-role users on the working platform according to claim 8, wherein the S8 comprises a detection module, the detection module detects the task transmission time, automatically stops transmission if the transmission is not completed within 10 minutes during task transmission, and then automatically retransmits the task, and if the transmission cannot be normally performed for 3 consecutive times, the alarm device transmits a signal to remind the user of timely resolving the task.

10. The method for task allocation of a working platform to multi-role users according to claim 1, wherein S9 includes a storage module for storing task receiving information after a user receives a task, so as to facilitate later review.

Images