CN113077229B - Multiparty information interaction system and method based on BIM - Google Patents
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06Q10/06316—Sequencing of tasks or work
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- G—PHYSICS
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/10—Network architectures or network communication protocols for network security for controlling access to devices or network resources
Abstract
The invention belongs to the technical field of information interaction systems, and particularly relates to a multiparty information interaction system and method based on BIM, wherein the system comprises a login verification unit, an information input unit, a model construction unit, a message sending unit and a message receiving list; the login verification unit is used for registering, logging and identity verification; the information input unit is used for inputting design data and engineering data; the model building unit is used for carrying out BIM modeling according to the design data and carrying out engineering information association based on the BIM model; the message sending unit is used for issuing the message and designating the topic type of the message; the message receiving unit is used for selecting the topic type of the received message and is also used for receiving the message of the selected topic type. By using the system, the communication efficiency of each department can be effectively improved, and the construction period problem and the engineering quantity calculation problem caused by the communication problem are reduced.
Description
Technical Field
The invention belongs to the technical field of information interaction systems, and particularly relates to a multiparty information interaction system and method based on BIM.
Background
The engineering project usually involves a plurality of responsible parties (construction, investigation, design, supervision, construction and the like) due to the fact that the process is multiple and the volume is large, not only is each responsible party work more, but also places needing communication among all responsible parties are involved, communication is improper, the progress of engineering is affected, and all engineering volume calculation after engineering completion is easy to cause disputes.
In order to avoid such a situation, it is necessary that each responsible party can communicate effectively and timely. However, in the existing software related to project management, the following problems exist in communication between departments (i.e., responsible parties):
The communication between the first department and each department is linear association, the management structure is complex, and when one department needs to find the other department to communicate, a complex flow is needed to be carried out, so that the communication efficiency is low; secondly, although each department has own functions, due to the fact that the departments are more and each department has more functions, the functions among certain departments can also cross, and many times, staff cannot confirm which department a specific object should communicate with; secondly, because the existing management software is a two-dimensional design drawing and related data storage and display mode, when different departments communicate, the calculation and checking work of the data is very time-consuming and labor-consuming, and in other words, the management layer and the technical layer are disjointed during communication. For the above reasons, the existing management software is used, so that the communication efficiency between departments is very low, and the construction period and the subsequent engineering amount calculation are not slightly negatively influenced.
Therefore, a multiparty information interaction system and method based on BIM are needed, which can effectively improve the communication efficiency of each department, and reduce the construction period problem and the engineering quantity calculation problem caused by the communication problem.
Disclosure of Invention
The invention aims to provide a multiparty information interaction system and method based on BIM, which can effectively improve the communication efficiency of each department and reduce the construction period problem and the engineering quantity calculation problem caused by the communication problem.
In order to solve the technical problems, the application provides the following technical scheme:
A multiparty information interaction system based on BIM comprises a login verification unit, an information input unit, a model construction unit, a message sending unit and a message receiving list;
the login verification unit is used for registering, logging and identity verification;
the information input unit is used for inputting design data and engineering data;
the model building unit is used for carrying out BIM modeling according to the design data and carrying out engineering information association based on the BIM model;
the message sending unit is used for issuing the message and designating the topic type of the message;
the message receiving unit is used for selecting the topic type of the received message and is also used for receiving the message of the selected topic type.
The basic scheme principle and the beneficial effects are as follows:
when the system is used, staff of each responsible party can register, verify identity and log in through the log-in verification unit, and the identity of the staff can be verified in advance in such a way, so that irrelevant staff can be prevented from logging in the system.
Then, a worker of a designer can input design data through an information input unit, a model building unit carries out BIM modeling according to the design data, and engineering display is carried out in a simulation mode; then, the staff of each responsible party can input engineering data through the information input unit, and the model construction unit is associated with the polarity engineering information based on the BIM model, namely the model construction unit carries out associated mounting on the input data (such as materials, sizes, quantity, construction period and the like) associated with each component of the BIM model. Therefore, through the BIM model of the associated engineering information, staff of each responsible party can quickly and accurately acquire the required relevant information, and whether the data are reasonable or not can be easily known due to the simulation effect of the BIM model.
Because the contents of responsibility of all responsible parties are different, in order to avoid communication, the system pushes the topic information irrelevant to the system, the staff can select the topic type of the received message by the message receiving unit, and then the system pushes the topic type of the message to the user side of the staff, so that the system can avoid receiving the irrelevant information, and meanwhile, can avoid missing a certain important piece of information, thereby not only being convenient to record and being capable of arranging the processing sequence according to the quantity and the specific content of the recently received content when processing.
Similarly, when a situation needs to communicate with other responsible parties (departments), when the content of the open trench is written, the staff needs to make the topic type of the message, so that even if the staff does not know which department or departments (i.e. responsible parties) should be specifically found to communicate, the system can automatically push the message to the user side of the corresponding department personnel according to the topic type. The situation that the staff sending the message inquires the responsible departments next to each other is omitted, and time is saved.
In addition, when specific communication is carried out, as the system has the BIM model after the engineering information is associated and mounted, in the communication content, both parties can communicate according to the specific BIM model and the associated and mounted content, so that not only is the rational and reliable performance realized, but also the technology can be more intuitively and smoothly understood due to high visualization and simulation degree, and the required component content can be quickly acquired without excessive calculation and verification; the communication efficiency can be further improved while the communication effectiveness is ensured, and the effective fusion of management and technology is realized.
In conclusion, the system can effectively improve the communication efficiency of each department and reduce the construction period problem and the engineering quantity calculation problem caused by the communication problem.
Further, the system also comprises a prompting unit and a marking unit, wherein the prompting unit is used for sending a prompt when receiving information, and the marking unit is used for marking the received information.
And a prompt is sent after the message is received, so that staff pay attention to timely processing. However, due to a large number of items in engineering projects, a plurality of messages are often received in a short time. The staff can mark the message according to the received message content and the emergency or importance degree, so that the follow-up processing is convenient to carry out in a planned way, and the overall working quality is improved.
Further, the message receiving unit is further configured to select a reminding manner when the message of each topic type is received.
For each responsible party, the importance degree of the messages of different topic types is different, some messages need emergency treatment, some messages can be slowly treated, and the situation that the staff ignores the messages needing emergency treatment can be prevented by setting a reminding mode.
Further, the system also comprises a storage unit and a statistics unit, wherein the storage unit is used for storing the recorded design data and engineering data, the statistics unit is used for generating an engineering ledger according to the stored engineering data, and the engineering ledger comprises a planning ledger and an actual ledger.
Accounting of budget and actual engineering can be completed rapidly through the statistics unit, time is saved, and reliability is high.
Further, the engineering ledger also includes a change fee.
When there is a large deviation between the budget and the actual costs, it is possible to quickly and comprehensively understand where/where the deviation is generated.
Further, the message sending unit is further used for conducting semantic analysis based on the content of the sent information and conducting topic type recommendation based on the semantic analysis result.
The operation is more convenient, and workers can find the topic type of the message accurately, so that the message can be pushed to related departments accurately.
Further, the message receiving unit is also configured to modify a topic type of the received message.
By such a setting, when the staff mistakes the topic type, the topic type of the received message can be modified in time.
The invention also provides a multiparty information interaction method based on BIM, which uses the multiparty information interaction system based on BIM.
Drawings
Fig. 1 is a logic block diagram of a first embodiment of the present invention.
Detailed Description
The following is a further detailed description of the embodiments:
Example 1
As shown in FIG. 1, the multi-party information interaction system based on BIM comprises a login verification unit, an information input unit, a model building unit, a message sending unit, a message receiving unit, a storage unit and a statistics unit.
The model building unit, the storage unit and the statistics unit are integrated in a server, and in the embodiment, the server is a cloud server; the login verification unit, the information input unit, the information sending unit and the information receiving unit are integrated at the user side, in this embodiment, the user side is a smart phone loaded with a corresponding APP, and in other embodiments, the user side may also be a smart tablet loaded with a corresponding APP or a PC loaded with corresponding application software. Each responsible party and management department has respective user end.
The login verification unit is used for registering, logging and identity verification. The information input unit is used for inputting design data and engineering data. The model building unit is used for carrying out BIM modeling according to the design data and carrying out engineering information association based on the BIM model.
The storage unit is used for storing the recorded design data and engineering data, the statistics unit is used for generating an engineering ledger according to the stored engineering data, and the engineering ledger comprises a planning ledger and an actual ledger. Accounting of budget and actual engineering can be completed rapidly through the statistics unit, time is saved, and reliability is high. The engineering ledger also includes a change fee. When there is a large deviation between the budget and the actual costs, it is possible to quickly and comprehensively understand where/where the deviation is generated.
The message sending unit is used for issuing the message and designating the topic type of the message; the message receiving unit is used for selecting the topic type of the received message and is also used for receiving the message of the selected topic type. The message sending unit is also used for carrying out semantic analysis based on the content of the sent information and carrying out topic type recommendation based on the semantic analysis result. Thus, the operation is more intelligent, and workers can conveniently find the topic type of the message accurately, and further the message is pushed to related departments accurately. The message receiving unit is further adapted to modify the topic type of the received message. By such a setting, when the staff mistakes the topic type, the topic type of the received message can be modified in time.
The specific implementation process is as follows:
when the system is used, staff of each responsible party can register, verify identity and log in through the log-in verification unit, and the identity of the staff can be verified in advance in such a way, so that irrelevant staff can be prevented from logging in the system.
Then, a worker of a designer can input design data through an information input unit, a model building unit carries out BIM modeling according to the design data, and engineering display is carried out in a simulation mode; then, the staff of each responsible party can input engineering data through the information input unit, and the model construction unit is associated with the polarity engineering information based on the BIM model, namely the model construction unit carries out associated mounting on the input data (such as materials, sizes, quantity, construction period and the like) associated with each component of the BIM model. Therefore, through the BIM model of the associated engineering information, staff of each responsible party can quickly and accurately acquire the required relevant information, and whether the data are reasonable or not can be easily known due to the simulation effect of the BIM model.
Because the contents of responsibility of all responsible parties are different, in order to avoid communication, the system pushes the topic information irrelevant to the system, the staff can select the topic type of the received message by the message receiving unit, and then the system pushes the topic type of the message to the user side of the staff, so that the system can avoid receiving the irrelevant information, and meanwhile, can avoid missing a certain important piece of information, thereby not only being convenient to record and being capable of arranging the processing sequence according to the quantity and the specific content of the recently received content when processing.
Similarly, when a situation needs to communicate with other responsible parties (departments), when the content of the open trench is written, the staff needs to make the topic type of the message, so that even if the staff does not know which department or departments (i.e. responsible parties) should be specifically found to communicate, the system can automatically push the message to the user side of the corresponding department personnel according to the topic type. The situation that the staff sending the message inquires the responsible departments next to each other is omitted, and time is saved.
In addition, when specific communication is carried out, as the system has the BIM model after the engineering information is associated and mounted, in the communication content, both parties can communicate according to the specific BIM model and the associated and mounted content, so that not only is the rational and reliable performance realized, but also the technology can be more intuitively and smoothly understood due to high visualization and simulation degree, and the required component content can be quickly acquired without excessive calculation and verification; the communication efficiency can be further improved while the communication effectiveness is ensured, and the effective fusion of management and technology is realized.
In conclusion, the system can effectively improve the communication efficiency of each department and reduce the construction period problem and the engineering quantity calculation problem caused by the communication problem.
The invention also provides a multiparty information interaction method based on BIM, which uses the multiparty information interaction system based on BIM.
Example two
The difference between the present embodiment and the first embodiment is that in this embodiment, the apparatus further includes a prompting unit and a marking unit, the prompting unit is configured to send a prompt when receiving information, and the marking unit is configured to mark the received information. The message receiving unit is also used for selecting a reminding mode when the message of each theme type is received.
And a prompt is sent after the message is received, so that staff pay attention to timely processing. However, due to a large number of items in engineering projects, a plurality of messages are often received in a short time. The staff can mark the message according to the received message content and the emergency or importance degree, so that the follow-up processing is convenient to carry out in a planned way, and the overall working quality is improved. On the other hand, as the importance degree of the messages of different topic types is different for each responsible party, some messages need urgent processing, some messages can be processed slowly, and the situation that the staff ignores the messages needing urgent processing can be prevented by setting a reminding mode.
Example III
Sometimes, collaborative processing work is encountered, which requires a plurality of departments to collaborate, and the processing content of some departments affects the processing content of other departments; for example, when the calculation amount is calculated, the calculation result of a certain department for a certain link may be used as the calculation condition of another department, and in some cases, a complex situation of mutually crossing processing of a plurality of departments may occur. Upon receiving these tasks requiring collaboration, it is often difficult for each department to know whether or not it is able to perform the current task, and which of these tasks should begin first. Thus, such work requiring cooperative processing is often very slow to develop.
Different from the first embodiment, in this embodiment, the client includes a PC loaded with corresponding software and a smart phone loaded with corresponding APP, where the smart phone is configured to obtain real-time positioning of the client and send the server; the server stores working coordinates of all the user terminals;
the server is also used for splitting the collaborative processing task into a plurality of processing matters after receiving the collaborative processing task; the server stores the association relation and the sequence of the processing matters in each collaborative processing task;
The server is also used for acquiring the real-time positioning of each user side after receiving the collaborative processing task, and marking the department corresponding to the user side as a department capable of working if the distance between the real-time positioning of the user side and the working coordinate of the corresponding working department is not greater than a preset distance;
the server is also used for analyzing the current processing matters according to the departments capable of working, combing a processing sorting table by combining the association relation and the sequence of the processing matters, wherein the processing sorting table comprises a plurality of task sorting chains, and each task sorting chain comprises a plurality of specific tasks which are sequentially sorted; the server also matches specific tasks which can be processed currently by each department and the position of each specific task in the corresponding task sequencing chain;
The server also pre-stores the estimated time of each specific task; the server is also used for predicting the processing starting time of each specific task of each department according to the predicted time of each specific task, and carrying out first sequencing on the specific tasks of each department according to the processing starting time and the sequence; when a certain gate has a difference value of processing start time between two or more specific tasks smaller than a first threshold value, and the difference value of processing start time of the specific task which is started first and the specific task which is started last is smaller than a second threshold value, the server is further used for carrying out second sorting on the specific tasks, and when the second sorting is carried out, the server sorts the specific tasks according to the number of subsequent specific tasks in a corresponding task sorting chain from more to less, and if the number of the subsequent specific tasks is consistent, sorting is carried out according to the sum of the estimated time of the subsequent specific tasks from more to less; wherein each specific task is only subjected to the second sorting at most;
the server is further used for generating a specific task ordering table of each department according to the first ordering and the second ordering, and sending the specific task ordering table to corresponding user ends of each department capable of working.
The specific implementation process is as follows:
When the system is used for processing tasks which require the cooperation of a plurality of departments, firstly, the server judges which departments can perform the current cooperation work according to the real-time positioning and the working coordinates of the user side of each department. The server then analyzes the currently available transactions according to the available departments, thus allowing the available departments to concentrate on using time on the currently available transactions.
The general ordering of the specific tasks that each department can process can be arranged by subsequently performing the first ordering on the specific tasks of each department. Through the second sorting, sorting optimization can be performed on the basis of the first sorting, and specific conditions of each task sorting chain are referred to while the internal processing efficiency of departments is basically not affected, so that the overall processing efficiency of the whole collaborative processing task can be accelerated.
And then, the server generates a specific task ordering table of each department according to the first ordering and the second ordering, and sends the specific task ordering table to the corresponding user end of each department capable of working. Each workable department can accurately start the work which can be started as soon as possible. The cooperative processing task is completed as soon as possible, so that the follow-up tasks (departments which cannot currently work) are few, and communication is convenient on the basis that the general work is completed.
In conclusion, the system can greatly improve the completion efficiency of the cooperative processing task requiring the cooperative cooperation of a plurality of departments.
The foregoing is merely an embodiment of the present application, the present application is not limited to the field of this embodiment, and the specific structures and features well known in the schemes are not described in any way herein, so that those skilled in the art will know all the prior art in the field before the application date or priority date of the present application, and will have the capability of applying the conventional experimental means before the date, and those skilled in the art may, in light of the present application, complete and implement the present scheme in combination with their own capabilities, and some typical known structures or known methods should not be an obstacle for those skilled in the art to practice the present application. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present application, and these should also be considered as the scope of the present application, which does not affect the effect of the implementation of the present application and the utility of the patent. The protection scope of the present application is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.
Claims (5)
1. A multiparty information interaction system based on BIM, characterized in that: the system comprises a login verification unit, an information input unit, a model construction unit, a message sending unit, a message receiving unit, a storage unit, a statistics unit, a prompt unit, a marking unit, a server and a user side;
the login verification unit is used for registering, logging and identity verification;
the information input unit is used for inputting design data and engineering data;
the engineering data comprises materials, sizes, numbers and construction periods;
the model building unit is used for carrying out BIM modeling according to the design data and carrying out engineering information association based on the BIM model;
the message sending unit is used for issuing the message and designating the topic type of the message;
The message receiving unit is used for selecting the topic type of the received message, receiving the message of the selected topic type and selecting the reminding mode when the message of each topic type is received;
The storage unit is used for storing the recorded design data and engineering data, the statistics unit is used for generating an engineering ledger according to the stored engineering data, and the engineering ledger comprises a planning ledger and an actual ledger;
The prompting unit is used for sending a prompt when receiving the information, and the marking unit is used for marking the received information;
The staff marks the message according to the received message content and the emergency or importance degree;
The user terminal comprises a PC for loading software corresponding to the multiparty information interaction system and a smart phone for loading APP corresponding to the multiparty information interaction system;
The intelligent mobile phone is used for acquiring the real-time positioning of the user side and sending the server; the server stores working coordinates of all the user terminals;
The user is also used for sending a cooperative processing task to the server; the server is also used for splitting the collaborative processing task into a plurality of processing matters after receiving the collaborative processing task; the server stores the association relation and the sequence of the processing matters in each collaborative processing task;
The server is also used for acquiring the real-time positioning of each user side after receiving the collaborative processing task, and marking the department corresponding to the user side as the department for working if the distance between the real-time positioning of the user side and the working coordinate of the corresponding working department is not greater than the preset distance;
The server is also used for analyzing the current processing matters according to the departments for working, combing a processing sorting table by combining the association relation and the sequence of the processing matters, wherein the processing sorting table comprises a plurality of task sorting chains, and each task sorting chain comprises a plurality of specific tasks which are sequentially sorted; the server also matches specific tasks which can be processed currently by each department and the position of each specific task in the corresponding task sequencing chain;
The server also pre-stores the estimated time of each specific task; the server is also used for predicting the processing starting time of each specific task of each department according to the predicted time of each specific task, and carrying out first sequencing on the specific tasks of each department according to the processing starting time and the sequence; when a certain gate has a difference value of processing start time between two or more specific tasks smaller than a first threshold value, and the difference value of processing start time of the specific task which is started first and the specific task which is started last is smaller than a second threshold value, the server is further used for carrying out second sorting on the specific tasks, and when the second sorting is carried out, the server sorts the specific tasks according to the number of subsequent specific tasks in a corresponding task sorting chain from more to less, and if the number of the subsequent specific tasks is consistent, sorting is carried out according to the sum of the estimated time of the subsequent specific tasks from more to less; wherein each specific task is only subjected to the second sorting at most;
the server is further used for generating a specific task ordering table of each department according to the first ordering and the second ordering, and sending the specific task ordering table to corresponding user ends of each department capable of working.
2. The BIM-based multiparty information interaction system according to claim 1, wherein: the engineering ledger also includes a change fee.
3. The BIM-based multiparty information interaction system according to claim 1, wherein: the message sending unit is also used for carrying out semantic analysis based on the content of the sent information and carrying out topic type recommendation based on the semantic analysis result.
4. A BIM-based multiparty information interaction system according to claim 3, wherein: the message receiving unit is further adapted to modify the topic type of the received message.
5. A multiparty information interaction method based on BIM is characterized in that: use of a BIM-based multiparty information interaction system according to any of claims 1 to 4.
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