CN115034941A - Map-based asset management method and system - Google Patents

Abstract

The invention discloses an asset management method and system based on a map, wherein the method comprises the following steps: classifying the acquired asset data, introducing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation, and constructing a hierarchical asset visualization GIS map; performing management operation on the assets on the map and integrating the assets with the actual business process to form an asset life cycle; the asset management value in the range is analyzed and predicted by data analysis, the asset dynamic value is calculated in real time, and a manager can optimize the decision and management of the corresponding asset; and controlling the viewing, sharing and analyzing processing of the assets by the user according to the authority classification branch door. The invention integrates the asset business process by constructing an asset information visual map and taking a GIS map as a basic support, thereby achieving the purposes of managing assets by pictures, analyzing the pictures and saving files by the pictures; the data visualization, decision scientization, information sharing and service convenience of asset management are realized.

Description

Map-based asset management method and system

Technical Field

The invention relates to the field of data visualization analysis and processing, in particular to an asset management method and system based on a map.

Background

At present, most of asset management systems in the market simply realize the functions of asset registration, asset classification, asset viewing, asset import and asset query, asset positioning, asset total data analysis and the like. For example, the invention patent with the application number of cn201811204825.x discloses an asset management method, an asset management device and a computer-readable storage medium, which divide asset data organized by preselected entities into a plurality of types, and import all assets into an asset map according to the types to form an asset information database; classifying all the assets according to the asset types and the levels of entity organization, and displaying the assets on the asset map; analyzing and predicting the value of the assets by using a big data analysis technology, calculating the dynamic value of the assets in real time, and recommending the management direction of the assets to management personnel; and setting a threshold value of the assets, comparing the real-time dynamic values of the assets with the dynamic values of the assets obtained by calculating the big data, setting various early warning mechanisms, and informing managers of corresponding levels in time once early warning is triggered so as to enable a decision-making layer to intuitively master the real-time change condition of the assets in a whole disk manner and obtain data support when a policy is made. However, the asset checking and analysis only performs simple data checking, the asset operation only performs simple logical operations such as adding, deleting and modifying, and the like, and when the asset is comprehensively operated and analyzed, the problems that the actual business process is separated, the operation process is complex, the decision making is wrong due to the fact that the asset data is classified and integrated and cannot be shared, the visualization degree is not clear and intuitive, and the like exist.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, solve the problems that the existing data asset management is separated from the actual business process and has complex operation process, the asset data classification integration and sharing are not available, the decision making is wrong, the visualization degree is not clear and intuitive enough and the like, and provide a map-based asset management method and a map-based asset management system.

The purpose of the invention is realized by the following technical scheme:

a map-based asset management method, comprising the steps of:

s1: classifying the acquired asset data, importing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation, and constructing a hierarchical asset visualization GIS map;

s2: performing management operation on the assets on the map and integrating the assets with the actual business process to form an asset life cycle;

s3: the data analysis is used for analyzing and predicting the asset management value in the belonged range, the asset dynamic value is calculated in real time, and a manager can optimize the decision and management of the corresponding asset;

s4: and controlling the viewing, sharing and analyzing processing of the assets by the user according to the authority classification branch door.

Further, the step S1 includes the following sub-steps:

s101: setting an asset type;

s102: classifying and batch importing or batch adding of basic asset information;

s103: matching the belonging ticket information by using the asset unique identifier;

s104: viewing the asset position by combining map positioning and live-action navigation;

s105: the hierarchy shows the inventory of assets and the distribution of the assets on the map.

Further, the step S2 includes the following sub-steps:

s201: asset related business process operation processing;

s202: and forming a full resource generation life cycle by using, managing and disposing the generated business data of the assets.

Further, the step S3 includes the following sub-steps:

s301: querying asset information through hierarchy and keywords;

s302: the method comprises the steps that assets in a certain space range are selected in a frame mode to generate an asset information list, a statistical chart and a derived value report file;

s303: and comparing the evaluation values of other assets in the space range, and synchronizing and calculating the asset value in real time.

Further, the step S4 includes the following sub-steps:

s401: displaying the asset hierarchical relationship through the asset directory by utilizing the enterprise relationship;

s402: the data authority is used for carrying out cooperation and sharing on the asset information through departments;

s403: the assets are selectively exposed using the map.

A map-based asset management system comprises an asset management module, an asset operation module, a management cockpit module and a configuration management module;

the asset management module is used for classifying the acquired asset data, introducing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation and constructing a hierarchical asset visualization GIS map;

the asset operation module is used for integrating the operation of assets with the actual business process on the map to form an asset life cycle;

the management cockpit module analyzes and predicts the asset management value in the belonging range by using data analysis, and calculates the asset dynamic value in real time;

and the configuration management module controls the user to view, share and analyze the assets according to the authority classification branch door.

Further, the asset management module specifically comprises a certificate management module, an asset information management module, a live-action navigation module and an asset evaluation module;

the certificate management module is used for leading in or adding the basic information of the certificates in batches and associating the asset information in batches;

the asset information management module is used for importing or adding asset basic information in batches and associating the ticket information in batches;

the live-action navigation module is used for updating the geographic position in real time and displaying the condition of surrounding assets in time;

and the asset evaluation module is used for combining the real object with the value and evaluating the asset value.

Further, the asset operation module comprises a house source management module and a contract management module;

the house source management module is used for introducing or newly adding house source information in batches and binding asset information in batches;

and the contract management module is used for importing or adding contract information in batches and binding corresponding asset information in batches.

Further, the management cockpit module is specifically used for comparing the asset condition, checking the operating income, and checking the property right handling condition, the geographic distribution condition and the asset use condition.

Further, the configuration management module specifically comprises an area module, an asset project name module, a role authority module and a department authority module;

a region module: maintaining and updating the house source and asset region information, and counting the asset information in the region range;

asset project name module: maintaining asset project information, updating an asset directory, and counting project asset related information;

the role authority module: configuring the view and processing authority of a user on the assets;

a department authority module: and configuring the data sharing and cooperation authority of the user.

The invention has the beneficial effects that: by constructing an asset information visualization map and supporting on the basis of a GIS map, the asset business process is integrated, and the aims of managing assets by a graph, analyzing by a graph and storing files by a graph are achieved; the data visualization, the decision scientization, the information sharing and the service convenience of the asset management are realized.

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 structures shown in the drawings without creative efforts.

FIG. 1 is a diagram of the method of the present invention.

Fig. 2 is a system data flow diagram.

Fig. 3 is a functional block diagram of the system.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

Embodiment 1, as shown in fig. 1, a map-based asset management method and system includes the following steps:

step 1: classifying the acquired asset data, introducing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation, and constructing a hierarchical asset visualization GIS map;

step 2: the method comprises the steps that (1) the management operations such as renting and disposing are carried out on the assets on a map, and the assets are integrated with an actual business process to form an asset life cycle;

and step 3: the asset management value in the range is analyzed and predicted by data analysis, the asset dynamic value is calculated in real time, and a manager can optimize the decision and management of the corresponding asset;

and 4, step 4: and controlling the viewing, sharing and analyzing processing of the assets by the user according to the authority classification branch door.

As shown in fig. 2, the management method is mainly divided into 4 aspects:

when a user synchronizes asset data into the map according to S1, the assets are accurately positioned, and then the layered visual map is automatically constructed;

on the map, the user carries out related management operation on the assets according to the S2, so that related personnel can conveniently overall the full life cycle of the assets;

after the operation and the business process are fully integrated through S2, the assets in a specific range are conveniently subjected to real-time statistical analysis by taking the assets as units according to S3;

the authority control of asset management is performed in accordance with S4, and the viewed asset data is different depending on the function authority and data authority possessed by the user.

The scheme integrates the asset business process by constructing an asset information visual map and taking a GIS map as a basis support, so as to manage assets by pictures, analyze the pictures and store files by pictures; the data visualization, decision scientization, information sharing and service convenience of asset management are realized.

Further, the step S1 of constructing a hierarchical asset visualization GIS map includes:

s101, setting an asset type;

s102, classifying and batch importing or batch adding of basic information of assets;

s103, matching the belonged ticket information by using the asset unique identifier;

s104, checking the position of the asset by combining map positioning and live-action navigation;

s105, displaying the asset catalogue and the distribution situation of the assets on the map in a hierarchical mode.

When adding new assets, the first step is to set the asset type: the asset types are: land assets, building assets, other assets (billboards, pipe networks, etc.), mandatory items for distinguishing different assets in an asset map; the second step is the basic information of the asset: the asset name is must fill, the name should be in 60 characters, support Chinese, English letter, figure and special symbol; when an associated ticket is needed: the property ticket number is filled, the property ticket number is identified in a bidirectional and unique mode through the property number to generate association, when the position information of the property needs to be displayed on a property map, the dimension information of the property is stored and displayed on the map through site selection, and the property can be checked through live-action navigation and the accurate position of the property needs to be further accurately positioned; the third step is the visual display of the assets: checking the distribution condition of the asset map by enterprise division, department division and classification;

further, the step S2 of integrating the operation of renting, disposing, etc. the assets on the map with the actual business process to form the full life cycle of the assets includes:

s201, asset-related business process operation processing, such as: lending, leasing, handling, etc.;

202, the service data generated by the whole process of asset acquisition, use, management, disposal and the like forms a whole asset generation life cycle.

When the asset distribution is displayed on a map, the assets can be subjected to business flow operations such as lending, renting, disposal and the like, for example, renting is taken as an example, a house source is created or imported in batches, the asset numbers are identified in a two-way mode through the house source numbers to form a binding relationship, and a rental contract generated actually is associated with the house source, so that generated rent, service fee and other one-time charging items are counted to generate a mode of operating income, and the flow business data are combined to form the life cycle of the assets through the combination of the steps S1 and S2, so that the progress of the assets is controlled efficiently, and the asset condition is analyzed accurately.

Further, the step S3 of analyzing and predicting the asset management value in the belonged range by using data analysis, and the specific step of calculating the asset dynamic value in real time includes:

s301, inquiring asset information in a layering mode, a keyword mode and the like;

s302, selecting assets in a certain space range to generate an asset information list, a statistical chart and a derived value report file;

s303, comparing the evaluation values of other assets in the space range, and synchronizing and calculating the asset value in real time.

The assets in a certain space range can be selected by a box selection tool on a map, an asset list in the space is displayed through data comparison and real-time calculation, and a statistical chart and a report file are formed according to asset types, evaluation value data, peripheral asset data and the like.

Still further, the step S4 of controlling the user' S view, sharing and analysis process of the assets according to the authority classification branch door includes:

s401, displaying the asset hierarchical relationship through an asset directory by utilizing the enterprise relationship;

s402, using data authority to cooperate and share the asset information through departments;

s403 selectively presents the assets using the map.

Example two: a map-based asset management system, as shown in fig. 3, specifically includes an asset management module, an asset operation module, a management cockpit module, and a configuration management module:

an asset management module: classifying the acquired asset data, introducing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation, and constructing a hierarchical asset visualization GIS map;

an asset operation module: the method comprises the steps that (1) the management operations such as renting and disposing are carried out on the assets on a map, and the assets are integrated with an actual business process to form an asset life cycle;

a management cockpit module: analyzing and predicting the asset management value in the range by using data analysis, and calculating the asset dynamic value in real time;

a configuration management module: and controlling the viewing, sharing and analyzing processing of the assets by the user according to the authority classification branch door.

As shown in fig. 1, there are mainly 4 aspects:

when a user synchronizes asset data to a map according to S1, accurately positioning assets and then automatically constructing a layered visual map;

on the map, the user performs related business operation on the assets according to the S2, so that related personnel can conveniently plan the full life cycle of the assets;

after the operation and the business process are fully integrated through S2, the assets in a specific range are conveniently subjected to real-time statistical analysis by taking the assets as units according to S3;

in the authority control of asset management according to S4, as shown in fig. 3, the asset data viewed differs depending on the function authority and data authority possessed by the user.

Further, the asset management module specifically comprises a certificate management module, an asset information management module, a live-action navigation module and an asset evaluation module:

the certificate management module: basic information of batch imported or newly added licenses and batch associated asset information

The asset information management module: basic information of the assets is imported or added in batches, and the real-scene navigation module is associated with the ticket information in batches: updating the geographic position in real time, and showing the asset condition and asset evaluation module of the surrounding assets in time: and combining the real object with the value to evaluate the asset value.

Further, the asset operation module specifically comprises a house source management module and a contract management module;

the house resource management module: introducing or newly adding house source information in batches, and binding asset information in batches;

a contract management module: and importing or adding contract information in batches, and binding corresponding asset information in batches.

Further, the module for managing the cockpit specifically includes:

the asset condition is as follows: comparing the number of the assets, the area, the newly increased/reduced assets and the asset value

And (4) operating income: annual income ranking, daily income ranking, and the like;

in other cases: property handling conditions, geographic distribution conditions, asset utilization conditions.

Still further, the configuration management module specifically comprises an area module, an asset project name module, a role authority module and a department authority module;

a region module: maintaining and updating the house source and asset region information, and counting the asset information in the region range;

an asset project name module: maintaining asset project information, updating an asset directory, and counting project asset related information;

the role authority module: configuring the view and processing authority of a user on the assets;

a department authority module: and configuring the data sharing and cooperation authority of the user.

It should be noted that, for simplicity of description, the above-mentioned embodiments of the method are described as a series of acts or combinations, but those skilled in the art should understand that the present application is not limited by the order of acts described, as some steps may be performed in other orders or simultaneously according to the present application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and elements referred to are not necessarily required in this application.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to the related descriptions of other embodiments.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above may be implemented by a computer program, which may be stored in a computer readable storage medium and executed to implement the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a ROM, a RAM, etc.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. A map-based asset management method, comprising the steps of:

s1: classifying the acquired asset data, importing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation, and constructing a hierarchical asset visualization GIS map;

s2: establishing a life cycle table of asset data, setting cycle management items of the life cycle table on a map according to an actual asset management process, and inquiring longitude and latitude coordinates through asset positions to display the items on the map in a rewriting manner, so that the life cycle table is associated with a corresponding asset data table in a database;

s3: the asset management value in the range is analyzed and predicted by data analysis, the asset dynamic value is calculated in real time, and a manager can optimize the decision and management of the corresponding asset;

s4: and controlling the viewing, sharing and analyzing processing of the assets by the user according to the authority classification branch door.

2. The map-based asset management method according to claim 1, wherein said step S1 comprises the sub-steps of:

s101: setting an asset type;

s102: classifying and batch importing or batch adding of basic asset information;

s103: matching the belonging ticket information by using the asset unique identifier;

s104: viewing the position of the asset by combining map positioning and live-action navigation;

s105: the hierarchy level shows the assets directory and the distribution of the assets on the map.

3. The map-based asset management method according to claim 1, wherein said step S2 of managing assets actually includes acquiring, using, managing and disposing assets.

4. The map-based asset management method according to claim 1, wherein said step S3 comprises the sub-steps of:

s301: querying asset information through hierarchy and keywords;

s302: the assets in a certain space range are selected to generate an asset information list, a statistical chart and a derived value report file;

s303: and comparing the evaluation values of other assets in the space range, and synchronizing and calculating the asset value in real time.

5. A map-based asset management method according to claim 1, characterized in that said step 4 comprises the following sub-steps:

s401: displaying the asset hierarchical relationship through the asset directory by utilizing the enterprise relationship;

s402: the data authority is used for carrying out cooperation and sharing on the asset information through departments;

s403: the assets are selectively exposed using the map.

6. A map-based asset management system is characterized by comprising an asset management module, an asset operation module, a management cockpit module and a configuration management module;

the asset management module is used for classifying the acquired asset data, introducing the classified asset data in batches or creating the classified asset data in batches into an asset map, accurately displaying asset positions by using live-action navigation and constructing a hierarchical asset visualization GIS map;

the asset operation module is used for integrating the operation of assets with the actual business process on the map to form an asset life cycle;

the management cockpit module analyzes and predicts the asset management value in the range by using data analysis and calculates the asset dynamic value in real time;

and the configuration management module controls the user to view, share and analyze the assets according to the authority classification branch door.

7. The map-based asset management system of claim 6, wherein the asset management module comprises in particular a certificate management module, an asset information management module, a live action navigation module and an asset valuation module;

the certificate management module is used for leading in or adding the basic information of the certificates in batches and associating the asset information in batches;

the asset information management module is used for importing or adding asset basic information in batches and associating the ticket information in batches;

the live-action navigation module is used for updating the geographic position in real time and displaying the condition of surrounding assets in time;

and the asset evaluation module is used for combining the real object with the value and evaluating the asset value.

8. The map-based asset management system of claim 6, wherein the asset operation module comprises a premises management module and a contract management module;

the house source management module is used for introducing or newly adding house source information in batches and binding asset information in batches;

and the contract management module is used for importing or adding contract information in batches and binding corresponding asset information in batches.

9. The map-based asset management system of claim 6, wherein the management cockpit module is specifically configured for asset condition comparison, revenue management review, and review of property handling, geographic distribution, and asset usage.

10. The map-based asset management system of claim 6, wherein the configuration management module specifically comprises an area module, an asset project name module, a role authority module, and a department authority module;

a region module: maintaining and updating the house source and asset region information, and counting the asset information in the region range;

asset project name module: maintaining asset project information, updating an asset directory, and counting project asset related information;

the role authority module: configuring the view and processing authority of a user on the assets;

a department authority module: and configuring the data sharing and cooperation authority of the user.

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