KR102074106B1 - Landscaping plant management system using mobile and Social Network Service, and method thereof - Google Patents

Abstract

The present invention relates to a landscape plating management system using a mobile and SNS, and a method thereof. The landscape plating management system using a mobile and SNS according to the present invention comprises: a mobile terminal set consisting of a plurality of mobile terminals (100); a network (200); a landscape planting management server (300); an SNS server (300a); a landscape operator terminal group consisting of a plurality of landscape operator terminals (400); a big data server (500); and a spatial data providing server (600). The landscaping plant management server (300) includes a transmission/reception part (310), a control part (320) and a database (330), and the control part (320) includes a landscaping planting request receiving module (321), a modeling module (322), a planting performance module (323), and an SNS providing module (324).

Description

Landscaping plant management system using mobile and social network service and method

The present invention relates to a landscaping plant management system using mobile and SNS, and more particularly, to select a registered unit construct for each landscaping for landscape planting using a mobile terminal, and to select a unit construct. The present invention relates to a landscaping plant management system using mobile and SNS and a method of providing a modeling service for landscaping planting for selecting a landscaping company through bidding through SNS and in the process.

Recently, a landscaping business for beautifully realizing the appearance of real estate such as buildings and sites has been in the spotlight. These landscaping projects are designed to overcome the closure of space and add aesthetics by beautifully constructing the surrounding environment with plants and sculptures, and to carry out a pleasant living environment. Alternatively, the project may be carried out by requesting a quote from a landscaping company after establishing by a sponsor such as a public institution.

However, when the landlord relies on landscaping, it is difficult for the client to have a landscape design desired by the client, and the project is implemented through the experience and intuitive experience of the landlord.

Accordingly, in the technical field, in order to manage the landscape planting, the client is not only involved in modeling directly from the initial stage by using a mobile terminal, but also based on modeling, a landscaping company that suits their tastes based on SNS directly. There is a need for development of technology to provide a technology for shopping.

Korean Patent Application No. 10-2007-0088809 (2007.09.03) "Eco-friendly flower bed installation structure of footpath for landscape architecture"

The present invention is to solve the above problems, by using a mobile terminal to select the registered unit for each landscape for the landscaping planting, select the landscaper through bidding through SNS for the selected unit, In the process to provide a landscaping planting management system and method using a mobile and SNS that provides a modeling service for landscape planting for selecting a landscaper.

In addition, the present invention not only provides simulated 2D modeling information, 3D modeling information, and VR information or AR information for 2D and 3D modeling information in the site space for landscape planting, but also modeling and information conversion. It is to provide a landscaping planting management system and method using mobile and SNS to systematically collect information through the use of the information, and to use the collected information as feedback information based on big data.

In addition, the present invention is a landscaping planting using mobile and SNS to enable landscapers using hashtags to more actively and systematically use SNS services through the systematic classification of hashtags for recruiting landscaping companies through SNS on a mobile basis. It is to provide a management system and method thereof.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the landscaping planting management method using mobile and SNS according to an embodiment of the present invention, the landscaping planting management server 300 utilizes the information according to the two-dimensional image or the three-dimensional image and direction, but 2D modeling is performed by applying the landscape planting parameter information to match the site shape information extracted from the 2D photographed image, and again performing 3D modeling using the 2D modeling information to perform 2D and 3D modeling information, A first step of acquiring VR and AR image information about two-dimensional and three-dimensional modeling information; The landscaping planting management server 300 retrieves the hashtag registered by the mobile terminal 100 on the SNS server 300a and registers the landscaping planting contract of the actual off-line landscaping contract method through the reverse auctioning method with the landscaping company terminal 500. When the online contract is concluded, the landscaping planting is actually completed by the contractor's landscaping terminal 500, and the landscaping terminal 500 is photographed through drone operation or requested by the spatial data providing server 600. A second step of acquiring the 2D landscape planting image or the 3D landscape planting image photographed through the network 200 and storing in the database 330; And the landscaping plant management server 300 includes a 2D landscaping plant image and a 3D landscaping plant image stored in the database 330, and a “Landscaping plant information unit” as the terminal identification number of the terminal 100 as metadata. 33), 2D modeling information, 3D modeling information, VR or AR image information for each 2D or 3D modeling information for the landscaping planting information unit, price information and work charges for landscape planting A third step of utilizing a list of price information and work fee for each landscape planting parameter information stored in the database 330 using the terminal identification number of the mobile terminal as metadata; Characterized in that it comprises a.

At this time, the present invention, after the third step, the landscaping plant management server 300 is subject to the publication registration permission for the mobile terminal 100 on the account of the mobile terminal 100 registered in the SNS server 300a 2D landscaping plant image, 3D landscaping plant image, and landscaping plant information unit is automatically posted, for this purpose, the landscape planting management server 300 biometric authentication information (fingerprint, face shape, iris) for the mobile terminal 100 At least one or more of) based on the SNS before the authentication request message can be transmitted to the mobile terminal 100 via the network 200, the biometric authentication information is the same as the biometric authentication information stored in advance from the mobile terminal 100 A fourth step of performing an SNS posting when it is confirmed; It characterized in that it further comprises.

Landscaping plant management system using a mobile and SNS according to an embodiment of the present invention to achieve the above object, mobile and SNS including a mobile terminal 100, the network 200 and the landscape planting management server 300 In the landscape planting management system used, the landscape planting management server 300 utilizes the information according to the two-dimensional image or the three-dimensional image and direction, but the landscape planting to match the site shape information extracted from the two-dimensional image 2D modeling is applied by applying parameter information, and 3D modeling is performed again using 2D modeling information to obtain VR and AR image information about 2D and 3D modeling information and 2D and 3D modeling information. , Offline offline search via a reverse auction scheme with the landscaping company terminal 500 by searching for the hashtag registered by the mobile terminal 100 on the SNS server 300a When the landscaping planting contract is concluded online, the landscaping planting is actually completed by the contracted landscaping terminal 500 and the landscaping terminal 500 is photographed through a drone operation directly or by a spatial data providing server ( 2D landscaping planting images or 3D landscaping planting images taken through the request by 600) obtained through the network 200 and stored in the database 330, 2D landscaping planting images and 3 stored in the database 330 The dimensional landscaping planting image, and the "Landscaping planting information unit" is stored in the database 33 using the terminal identification number of the terminal 100 as metadata, the two-dimensional modeling information, three-dimensional modeling information, VR or AR image information for each 2D or 3D modeling information, price information and work charges for landscape planting, and each landscape planting para A list of site information, pricing information and jakeopryo to the terminal identification number of the mobile terminal 100 to the meta data is characterized in that use what is stored in the database 330.

The landscaping planting management system and method using mobile and SNS according to an embodiment of the present invention, by using a mobile terminal to select the registered unit for each landscape for landscaping planting, and through the SNS for the selected unit It is effective to provide a modeling service for landscaping planting to select a landscaper through the bidding, and in the process to select a landscaper.

In addition, the landscaping plant management system and method using mobile and SNS according to another embodiment of the present invention, simulated two-dimensional modeling information, three-dimensional modeling information, and two-dimensional and three-dimensional modeling in the site space for landscape planting In addition to providing VR information or AR information for information, systematic information collection through modeling and information conversion is performed, and the collected information can be utilized as feedback data based on big data.

In addition, the landscaping plant management system and method using mobile and SNS according to another embodiment of the present invention, a landscaping company using a hash tag through a systematic classification for hashtags for recruiting landscaping companies through SNS on a mobile basis Provides the effect of enabling SNS service to be more active and systematic.

1 is a view showing a landscape planting management system 1 using a mobile and SNS according to an embodiment of the present invention.
2 is a block diagram illustrating the components of the landscape planting management server 300 of the landscape planting management system 1 using mobile and SNS according to an embodiment of the present invention.
3 is a flowchart illustrating a landscaping planting management method using mobile and SNS according to an embodiment of the present invention.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of related known functions or configurations will be omitted when it is determined that the detailed description of the present invention may unnecessarily obscure the subject matter of the present invention.

In the present specification, when one component 'transmits' data or a signal to another component, the component may directly transmit the data or signal to another component, and through at least one other component. This means that data or signals can be transmitted to other components.

1 is a view showing a landscape planting management system 1 using a mobile and SNS according to an embodiment of the present invention. Referring to FIG. 1, the landscaping planting management system 1 using mobile and SNS includes a mobile terminal set, a network 200, a landscaping planting management server 300, and an SNS server 300a including a plurality of mobile terminals 100. A landscaper terminal group including a plurality of landscaper terminals 400 may include a big data server 500 and a spatial data providing server 600.

The network 200 is a communication network, which is a high-speed network of a large communication network capable of large-capacity, long-distance voice and data services, and may be a next-generation wired and wireless network for providing an Internet or high-speed multimedia service. When the network 200 is a mobile communication network, it may be a synchronous mobile communication network or an asynchronous mobile communication network. An example of an asynchronous mobile communication network is a communication network of a wideband code division multiple access (WCDMA) scheme. In this case, although not shown in the figure, the network 200 may include a Radio Network Controller (RNC). Meanwhile, although the WCDMA network is taken as an example, it may be an IP network based on a next generation communication network such as 3G LTE network, 4G network, 5G, or other IP. Network 200 is a mobile terminal set consisting of a plurality of mobile terminal 100, landscaping plant management server 300, SNS server 300a, landscaping terminal group consisting of a plurality of landscaping terminal 400, big data server 500, the spatial data providing server 600 and other systems serve to mutually transmit signals and data.

2 is a block diagram illustrating the components of the landscape planting management server 300 of the landscape planting management system 1 using mobile and SNS according to an embodiment of the present invention. Referring to FIG. 2, the landscape planting management server 300 includes a transceiver 310, a controller 320, and a database 330, and the controller 320 includes a landscape planting request receiving module 321 and a modeling module ( 322, a planting performing module 323, an SNS providing module 324, and a landscape planting management module 325 may be included.

The landscaping plant request request module 321 is a two-dimensional photographed image taken from the top to the bottom using a drone for the land planting management object from the mobile terminal 100 through the network 200, a three-dimensional camera of the drone Receive the site image data corresponding to the three-dimensional photographed image photographed using the terminal to store the terminal identification number (IMEI) of the mobile terminal 100 as metadata in the database 330, or the landscaping planting management target from the mobile terminal 100 Receiving address information for the site number or road name for the site and providing the address information through access to the spatial data providing server 600 through the network 200 corresponding to the two-dimensional image or three-dimensional image The site image data may be received and the terminal identification number of the mobile terminal 100 may be stored in the database 330 as metadata. Here, not only two-dimensional images or three-dimensional images, but also four directions (east, west, and south) at a height corresponding to an average height of a person whose height is equal to or less than a predetermined height from a horizontal plane of a site that is a landscape planting target , North), 8 directions (South-East, North-East, South-West, North-West, East, West, South, North) etc. The module 321 may be received from the mobile terminal 100 or the spatial data providing server 600 and stored together in the database 330, so that the module 321 may be used to generate AR image information to be described later. Here, the 2D image or the 3D image may include GPS coordinate information as metadata, and for this purpose, the mobile terminal 100 is preferably provided with a location receiving module.

The modeling module 322 generates area image data and site shape information of the site image data, stores the terminal identification number of the mobile terminal 100 in the database 330 as metadata, and provides a plurality of landscape planting parameter information for landscaping. Planting parameters (trees, flowers, aquatic plants, etc.), landscape structure parameters (ponds, bridges, parasols, benches, etc.), landscape electrical / electronic device parameters (lighting, pond filtration, etc.)} via the network 200 After controlling the transmitting and receiving unit 310 to transmit to the terminal 100, not only receives the "landscape planting parameter selection information" selected from the landscape planting parameter information received from the mobile terminal 100, each additional landscape planting parameters By receiving the "location designation information" for the information may be stored in the database 330 together with the terminal identification number of the mobile terminal 100 as metadata.

Here, the modeling module 322 may include each plant (tree, flower, aquatic plant, etc.) planting parameters, landscape structure parameters (ponds, bridges, parasols, benches, etc.) constituting each landscape planting parameter information, landscape electrical / electronic device parameters. (Spec) information including the area information, price information, and the like (lighting, pond filtration device) and the like stored in the big data server 500 collected from each landscaping terminal 400, the mobile terminal 100 The role is to relay through the network 200.

Thereafter, the modeling module 322 extracts, from the database 330, area information occupying a square cm (cm ² ) basis for each landscape planting parameter selection information, and then stores the site image data stored as metadata of the mobile terminal 100. Analyze whether the area information of all of the landscape planting parameter information selected within the area of the house is accommodated, and if at least one positioning information for each landscape planting parameter selection information is included, each landscape planting designated within each positioning planting information It is possible to analyze whether all the area information of each landscape planting parameter selection information can be accommodated in the remaining site area except the area occupied by the parameter selection information.

When all of the modeling module 322 is accommodated, the modeling module 322 may perform 2D modeling of the landscape planting parameter information to match the site shape information stored as metadata of the mobile terminal 100.

On the other hand, if all of the modeling module 322 is not accommodated, it is notified that the landscaping planting parameter information cannot be installed to the mobile terminal 100 via the network 200, and together with the area insufficient in the area of the site image data, In order to prevent the lack of landscape planting parameter information to be removed by analyzing at least one of the landscape planting parameter information transmitted to the mobile terminal 100 via the network 200 selected for removal of the landscape planting parameter information transmitted. The selection information may be repeatedly performed until the area information of all the landscape planting parameter information selected in the area of the site image data stored as metadata of the mobile terminal 100 is received. Landscaping planting wave to match the site shape information stored as metadata of the terminal 100 The meter information may perform the two-dimensional modeling.

Here, the modeling module 322 may perform 2D modeling using the site shape information analyzed from the site image data when performing the 2D modeling.

That is, the modeling module 322 requests the big data server 500 to match the location information of the land planting parameter information from the site shape information to the big data server 500 through the network 200, and the location matched from the site shape information according to the request. The information may be set, and two-dimensional modeling information may be finally generated by analyzing harmonics of the landscape planting parameter information according to the set location information.

Here, when the modeling module 322 includes the positioning information stored together with the landscape planting parameter selection information, the modeling module 322 includes the remainder in the remaining site area excluding the area occupied by each landscape planting parameter selection information specified in each of the positioning information. Location information for landscape planting parameter information can be automatically set based on big data.

To this end, the big data server 500 receives the site shape information, the selected landscape planting parameter information, the area information of the site, and the area information of the landscape planting parameter information, and then the edges, straight portions, and curves of the received site shape information. Site shape information (including area information) corresponding to a part and the like can be extracted.

Thereafter, the big data server 500 extracts a dictionary matching degree for the landscape planting parameter information that matches the extracted site shape information, and sorts the matching degree for each landscape planting parameter information in descending order for each site shape information. 2D modeling by generating the location information on the site shape information for each landscape planting parameter information by arranging the landscape planting parameter information having the matching degree corresponding to the largest quantitative value for each site shape information. Can be performed. The prior matching degree to the landscape planting parameter information is matched according to the site shape information (including the area information) from the landscaper terminal 400, which is the at least one practitioner in which the big data server 500 provides each landscape planting parameter information. The degree (percentage information) can be obtained by surveying.

Here, when the two-dimensional modeling is performed, the big data server 500 analyzes the degree of harmony between neighboring landscape planting parameter information, and when the size is less than or equal to a preset threshold for the degree of harmony, the mobile terminal 100 may be arranged by itself. Can be changed via a notification message.

More specifically, the big data server 500 stores the harmony between each landscape planting parameter information based on the big data, and then landscapes corresponding to the neighboring landscape planting parameter information neighboring in the process of two-dimensional modeling. When the planting parameter information is extracted, the positional information on the site shape information for each landscape planting parameter information may be changed. When the planting parameter information is changed, the landscape planting parameter information corresponding to the upper pole for the change may be replaced with other landscape planting parameter information that may be replaced. Analyzing whether there is area information within the same or preset error area, and if there is, replacing one of the two pieces of information of other landscape planting parameter information analyzed and landscape planting parameter information corresponding to the upper pole. Harmonize about neighboring landscape planting parameter information A may perform a process of quantitative value is replaced by the selected high.

In a more specific embodiment, the lighting of the pond corresponding to the landscape structure parameters and the lighting of the landscape electric / electronic device parameters without the waterproof cover in the landscape planting parameter information correspond to each other, and the landscape of the landscape planting parameter information. Since the structure parameter pond and the pond filtration device corresponding to the landscape electric / electronic device parameters are in harmony with each other, the former will remain stored on the big data server 500 with a relatively low quantitative value of the harmonics. In this case, the quantitative value of the harmonic degree will remain stored on the big data server 500 relatively high.

When the modeling module 322 stores the two-dimensional modeling information stored from the big data server 500 in which the information is stored in the above-described manner, in the database 330 together with the terminal identification number of the mobile terminal 100, the two-dimensional modeling. The information may be converted into VR image information.

More specifically, the modeling module 322 determines two left and right focal positions and the number of foci for the two-dimensional modeling information corresponding to the two-dimensional image, and then two multi-focal points corresponding to the determined left and right two focal positions and the number of foci. Calculate the focal length for two-dimensional modeling information.

In addition, the modeling module 322 calculates a depth value proportional to a distance from the focal position of each of the two focal two-dimensional modeling information to the center point of the focal position of the counterpart image information in the multi-focus two-dimensional modeling information, Multifocal two-dimensional modeling information is synthesized according to the depth value.

Thereafter, the modeling module 322 uses two multi-focus two-dimensional modeling information and two-dimensional modeling information corresponding to the existing two-dimensional image to zero-parallax (Zero Parallax) image of the two-dimensional modeling information corresponding to the two-dimensional image. After setting the multi-focus two-dimensional modeling information corresponding to the image corresponding to the left focus as left parallax image data and the multi-focus two-dimensional modeling information corresponding to the image corresponding to the right focus as right parallax image data, Based on the disparity angle of at least one left parallax image data based on the identified zero parallax, the left eye image data is generated by applying the left parallax direction pixel movement information, and generating at least one right based on the identified zero parallax. The right eye image data is generated by checking and applying the right parallax direction pixel shift information based on the right angle angle to the parallax image data. The database 330 may store the terminal identification number of the mobile terminal 100 as metadata.

Here, the modeling module 322 generates a plurality of decoded images by decoding the generated left eye image data and the right eye image data, and sets the generated polygons to express each decoded image in a three-dimensional shape. By performing texture mapping on the 3D left eye image data and 3D right eye image data in the database 330 by storing the terminal identification number of the mobile terminal 100 as metadata, the more excellent three-dimensional VR image information mobile The terminal 100 may be provided through the network 200.

In the VR image information stored in the database 330, the modeling module 322 includes a plurality of landscape planting parameter information (plants (trees, flowers, aquatic plants, etc.) planting parameters, landscape structure parameters (ponds, bridges, parasols, benches, etc.). ), The planting parameters (information on changes over time for each landscape structure parameter) generated over time for landscape electrical / electronic device parameters (lighting, pond filtration, etc.). ), And then generate the VR image information generated by time through the machine learning algorithm for the extracted change plant parameters for each period (week, month, year unit, season unit, etc.), and then generate the generated VR image information. By controlling the transceiver 310 to transmit to the mobile terminal 100 via the network 200, for example, grow in each tree, flower and pond that occurs over time Not only can you feel the harmony of changes in aquatic plants, but also changes in shape such as discoloration or wear over time, such as ponds, bridges, parasols, and benches, which make up the landscape structure parameters, Graphic image screens can be provided so that users can feel the changes in corrosion, information of consumables that require degradation or replacement over time, such as lighting constituting electronic device parameters and pond filtration devices. .

The image information generated according to the change planting parameter may be applied to the above-described two-dimensional modeling information and the AR image information described later in the same manner.

To this end, the machine learning algorithm provided by the modeling module 322 may be one of a decision tree (DT) classification algorithm, a random forest classification algorithm, and a support vector machine (SVM) classification algorithm.

In another embodiment, the modeling module 322 extracts a plurality of feature information according to a distance to other landscape planting parameter information for a change planting parameter for each landscape planting parameter information, and extracts the extracted feature information for a plurality of machine learning. Additional verification result data may be derived as a result of learning and learning using at least one of the algorithms.

That is, the modeling module 322 is an ensemble structure composed of a plurality of complementary machine learning algorithms to improve the accuracy of the result of the shape, shape, color, etc. for each piece of landscape planting parameter information generated by the machine learning algorithm. Can be applied.

Decision tree classification algorithm is a method of learning the tree structure to derive the result, it is easy to interpret and understand the result, the data processing speed is fast, the rule can be derived based on the search tree. RF can be applied to improve the low classification accuracy of DT. The random forest classification algorithm is a method of slaughtering a result of ensemble of a plurality of DTs, and it is more difficult to understand the result than the DT, but the result accuracy may be higher than the DT. SVM can be applied to improve overfitting that can occur through DT or RF learning. The SVM classification algorithm classifies data belonging to different classifications on a plane basis. In general, the SVM classification algorithm may have high accuracy and may have low sensitivity to structural overfitting.

After machine learning, the modeling module 322 may perform deep learning by using additional verification result data, which is refined data that is distributed and stored for each piece of landscape planting parameter information. Here, the deep learning method is a cycle time, which is a time required for one entire process in an iterative operation to which the landscape planting parameter information formed by analyzing the change planting parameters by the modeling module 322, and the maximum time. It can be upgraded and executed according to the conversion and application of a program in a manner that minimizes the reduction of the tact time.

The modeling module 322 may convert the two-dimensional modeling information corresponding to the two-dimensional image into the three-dimensional modeling information, and the method of converting the texture mapping of the generated two-dimensional modeling information on the set of polygons as described above. 3D modeling information can be generated by performing the following steps.

Thereafter, the modeling module 322 may generate location information and direction information about the 3D modeling information. That is, the modeling module 322 includes GPS coordinate information included as meta data of the 2D photographing image or the 3D photographing image for the 3D modeling information, or reprocessed, and includes 4 directions (east, west, south, north). ), AR image information is generated by including 360 ° direction information including direction information for 8 directions (south-east, north-east, south-west, north-west, east, west, south, north) and the like, and then mobile via the network 200. It may be transmitted to the terminal 100.

Accordingly, before the mobile terminal 100 outputs the received AR image information through the touch screen, the mobile terminal 100 transmits coordinate information on the real-time image information captured by the camera to a location receiving terminal (GPS receiving apparatus or base station 3 using a network). After each measurement method), and distance information with the 3D modeling information may be generated.

In addition, the mobile terminal 100 may be configured in three-dimensional modeling information that matches the direction information included in the AR image information according to the direction information formed by the orientation sensor (or gyro sensor), the orientation survey method using the base station through the other network, etc. The direction surface of the can be selected and output on the touch screen.

Here, perspective adjustment according to the above-mentioned distance information in the 3D modeling information output according to the direction surface selected on the touch screen of the mobile terminal 100 may be performed by the mobile terminal 100.

As a result, the mobile terminal 100 according to the above-described method, if the mobile terminal 100 fits in accordance with the image recognition process for the land planting management target through the image analysis of the two-dimensional image output to the touch screen through the camera, 3D modeling information with the adjusted and directions may be output in an AR method.

In addition, the modeling module 322 accesses and requests unit price information on each landscape planting parameter information to the big data server 500 through the network 200, and then adds the received unit price information to the landscape planting plant. Along with the sum of the price information and work charges, the transceiver 310 may be controlled to transmit a list of price information and work charges for each landscape planting parameter information to the mobile terminal 100 through the network 200.

To this end, the big data server 500 receives the big data by receiving the unit price information for each landscape planting parameter information from the landscaping company terminal 400 and the work fee according to the site shape information to be installed at the site for each landscape planting parameter information. After the management based on the information, it can provide information according to the request by the modeling module 322.

The planting performance module 323 includes two-dimensional modeling information, three-dimensional modeling information, VR or AR image information for each two-dimensional or three-dimensional modeling information, price information and work charges for landscape planting, and each landscape planting parameter. The list of price information and work charges for each information is stored as a “Landscape planting information unit” in the database 330 using the terminal identification number of the mobile terminal 100 as metadata, and then the network 200 for the mobile terminal 100. Request the SNS account registration request to automatically register the name information for each selected "Landscaping plant parameter selection information" with the landscape plant as a hash tag (#, hash tags). The transceiver 310 may be controlled to transmit. Here, the automatic designation method is a mobile terminal provided by the SNS server 300a that includes a hash tag automatically when the SNS account registration request area is selected by the mobile terminal 100 on the web page provided by the planting performing module 323. It can be carried out by moving to the upload page on the account of the mobile terminal user operating the (100). Accordingly, the mobile terminal 100 may receive a proposal through the reverse auction method from the landscaping company terminal 500 for the actual landscape planting, and then accept the proposal for one of them.

Subsequently, the planting execution module 323 retrieves the hashtag registered by the mobile terminal 100 on the SNS server 300a and performs a real off-line landscaping planting contract through the reverse auction scheme with the landscaping company terminal 500 registered therein. When the online contract is concluded, the landscaping planting is actually completed by the contractor's landscaping terminal 500 and photographed through drone operation by the landscaping terminal 500 directly or requested by the spatial data providing server 600. The 2D landscape planting image or the 3D landscape planting image photographed through the network 200 may be obtained and stored in the database 330.

In addition, the planting performing module 323 may include the two-dimensional landscaping planting image and / or the three-dimensional landscaping planting image stored in the database 330, and the aforementioned “Landscaping planting information unit” as the SNS providing module 324. ) Can be delivered as metadata.

The SNS providing module 324 is a two-dimensional landscaping condition on the permission of the publication registration for the mobile terminal 100 on the account of the mobile terminal 100 registered in the SNS server 300a at the request of the planting performing module 323. Planting images and / or three-dimensional landscaping planting images, and landscape planting information units may be automatically posted. To this end, the SNS providing module 324 transmits an authentication request message before posting an SNS based on biometric information (fingerprint, face shape, iris, etc.) for the mobile terminal 100 through the network 200. The transmitter / receiver 310 may be controlled to transmit to the SNS, and if the same biometric information as the previously stored biometric information is confirmed from the mobile terminal 100, the SNS may be posted.

The landscaping plant management module 325 manages the terminal identification number of the mobile terminal 100 in which the SNS posts are registered on the database 330, and when a preset period arrives, the landscaping management module 325 is actually offline. The transceiver 310 may be controlled to receive the 2D landscape planting change state image or the 3D landscape planting change state image through a request for the landscaper terminal 500 that has completed the landscape planting.

That is, the landscape planting management module 325 is a two-dimensional landscape planting change state image or three-dimensional landscape planting change state image photographed through a drone directly operated by a landscaper or a request by the spatial data providing server 600 The transceiver 310 may be controlled to receive the image from the landscaping company terminal 500 and / or the spatial data providing server 600 through the network 200.

Thereafter, the landscaping plant management module 325 uses the modeling module 322 described above to display a plurality of pieces of landscape planting parameter information (plants (trees, flowers, aquatic plants, etc.) planting parameters on each of the two-dimensional modeling information or the three-dimensional modeling information. Change over time for landscaping structure parameters (ponds, bridges, parasols, benches, etc.), landscape electrical / electronic device parameters (lighting, pond filtration, etc.)} After extracting the information on the change over time in the database 330, each period (2D modeling information or 3D modeling information generated over time through a machine learning algorithm for the extracted change planting parameters) Preset for acquiring 2D landscape plant change state image or 3D landscape plant change state image among week, month, year unit, season unit, etc. It may be the same period as the period to perform image comparisons for those two-dimensional image or three-dimensional state changes landscaping planting landscaping planting change state image.

The landscape planting management module 325 transmits a parameter having a difference of more than a predetermined image pixel based on the landscape planting parameter information to the mobile terminal 100 and the landscaper terminal 400 through the network 200. In addition to controlling the transmitter / receiver 310, the parameter for the difference between the preset image pixel and the change plant parameter is feedback information on the change plant parameter extracted on the database 330 used by the modeling module 322. It can be used to adjust.

3 is a flowchart illustrating a landscaping planting management method using mobile and SNS according to an embodiment of the present invention. Hereinafter, looking at the technical gist centering on the overall process of the landscaping planting management method using mobile and SNS, the content overlaps with the above description in the landscaping planting management system 1 using mobile and SNS of FIGS. 1 and 2. Since the description thereof will be omitted, it will be apparent to those skilled in the art that the detailed technical contents of the system of FIG. 2 may be applied to the method. Referring to FIG. 3, the landscaping planting management server 300 may not only have a 2D image or a 3D image, but also an average height of a person who is equal to or less than a preset height from a horizontal plane of a site that is a landscaping target. Image information taken according to the four directions (East, West, South, North) and eight directions (Southeast, Northeast, Southwest, Northwest, East, West, South, North) from the height corresponding to the two-dimensional image Or 3D photographed images) are also received and stored in the database 330 (S11).

After the step S11, the landscaping planting management server 300 utilizes the information according to the 2D photographed image or the 3D photographed image and the direction, and applies the landscape planting parameter information to match the site shape information extracted from the 2D photographed image. 2D modeling is performed and 3D modeling is performed again using the 2D modeling information to obtain 2D and 3D modeling information, VR and AR image information therefor (S12).

After the step S12, the landscaping plant management server 300 retrieves the hashtag registered by the mobile terminal 100 on the SNS server 300a and actually offline through a reverse auction scheme with the landscaping company terminal 500. When the landscaping planting contract of the type is concluded online, the landscaping planting is actually completed by the contracted landscaping terminal 500 and photographed through a drone operation by the landscaping terminal 500 directly or a spatial data providing server ( The two-dimensional landscape planting image or the three-dimensional landscape planting image photographed through the request by the 600 is obtained through the network 200 and stored in the database 330 (S13).

After operation S13, the landscaping planting management server 300 may include the two-dimensional landscape planting image and / or the three-dimensional landscape planting image stored in the database 330, and the above-described "landscape planting information unit" of the terminal 100. The identification number is stored as the metadata in the database 33 (S14).

After the step S14, the landscaping planting management server 300 on the account of the mobile terminal 100 registered in the SNS server 300a on the two-dimensional landscaping planting image and subject to the publication registration permission for the mobile terminal 100 and And / or automatically publishes a three-dimensional landscaping planting image, and a landscape planting information unit. To this end, the landscape planting management server 300 is based on biometric authentication information (fingerprint, face shape, iris, etc.) for the mobile terminal 100. Before the SNS posting, the authentication request message may be transmitted to the mobile terminal 100 through the network 200. When the same biometric information as the biometric information stored in advance is confirmed from the mobile terminal 100, the SNS posting is performed. (S15).

After step S15, the landscaping plant management server 300 manages the terminal identification number of the mobile terminal 100 in which the SNS post is registered on the database 330, and when a predetermined period arrives, the network 200. Through the request to the landscaping company terminal 500 that has actually completed the landscaping planting of the offline method through the 2D landscaping plant change state image or 3D landscaping plant change state image is received (S16).

After the step (S16), the landscape planting management server 300 on each of the two-dimensional modeling information or three-dimensional modeling information each of the plurality of landscape planting parameter information (plants (trees, flowers, aquatic plants, etc.) planting parameters, landscape structure parameters ( Ponds, Bridges, Parasols, Benches, etc.)) and Landscape Electrical / Electronic Device Parameters (Lighting, Pond Filters, etc.)} over time. After extracting the change information on the database 330, each period (week, month, year) of the two-dimensional modeling information or three-dimensional modeling information generated over time through a machine learning algorithm for the extracted change planting parameters The same period as the preset period for acquiring the 2D landscape plant change state image or the 3D landscape plant change state image As a two-dimensional image and performs a comparison of the landscape planting change state image or 3D image landscaping ingredients change state (S17).

After the step S17, the landscaping planting management server 300 performs the mobile terminal 100 and the landscaping company terminal through the network 200 with respect to a parameter that differs from a preset image pixel based on the landscaping planting parameter information. In addition to the transmission to the 400, a parameter having a difference greater than or equal to a predetermined image pixel may be used to adjust the change plant parameter as feedback information on the change plant parameter extracted on the database 330 (S18).

The invention can also be embodied as computer readable code on a computer readable recording medium. Computer-readable recording media include all types of recording devices that store data that can be read by a computer system.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disks, optical data storage devices, and the like, which are also implemented in the form of carrier waves (eg, transmission over the Internet). It also includes.

The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

As described above, the present specification and drawings have been described with respect to the preferred embodiments of the present invention, although specific terms are used, it is only used in a general sense to easily explain the technical contents of the present invention and help the understanding of the present invention. It is not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

1: Landscape Planting Management System using Mobile and SNS
100: a plurality of mobile terminals
200: network
300: Landscaping Plant Management Server
310: transceiver
320: control unit
321: Landscaping plant request request module
322: Modeling Module
323: planting module
324: SNS module
325: Landscaping Plant Management Module
330: Database
300a: SNS server
400: landscaping terminal
500: Big Data Server
600: spatial data providing server

Claims (3)

Mobile terminal set consisting of a plurality of mobile terminal 100, network 200, landscaping plant management server 300, SNS server 300a, landscaping terminal group consisting of a plurality of landscaping terminal 400, big data server In the landscaping planting management system 1 using the mobile 500 and the SNS including the spatial data providing server 600, the landscaping planting management server 300,
Transmitting and receiving unit 310, the control unit 320 and the database 330, the control unit 320,
It corresponds to a two-dimensional photographing image taken from the top to the bottom using a drone for a land planting management object from the mobile terminal 100 through the network 200, and corresponds to a three-dimensional image taken using a three-dimensional camera of the drone Receives the site image data to store the terminal identification number (IMEI) of the mobile terminal 100 as metadata in the database 330, or from the mobile terminal 100 to the land or road name for the land planting management target landscaping After receiving the address information and access to the spatial data providing server 600 through the network 200 to provide the address information, and receives the site image data corresponding to the two-dimensional or three-dimensional imaging image mobile terminal ( The terminal identification number of 100) is stored in the database 330 as metadata, but not only a 2D image or a 3D image, Four directions (east, west, south, north) and eight directions (south, east, north, southwest, northwest, and east) at the height corresponding to the average height of the person who is below the preset height from the horizontal plane of the site to be reclaimed. Image information (two-dimensional photographed image or three-dimensional photographed image) photographed according to the direction information of one of directions including, west, south, north) from the mobile terminal 100 or the spatial data providing server 600 together. It can be received and stored together in the database 330 to be used when generating AR image information, but the GPS acquired by the position receiving module of the mobile terminal 100 as metadata in the 2D image or the 3D image Landscaping planting request receiving module 321 including the coordinate information;
Generates the area image data, site shape information of the site image data, stores the terminal identification number of the mobile terminal 100 as metadata in the database 330, and provides a plurality of landscape planting parameter information for the landscaping {plant (tree, flower, aquatic). Planting parameters, landscaping structure parameters (including ponds, bridges, parasols, benches), landscape electrical / electronic device parameters (including lighting, pond filtration)} to the mobile terminal 100 via the network 200. After controlling the transmission and reception unit 310, not only receives the "landscape planting parameter selection information" selected from the landscape planting parameter information received from the mobile terminal 100, but also additionally "positioning" for each selected landscape planting parameter information Information "and store the terminal identification number of the mobile terminal 100 together as metadata in the database 330, and configures each landscape planting parameter information. Area information for each plant (including trees, flowers, aquatic plants) planting parameters, landscape structure parameters (including ponds, bridges, parasols, and benches), landscape electrical and electronics parameters (including lighting, pond filtration), prices Spec information including the information is collected from each landscaper terminal 400 and relays the information stored in the big data server 500 to the mobile terminal 100 through the network 200,
After extracting the area information of the square cm (cm ² ) criteria for each landscape planting parameter selection information from the database 330, all the landscape planting parameters selected within the area of the site image data stored as metadata of the mobile terminal 100. Analyze whether all the area information of the information is accommodated, but if all is accommodated 2D modeling of the landscape planting parameter information to match the site shape information stored as metadata of the mobile terminal 100, if not all Notify that the landscaping planting parameter information cannot be installed to the mobile terminal 100 through the network 200, and the landscaping planting parameter information to be removed so as not to be insufficient together with the area lacking in the area of the site image data. Analyze and analyze at least one landscape planting parameter All the landscaping selected within the area of the site image data stored as metadata of the mobile terminal 100 after the selection information selected for removal of the landscape planting parameter information transmitted by transmitting to the mobile terminal 100 through the work 200. As it is repeatedly performed until the area information of the planting parameter information is accommodated, two-dimensional modeling of the landscape planting parameter information is performed to match the land shape information stored as metadata of the mobile terminal 100 when all are accommodated.
When performing the 2D modeling, the 2D modeling is performed using the site shape information analyzed from the site image data, and the matching degree of the positional information on the landscaping plant parameter information in the site shape information is large through the network 200. After requesting the data server 500 and setting the position information matched in the site shape information according to the request, and analyzing the harmonic degree of each landscape planting parameter information according to the set position information, and finally generates two-dimensional modeling information, When the 2D modeling information is stored in the database 330 together with the terminal identification number of the mobile terminal 100, the 3D left eye image data corresponding to the VR image information is converted by converting the 2D modeling information into VR image information. By storing the three-dimensional right eye image data in the database 330 as the terminal identification number of the mobile terminal 100 as metadata , To provide more stereoscopic VR image information to the mobile terminal 100 through the network 200, and a plurality of landscape planting parameter information {plants (trees, flowers, aquatic plants) in the VR image information stored in the database 330 Changes over time for planting parameters, landscape structure parameters (including ponds, bridges, parasols, benches), landscape electrical / electronics parameters (including lighting, pond filtration)} After extracting the information on the change over time for each structure parameter on the database 330, the VR image information generated according to the time through the machine learning algorithm for the extracted change planting parameters for each period (week, month) And a unit for each year, and a season unit), and then the transceiver unit 3 transmits the generated VR image information to the mobile terminal 100 through the network 200. 10) and applies to 2D modeling information and AR image information about image information generated according to the change planting parameter.
Converts two-dimensional modeling information corresponding to the two-dimensional image into three-dimensional modeling information, and generates position information and direction information for the three-dimensional modeling information, and the two-dimensional or three-dimensional image of the three-dimensional modeling information GPS coordinate information included as metadata is still included or reprocessed, and directions for 4 directions (east, west, south, north) and 8 directions (south east, northeast, southwest, northwest, east, west, south, north) After generating AR image information by including 360 ° direction information including the information, and transmitting the AR image information to the mobile terminal 100 through the network 200, the touch screen for the AR image information received by the mobile terminal 100 Coordinate information on real-time image information captured by the camera is generated through a location receiving terminal (including a GPS receiver or a base station triangulation method using a network) before outputting through the 3D model. Directional surface in 3D modeling information that generates distance information from the information and matches the direction information included in the AR image information according to the orientation information formed by the orientation sensor (or gyro sensor) or the orientation survey method using a base station through a network. Select to print on the touch screen,
The unit price information for each landscape planting parameter information is accessed and received through the network 200 to the big data server 500, and the received unit price information is summed together with the summed price information and work fee for landscape planting. A modeling module 322 for controlling the transceiver 310 to transmit a list of price information and work charges for each landscape planting parameter information to the mobile terminal 100 through the network 200;
2D modeling information, 3D modeling information, VR or AR image information for each 2D or 3D modeling information, price information and work charges for landscape planting, price information and work fee for each landscape planting parameter information After storing the list on the mobile terminal 100 as the terminal identification number of the metadata as a "Landscaping plant information unit" in the database 330, the mobile through the request through the network 200 for the mobile terminal 100 To transmit the SNS account registration request to automatically register the name information for each selected "Landscaping plant parameter selection information" to the SNS account of the user terminal 100 with the landscape planting, and register as hash tags (#, hash tags). By controlling the transceiver 310, the mobile terminal 100 receives the proposal through the reverse auction method from the landscaping company terminal 500 for the actual landscaping planting, the To accept the proposal for one, the actual landscaping planting contract through the reverse auction method with the landscaping company terminal 500 to search for the hashtag registered by the mobile terminal 100 on the SNS server (300a) registered When the online contract is concluded, the landscaping planting is actually completed by the contractor's landscaping terminal 500 and photographed through drone operation by the landscaping terminal 500 directly or requested by the spatial data providing server 600. 2D landscaping planting image or 3D landscaping planting image taken through the network 200 to obtain and store in the database 330, 2D landscaping planting image or 3D landscaping planting image stored in the database 330, And the planting performance module for transmitting the "Landscaping plant information unit" to the SNS providing module 324 as the terminal identification number of the mobile terminal 100 as metadata 323; And
Two-dimensional landscaping planting image or three-dimensional landscaping planting under the permission of the publication registration for the mobile terminal 100 on the account of the mobile terminal 100 registered in the SNS server 300a according to the request of the planting module 323 An SNS providing module 324 for automatically posting images and landscape planting information units; Including;
When the big data server 500 receives the area shape information, the selected landscaping plant parameter information, and the area information of the site, the landscaping plant parameter information at the time of the harmonic analysis according to the request of the modeling module 322. Extracts the site shape information (including the area information) corresponding to the corners, straight portions, and curved portions of the received site shape information, and extracts a matching degree of the landscape planting parameter information matching the extracted site shape information. By arranging the matching degree for each land planting parameter information in descending order for each lot shape information, and arranging the land planting parameter information having the matching degree corresponding to the largest quantitative value for each lot shape information, Two-dimensional modeling is performed by generating position information on the site shape information for planting parameter information. The prior matching degree to the planting parameter information is matched according to the site shape information (including the area information) from the landscaping company terminal 400, which is the at least one or more practical persons for which the big data server 500 provides each landscape planting parameter information. Earned by surveying (percentage information),
In the process of performing each two-dimensional modeling, if the harmony between the neighboring landscape planting parameter information is analyzed or less than a preset threshold for the harmony, the arrangement may be changed by itself or through a notification message to the mobile terminal 100. When the landscape planting parameter information corresponding to the upper pole is extracted by storing neighboring landscape planting parameter information in the process of performing two-dimensional modeling after storing the harmonics between the landscape planting parameter information based on big data, The location information on the site shape information for the planting parameter information is changed, and the landscaping planting parameter information corresponding to the upper pole for the change and other landscaping planting parameter information that can be replaced when the change is made, the area information within the same or preset error area. Analyze whether there is a, and analysis results If there is information on the existing landscape planting parameter information and if one of the two pieces of information forming the landscape planting parameter information corresponding to the upper pole is replaced, the quantitative value of the degree of harmony for the neighboring landscape planting parameter information is increased. Landscaping planting management system using mobile and SNS, characterized in that to perform the process of selecting and replacing.
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