KR20110081088A - Rfid based seed orchard management system and method thereof - Google Patents

Abstract

PURPOSE: An RFID-based seed garden management system and a method thereof are provided to integrally manage the history of corresponding individual trees using the RFID tag installed in the plus tree and the RFID tag installed in the mother tree. CONSTITUTION: An RFID reader(200) reads out a tag identification number and an individual tree identification number from a RFID tag(100). A user terminal(300) transmits the GPS(Global Positioning System) location information of the individual tree and the user input information about the individual tree by wireless. A web server(500) combines the management data of the individual tree with GIS(Geographic Information System) data to create integrated management data. A manager computer(600) searches the integrated management data in a database.

Description

RDF based seed orchard management system and method thereof

The present invention relates to the management of chaebol data, more specifically, RFID-based chaejongwon to manage the gardening data by linking the information about the tree and the garden using radio frequency identification (hereinafter referred to as 'RFID') A management system and method thereof are provided.

Currently, individual rape stocks in Chaejongwon are managed by labeling, but there are a number of labels that may be lost and are already damaged. The drawings related to the chaejongwon are also stored in the paper state, so it is difficult to store and use them.

In addition, the location information of the tree tree corresponding to the parameters of the cultivation tree is also shown only as a brief map and is not managed by the exact location coordinates. In addition, the related bosses are managed as Excel field managers and require a separate occupation.

On the other hand, in places where individual trees such as rape trees and tree trees are growing, there may be places where people can be easily managed, such as chaejongwon. However, when the area of chaejongwon is large, there may be a limit in managing a large number of chaebol trees. In particular, since a large number of trees grow in a forest environment composed of rough terrain or deteriorated trees, there is a limit in managing trees grown in such a forest environment.

In addition, because the trees and the management of the trees for the trees are managed separately, it is necessary to integrate management of the trees and the trees.

For this reason, there is a demand for the management of tree trees and tree species, and the establishment of an information system for efficiently managing information on the places where tree trees and tree species are distributed.

Therefore, an object of the present invention is to carry out the history management of each individual tree (trees and tree species) in the field by RFID tag type labeling, and efficient management by generating integrated management data by combining the management data for each object with GIS data An RFID-based species garden management system capable of performing management and a method thereof are provided.

In order to achieve the above object, the RFID based rape garden management system according to the present invention includes an RFID-tag, an RFID reader, a user terminal, a database, a web server, and an administrator computer. The RFID tag is attached to an object such as a tree that is managed in a garden, a tree that grows in a forest environment consisting of rough terrain and decayed trees, which is a parameter of the tree, and a tag identification number and an object identification number are stored. . The RFID reader reads a tag identification number and an object identification number of the RFID tag. The user terminal is interlocked with the navigation to look up the location of the object by looking up the location information and photos of the object to find the location of the object, the tag identification number and object identification number read from the connected RFID reader, the object tree GPS location information of the subject corresponding to the identification number and user input information of the subject are wirelessly transmitted. The database is integrated management generated based on the management data for each tree based on the tag identification number and the individual tree identification number and the management data of the tree tree corresponding to the tree species, and the integrated management generated based on the management data for each object. Save the data. The web server reads the management data of the entity corresponding to the entity identification number received from the user terminal from the database and transmits the management data to the user terminal, and transmits the user input information received from the user terminal to the entity object. Modify or add to the management data, update the data, and generate the integrated management data by combining the management data of the read object with the GIS data obtained based on the GPS location information received from the user terminal and storing the integrated management data in the database. , Integrated management data in the form of 3D stereoscopic image by combining clinical map, forest use base map, forest location map, index, administrative area map, digital topographic map, and still-life photography from external database Create and store in the database. The manager computer accesses the web server and inputs and stores the management data and the integrated management data for each entity in the database through the web server, or retrieves and retrieves the integrated management data from the database.

In the RFID-based cultivation garden management system according to the present invention, the management data for each individual object is composed of location information including information about administrative boundaries, actual roads, intellectuals, large-scale building contours, and surrounding facilities in the area where the individual object is located. And the above-mentioned varieties of the individual trees, names of management organizations, designated numbers of tree trees designated by management organizations, designated year, species, type of planting, hard work, register, bibliographic information consisting of coordinate information, and fertilization and seed forecasting for seedlings. It may include a post management history consisting of.

In the RFID-based cultivation garden management system according to the present invention, the user terminal accesses the web server according to a user input, modifies or updates the management data displayed on the screen, and provides the web server with the entity stored in the database. You can modify or update the management data for each subject.

In the RFID-based species garden management system according to the present invention, the user terminal may be a personal information terminal, an ultra mobile PC, or a notebook PC having a GPS reception function.

The present invention also provides a RFID-tagged tree that grows in a forest environment consisting of a RFID-tagged seedling managed by a user in a garden, linked to navigation, and a parameter of the seedling and rough terrain and depressed trees. Checking and finding the location of the object by looking up the location information and pictures of the object such as a tree, a tag identification number and object identification number from the RFID tag attached to the object by the RFID reader connected to the user terminal Reading and transmitting to the connected user terminal, wherein the user terminal reads the read tag identification number and the object identification number, GPS location information of the object corresponding to the object identification number, and the object object. Wirelessly transmitting user input information to a web server, the web server to the user terminal Reading management data of the subject corresponding to the received subject identification number from a database; and receiving the user input information received from the user terminal by the web server using the tag identification number and the subject identification number. The GPS location information received from the user terminal by updating or updating the management data for each tree item based on the management data for each tree tree based on the management data of the tree tree tree and the management data of the tree tree corresponding to the tree tree tree. 3D stereoscopic image by combining GIS data obtained on the basis of the data and clinical maps, forest use base maps, forest location maps, indexes, administrative district maps, digital topographic maps, and static public photos and management data for each individual object. The database by generating integrated management data in the form of an image It provides an RFID-based chaejongwon management method comprising the step of storing.

In the RFID-based cultivation garden management method according to the present invention, the manager computer accesses the web server and inputs and stores the management data and the integrated management data for each entity in the database through the web server, or stores the integrated management data. The method may further include searching and searching in the database.

According to the present invention, it is possible to improve the management efficiency of the tree and the tree by integrating the history management to the corresponding object tree using the RFID-tag installed on the tree and the RFID-tag installed on the tree.

In addition, if the management is done by RFID tag type labeling, the history management can be performed immediately at the site, and the location information of the tree (tree or tree) can be directly searched by linking with navigation such as PDA or UMPC. Based on neck position information, it is linked with various GIS data to enable more advanced analysis. In particular, since Chae Jong-won is a managed forest land, it is possible to expand the communication infrastructure, so there is an environmental advantage that can be combined with various U-technology.

By attaching (or inserting) an RFID tag to the object, more accurate location information is possible and history management in the field is possible. In particular, the RFID management of individual trees creates an environment that enables continuous monitoring and investigation of tree trees and tree species included in the same trees, so that more accurate forest statistics can be produced.

In addition, it is expected that data can be transmitted to the RFID-based cultivation management system in real time in the field, thereby increasing various work efficiency.

In addition, since the location information is stored for each object to be managed, it is possible to map the object tree, so it can be easily utilized for mapping the object tree location of the tree species and tree species, and the external DB and external GIS based on the object tree location information. In conjunction with the data, high value-added information such as integrated management data based on various spatial information can be created.

Also, in managing the individual items, it is possible to manage the individual items efficiently by transmitting the real-time field history management based on RFID by sending the post-management details such as fertilization and seed forecasting on the cultivated tree stocks to the web server in real time. It works.

1 is a view showing an RFID-based seed garden management system according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a software configuration of the RFID-based seed garden management system shown in FIG. 1.
3 is a diagram illustrating a functional diagram of the RFID-based seed garden management system shown in FIG. 1.
4 is a diagram illustrating an object attribute DB conceptual model according to an embodiment of the present invention.
5 is a diagram illustrating a UFID-based RFID tag identification number system according to an embodiment of the present invention.
6 is a diagram illustrating an external DB linkage with an RFID-based seed gardening management system according to an embodiment of the present invention.
7 is a view showing an example of RFID / GIS convergence gardening management according to an embodiment of the present invention.
8 is an exemplary view of a screen for inputting clone notation information and parameter information in the chaewonwon RFID management system according to an embodiment of the present invention.
9 is an exemplary view of a screen for inputting history management information in the ChaeWon RFID management system according to an embodiment of the present invention.
10 is a flowchart illustrating a method for managing RFID-based seed gardening according to an embodiment of the present invention.

Hereinafter, an RFID-based seed garden management system according to an embodiment of the present invention will be described. In the following description, only parts necessary for understanding the operation according to the embodiment of the present invention will be described, it should be noted that the description of other parts will be omitted so as not to distract from the gist of the present invention.

The terms or words used in the specification and claims described below should not be construed as being limited to the ordinary or dictionary meanings, and the inventors may appropriately use the concept of terms to describe their own invention in the best way. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only exemplary embodiments of the present invention, and do not represent all of the technical ideas of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

Herein, the term "tree" means a tree that corresponds to a tree or a tree. Here, the tree refers to a tree designated in recognition that the tree and trait designated for harvesting the seedlings or harvesting canopy, and the shape and trait specified for harvesting seeds are superior in appearance. The rapeseed tree is a tree managed by chaejongwon and has a tree as a parameter. Rapeseed is a place where seeds are grown from seedlings to multiply and distribute them to farmers.

1 is a view showing an RFID-based seed garden management system according to an embodiment of the present invention. FIG. 2 is a diagram illustrating a software configuration of the RFID-based seed garden management system shown in FIG. 1. 3 is a diagram illustrating a functional diagram of the RFID-based seed garden management system shown in FIG. 1.

According to an embodiment of the present invention, the RFID-based chaewon management system, as shown in Figures 1 to 3, RFID-tag 100, RFID reader 200, the user terminal 300, database 400, Web Server 500, and administrator computer 600.

The RFID-tag 100 is attached to the object 10 and stores a tag identification number and an object identification number. Meanwhile, the RFID tag 100 may delete and modify pre-stored management data according to a user's input. Although one object 10 and one RFID-tag 100 are shown in FIG. 1, the present invention is not limited thereto. That is, a plurality of RFID-tags 100 may be attached to each of the plurality of objects 10.

The RFID reader 200 reads the tag identification number and the object identification number of the RFID tag 100 from the RFID tag 100.

The user terminal 300 interlocks with the navigation and searches the location information and the picture of the object 10 to identify and find the location of the object 10. The user terminal 300 includes the tag identification number, the object identification number, the GPS location information of the object 10 corresponding to the object identification number from the RFID reader 200, and the user input information on the object 10. To transmit wirelessly. In addition, the user terminal 300 accesses the web server 500 according to a user's input, modifies or updates the management data displayed on the screen, and provides the web server 500 with the management data for each object stored in the database 400. Modify or update. In this case, the user terminal 300 may be a personal digital assistant (PDA), an ultra mobile PC (UMPC), or a notebook PC having a GPS reception function.

The database 400 stores management data for each object and integrated management data. Here, the management data for each individual item includes management data of the tree species based on the tag identification number and the individual item identification number, and data associated with management data of the tree tree corresponding to the tree species. The integrated management data is data generated based on management data for each entity.

The management data for each individual object is composed of location information consisting of information on the boundaries of administrative districts, explosive roads, intellectuals, large-scale building contours, and surrounding facilities where each individual object is located. It may include a name, a designated number of a tree designated by the management agency, a year of designation, species, type of planting, effort, grade, bibliographic information consisting of coordinate information, and post-mortem details of fertilization and seed forecasting of the tree.

Specifically, the management data for each individual tree may include the management data for the tree species and the management data for the gardener, and may include detailed information corresponding to essential information and detailed history management information, which are basic items for each individual tree.

Essential information in the tree management data may include tree tree number, tree species, coordinates, designated year, location, ownership, and death. Detailed information of the tree management data may include information on the age, height, growth rate, effort, load, basement and integrity.

Essential information of the management data of the raptor garden may include the cultivation tree number, planting year, tree species, coordinates, parameters (tree tree) information and local information. Detailed information in the management data of the raptor may include information on individual changes after planting, follow-up management including fertilization and pest control, seed forecasting, seeding and planting control. Here, the individual change after planting includes information on whether to die, the date of death, the amount of feeding and the date of feeding. Fertilization during follow-up may include information on the area number, date and time of application, type of application and amount of application. The pesticide during follow-up may include information on the date of pesticide release, the name of the pest and the name of the drug. Seed surveys may include information on the date and time of seed survey, the amount of condensation, the amount of seed and the yield. Seed collection may include information on the date and time of seed collection, yield, seed collection, disappearance and germination rate.

The web server 500 may read management data of the entity corresponding to the entity identification number from the user terminal 300 from the database 400 and transmit the management data to the user terminal 300. The web server 500 may update the user input information received from the user terminal 300 by modifying or adding to the management data of the entity. The web server 500 obtains the management data of the read object 10 based on the GPS location information received from the user terminal 300 (Geographic Information System; hereinafter referred to as 'GIS'). The integrated management data is generated in combination with the data and stored in the database 400. In addition, the web server 500 combines clinical maps, forest use base maps, forest location maps, indexes, administrative district maps, digital topographic maps, and regular public photographs and management data for each individual object, respectively, from an external database. Integrated management data of the can be generated and stored in the database (400).

Here, GIS technology mainly processes intellectual data related to data represented by the global coordinate system that occupies spatial location data divided according to the characteristics of data processed by geographic information as the central data of intellectual, land, natural resources, and facilities. In order to efficiently collect, store, update, process, analyze, and output various types of geographic information, hardware and software resources are utilized. The web server 500 may quantify the management data for each object and the management data of the object tree, which is conventionally held, and provide the user with a graph, a chart, bibliographic information, and the like.

In addition, the manager computer 600 accesses the web server 500 through the Internet, and inputs and stores management data for each object and integrated management data into the database 400 through the web server 500. In addition, the manager computer 600 may search for and retrieve the integrated management data from the database 400.

Such an RFID-based gardening management system according to an embodiment of the present invention includes an RFID-tag 100, an RFID reader 200, and a user terminal 300 for largely acquiring, transmitting, and utilizing RFID-based object data. And an integrated management web system including a database 400, a web server 500, and an administrator computer 600.

The software of the RFID based chaebol management system that can manage and service the object is composed of four layers, as shown in FIG. 2, and each layer is a DB layer and a 2D / 3D GIS web server layer. , Mobile device layer like PDA, and client layer.

Meanwhile, in the exemplary embodiment of the present invention, an example in which the RFID reader 200 and the user terminal 300 are configured separately is disclosed, but may be integrally implemented. That is, the user terminal 300 may further include an RFID reader function.

4 is a diagram illustrating an object attribute DB conceptual model according to an embodiment of the present invention.

Referring to Figure 4, RFID application target according to an embodiment of the present invention includes a subject that requires continuous history management, such as chaejongwon and tree, and may include other subjects, such as long-term ecological survey paper. The attribute information of the subject may include essential information for identifying the subject and detailed information associated with the field manager DB. Here, the detailed information stores data such as history management, and all the information is associated with a tag identification number as a key field. The classified information may be divided into 'characters', 'digits', and a combination of letters and numbers according to their characteristics. In the present invention, an identification number (ID) is assigned by encoding a letter or number. Table 1 describes the classification and content of RFID pilot application attribute information according to an embodiment of the present invention.

object Essential Information More information Tree Tree number / species /
Coordinates / designated year / location / ownership / bedtime Receipt / Total Height / S Growth Rate / Trouble / Location / Based / Straightness Chae Jong Won Seed number / planting year
/ Species / coordinates / parameter information / local information Individual changes after planting Examination / Examination Date /
Regarding or not Vigilance Fertilization Area code / date and time /
Type of fertilization Pest control Date and time of pest control / name of pest / pharmaceutical name Seed survey Seed Prediction Survey Date /
Condensation quantity / seed quantity / yield Seed collection Date and time of harvesting seed
Seed Collection / Wholesale / Germination Rate Male adjustment Type adjustment Long-term ecology
Survey Object Number
/ Species / coordinates Survey date / investigator / trouble / basement / examination

5 is a diagram illustrating a unique feature identifier (UFID) based RFID tag identification number system according to an embodiment of the present invention.

Referring to FIG. 5, the utilization standard of the present invention is referred to as a reference standard based on the national basic geographic information UFID and the forest GIS standard (draft) feature list. UFID is a core technology that gives a unique number to Korea's land space and objects, and accurately identifies the location and contents of the object with a single identifier.

These UFIDs are linked to four-dimensional realistic GIS that combines not only location information, management agencies, etc., but also altitude information and sensors and communication technology for real-time information management. Systematic management and utilization of space will be possible.

Therefore, UFID, like the social security number, gives a single identifier to all artificial and natural features such as roads, buildings, and rivers that make up the country's land, so that UFID can manage the features, as well as various industries such as logistics and finance. It will play an important role.

6 is a diagram illustrating an external DB linkage with an RFID-based seed gardening management system according to an embodiment of the present invention.

Web server 500 may include clinical maps, forest use base maps, forest location maps, indexes, administrative maps, numerical topographic maps, and static public photos and RFID tags from an external database (not shown) as shown in FIG. Although the integrated management data is generated in the form of a 3D stereoscopic image by combining the management data of 10), it is also possible to produce a more precise 3D stereoscopic image by further combining other pictures and drawings as necessary.

Network and System Initiative

Most of the RFID use cases have been applied in indoor environments where there is little variation in environmental factors (temperature, humidity, etc.) or in urban areas where there is no difficulty in using information equipment or communication. On the other hand, in a forest environment composed of rough terrain and depressed trees, additional consideration should be given to communication environment, mobility, and recognition of specific tree position in the forest.

Since a wireless LAN such as WiFi, WiBro, etc. may be difficult to operate, in the present invention, the RFID reader 200 having a built-in CDMA module is selected. However, there may be a forest environment in which CDMA also cannot communicate, and there may be a cost problem when the modified and updated data are transmitted in real time in the field, so the field system may transmit data obtained by the RFID reader 200 to the RFID reader 200 or the like. The post-processing method of updating directly on the DB of the UMPC which is the user terminal 300 may be an alternative.

In addition, because it is not easy to move with various equipment in the forest, consideration should be given to simplifying the related equipment (RFID reader / GPS / UMPC or PDA) or to selecting an integrated equipment. In order to increase the utilization of RFID in forests that are continuously exposed to the external environment, it is necessary to select RFID tags with high environmental variability and to examine the local applicability in the forests.

In the case of tree tree position, it depends on the directions and the memory of the administrator, so it is difficult to confirm the exact position. Therefore, it is necessary to build a path DB (not shown) and object photo data DB (not shown) using PC navigation. . Table 3 shows considerations when constructing an RFID-based network in a forest environment according to an embodiment of the present invention.

Forest environment characteristics Considerations Constraints using wired and wireless communication Restrictions on sending and receiving real-time information to and from the main server due to difficulty in utilizing communications within Preliminary: Reader Primary Information Receive
■ Communication area: Information transfer to main server Movement constraints Difficulties in moving in rugged forests when bringing various equipment such as RFID reader, GPS, UMPC (or PDA) Equipment simplification (considering RFID reader / GPS / UMPC or PDA integrated)

Demonstration of RFID-based Rape Garden Management System

7 is a view showing an example of RFID / GIS convergence gardening management according to an embodiment of the present invention. Based on the system function design, an RFID system for a chaejongwon was constructed as shown in FIG. 7.

8 is an exemplary view of a screen for inputting clone notation information and parameter information in the chaewonwon RFID management system according to an embodiment of the present invention. 9 is an exemplary view of a screen for inputting history management information in the ChaeWon RFID management system according to an embodiment of the present invention.

At present, the seedlings are managed by the clone block number and the clone layout is managed by Excel as shown in FIGS. 8 and 9, so the approximate partition can be confirmed, but since it is not based on GIS, it is difficult to analyze spatial information such as accurate area calculation. Structure. Basic information on clones such as clone number, coordinates, planting year, administrative district information, species, and management agency can be checked on site through reader LCD (or UMPC, PDA, etc.). have.

Parameter information can also be confirmed by reading the tag without checking the account. The detailed number of the tree, which is the parameter, the year of designation, the possession, the management agency, the tree, the tree, the tree, the receipt, the labor, the height of the height, the location of the release, the location, the coordinates, and the usage of the tree, are inquired.

In addition, it was designed to identify the position of the clone to be read from the GIS-based clone position map. The user is provided with a function button (not shown) to the user terminal 300 so that the user terminal 300 can directly modify or update each piece of information. In addition to the basic information inquiry, the post management details such as fertilization and seed forecasting on the seedlings were directly input at the site, and the real-time site history management was replaced by replacing the existing manual work by providing a real-time server transmission function.

The RFID-based seed garden management method according to an embodiment of the present invention will be described with reference to FIGS. 1 and 10 as follows. 10 is a flowchart illustrating a method for managing RFID-based seed gardening according to an embodiment of the present invention.

First, in step S91, the user terminal 300 checks the position of the object tree, such as a rapeseed tree and a tree, in association with the navigation. In other words, the user terminal 300 is interlocked with the navigation RFID-tag 100 managed in the gardening plant attached to the cultivation tree, and the parameters of the cultivation tree, RFID-tag (100) growing in a forest environment consisting of rough terrain and depressed trees It can be found by looking up the location information and pictures of the object tree 10, such as a tree attached to the object tree 10 to determine the position of the object tree 10.

Next, in step S93 the RFID reader 200 reads the tag identification number and the object identification number from the RFID tag 100 attached to the object 10. That is, the RFID reader 200 connected to the user terminal 300 reads a tag identification number and an object identification number from the RFID tag 100 attached to the object 10 and transmits the tag identification number and the object identification number to the connected user terminal 300.

Next, in step S95, the user terminal 300 transmits the GPS position information of the object 10 and the user input information about the object 10 to the web server 500. That is, the user terminal 300 wirelessly reads the tag identification number and the object identification number, the GPS location information of the object 10 corresponding to the object identification number, and the user input information about the object 10. Send to web server 500.

Subsequently, in step S97, the web server 500 updates the management data for each object, and generates integrated management data based on the GPS location information of the object 10 and the management data of the object 10 to the database 400. Save it. That is, the web server 500 reads out the management data of the entity 10 corresponding to the entity identification number received from the user terminal 300 from the database 400. Next, the web server 500 manages the individual items by linking the management data of the tree tree and the management data of the tree tree corresponding to the tree tree based on the tag identification number and the object tree identification number as user input information received from the user terminal 300. Update by modifying or adding to the data. In addition, the web server 500, the GIS data obtained on the basis of the GPS location information received from the user terminal 300 to the management data of the read object 10, the clinical map provided from an external database, the basic use of forest use, The forest location map, index, administrative area map, digital topographic map, and regular public photograph and individual object management data are combined to generate integrated management data in the form of 3D stereoscopic image and stored in the database 400.

In operation S99, information may be input and stored in the database 400 through the manager computer 600, or may be searched by searching for management data and integrated management data for each object. That is, the manager computer 600 may access the web server 500 according to a user's input, and input and store management data for each object and integrated management data in the database 400 through the web server 500. In addition, the manager computer 600 may search for and retrieve the integrated management data from the database 400.

Here, step S99 disclosed an example that is performed after step S97, but is not limited to this if the database 400 is built. That is, step S99 may be performed before step S91 or between steps S91 to S97.

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented specific examples to easily explain the technical contents of the present invention and help the understanding of the present invention, and are 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.

10: Object
100: RFID-tag
200: RFID reader
300: user terminal
400: database
500: web server
600: administrator computer

Claims (6)

An RFID tag that is attached to an object tree, such as a tree tree managed in a tree garden, and a tree tree that grows in a forest environment consisting of a rough terrain and a deforested tree, which is a parameter of the tree tree, and stores a tag identification number and an object identification number;
An RFID reader for reading the tag identification number and the object identification number of the RFID tag;
The location information and the picture of the object are linked to the navigation to identify and locate the object, and the tag identification number and the object identification number read out from the connected RFID reader, and correspond to the object identification number. A user terminal for wirelessly transmitting GPS position information of the entity and user input information for the entity;
Storing management data for each tree tree based on the tag identification number and the tree tree tree identification number and managing data of the tree tree corresponding to the tree tree tree, and storing the integrated management data generated based on the tree tree management data. Database;
The management data of the entity corresponding to the entity identification number received from the user terminal is read from the database and transmitted to the user terminal, and the user input information received from the user terminal is corrected in the management data of the entity. Or by additionally updating, generating integrated management data by combining management data of the read object with GIS data obtained based on the GPS location information received from the user terminal, and storing the integrated management data in the database. The combined clinical data, basic forest use map, forest location map, index, administrative area map, digital topographic map, and static public photograph and management data for each object are generated to generate integrated management data in the form of 3D stereoscopic image. A web server for storing on; And
An administrator computer that accesses the web server and inputs and stores the management data and the integrated management data for each entity in the database through the web server, or searches and searches the integrated management data in the database;
RFID based chaewon management system comprising a. The method of claim 1, wherein the management data for each subject is,
Location information consisting of information on the boundaries of administrative districts, explosive roads, cadastral buildings, large-scale building contours, and surrounding facilities in the area in which the population is located;
Bibliographic information consisting of the cultivar of the individual tree, the name of the management organization, the designated number of the tree tree designated by the management organization, the year of designation, the tree species, the type of plant, the labor, the registration, and the coordinate information; And
RFID based cultivation management system, characterized in that it comprises a post-mortem management history consisting of fertilization, seed forecasting for the rapeseed. The method of claim 2, wherein the user terminal
RFID-based cultivation garden management, characterized in that for modifying or updating the management data displayed on the screen according to the user's input, modify or update the management data displayed on the screen to provide to the web server to modify or update the management data for each object stored in the database system. According to claim 3, The user terminal is a RFID-based species garden management system, characterized in that the personal information terminal, an ultra mobile PC, or a notebook PC having a GPS reception function. The user's terminal is linked to the navigation and managed by the cultivar of the RFID-tagged cultivar, and the object of the cultivation such as the RFID-tagged cultivation tree growing in the forest environment consisting of the parameters of the cultivar and the rugged terrain and the decayed tree. Identifying the location of the object by looking up location information and pictures;
An RFID reader connected to the user terminal reading a tag identification number and an object identification number from the RFID tag attached to the object and transmitting the tag identification number and the object identification number to the connected user terminal;
The user terminal wirelessly transmits the read tag identification number and the object identification number, GPS location information of the object corresponding to the object identification number, and user input information about the object to the web server. step;
Reading, by the web server, management data of the subject corresponding to the subject identification number received from the user terminal from a database;
Modifying the user input information received from the user terminal by the web server in the individual item management data in association with the management data of the tree species and the management data of the tree tree corresponding to the tree species based on the tag identification number and the object tree identification number. In addition, GIS data obtained based on the GPS location information received from the user terminal and management data of the read-out entity and clinical maps provided from an external database, forest use base maps, forest location maps, and indexes Generating integrated management data in the form of 3D stereoscopic image by combining each of the administrative area map, the digital topographic map, the static official photograph and the management data for each individual object, and storing the integrated management data in the database;
RFID-based seed garden management method comprising a. The method of claim 5,
The manager computer accessing the web server and inputting and storing the management data and the integrated management data for each entity in the database through the web server, or searching and searching the integrated management data in the database;
RFID-based seed garden management method further comprising a.

Images