CN110110465B - Management system for city design - Google Patents

Abstract

The invention relates to a management system for city design, comprising: the system comprises at least one design server, a management server and a cloud database; the design server is used for acquiring the design result of the designer and sending the design result to the management server; the management server is used for displaying the design result and sending the design result to the cloud database according to the triggering of a manager; the cloud database is used for storing the current data and the design results; the invention integrates design, management and application into a whole, realizes efficient sharing of data and functional modules and seamless butt joint of design results and a management platform, and can directly realize design and modification of urban design result elements through rich design functions. The invention has simple operation process, cost saving, online operation and strong confidentiality.

Description

Management system for city design

Technical Field

The invention belongs to the technical field of urban design, and particularly relates to a management system for urban design.

Background

Due to population growth, aging infrastructure, aging labor, and reduced revenue, municipalities need to meet the ever-increasing demand for infrastructure. There is a need for location-based geographic information and engineering data to help improve the planning, design, and management of various public service, transportation, and municipal engineering infrastructures. In order to build a more intelligent city, three-dimensional city software is produced.

The existing three-dimensional city software mainly comprises large scene browsing and service management, and is completed by two modules, namely an independent management part and an independent design part. The management part can only browse queries and cannot modify the design, the design modification can be carried out only by exporting the data to the design part and then importing the data to the management part after modification, and the data of the whole scene can be finally seen. However, in the urban planning and construction process, the informatization process is accelerated continuously, and along with a large amount of old city transformation or urban area new construction, the urban design is often performed by means of third-party professional modeling software, for example: the method comprises the steps that manual modeling software such as 3dmax and revit which is commonly used in the industry needs to be sequentially imported after design is completed, whether data standard specifications are met or not and the overall effect harmony of an observation scene is detected, when the manual modeling software is inconsistent with the requirements such as inconsistency and incongruity, the manual modeling software needs to be returned again for modification, and the final scheme is determined after repeated rounds until the manual modeling software passes the auditing. The whole process presents a series of problems of complex flow, low efficiency, long design period, much resource investment and the like.

In addition, off-line design needs to be carried out by means of modeling software in the design process, the design is finished, the platform can be imported after a plurality of schemes are manually combined, and the problems of information isolated island, untimely updating, poor confidentiality and the like are easy to occur due to the fact that the whole data line flows downwards.

Disclosure of Invention

In view of this, the present invention aims to overcome the defects of the prior art, and provides a management system for city design to solve the problems of the prior art, such as complicated flow, low efficiency, long design period, high resource investment, easy occurrence of information islands, untimely update, and poor confidentiality during city design.

In order to realize the purpose, the invention adopts the following technical scheme: a management system for city design, comprising: the system comprises at least one design server, a management server and a cloud database;

the design server is used for acquiring the design result of a designer and sending the design result to the management server;

the management server is used for displaying the design result and sending the design result to the cloud database according to the triggering of a manager;

and the cloud database is used for storing the design result.

Furthermore, each design server corresponds to at least one design terminal;

the design terminal is used for generating the design result, sending the design result to the design server, and sending a result access request to the cloud database, wherein the result access request comprises a design result identifier to be accessed;

and the cloud database is used for receiving the access request of the design terminal, searching a corresponding design result according to the identification of the design result to be accessed, and providing the design terminal with access.

Further, the management server comprises a first authority management module;

the first authority management module is used for establishing a first design account for the design server, setting a first function authority for the first design account, and sending corresponding first account information and first function authority to the design server corresponding to each first design account;

and the design server receives and accesses the management server according to the first account information and the first function authority.

Further, the design server comprises a second authority management module;

the second authority management module is used for establishing a second design account for the design terminal, setting a second function authority for the second design account, and sending corresponding second account information and second function authority to the design terminal corresponding to each second design account;

and the design terminal receives and accesses the design server according to the second account information and the second function authority.

Further, the management server further includes a presence data providing module;

and the current data supply module is used for acquiring current data before design corresponding to the design result and sending the current data to the corresponding design terminal.

Further, the design server further comprises an online correction module;

and the online correction module is used for the designer to perform online correction on the corresponding design result according to the second function permission of the design terminal.

Further, the design server comprises a BIM database;

and the BIM database is used for storing the design result of the corresponding design terminal.

Further, the design terminal adopts:

and the design terminal saves the design result as a DIM format file and stores the DIM format file.

Further, the design terminal is further configured to send the real-time updated presence data to the design server;

and the presence data supply module is also used for updating the presence data in real time according to the updating content sent by the design terminal.

Further, the cloud database adopts:

CIM spatial database.

By adopting the technical scheme, the invention can achieve the following beneficial effects:

according to the invention, by arranging the design server, the management server and the cloud database, design and management are fused, a dynamic and visual design module is provided for a user, the difficult problem of high-efficiency and flexible data creation and editing in a big data environment is solved, design, management and application are integrated, high-efficiency data and function module sharing and seamless butt joint of a design result and a management platform are realized, and design and modification of city design result elements can be directly realized through rich design functions. The method has the advantages of simple operation process, cost saving, online operation and strong confidentiality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a management system for city design according to the present invention;

FIG. 2 is another schematic diagram of the management system for city design according to the present invention;

FIG. 3 is a schematic diagram of a subject topology in the system of FIG. 1;

FIG. 4 is a diagram illustrating steps of a method for designing a server according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

A specific management system for city design provided in the embodiments of the present application is described below with reference to the accompanying drawings.

As shown in fig. 1, the management system for city design provided in the embodiment of the present application includes at least one design server, a management server, and a cloud database;

the design server 1 is used for acquiring the design result of a designer and sending the design result to the management server;

the management server 2 is used for displaying the design result and sending the design result to the cloud database according to the triggering of a manager;

and the cloud database 3 is used for storing the current data and the design results.

The working principle of the management system for city design is as follows: the design server 1 acquires the design result of the designer and sends the design result to the management server 2; the management server 2 displays the design result and sends the design result to the cloud database 3 according to the triggering of a manager; the cloud database 3 stores design results.

The number of the design servers 1 may be multiple, and each design server 1 corresponds to a different design task, for example: when a city is designed, different areas of the city can be used as different design tasks, different design tasks are distributed to different design servers 1 to be completed, the design servers 1 send design results to the management server 2 after completing the design, the management server 2 can display a plurality of design results, the design results can be sent to the cloud database 3 according to the triggering of management personnel, a perfect comprehensive solution is provided for the city design, the design is flexible, and the management is convenient.

In some embodiments, as shown in fig. 2, each design server 1 corresponds to at least one design terminal;

the design terminal is used for generating a design result, sending the design result to the design server 1 and sending a result access request to the cloud database 3, wherein the result access request comprises a mark of the design result to be accessed;

and the cloud database 3 is used for receiving the access request of the design terminal, searching the corresponding design result according to the identification of the design result to be accessed, and providing the design terminal with access.

Specifically, a plurality of design servers 1 are connected with a management server 2 in a cascading manner, wherein a plurality of design terminals exist in the design servers 1, the design terminals send design results to the design servers 1, and can also send result access requests to a cloud database 3, the result access requests include access design result identifiers, corresponding design results can be found in the cloud database 3 by using the design result identifiers, it needs to be noted that the design terminals can only find the design results corresponding to the design result identifiers, and cannot see other design results, so that the confidentiality of the application is enhanced.

For example, as shown in fig. 2, the management server 2 may be a natural resource bureau server, and the design server 1 may be each design house server subordinate to the natural resource bureau. And the natural resource bureau manager divides urban areas into subordinate design houses to carry out urban design, namely, the management personnel distribute design authorities. The design authority means that a manager of the natural resource bureau can specify a design part of each design house, and the design houses carry out design according to the design part. And checking the design results submitted by each design institute by a manager of the natural resource bureau, and storing the design results into the cloud database 3 after the checking is passed.

Preferably, the management server 2 comprises a first rights management module;

the first authority management module is used for establishing first design accounts for the design servers, setting first function authorities for the first design accounts, and sending corresponding first account information and first function authorities to the design servers 1 corresponding to each first design account;

and designing the server 1, receiving and accessing the management server 2 according to the first account information and the first function authority.

Specifically, the first function authority is that the first design account can send the design result to the management server 2 or obtain the design result from the management server 2.

For example, as shown in fig. 3, the natural resource bureau sets up a design institute account through a management function, and allocates a function right, a design right, and a data right to each design institute, the design institute logs in the allocated account and can see the current data authorized by the natural resource bureau and the required design range, and the design institute can also access the natural resource bureau server according to the obtained rights. The design house can distribute the design range into a plurality of sub-design ranges to a plurality of designers, and the designers of the same design house can design cooperatively.

In some embodiments, the design server 1 includes a second rights management module;

the second authority management module is used for establishing second design accounts for the design terminals, setting second function authorities for the second design accounts, and sending corresponding second account information and second function authorities to the design terminals corresponding to each second design account;

and the design terminal receives and accesses the design server 1 according to the second account information and the second function authority.

Wherein the second function authority is that the design terminal can send the design result to the design server 1 or obtain the design result from the design server 1.

The design terminal further comprises a management end and a design end, the management end is controlled by a manager, the design end is controlled by a designer, the management end has authorization and approval rights while having design rights, when the designer finishes a design result through the design end, the design result is uploaded to the management end so that the manager can check and examine the design result, the manager examines and examines the design result, and if the examination and examination are passed, the final design result is submitted to the management server 2 through the management end and uploaded to the management server 2 to be examined and examined by the manager of the management server 2. And if the audit is not passed, sending the result back to the corresponding designer for modification. The designer can store the design result at the design end to prevent the design result from being lost, and the designer of the same design server 1 can share the design result. It should be noted that the design results cannot be shared among different design servers 1. Specifically, the administrator of the management server 2 can audit the data result uploaded by the design server 1, and upload the design result that passes the audit to the cloud database 3. If the audit is not passed, it may be sent back to the design server 1 for modification.

It should be noted that, the administrator of the design institute allocates the authority by the administrator of the natural resource bureau, each design institute can only see the design result of the design institute, and can see the design result within the authorized range of the natural resource bureau, and when the general server of the natural resource bureau is disconnected, the design institute can not see the existing planning data of the natural resource bureau, so the characteristic of strong confidentiality is realized. Meanwhile, a plurality of design servers are adopted for collaborative design, data are shared among the same design servers, a design end carries out local design, after the design is finished, a design result is uploaded to a management end and is put into a design institute server, a design institute manager enters a natural resource bureau server again, and the whole process data are transmitted on a data line. The whole design process of the application is finished on line, and the modification is convenient.

In some embodiments, the management server further comprises a presence data provisioning module;

and the current data supply module is used for acquiring the current data before the design corresponding to the design result and sending the current data to the corresponding design terminal.

Specifically, the designer can compare the design result with the current situation data in the design process, the current situation data and the design result are not required to be imported into other software for comparison, the cost is saved, and the timeliness and the confidentiality of the data are guaranteed.

In some embodiments, the design server 1 further comprises an online revision module;

and the online correction module is used for the designer to perform online correction on the corresponding design result according to the second function permission of the design terminal.

Specifically, when a manager of a design institute is not satisfied with the design result of a designer, the manager can send the design result back to the designer, so that the designer can correct the design result; or when the manager of the natural resource bureau is not satisfied with the design result of a certain design institute, the design result can be sent back to the design institute and corrected by the design institute.

Preferably, the design server 1 includes a BIM database;

and the BIM database is used for storing the design results of the corresponding design terminals.

Preferably, the design terminal employs:

and the design terminal saves the design result as a DIM format file and stores the DIM format file. It should be noted that other three-dimensional software may also be used in the present application, and the present application is not limited herein.

In some embodiments, the design terminal is further configured to send real-time updated presence data to the design server 1;

and the presence data supply module is also used for updating the presence data in real time according to the updating content sent by the design terminal.

Specifically, the real-time update of the current data ensures the timeliness of the data.

Preferably, the cloud database 3 adopts:

CIM spatial database.

Specifically, each design result or historical data in the CIM database is associated with a BIM model.

When it needs to be explained, the CIM database in the present application may also adopt a SIM database, and the BIM database may also adopt an OIM database.

Preferably, the design achievement is sent to the cloud database 3 according to the trigger of the administrator, and the method includes:

and the manager of the management server needs to check the design result, and sends the design result to the cloud database 3 after the check is passed. Wherein the audited content comprises:

checking the urban design with sharp colors through color coordination and color filtering;

auditing the outline and the overall harmony of the object through skyline analysis;

and carrying out quantitative analysis on the design result, wherein the quantitative analysis comprises the following steps:

index analysis, sunlight analysis, building density and height limit analysis.

Specifically, the manager of the management server 2 checks a building with a sharp color through color coordination and a color filtering function, and can also analyze the outline of the checked object and the overall coordination through a sky line. The design scheme is qualitatively analyzed from multiple aspects of landscape appearance, appearance effect, skyline, color control and the like so as to realize auxiliary decision of project approval process, control is comprehensively carried out, and the scheme designed by technical personnel is ensured to meet the requirement of city design. This application passes through visual field analysis promptly, and the analysis function analysis such as full sight analysis, building limit for height, building density, building size, sunshine analysis whether accords with the standard in the analysis city design, can also pass through color coordination, color filtering, sky line analysis, confirms whether accords with city geomorphology, through sunshine analysis, with the ground analysis, the index is judged from quantitative angle to the percentage of volume whether accords with city design requirement.

In some embodiments, as shown in fig. 4, the workflow of designing the terminal includes the following steps:

s401, obtaining topographic data of city planning, drawing city main roads according to the topographic data, and forming a road network structure;

s402, selecting a cell area, and drawing a road in the cell area;

s403, drawing a green land, a hardening field, a pool, a parking space and public facilities according to the road;

s404, drawing commercial buildings and residential houses near the cell areas.

Specifically, when designing, the designer can save the design result into a local DIM file, so as to open the local design result for subsequent design. In the design process, the standard indexes are updated in real time for designers to control constantly, and corresponding design is changed according to the change of the standard indexes.

Specifically, as shown in fig. 3, a designer can share data with surrounding designers, refer to collaboration, the designer can also refer to current data allocated to him, can analyze the shared data together with design results, the designer can put the design results into a design server after completing design, a manager of a design institute can check whether the final design results meet the standard requirements through an analysis function, if the final design results do not meet the requirements, the designer can introduce the put-in data and then design the urban design results covered in storage or directly modify the urban design results on the network, the modified results are stored through a network storage function, for the required design results, the manager of the design institute can put the data into a general server of a natural resource bureau through the storage function, the natural resource bureau checks the put-in technical data results and analyzes the technical data, and the required data can be saved into the general library as the urban design results, so that the design of the urban design results are completed.

In conclusion, the design, management and application are fused by arranging the decision module, the design module and the management module, a dynamic and visual design module is provided for a user, and the design and modification of city design achievement elements can be directly realized through abundant design functions. In addition, the method has the advantages of simple operation process, cost saving, online operation and strong confidentiality.

It can be understood that the embodiments of the method provided above correspond to the embodiments of the management system for city design, and corresponding specific contents may be referred to each other, which is not described herein again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely partial embodiment, or an embodiment combining partial and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create a management system for urban design that implements the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instructions for a management system for urban design that implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (4)

1. A management system for city design is characterized by comprising at least one design server, a management server and a cloud database;

the design server is used for acquiring the design result of a designer and sending the design result to the management server;

the management server is used for displaying the design result and sending the design result to the cloud database according to the triggering of a manager;

the cloud database is used for storing the design result;

each design server corresponds to at least one design terminal;

the design terminal is used for generating the design result, sending the design result to the design server, and sending a result access request to the cloud database, wherein the result access request comprises a design result identifier to be accessed;

the cloud database is used for receiving an access request of the design terminal, searching a corresponding design result according to the identification of the design result to be accessed, and allowing the design terminal to access the corresponding design result;

the management server comprises a first authority management module;

the first authority management module is used for establishing first design accounts for the design servers, setting first function authorities for the first design accounts, and sending corresponding first account information and first function authorities to the design servers corresponding to each first design account;

the design server receives and accesses the management server according to the first account information and the first function authority;

the design server comprises a second authority management module;

the second authority management module is used for establishing a second design account for the design terminal, setting a second function authority for the second design account, and sending corresponding second account information and second function authority to the design terminal corresponding to each second design account;

the design terminal receives and accesses the design server according to the second account information and the second function authority;

the management server further comprises a presence data supply module;

the present data supply module is configured to acquire present data before design corresponding to the design result, and send the present data to the corresponding design terminal;

the design server also comprises an online correction module;

the online correction module is used for the designer to perform online correction on the corresponding design result according to the second function permission of the design terminal;

the design server comprises a BIM database;

and the BIM database is used for storing the design result of the corresponding design terminal.

2. The system of claim 1,

and the design terminal saves the design result as a DIM format file and stores the DIM format file.

3. The system of claim 1,

the design terminal is further configured to send the current status data updated in real time to the design server;

the present data supply module is further configured to update the present data in real time according to the update content sent by the design terminal.

4. The system of claim 1, wherein the cloud database employs:

CIM spatial database.

Images