CN116861673B - Multi-user remote online collaborative design system and method based on data sharing - Google Patents

Abstract

The invention provides a multi-user remote online collaborative design system and a method based on data sharing, wherein the system comprises the following steps: firstly, respectively acquiring first network information corresponding to each execution terminal and second network information of a control platform, establishing an internal network according to the first network information and the second network information, respectively issuing different shared data and different execution tasks to the corresponding execution terminals through the internal network, then acquiring the corresponding shared data and the corresponding execution tasks, processing the shared data according to the execution tasks, inputting the processed shared data to the control platform, finally acquiring processing procedure of each execution terminal for the shared data, establishing feedback information, transmitting the feedback information to the control platform through the internal network for display, and feeding back the execution procedure of each execution terminal to the control platform through the acquisition of the execution procedure of each execution terminal, thereby establishing a closed loop system for controlling downstream operation from upstream, and reducing labor and error rate.

Description

Multi-user remote online collaborative design system and method based on data sharing

Technical Field

The invention relates to the field of data sharing, in particular to a multi-user remote online collaborative design system and method based on data sharing.

Background

The traffic engineering investigation design project has the characteristics of large scale, numerous professions, complex technology, requirement for cooperative work of multiple persons and the like, and only the improvement of the efficiency and the quality of individuals is far insufficient, and the lag of the cooperative design means greatly hinders the further improvement of the production capacity. In particular, a large-scale design unit which needs a plurality of professions to work cooperatively, and how to manage investigation design projects and carry out multi-professional collaborative design in a network environment becomes the most urgent task which should be solved in the first place for further improving the production capacity of a large-scale traffic investigation design institute.

Therefore, the invention provides a multi-user remote online collaborative design system and a method based on data sharing.

Disclosure of Invention

The invention relates to a multi-user remote online collaborative design system and a method based on data sharing, which ensure the safety of shared data by establishing an internal network to synchronize the operation processes of different execution terminals in real time under a network environment, collect the execution processes of each execution terminal, feed back the execution processes to a control platform, establish a closed loop system for controlling downstream operation from upstream, and reduce the labor and error rate.

The invention provides a multi-user remote online collaborative design system based on data sharing, which comprises:

The network module is used for respectively acquiring the first network information corresponding to each execution terminal and the second network information of the control platform, and establishing an internal network according to the first network information and the second network information;

the sharing module is used for respectively issuing different sharing data and different execution tasks to the corresponding execution terminals through the internal network;

the execution terminal is used for acquiring corresponding shared data and corresponding execution tasks, processing the shared data according to the execution tasks and inputting the processed shared data to the control platform;

and the feedback module is used for collecting feedback information established by each execution terminal in the processing process of the shared data, and transmitting the feedback information to the control platform for display through the internal network.

In one embodiment of the present invention, in one possible implementation,

the network module comprises:

the acquisition unit is used for respectively acquiring a first public network corresponding to each execution terminal and a second public network corresponding to the control platform;

the analysis unit is used for respectively analyzing each first public network to obtain a plurality of first channels corresponding to each first public network, and analyzing the second public network to obtain a second channel corresponding to the second public network;

And the networking unit is used for establishing local area networks of each execution terminal and the control platform by utilizing the first channel and the second channel, acquiring all the local area networks and performing network optimization to obtain an internal network.

In one embodiment of the present invention, in one possible implementation,

the sharing module comprises:

the classification unit is used for acquiring a plurality of pieces of shared data and a plurality of execution tasks issued by the control platform, matching the corresponding shared data for each execution task according to the execution process corresponding to each execution task, and establishing a task-data group;

the matching unit is used for acquiring local area networks corresponding to different execution terminals from the internal network, and establishing a transmission scheme by combining task-data sets corresponding to the different execution terminals;

and the transmission unit is used for transmitting the task-data group to the corresponding execution terminal through different local area networks based on the transmission scheme.

In one embodiment of the present invention, in one possible implementation,

the execution terminal comprises:

a receiving unit for receiving the shared data and executing tasks;

the preparation unit is used for acquiring task logic information of the execution task, establishing an execution logic model based on the task logic information, and obtaining corresponding execution object information according to the execution task;

The processing unit is used for acquiring a corresponding execution object according to the execution object information, inputting the execution object and the shared data into the execution logic model for logic processing, and obtaining a corresponding logic processing result;

the execution unit is used for acquiring an actual processing result of the shared data by a user and judging whether the logic processing result is consistent with the actual result or not;

and the display unit is used for generating and displaying a reprocessing instruction when the actual processing result is inconsistent with the logic processing result.

In one embodiment of the present invention, in one possible implementation,

the execution terminal further comprises:

the supervising unit is used for acquiring a correction processing result after the user carries out corresponding processing on the shared data based on the reprocessing instruction and judging whether the correction processing result is consistent with the logic processing result or not;

and when the correction processing results are consistent, transmitting the correction processing results to the control platform for display through the internal network.

In one embodiment of the present invention, in one possible implementation,

the feedback module comprises:

the information collection unit is used for respectively acquiring the operation information of each execution terminal on the shared information in different preset time periods and establishing an information chain of each execution terminal;

The information statistics unit is used for establishing an information time axis according to the different preset time periods, searching non-blank information in each information chain respectively, acquiring the preset time period corresponding to the non-blank information, and marking the non-blank information on the information time axis to obtain an information statistics axis;

the information arrangement unit is used for establishing an execution information chain corresponding to each execution terminal according to the information statistical shaft, setting the execution information chain into an unmodified format and establishing feedback information;

and the information transmission unit is used for transmitting the feedback information to the control platform for display.

In one embodiment of the present invention, in one possible implementation,

the information statistics unit includes:

the first statistical subunit is used for establishing an information time axis according to the different preset time periods, respectively analyzing each information chain and obtaining the non-blank information prediction quantity in each information chain;

the second statistical subunit is used for traversing the information chain by using a preset blank sample, removing information points on the information chain, which are consistent with the preset blank sample, to obtain a plurality of non-blank information, and counting the actual number of the non-blank information corresponding to the same information chain;

The third statistical subunit is used for determining that the non-blank information searching is completed when the actual quantity of the non-blank information corresponding to the same information chain is consistent with the corresponding non-blank information prediction quantity;

and the fourth statistical subunit is used for acquiring a preset time period corresponding to the non-blank information after the non-blank information is searched, and marking the non-blank information on the information time axis to obtain an information statistical axis.

The invention provides a multi-user remote online collaborative design method based on data sharing, which comprises the following steps:

step 1: respectively acquiring first network information corresponding to each execution terminal and second network information of a control platform, and establishing an internal network according to the first network information and the second network information;

step 2: different shared data and different execution tasks are respectively issued to corresponding execution terminals through the internal network;

step 3: acquiring corresponding shared data and corresponding execution tasks, processing the shared data according to the execution tasks, and inputting the processed shared data to the control platform;

step 4: and collecting feedback information established by each execution terminal in the processing process of the shared data, and transmitting the feedback information to the control platform for display through the internal network.

In one embodiment of the present invention, in one possible implementation,

the step 4 includes:

step 41: respectively acquiring operation information of each execution terminal on the shared information in different preset time periods, and establishing an information chain of each execution terminal;

step 42: establishing an information time axis according to the different preset time periods, respectively searching non-blank information in each information chain, acquiring the preset time period corresponding to the non-blank information, and marking the non-blank information on the information time axis to obtain an information statistical axis;

step 43: according to the information statistical shaft, an execution information chain corresponding to each execution terminal is established, the execution information chain is set to be in an unmodified format, and feedback information is established;

step 44: and transmitting the feedback information to the control platform for display.

In one embodiment of the present invention, in one possible implementation,

the step 44 includes:

step 441: establishing an information time axis according to the different preset time periods, and respectively analyzing each information chain to obtain the non-blank information prediction quantity in each information chain;

step 442: traversing the information chain by using a preset blank sample, removing information points on the information chain consistent with the preset blank sample to obtain a plurality of non-blank information, and counting the actual number of the non-blank information corresponding to the same information chain;

Step 443: when the actual quantity of the non-blank information corresponding to the same information chain is consistent with the corresponding non-blank information prediction quantity, determining that the non-blank information searching is completed;

step 444: after the non-blank information is searched, a preset time period corresponding to the non-blank information is obtained, and the non-blank information is marked on the information time axis to obtain an information statistical axis.

The invention has the beneficial effects that: in order to realize the remote online operation of multiple persons, an internal network is established according to networks accessed by different execution terminals and control platforms, shared data and execution tasks are issued to the execution terminals through the internal network, the remote personnel operate the execution terminals to process the shared data, the processed data are input into the control platform, each execution terminal is subjected to behavior supervision in the process, feedback information is established in the processing process of the shared data, the feedback information is input into the control platform for display, the established feedback information has non-repairable modification, a manager can monitor the working progress of remote workers through the feedback information, the existing network and related resources are fully utilized, a multiple-person remote online collaborative design system is established for a large traffic investigation design institute, cross-specialized collaborative design and flexible part application are realized through unified platform management, and the collaborative efficiency is improved.

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

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

Drawings

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

FIG. 1 is a schematic diagram of a multi-user remote online collaborative design system based on data sharing in an embodiment of the present invention;

FIG. 2 is a schematic workflow diagram of a multi-user remote online collaborative design approach based on data sharing in an embodiment of the present invention;

fig. 3 is a schematic workflow diagram of step 4 of the multi-user remote online collaborative design method based on data sharing in an embodiment of the present invention.

Detailed Description

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

Example 1

The embodiment provides a multi-user remote online collaborative design system based on data sharing, as shown in fig. 1, including:

the network module is used for respectively acquiring the first network information corresponding to each execution terminal and the second network information of the control platform, and establishing an internal network according to the first network information and the second network information;

the sharing module is used for respectively issuing different sharing data and different execution tasks to the corresponding execution terminals through the internal network;

the execution terminal is used for acquiring corresponding shared data and corresponding execution tasks, processing the shared data according to the execution tasks and inputting the processed shared data to the control platform;

and the feedback module is used for collecting feedback information established by each execution terminal in the processing process of the shared data, and transmitting the feedback information to the control platform for display through the internal network.

In this example, the first network information represents information of a network to which the execution terminal accesses;

in this example, the second network information represents information of a network to which the control platform is connected;

in this example, the internal network represents a local area network between all execution terminals and the control platform;

In this example, the number of control platforms is one, the number of execution terminals is a plurality of, and each remote corresponds to one execution terminal;

in this example, the network module, the sharing module, and the feedback module are disposed on the control platform;

in this example, one execution task may correspond to multiple pieces of shared data;

in this example, the feedback information includes all traces of operations performed by the execution terminal on the shared data, including: and (3) performing CAD in-situ checking on the professional design data and progress, strictly standardizing the flow, collecting design process files in real time and the like.

The working principle of the technical scheme has the beneficial effects that: in order to realize the remote online operation of multiple persons, an internal network is established according to networks accessed by different execution terminals and control platforms, shared data and execution tasks are issued to the execution terminals through the internal network, the remote personnel operate the execution terminals to process the shared data, the processed data are input into the control platform, each execution terminal is subjected to behavior supervision in the process, feedback information is established in the processing process of the shared data, the feedback information is input into the control platform for display, the established feedback information has non-repairable modification, a manager can monitor the working progress of remote workers through the feedback information, the existing network and related resources are fully utilized, a multiple-person remote online collaborative design system is established for a large traffic investigation design institute, cross-specialized collaborative design and flexible part application are realized through unified platform management, and the collaborative efficiency is improved.

Example 2

Based on embodiment 1, the multi-user remote online collaborative design system based on data sharing, the network module includes:

the acquisition unit is used for respectively acquiring a first public network corresponding to each execution terminal and a second public network corresponding to the control platform;

the analysis unit is used for respectively analyzing each first public network to obtain a plurality of first channels corresponding to each first public network, and analyzing the second public network to obtain a second channel corresponding to the second public network;

and the networking unit is used for establishing local area networks of each execution terminal and the control platform by utilizing the first channel and the second channel, acquiring all the local area networks and performing network optimization to obtain an internal network.

In this example, the public network may be: one of a mobile network, a connectivity network, a telecommunications network;

in this example, the first public network represents a network accessed by the execution terminal, and the networks accessed by different execution terminals may be different;

in this example, the second public network represents a network to which the control platform is connected, and the network to which the control platform is connected may be different from the execution terminal;

In this example, a channel represents a channel in a public network that can communicate, and a public network can correspond to multiple channels;

in this example, the local area network represents a network for communication between the execution terminal and the control platform;

in this example, the internal network includes all local area networks;

in this example, the process of obtaining all local area networks and performing network optimization to obtain an internal network includes: acquiring all local area networks;

the local area networks with the same public network are recorded as the same network class;

acquiring network attributes corresponding to the same network class, and matching corresponding maintenance mechanisms for the corresponding network class according to the network attributes;

and respectively establishing a maintenance scheme for the corresponding local area network by utilizing the maintenance mechanism to obtain an internal network.

Example 3

Based on embodiment 1, the multi-user remote online collaborative design system based on data sharing, the sharing module includes:

the classification unit is used for acquiring a plurality of pieces of shared data and a plurality of execution tasks issued by the control platform, matching the corresponding shared data for each execution task according to the execution process corresponding to each execution task, and establishing a task-data group;

The matching unit is used for acquiring local area networks corresponding to different execution terminals from the internal network, and establishing a transmission scheme by combining task-data sets corresponding to the different execution terminals;

and the transmission unit is used for transmitting the task-data group to the corresponding execution terminal through different local area networks based on the transmission scheme.

In this example, the execution process represents a process of executing operations on shared data in different time periods in the execution task;

in this example, the task-data group represents a correspondence between one execution task and shared data, and one execution task may correspond to a plurality of different shared data, and one shared data may also correspond to a different execution task;

in this example, the process of establishing a transmission scheme includes: and counting all execution tasks and shared data which are required to be received by one execution terminal, establishing a synchronous label for the execution tasks and the shared data with the association relation according to the task-data group, and then transmitting all the execution tasks and the shared data which are required to be received by the execution terminal to the corresponding execution terminal.

The working principle of the technical scheme has the beneficial effects that: in order to avoid the problem that the shared data are transmitted by mistake or transmitted less in the transmission process, the shared data and the execution tasks issued by the control platform are matched and packed before transmission, the transmission work is carried out by using a local area network, and an executable transmission scheme is established before transmission, so that the data disorder can be avoided, the data transmission efficiency can be improved, and finally, the packed task-data group is transmitted to a designated execution terminal through the local area network, the transmission work is carried out in such a way, the execution tasks and the shared data can be accurately transmitted to the execution terminal, the execution terminal can rapidly determine the operation object corresponding to the execution task after receiving the execution tasks and the shared data, and the data processing efficiency is improved.

Example 4

Based on embodiment 1, the multi-user remote online collaborative design system based on data sharing, the execution terminal, includes:

a receiving unit for receiving the shared data and executing tasks;

the preparation unit is used for acquiring task logic information of the execution task, establishing an execution logic model based on the task logic information, and obtaining corresponding execution object information according to the execution task;

the processing unit is used for acquiring a corresponding execution object according to the execution object information, inputting the execution object and the shared data into the execution logic model for logic processing, and obtaining a corresponding logic processing result;

the execution unit is used for acquiring an actual processing result of the shared data by a user and judging whether the logic processing result is consistent with the actual result or not;

and the display unit is used for generating and displaying a reprocessing instruction when the actual processing result is inconsistent with the logic processing result.

In this example, task logic information represents a logical relationship between task processes that execute different tasks;

in this example, executing the logical model represents expressing the logical relationship of executing the task by way of the model;

In this example, the execution object may be other materials than the shared data that can be acquired in the execution terminal;

in this example, the logically processed procedure represents a procedure of processing the execution object and the shared data in accordance with the requirement of executing the task;

for example, one logical process is: splitting the shared data into a plurality of sub data, and then establishing different sub data to be input to corresponding positions in a preset chart;

in this example, the logical processing result represents a result obtained by processing the execution object and the shared data according to the requirement of the execution task;

in this example, the logical processing result represents a prediction processing result generated according to the need to execute the task;

in this example, the actual processing result represents the result of the operation performed by the user on the shared data;

in this example, when the actual processing result is inconsistent with the logical processing result, it indicates that the processing procedure or the processing result of the user has an error;

in this example, the reprocessing instruction represents an instruction that reminds the user to reprocess the shared data.

The working principle of the technical scheme has the beneficial effects that: in order to avoid deviation when a user processes shared data, an execution logic model is built according to task logic information of an execution task before the user processes the data, an execution object corresponding to the execution task is obtained, then logic processing is carried out on the shared data and the execution object in the execution logic model, so that a logic processing result can be obtained, then after the user processes the shared data, a corresponding actual processing result is obtained, the actual processing result is compared with the logic processing result, when the two are inconsistent, the user operation is judged to be wrong, the generated processing result is also wrong, at the moment, in order to avoid unnecessary results caused by the fact that the wrong processing result is fed back to a control platform, a reprocessing instruction is generated to remind the user to carry out processing again, and therefore the problem that the terminal finds data processing can be solved in time, and the efficiency of multi-user operation is improved.

Example 5

Based on embodiment 4, the multi-user remote online collaborative design system based on data sharing, the execution terminal further includes:

the supervising unit is used for acquiring a correction processing result after the user carries out corresponding processing on the shared data based on the reprocessing instruction and judging whether the correction processing result is consistent with the logic processing result or not;

and when the correction processing results are consistent, transmitting the correction processing results to the control platform for display through the internal network.

In this example, the corrected processing result represents an actual processing result after the user performs the secondary processing or even the multiple processing on the shared data.

The working principle of the technical scheme has the beneficial effects that: in order to avoid errors occurring again when a user processes data, after the user processes shared data for two times or more times, whether the corresponding processing result is consistent with the logic processing result is judged, and the correction processing result is transmitted to the control platform until the two processing results are consistent, so that the error processing result can be effectively prevented from flowing to the control platform, and the workload of the control platform is reduced.

Example 6

Based on embodiment 1, the multi-user remote online collaborative design system based on data sharing, the feedback module includes:

The information collection unit is used for respectively acquiring the operation information of each execution terminal on the shared information in different preset time periods and establishing an information chain of each execution terminal;

the information statistics unit is used for establishing an information time axis according to the different preset time periods, searching non-blank information in each information chain respectively, acquiring the preset time period corresponding to the non-blank information, and marking the non-blank information on the information time axis to obtain an information statistics axis;

the information arrangement unit is used for establishing an execution information chain corresponding to each execution terminal according to the information statistical shaft, setting the execution information chain into an unmodified format and establishing feedback information;

and the information transmission unit is used for transmitting the feedback information to the control platform for display.

In this example, the preset time period may be 1 hour;

in this instance, the operation information represents information generated by the user in the process of operating the shared data by the execution terminal;

in this example, the information chain represents a result of arranging operation information corresponding to different time periods in time order;

in this example, the information time axis represents a time axis established according to a unit time of a preset time period and the number of preset time periods;

In this example, the non-blank information indicates information generated at a time when the operation pause does not occur in the process of processing the shared data by the user;

in this example, the blank information represents information corresponding to the moment when the user pauses the operation in the process of processing the shared data, and the generated information does not contain any effective information, so the blank information is called;

in the example, the information statistics axis counts the generation time corresponding to different non-blank information;

in this example, the execution information link represents useful information generated by the user in the data processing process performed by the execution terminal.

In this example, the feedback information includes all the generation moments corresponding to the non-blank information.

The working principle of the technical scheme has the beneficial effects that: in order to supervise remote office users, operation information generated in different time periods is acquired in the process of data processing of the users so as to establish an information chain, then an information time axis is established, non-blank information in the information chain is marked on the information time axis so as to obtain an information statistics axis, an execution information chain of an execution terminal can be obtained according to the information statistics axis, feedback information can be established, and finally the established feedback information is transmitted to a control platform for display.

Example 7

Based on embodiment 6, the multi-user remote online collaborative design system based on data sharing, the information statistics unit includes:

the first statistical subunit is used for establishing an information time axis according to the different preset time periods, respectively analyzing each information chain and obtaining the non-blank information prediction quantity in each information chain;

the second statistical subunit is used for traversing the information chain by using a preset blank sample, removing information points on the information chain, which are consistent with the preset blank sample, to obtain a plurality of non-blank information, and counting the actual number of the non-blank information corresponding to the same information chain;

the third statistical subunit is used for determining that the non-blank information searching is completed when the actual quantity of the non-blank information corresponding to the same information chain is consistent with the corresponding non-blank information prediction quantity;

and the fourth statistical subunit is used for acquiring a preset time period corresponding to the non-blank information after the non-blank information is searched, and marking the non-blank information on the information time axis to obtain an information statistical axis.

In this example, the non-blank information prediction number indicates the number of all information except blank information in one information chain;

In this example, only blank information and non-blank information are contained in one information chain;

in this example, the preset blank sample represents a unit message with a message of 0;

in this example, the actual number of non-blank information indicates the number of non-blank information obtained in one information chain after traversal;

in the example, when the actual number of the non-blank information corresponding to the same information chain is inconsistent with the predicted number of the non-blank information, omission is determined to occur in the traversal process, a preset blank sample is divided into one half of the original specification, a new blank sample is established, the corresponding information chain is traversed again by using the new blank sample, and the non-blank information correction number of the corresponding information chain is obtained.

The working principle of the technical scheme has the beneficial effects that: in order to improve the effectiveness of counting non-blank information and avoid information omission, the information chain is analyzed to obtain the predicted quantity of the non-blank information in the information chain, and the specific position of the non-blank information can not be obtained through simple analysis, so that the information chain is traversed by utilizing a preset blank sample to obtain the specific position of the non-blank information on the information chain, in order to further determine that all the non-blank information is searched, the actual quantity of the actually searched ethical non-blank information is compared with the predicted quantity, the effectiveness of a search result is judged by utilizing the convincing force of data, and finally the non-blank information meeting the search requirement is marked on an information time axis, so that an information statistical axis is established and the basis is established for the subsequent information feedback.

Example 8

The embodiment provides a multi-user remote online collaborative design method based on data sharing, as shown in fig. 2, including:

step 1: respectively acquiring first network information corresponding to each execution terminal and second network information of a control platform, and establishing an internal network according to the first network information and the second network information;

step 2: different shared data and different execution tasks are respectively issued to corresponding execution terminals through the internal network;

step 3: acquiring corresponding shared data and corresponding execution tasks, processing the shared data according to the execution tasks, and inputting the processed shared data to the control platform;

step 4: and collecting feedback information established by each execution terminal in the processing process of the shared data, and transmitting the feedback information to the control platform for display through the internal network.

In this example, the first network information represents information of a network to which the execution terminal accesses;

in this example, the second network information represents information of a network to which the control platform is connected;

in this example, the internal network represents a local area network between all execution terminals and the control platform;

In this example, the number of control platforms is one, the number of execution terminals is a plurality of, and each remote corresponds to one execution terminal;

in this example, the network module, the sharing module, and the feedback module are disposed on the control platform;

in this example, one execution task may correspond to multiple pieces of shared data;

in this example, the feedback information includes all traces of operations performed by the execution terminal on the shared data, including: and (3) performing CAD in-situ checking on the professional design data and progress, strictly standardizing the flow, collecting design process files in real time, signing and stamping and the like.

The working principle of the technical scheme has the beneficial effects that: in order to realize the remote online operation of multiple persons, an internal network is established according to networks accessed by different execution terminals and control platforms, shared data and execution tasks are issued to the execution terminals through the internal network, the remote personnel operate the execution terminals to process the shared data, the processed data are input into the control platform, each execution terminal is subjected to behavior supervision in the process, feedback information is established in the processing process of the shared data, the feedback information is input into the control platform for display, the established feedback information has non-repairable modification, a manager can monitor the working progress of remote workers through the feedback information, the existing network and related resources are fully utilized, a multiple-person remote online collaborative design system is established for a large traffic investigation design institute, cross-specialized collaborative design and flexible part application are realized through unified platform management, and the collaborative efficiency is improved.

Example 9

Based on embodiment 8, the method for online collaborative design of multiple people based on data sharing, as shown in fig. 3, the step 4 includes:

step 41: respectively acquiring operation information of each execution terminal on the shared information in different preset time periods, and establishing an information chain of each execution terminal;

step 42: establishing an information time axis according to the different preset time periods, respectively searching non-blank information in each information chain, acquiring the preset time period corresponding to the non-blank information, and marking the non-blank information on the information time axis to obtain an information statistical axis;

step 43: according to the information statistical shaft, an execution information chain corresponding to each execution terminal is established, the execution information chain is set to be in an unmodified format, and feedback information is established;

step 44: and transmitting the feedback information to the control platform for display.

In this example, the preset time period may be 1 hour;

in this instance, the operation information represents information generated by the user in the process of operating the shared data by the execution terminal;

in this example, the information chain represents a result of arranging operation information corresponding to different time periods in time order;

In this example, the information time axis represents a time axis established according to a unit time of a preset time period and the number of preset time periods;

in this example, the non-blank information indicates information generated at a time when the operation pause does not occur in the process of processing the shared data by the user;

in this example, the blank information represents information corresponding to the moment when the user pauses the operation in the process of processing the shared data, and the generated information does not contain any effective information, so the blank information is called;

in the example, the information statistics axis counts the generation time corresponding to different non-blank information;

in this example, the execution information link represents useful information generated by the user in the data processing process performed by the execution terminal.

In this example, the feedback information includes all the generation moments corresponding to the non-blank information.

The working principle of the technical scheme has the beneficial effects that: in order to supervise remote office users, operation information generated in different time periods is acquired in the process of data processing of the users so as to establish an information chain, then an information time axis is established, non-blank information in the information chain is marked on the information time axis so as to obtain an information statistics axis, an execution information chain of an execution terminal can be obtained according to the information statistics axis, feedback information can be established, and finally the established feedback information is transmitted to a control platform for display.

Example 10

Based on embodiment 9, the method for online collaborative design of multiple people based on data sharing, step 44, includes:

step 441: establishing an information time axis according to the different preset time periods, and respectively analyzing each information chain to obtain the non-blank information prediction quantity in each information chain;

step 442: traversing the information chain by using a preset blank sample, removing information points on the information chain consistent with the preset blank sample to obtain a plurality of non-blank information, and counting the actual number of the non-blank information corresponding to the same information chain;

step 443: when the actual quantity of the non-blank information corresponding to the same information chain is consistent with the corresponding non-blank information prediction quantity, determining that the non-blank information searching is completed;

step 444: after the non-blank information is searched, a preset time period corresponding to the non-blank information is obtained, and the non-blank information is marked on the information time axis to obtain an information statistical axis.

In this example, the non-blank information prediction number indicates the number of all information except blank information in one information chain;

in this example, only blank information and non-blank information are contained in one information chain;

In this example, the preset blank sample represents a unit message with a message of 0;

in this example, the actual number of non-blank information indicates the number of non-blank information obtained in one information chain after traversal;

in the example, when the actual number of the non-blank information corresponding to the same information chain is inconsistent with the predicted number of the non-blank information, omission is determined to occur in the traversal process, a preset blank sample is divided into one half of the original specification, a new blank sample is established, the corresponding information chain is traversed again by using the new blank sample, and the non-blank information correction number of the corresponding information chain is obtained.

The working principle of the technical scheme has the beneficial effects that: in order to improve the effectiveness of counting non-blank information and avoid information omission, the information chain is analyzed to obtain the predicted quantity of the non-blank information in the information chain, and the specific position of the non-blank information can not be obtained through simple analysis, so that the information chain is traversed by utilizing a preset blank sample to obtain the specific position of the non-blank information on the information chain, in order to further determine that all the non-blank information is searched, the actual quantity of the actually searched ethical non-blank information is compared with the predicted quantity, the effectiveness of a search result is judged by utilizing the convincing force of data, and finally the non-blank information meeting the search requirement is marked on an information time axis, so that an information statistical axis is established and the basis is established for the subsequent information feedback.

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

Claims (5)

1. A multi-person remote online collaborative design system based on data sharing, comprising:

the network module is used for respectively acquiring the first network information corresponding to each execution terminal and the second network information of the control platform, and establishing an internal network according to the first network information and the second network information;

the sharing module is used for respectively issuing different sharing data and different execution tasks to the corresponding execution terminals through the internal network;

the execution terminal is used for acquiring corresponding shared data and corresponding execution tasks, processing the shared data according to the execution tasks and inputting the processed shared data to the control platform;

the feedback module is used for collecting feedback information established by each execution terminal in the processing process of the shared data, and transmitting the feedback information to the control platform for display through the internal network;

The sharing module comprises:

the classification unit is used for acquiring a plurality of pieces of shared data and a plurality of execution tasks issued by the control platform, matching the corresponding shared data for each execution task according to the execution process corresponding to each execution task, and establishing a task-data group;

the matching unit is used for acquiring local area networks corresponding to different execution terminals from the internal network, and establishing a transmission scheme by combining task-data sets corresponding to the different execution terminals;

the transmission unit is used for transmitting the task-data group to the corresponding execution terminal through different local area networks based on the transmission scheme;

the feedback module comprises:

the information collection unit is used for respectively acquiring the operation information of each execution terminal on the shared information in different preset time periods and establishing an information chain of each execution terminal;

the information statistics unit is used for establishing an information time axis according to the different preset time periods, searching non-blank information in each information chain respectively, acquiring the preset time period corresponding to the non-blank information, and marking the non-blank information on the information time axis to obtain an information statistics axis;

The information arrangement unit is used for establishing an execution information chain corresponding to each execution terminal according to the information statistical shaft, setting the execution information chain into an unmodified format and establishing feedback information;

the information transmission unit is used for transmitting the feedback information to the control platform for display;

the information statistics unit includes:

the first statistical subunit is used for establishing an information time axis according to the different preset time periods, respectively analyzing each information chain and obtaining the non-blank information prediction quantity in each information chain;

the second statistical subunit is used for traversing the information chain by using a preset blank sample, removing information points on the information chain, which are consistent with the preset blank sample, to obtain a plurality of non-blank information, and counting the actual number of the non-blank information corresponding to the same information chain;

the third statistical subunit is used for determining that the non-blank information searching is completed when the actual quantity of the non-blank information corresponding to the same information chain is consistent with the corresponding non-blank information prediction quantity;

and the fourth statistical subunit is used for acquiring a preset time period corresponding to the non-blank information after the non-blank information is searched, and marking the non-blank information on the information time axis to obtain an information statistical axis.

2. The data sharing-based multi-person remote online collaborative design system according to claim 1, wherein the network module includes:

the acquisition unit is used for respectively acquiring a first public network corresponding to each execution terminal and a second public network corresponding to the control platform;

the analysis unit is used for respectively analyzing each first public network to obtain a plurality of first channels corresponding to each first public network, and analyzing the second public network to obtain a second channel corresponding to the second public network;

and the networking unit is used for establishing local area networks of each execution terminal and the control platform by utilizing the first channel and the second channel, acquiring all the local area networks and performing network optimization to obtain an internal network.

3. The data sharing-based multi-user remote online collaborative design system according to claim 1, wherein the execution terminal comprises:

a receiving unit for receiving the shared data and executing tasks;

the preparation unit is used for acquiring task logic information of the execution task, establishing an execution logic model based on the task logic information, and obtaining corresponding execution object information according to the execution task;

The processing unit is used for acquiring a corresponding execution object according to the execution object information, inputting the execution object and the shared data into the execution logic model for logic processing, and obtaining a corresponding logic processing result;

the execution unit is used for acquiring an actual processing result of the shared data by a user and judging whether the logic processing result is consistent with the actual processing result or not;

and the display unit is used for generating and displaying a reprocessing instruction when the actual processing result is inconsistent with the logic processing result.

4. The multi-user remote online collaborative design system based on data sharing according to claim 3, wherein the execution terminal further comprises:

the supervising unit is used for acquiring a correction processing result after the user carries out corresponding processing on the shared data based on the reprocessing instruction and judging whether the correction processing result is consistent with the logic processing result or not;

and when the correction processing results are consistent, transmitting the correction processing results to the control platform for display through the internal network.

5. The multi-user remote online collaborative design method based on data sharing is characterized by comprising the following steps of:

Step 1: respectively acquiring first network information corresponding to each execution terminal and second network information of a control platform, and establishing an internal network according to the first network information and the second network information;

step 2: different shared data and different execution tasks are respectively issued to corresponding execution terminals through the internal network;

step 3: acquiring corresponding shared data and corresponding execution tasks, processing the shared data according to the execution tasks, and inputting the processed shared data to the control platform;

step 4: collecting feedback information established by each execution terminal in the processing process of the shared data, and transmitting the feedback information to the control platform for display through the internal network;

the step 2 includes:

step 21, acquiring a plurality of pieces of shared data and a plurality of execution tasks issued by a control platform, respectively matching corresponding shared data for each execution task according to an execution process corresponding to each execution task, and establishing a task-data group;

step 22, obtaining local area networks corresponding to different execution terminals in the internal network, and establishing a transmission scheme by combining task-data groups corresponding to different execution terminals;

Step 23, transmitting the task-data group to a corresponding execution terminal through different local area networks based on the transmission scheme;

the step 4 includes:

step 41: respectively acquiring operation information of each execution terminal on shared information in different preset time periods, and establishing an information chain of each execution terminal;

step 42: establishing an information time axis according to the different preset time periods, respectively searching non-blank information in each information chain, acquiring the preset time period corresponding to the non-blank information, and marking the non-blank information on the information time axis to obtain an information statistical axis;

step 43: according to the information statistical shaft, an execution information chain corresponding to each execution terminal is established, the execution information chain is set to be in an unmodified format, and feedback information is established;

step 44: transmitting the feedback information to the control platform for display;

the step 44 includes:

step 441: establishing an information time axis according to the different preset time periods, and respectively analyzing each information chain to obtain the non-blank information prediction quantity in each information chain;

step 442: traversing the information chain by using a preset blank sample, removing information points on the information chain consistent with the preset blank sample to obtain a plurality of non-blank information, and counting the actual number of the non-blank information corresponding to the same information chain;

Step 443: when the actual quantity of the non-blank information corresponding to the same information chain is consistent with the corresponding non-blank information prediction quantity, determining that the non-blank information searching is completed;

step 444: after the non-blank information is searched, a preset time period corresponding to the non-blank information is obtained, and the non-blank information is marked on the information time axis to obtain an information statistical axis.