CN111026373B - Method for manufacturing three-dimensional digital transaction map - Google Patents

Abstract

The invention discloses a method for manufacturing a three-dimensional digital transaction map, which specifically comprises the following steps: s1, creating an editing project, and relating to the technical field of digital maps. The method for manufacturing the three-dimensional digital transaction map comprises a set of closed loop system designed by the invention, including a development end and a client end. The invention relates to a three-dimensional digital transaction map development method, which is characterized in that the three-dimensional digital transaction map development can be realized without depending on third-party software, the software structure mode is stable, the platform, the resource and the data are separated, a developer provides platform maintenance, professional art provides three-dimensional resources, industry personnel designs to carry out specific map design, a cross-platform design scheme is adopted, map cases realized at a development end are realized, one-time map design is realized, a plurality of software is generated, and the developer tool stated by the invention adopts visual editing and blueprint editing, is simple to operate, has lower threshold and can work on duty after simple training. And the efficiency is higher by adopting a pipelining design.

Description

Method for manufacturing three-dimensional digital transaction map

Technical Field

The invention relates to the technical field of digital maps, in particular to a method for manufacturing a three-dimensional digital transaction map.

Background

With the development of three-dimensional visualization technology, hardware terminal technology, network technology represented by 5G and chip advanced process technology, digital visualization application terminals are becoming more and more popular; cloud servers with powerful computing power slowly become the brains of the era, some user guiding terminals begin to be popular in the market, and mainly guide clients, tourists and staff in places such as markets, museums, exhibition halls, hospitals, scenic spots, large-scale office buildings and the like in a vertical touch screen man-machine interaction mode; in the industrial field, the field is larger, the equipment is more complex, and the three-dimensional digital map is used for route establishment, quick object searching and the like; in the intelligent fire protection field and the social security field, three-dimensional maps are beginning to be used for guiding personnel evacuation, making fire protection strategies, making security plans and the like.

Digital map applications are becoming wider and more numerous, but suffer from the following problems: the functions are single, a perfect functional framework system is not formed, and most of maps are only windows for display; in addition, many maps are in a 2D form, lack of relevant guidance, require a user to have certain analysis capability, are extremely unfriendly in user experience, have limited usability, and are too single in applicable platform, and are only applicable to certain platforms due to the technical problems, such as only one of a touch screen terminal, a common PC, a webpage end and a mobile end, and are mostly only applicable to the touch screen terminal or the common PC end; the web page end and the mobile end which are easy to popularize cannot be supported, the development cost is high, and the popularization is not facilitated.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a method for manufacturing a three-dimensional digital transaction map, which solves the problems that the existing digital map has single function, poor user experience, limited availability, too single applicable platform, cannot be supported at a webpage end and a mobile end which are easy to popularize, has high development cost and is not beneficial to popularization.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: the method for manufacturing the three-dimensional digital transaction map specifically comprises the following steps:

s1, newly creating an editing project: creating an item on a visual interface, automatically generating an item file in a database form by a background, setting three-dimensional resources of a map on the visual interface, copying and deleting the item through the visual interface, and editing the item;

s2, editing three-dimensional space nodes: creating nodes, creating a node through a toolbar of the created nodes, naming the nodes, automatically generating the next sequence of the currently selected nodes in the tree structure of the nodes, modifying the node level, changing the three-dimensional level of the nodes by dragging the positions of the nodes in the tree, modifying the positions of the nodes, changing the positions of the nodes in the three-dimensional space through a three-dimensional control tool, modifying the node connection attribute, adding the connection after selecting the nodes to be connected, setting the passing attribute of the connection, respectively carrying out bidirectional passing, forward passing and reverse passing, not passing, setting the path finding weight of the connection, deleting the connection through a delete button, checking and modifying the attribute of the nodes in the three-dimensional scene through a preview function, setting the pattern and the color of the nodes, setting the path finding level of the nodes, dividing the path finding level into one, two and three levels, representing the proportion of the path finding, setting the node label, displaying the label, setting the label of the node label management, and adding and deleting the label through label management;

s3, editing objects: designing an object, designing an object system, setting the number of layers, creating the object, creating an object through a visual interface, naming, modifying the layers, dragging the object on a tree structure on the visual interface, putting the object on the corresponding layer, modifying the attribute, modifying the name, category, state and description of the object through the visual interface, binding a binding node, binding a set three-dimensional space node, binding a resource and binding the three-dimensional space node through the visual interface;

s4, editing the transaction: firstly setting user-defined parameters, then creating a transaction according to a command for creating the transaction in a transaction editor, performing a command, selecting a blueprint in a transaction list, editing the blueprint, selecting a blueprint unit according to a command for creating a blueprint unit after selecting a blueprint, selecting the blueprint unit through the blueprint unit list of the blueprint, changing the position and the size, and adding connection points and wires;

s5, project release: and (3) packaging all configuration tables of the database data configuration file into a file in a document format by issuing an instruction, then changing the file into a data file according to a compression algorithm, opening resources participating in the project, packaging and compressing the data file into a file, and using the data file and the resource file to realize the production of the three-dimensional digital transaction map project.

Preferably, in the step S2, the modified node position may be directly input into the node position through the visual interface, so as to perform node label management, and the label selected by the node is deleted, and then replaced by default.

Preferably, in the step S4, a transaction blueprint is created, and one item may include a plurality of transactions, that is, there are a plurality of main flows, and the main flows may also nest sub-flows.

Preferably, the application method of the three-dimensional digital transaction map specifically comprises the following steps:

the method comprises the steps that S1, a three-dimensional digital transaction map is displayed on a client side in a three-dimensional view angle, position information in an actual map is represented in a three-dimensional node mode, nodes, namely places, comprise information of positions, names, labels and traffic states, a visual list interface is displayed for three-dimensional node management, a node list meeting the use types is displayed according to the use types, names of related nodes are displayed according to the list in a three-dimensional scene and used for searching places of the same type, the node names in the three-dimensional scene are clicked, the back view angle can be switched from a third person view angle to a first person view angle, first person roaming operation is conducted, the states of connecting lines of the nodes are displayed, and data such as traffic states, weights and distances are indicated by different colors;

s2, quickly positioning relevant nodes according to the listed nodes, highlighting the objects when searching for relevant objects based on the nodes, setting one node as the position of a plurality of objects, calculating a route with the shortest distance by adopting a two-point shortest distance route searching algorithm, finding out routes reaching all the nodes by adopting a multi-point patrol route searching algorithm under the shortest time and the shortest consumption, and taking the calculated routes after the route searching algorithm as roaming basis to realize automatic roaming based on a first person and a third person;

s3, object management is carried out through a tree structure stated by a development end, object information can be quickly carried out based on the function, all positions of an object can be quickly positioned on a three-dimensional map, transaction execution is carried out according to data edited by a development end blueprint, one transaction is selected to be executed, namely, the main transaction is executed according to blueprint units, the blueprint units to be executed are automatically selected from branches according to set conditions, the execution of the sub-events is started in a nested sub-event, after the sub-events are executed, the sub-events are then skipped to the main transaction, the whole blueprint can be checked at a client, and a flow route executed in sequence is obtained;

s4, when the transaction is executed to one step, the background calculates the current state, such as the place, the distance, some changes of the custom parameters, the contacted object list and the like, obtains the route of the step, and the statistical result of each step can be output in a report form with a specific format, and the related man-machine interaction interface of the client is supported to be used on the touch screen terminal, the common PC terminal, the Web terminal and the mobile terminal.

Preferably, in the step S1, the terminal is a three-dimensional visual virtual space with a 360-degree free view angle.

Preferably, in the step S3, other transactions are nested during the execution of the transaction, and the current transaction is returned, and the execution of the transaction is performed by the main blueprint unit, which respectively involves three cases: the system comprises an ice-through blueprint unit, a condition judgment blueprint unit and a transaction nesting blueprint unit.

Preferably, in step S3, the nesting of the transaction automatically jumps to a nested sub-event, starts executing the sub-event, and jumps to the main transaction after the sub-event is executed.

Preferably, in the step S4, calculation may be performed by a common PC or by a cloud server. The results are then delivered to the client.

(III) beneficial effects

The invention provides a method for manufacturing a three-dimensional digital transaction map. Compared with the prior art, the method has the following beneficial effects:

(1) The invention relates to a method for manufacturing a three-dimensional digital transaction map. The invention discloses a three-dimensional digital transaction map development method, which is characterized in that three-dimensional digital transaction map development can be realized without depending on third-party software, the software structure mode is stable, a platform, resources and data are separated, a developer provides platform maintenance, professional art provides three-dimensional resources and industry personnel designs to conduct specific map design, a cross-platform design scheme is adopted, map cases realized at a development end, including but not limited to execution on a touch screen terminal, a common PC, a webpage end, a mobile platform and the like, one-time map design is realized, multiple types of software are generated, and the development tool declared by the invention adopts visual editing and blueprint editing, is simple to operate, has a lower threshold, and can be subjected to on-duty operation after simple training. And the efficiency is higher by adopting a pipelining design.

(2) According to the method for manufacturing the three-dimensional digital transaction map, the three-dimensional map stated by the invention adopts a three-dimensional simulation form, is more realistic in expression form compared with a common two-dimensional map, realizes advanced functions such as roaming, positioning, road finding and the like based on a three-dimensional environment, can replace field experience in a certain range, is unique and is based on blueprint design of a three-dimensional visual scene, the transaction process is executed in the three-dimensional scene, the state is monitored in the process execution process, the result is counted, and the ultra-large transaction process manufacturing can be implemented by adopting a blueprint nesting mode.

(3) According to the method for manufacturing the three-dimensional digital transaction map, for some complex calculation, the calculation parameters are supported to be uploaded to the cloud server through cloud computing, the calculation is fast carried out through the strong calculation capacity of the cloud, and then the result is transmitted to the terminal, so that the method is extremely wide in application range, applicable to navigation, transaction processing, personnel training in places such as markets, museums, exhibition halls, hospitals, scenic spots and large-scale office buildings, applicable to equipment material management, inspection, manufacturing process schemes, building cost schemes and the like of factories, and applicable to fast making fire protection, security protection, emergency schemes and the like.

Drawings

FIG. 1 is a flow chart of the three-dimensional digitized transaction map of the present invention;

FIG. 2 is a flow chart of the use of the three-dimensional digitized transaction map of the present invention;

FIG. 3 is a flow chart of the transaction execution of the present invention;

FIG. 4 is a flow chart of the routing algorithm of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the embodiment of the present invention provides a technical solution: the method for manufacturing the three-dimensional digital transaction map specifically comprises the following steps:

s1, newly creating an editing project: creating an item on a visual interface, automatically generating an item file in a database form by a background, setting three-dimensional resources of a map on the visual interface, copying and deleting the item through the visual interface, and editing the item;

s2, editing three-dimensional space nodes: creating nodes, creating a node through a toolbar of the created nodes, naming the nodes, automatically generating the next sequence of the currently selected nodes in the tree structure of the nodes, modifying the node level, changing the three-dimensional level of the nodes by dragging the positions of the nodes in the tree, modifying the positions of the nodes, changing the positions of the nodes in the three-dimensional space through a three-dimensional control tool, modifying the node connection attribute, adding the connection after selecting the nodes to be connected, setting the passing attribute of the connection, respectively carrying out bidirectional passing, forward passing and reverse passing, not passing, setting the path finding weight of the connection, deleting the connection through a delete button, checking and modifying the attribute of the nodes in the three-dimensional scene through a preview function, setting the pattern and the color of the nodes, setting the path finding level of the nodes, dividing the path finding level into one, two and three levels, representing the proportion of the path finding, setting the node label, displaying the label, setting the label of the node label management, and adding and deleting the label through label management;

s3, editing objects: designing an object, designing an object system, setting the number of layers, creating the object, creating an object through a visual interface, naming, modifying the layers, dragging the object on a tree structure on the visual interface, putting the object on the corresponding layer, modifying the attribute, modifying the name, category, state and description of the object through the visual interface, binding a binding node, binding a set three-dimensional space node, binding a resource and binding the three-dimensional space node through the visual interface;

s4, editing the transaction: firstly setting user-defined parameters, then creating a transaction according to a command for creating the transaction in a transaction editor, performing a command, selecting a blueprint in a transaction list, editing the blueprint, selecting a blueprint unit according to a command for creating a blueprint unit after selecting a blueprint, selecting the blueprint unit through the blueprint unit list of the blueprint, changing the position and the size, and adding connection points and wires;

s5, project release: all configuration tables of the database data configuration files are packaged into files in a document format through an instruction, then the files are changed into a data file according to a compression algorithm, resources of participating projects are opened and compressed into a file, the data file and the resource file are used for realizing three-dimensional digital transaction map project manufacturing, and meanwhile contents which are not described in detail in the specification belong to the prior art known to the person skilled in the art.

In the invention, in step S2, the position of the node is modified, the position of the node can be directly input through a visual interface, node label management is performed, and the label selected by the node is deleted and replaced by default.

In the present invention, in step S4, a transaction blueprint is created, and one item may include a plurality of transactions, i.e. there are a plurality of main flows, and the main flows may also be nested with sub-flows.

The invention discloses a method for using a three-dimensional digital transaction map, which specifically comprises the following steps:

the method comprises the steps that S1, a three-dimensional digital transaction map is displayed on a client side in a three-dimensional view angle, position information in an actual map is represented in a three-dimensional node mode, nodes, namely places, comprise information of positions, names, labels and traffic states, a visual list interface is displayed for three-dimensional node management, a node list meeting the use types is displayed according to the use types, names of related nodes are displayed according to the list in a three-dimensional scene and used for searching places of the same type, the node names in the three-dimensional scene are clicked, the back view angle can be switched from a third person view angle to a first person view angle, first person roaming operation is conducted, the states of connecting lines of the nodes are displayed, and data such as traffic states, weights and distances are indicated by different colors;

s2, quickly positioning relevant nodes according to the listed nodes, highlighting the objects when searching the relevant objects based on the nodes, setting one node to be the position of a plurality of objects, adopting a two-point shortest distance routing algorithm to calculate the route with the shortest distance, adopting an A star algorithm to perform two-point shortest distance routing, and taking the starting node and the ending node into consideration on the basis of the declared nodes to perform routing calculation, wherein the routing algorithm fully considers the traffic state of the route, namely, the traffic and non-traffic consideration exists, calculates the weight of the route on each route, namely, calculates the route with the shortest distance, and also calculates the route with the lowest consumption, and adopts a multi-point patrol routing algorithm to self-define a multi-point patrol algorithm, namely, under the shortest time/shortest consumption, finding out the route reaching all the nodes, taking the calculation amount of the method into consideration to be large, carrying out pretreatment operation on the nodes, dividing the nodes into level1, level 2 and level3 map nodes 381000; for nodes with the number below 100, setting two layers of nodes, wherein the high-level nodes comprise low-level nodes, firstly searching routes in the range of the high-level nodes, then searching the low-level nodes in the range of the high-level nodes, in a multi-point patrol algorithm, the elements such as the passing state and the weight of the route participate in calculation, under the shortest time and the shortest consumption, the route which reaches all the nodes is found out, and after the route searching algorithm is performed, the calculated route is used as a roaming basis, so that the automatic roaming based on the first person and the third person is realized;

s3, object management is carried out through a tree structure stated by a development end, object information can be quickly carried out based on the function, all positions of an object can be quickly positioned on a three-dimensional map, transaction execution is carried out according to data edited by a development end blueprint, one transaction is selected to be executed, namely, the main transaction is executed according to blueprint units, the blueprint units to be executed are automatically selected from branches according to set conditions, the execution of the sub-events is started in a nested sub-event, after the sub-events are executed, the sub-events are then skipped to the main transaction, the whole blueprint can be checked at a client, and a flow route executed in sequence is obtained;

s4, when the transaction is executed to one step, the background calculates the current state, such as the place, the distance, some changes of the custom parameters, the contacted object list and the like, obtains the route of the step, and the statistical result of each step can be output in a report form with a specific format, and the related man-machine interaction interface of the client is supported to be used on the touch screen terminal, the common PC terminal, the Web terminal and the mobile terminal.

In the present invention, in step S1, the terminal is a three-dimensional visual virtual space with a 360-degree free view angle.

In the invention, in step S3, other transactions are nested during the execution of the transaction, and the current transaction is returned, and the execution of the transaction is performed by the main blueprint unit, which respectively involves three cases: the system comprises an ice-through blueprint unit, a condition judgment blueprint unit and a transaction nesting blueprint unit.

In the invention, in step S3, the nesting of the transaction automatically jumps to a nested sub-event, starts to execute the sub-event, and jumps to the main transaction after the sub-event is executed.

In the invention, in step S4, calculation can be performed by using a common PC or by using a cloud server. The results are then delivered to the client.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A method for manufacturing a three-dimensional digital transaction map is characterized by comprising the following steps of: the method specifically comprises the following steps:

s1, newly creating an editing project: creating an item on a visual interface, automatically generating an item file in a database form by a background, setting three-dimensional resources of a map on the visual interface, copying and deleting the item through the visual interface, and editing the item;

s2, editing three-dimensional space nodes: creating nodes, creating a node through a toolbar of the created nodes, naming the nodes, automatically generating the next sequence of the currently selected nodes in the tree structure of the nodes, modifying the node level, changing the three-dimensional level of the nodes by dragging the positions of the nodes in the tree, modifying the positions of the nodes, changing the positions of the nodes in the three-dimensional space through a three-dimensional control tool, modifying the node connection attribute, adding the connection after selecting the nodes to be connected, setting the passing attribute of the connection, respectively carrying out bidirectional passing, forward passing and reverse passing, not passing, setting the path finding weight of the connection, deleting the connection through a delete button, checking and modifying the attribute of the nodes in the three-dimensional scene through a preview function, setting the pattern and the color of the nodes, setting the path finding level of the nodes, dividing the path finding level into one, two and three levels, representing the proportion of the path finding, setting the node label, displaying the label, setting the label of the node label management, and adding and deleting the label through label management;

s3, editing objects: designing an object, designing an object system, setting the number of layers, creating the object, creating an object through a visual interface, naming, modifying the layers, dragging the object on a tree structure on the visual interface, putting the object on the corresponding layer, modifying the attribute, modifying the name, category, state and description of the object through the visual interface, binding a binding node, binding a set three-dimensional space node, binding a resource and binding the three-dimensional space node through the visual interface;

s4, editing the transaction: firstly setting user-defined parameters, then creating a transaction according to a command for creating the transaction in a transaction editor, carrying out the command, selecting a blueprint in a transaction list, editing the blueprint, selecting a blueprint unit according to a command for creating a blueprint unit after selecting a blueprint, changing the position and the size, and adding connection points and connecting lines according to the command for creating the blueprint unit in the blueprint unit list of the blueprint;

s5, project release: packaging all configuration tables of a database data configuration file into a file in a document format by issuing an instruction, then changing the file into a data file according to a compression algorithm, opening resources of the participated project, packaging and compressing the data file into a file, and using the data file and the resource file to realize the production of a three-dimensional digital transaction map project;

the method for manufacturing the three-dimensional digital transaction map further specifically comprises the following steps:

t1, displaying a map in a three-dimensional view angle on a client, representing position information in an actual map in a three-dimensional node form, wherein the nodes are places, and comprise information of positions, names, labels and traffic states;

t2, quickly positioning the nodes according to the list to related nodes, highlighting the objects when searching related objects based on the nodes, setting one node to be the positions of a plurality of objects, calculating a route with the shortest distance by adopting a two-point shortest distance route searching algorithm, finding out routes reaching all the nodes by adopting a multi-point patrol route searching algorithm under the shortest time and the shortest consumption, and taking the calculated routes after the route searching algorithm as roaming basis to realize automatic roaming based on a first person and a third person;

t3, object management is carried out through a tree structure stated by a development end, object information can be rapidly identified, all positions of an object can be rapidly located on a three-dimensional map, transaction execution is carried out according to data edited by a blueprint of the development end, one transaction is selected to be executed, namely, the main transaction is executed according to blueprint units, the blueprint units to be executed are automatically selected from branches according to set conditions, the sub-events are automatically jumped to a nested sub-event, execution of the sub-events is started, after the sub-events are executed, the sub-events are jumped to the main transaction, the whole blueprint can be checked at a client, and a flow route which is executed in sequence;

and T4, when the transaction is executed to one step, the background calculates the current state, such as the place, the distance, some changes of the custom parameters, a contacted object list and the like, obtains the route of the step, and the statistical result of each step can be output in a report form with a specific format.

2. The method for making a three-dimensional digitized transaction map according to claim 1, wherein: in step S2, the modified node position may also be directly input into the node position through the visual interface, so as to perform node label management, and if the label selected by the node is deleted, the default is replaced.

3. The method for making a three-dimensional digitized transaction map according to claim 1, wherein: in the step S4, a transaction blueprint is created, and one item may include a plurality of transactions, that is, there are a plurality of main flows, and the main flows may also be nested with sub-flows.

4. The method for making a three-dimensional digitized transaction map according to claim 1, wherein: in the step T1, the terminal is a three-dimensional visual virtual space with a 360-degree free view angle.

5. The method for making a three-dimensional digitized transaction map according to claim 1, wherein: in the step T3, other transactions are nested during the execution of the transaction, and the current transaction is returned, and the execution of the transaction is performed by the main blueprint unit, which respectively involves three cases: the system comprises an ice-through blueprint unit, a condition judgment blueprint unit and a transaction nesting blueprint unit.

6. The method for making a three-dimensional digitized transaction map according to claim 1, wherein: in the step T3, the nesting of the transaction automatically jumps to a nested sub-event, starts to execute the sub-event, and jumps to the main transaction after the sub-event is executed.