KR20070081157A - Ubiquitous genbank system using ubiquitous network and service offer method thereof - Google Patents

Abstract

A ubiquitous gene-bank system using the ubiquitous network and a service providing method thereof are provided to enable users to share and receive gene information irrespective of time/place in the unique network, collect cultivation/breeding information in real-time, and offer an optimal cultivation/breeding solution based on the collected information. A USN(Ubiquitous Sensor Network)(180) is equipped with a plurality of sensors(181-187) for sensing/transmitting environment information of a production place. A user terminal(70) receives and transmits the environment information to the USN, and receives/displays solution information by the environment information. A gene-bank server(30) receives the environment information from the user terminal and provides the solution information corresponding to the environment information to the user terminal. The USN comprises RFID(Radio Frequency IDentification) tags measuring/transmitting the environment information and readers(160-1 - 160-3) transmitting the environment information received from the RFID tags to the user terminal.

Description

Ubiquitous gene bank system and service providing method using ubiquitous network {UBIQUITOUS GENBANK SYSTEM USING UBIQUITOUS NETWORK AND SERVICE OFFER METHOD THEREOF}

1 is a diagram showing the configuration of a ubiquitous gene bank system using a ubiquitous network according to the present invention

2 is a procedure showing a method of sharing genetic information among gene information services of a ubiquitous gene bank system using a ubiquitous network according to the present invention.

Figure 3 is a procedure showing a method for providing a cultivation / rearing solution using real-time cultivation / rearing information of the ubiquitous gene bank system using a ubiquitous network according to the present invention

4 is a view showing a first method of collecting and transmitting real-time cultivation / breeding information of FIG.

5 is a view showing a second method for collecting and transmitting real-time cultivation / breeding information of FIG.

The present invention relates to a gene bank, and more particularly, a ubiquitous gene bank system and a service using a ubiquitous network that can share gene information using a ubiquitous network and can be provided regardless of time and place. It relates to a providing method.

Generally, gene banks receive research results and samples from research institutes, companies and producers, and the research results are stored in a database (hereinafter referred to as "DB"), and the samples are stored and stored in a clean room. In addition, it performs only tasks such as providing DB information or using / renting / selling samples for use when requested by the consumer. Therefore, the consumer should search for relevant genetic information directly from the DB of the genetic bank for the information he / she needs. In addition, if the consumer is a researcher with expertise, relevant information can be found in the database of the genetic bank, but if the producer lacks some expertise, the genetic information can be obtained by consulting with a counselor in the specialized field of the gene bank or receiving advice from other experts. You must search for or decide on a sample.

As described above, in order to use the conventional gene bank, the consumer has to find the relevant information in the DB of the gene bank.

In addition, it is difficult for a producer lacking specialized knowledge to search related gene information when using a conventional gene bank, and requires consultation with an expert to search for genetic information or determine a sample, which may result in waste of time and money. there was.

Accordingly, an object of the present invention is to provide a ubiquitous gene bank system and a service providing method using a ubiquitous network that can share the genetic information using the ubiquitous network, and receive the shared information regardless of time and place. .

Another object of the present invention is to collect real-time information on the cultivation / breeding using the ubiquitous network and ubiquitous gene bank using a ubiquitous network that can provide an optimal cultivation / breeding solution based on the collected real-time cultivation / breeding information The present invention provides a system and a service providing method thereof.

The apparatus of the present invention for achieving the above object; A ubiquitous gene bank system using a ubiquitous network, comprising: a user terminal receiving a genetic information search request from a user, transmitting a genetic information search request message, and receiving genetic information in response to the genetic information search request message; The gene bank server receives the request, retrieves the genetic information of the request, and transmits the gene information to the user terminal.

Another apparatus of the present invention for achieving the above object; In the ubiquitous gene bank system using a ubiquitous network, a ubiquitous sensor network having a plurality of sensors for sensing the environmental information of the production place, and transmits the environmental information measured through the sensor, and receiving the environmental information, the ubiquitous network And a user terminal for receiving and displaying predetermined solution information according to the environment information, receiving the environment information from the user terminal, and providing solution information of a production site for the environment information to the user terminal. It is characterized by consisting of a gene bank server.

The method of the present invention for achieving the above object; In the method for providing a service of a ubiquitous gene bank system using a ubiquitous network including a plurality of user terminals and a gene bank server, the arbitrary user terminal receives a gene search information from a user to generate a gene information search request message to generate the ubiquitous Transmitting the gene bank to the gene bank, receiving the gene information search request message, retrieving relevant gene information about the gene information search request from a gene information database, and transmitting the gene information to the user terminal; The terminal is characterized by consisting of the process of receiving, storing and displaying the genetic information.

Another method of the present invention for achieving the above object is; In the method of providing a service of a ubiquitous gene bank system using a ubiquitous network including a ubiquitous sensor network, a user terminal, and a ubiquitous gene bank server, the user terminal receives breed purchase information from a user and includes the variety purchase information. Transmitting a variety purchase request message to the ubiquitous gene bank server, the ubiquitous gene bank server receiving the variety purchase request message, and at least one recommendation variety according to the variety purchase information and the genetic information related to the recommendation variety Searching for and transmitting the recommended breed information and breed related gene information to the user terminal, and displaying the recommended breed information and breed related gene information by the user terminal and displaying them to the user. The bags feature.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted so as not to deviate from the gist of the present invention.

In the present invention, the gene bank system collects and manages varieties, genetic information, and environmental information about animals, plants, and microorganisms by using a ubiquitous network from research institutes, companies, and producers, and optimizes the environment for the research institutes, companies, and producers. It provides a solution that can provide information on breeds and varieties and genetics. For example, producers receive environment information and variety information through a ubiquitous network, provide optimal breed information for breeding animals or plants in the environment, and provide best breed information within the same variety.

1 is a diagram showing the configuration of a ubiquitous gene bank system using a ubiquitous network according to the present invention.

Referring to the drawings, a ubiquitous gene bank system using a ubiquitous network according to the present invention is composed of a ubiquitous sensor network 180, a plurality of user terminals 70, gene bank management system 100 and the manager terminal 10 do.

The ubiquitous sensor network 180 is composed of an environment information receiver 160 and an environment information measurement unit 180.

The environmental information measuring unit 180 is installed in a production site for cultivating / cultivating animals / plants, and measures the amount of sunshine, rainfall, humidity, etc., photographs the production site with a video, and wirelessly or wires the environmental information of the production site such as video data. To send.

The environmental information receiver 160 receives the environmental information transmitted from the environmental information measuring unit 180 and transmits the environmental information to the user terminal 70.

The environmental information measuring unit 180 is a measuring device 181 for measuring the amount of sunshine of the production site, rainfall measuring equipment (183) for measuring rainfall, humidity measuring equipment (185) for measuring the humidity, measuring the temperature It consists of temperature measuring equipment (not shown) and CCTV for outputting still or moving image data by photographing the production area to analyze the images of the varieties of the production area. Each of the measuring devices may be configured as one chip in an RFID tag. In the case of one chip in the RFID tag, a sensor for sensing respective environmental information in the RFID tag and an analog / digital converter (not shown) for converting the analog signal measured by the sensor into a digital signal, The environmental information converted into a digital signal is transmitted to the environmental information receiver 160 through a transmitter (not shown) of the RFID tag.

In the present invention, the environmental information is transmitted wirelessly, and the RFID system is applied to transmit the environmental information wirelessly. Specifically, each of the measuring devices stores the measured environmental information, receives an environmental information lead signal from the environmental information receiver 160, and receives the environmental information lead signal in response to the environmental information lead signal. The environmental information receiver 160 transmits the transmitted information. Therefore, the environmental information receiver 160 uses an RFID reader. The environmental information receiver 160 may be configured to be fixed throughout the production site, or may be configured to be mobile and portable. The fixation is for continuously collecting environmental information such as a production site, and the mobile and portable are used by a user such as a notebook 70-2 or a personal digital assistant (PDA) 70-3. When using the terminal 70 is to receive environmental information from the ubiquitous sensor network 180 anywhere in the production site.

When the user terminal 70 accesses the gene bank management system 100 and receives a gene search request by inputting gene search information from the user, the user terminal 70 sends a gene search request message including the gene search information to the gene bank management system 100. And store the gene information received in response to the gene search request message and display the same on a display device such as a monitor or a liquid crystal display (LCD). In addition, the user terminal 70 stores the genetic research result information when the gene research result for the gene information is input from the user after receiving the received genetic information, and receives whether to produce a sample according to the research result, When a command for requesting to store the genetic research result information and the sample in the ubiquitous gene bank is inputted, the gene bank management system (100) may include a storage request message including the genetic research result information and sample information having the sample production information and producer information. ), And receives the completion report message for the storage request from the gene bank management system 100 to inform the user.

The gene bank management system 100 includes an administrator portal server 20, a gene bank server 30, and a service portal server 40.

The manager portal server 20 manages authentication for access and access of the manager terminals 15 and the gene bank server.

The service portal server 40 has a portal database (DB) that stores information such as information about the users and the number of times of access charging, and manages access, authentication and billing of the user terminal.

Gene bank server 30 has a main DB (23) for storing the varieties according to the environmental conditions, such as animals / plants / microorganisms, and the like, the genetic information for the varieties, the user terminal 70 It performs data communication with, and provides the genetic information and the solution information to the user terminal 70 when the gene information or solution information is requested to the user terminal.

The manager terminals 15 are connected to the gene bank management server 30 through the management portal server 20 and input a sample storage request or breed purchase information from the user terminal 70 from the gene bank management server 30. Receives and shows to the manager, and transmits the information on whether or not to receive the sample for the sample storage request and the breed delivery information on the breed purchase request to the genetic bank server (30). Then, the gene bank server 30 will transmit the sample receipt information and the breed delivery information to the corresponding user terminal 70 through the service portal server 40.

2 is a flowchart illustrating a method of sharing genetic information among gene information services of a ubiquitous gene bank system using a ubiquitous network according to the present invention. 1 and 2, the process after the user terminal 70 accesses the service portal server 40 through the mobile communication network 50 or the public network (TCP / IP network) will be described. Care must be taken.

The arbitrary user terminal 70 receives and stores gene search information from the user in step 211, and generates a gene information search request message including the gene search information in step 213 to generate the gene bank through the service portal server 40. Transfer to server 30.

The gene bank server 30 receiving the gene information search request message detects gene search information from the gene information search request message in step 215, and searches for information related to the gene search information in the main DB 23 to search for a gene. Collect information. When the gene information is collected, the gene bank server 30 transmits the collected gene information to the user terminal 70 in step 217. The genetic information may be information such as animal / plant microorganism varieties and gene information of the variety of the requested gene search information.

The user terminal 70 receiving the gene information displays the gene information and displays the gene information to the user. In step 219, the user terminal 70 checks whether information about a gene research result related to the provided gene information is input by the user. When genetic research result information is input, it is saved. After storing the study result information, the user terminal 70 displays a message asking whether the sample according to the study result is produced on the display device of the user terminal 70 in step 221, and the user responds to the message. If the input is produced, a message is displayed on the display device asking whether to store the genetic research result information and the sample in the ubiquitous gene bank. After displaying the storage message, the user terminal 70 determines whether a storage command is input from the user in response to the message in step 223, and if the storage command is input, in step 225, whether the genetic research result information and the sample are stored; The storage request message including the user information on the sample storage is transmitted to the genetic bank server 30.

The gene bank server 30 receiving the storage request message detects the gene research result information and the sample information from the storage request message in step 227 and stores them in the main DB 23 for each class. After the step 227, the gene bank server 30 transmits the sample information to any manager terminal 15 through the management portal server 20.

Then, the manager views the sample and the sample producer information through the manager terminal 15, and if the sample is received offline, it will be input through the manager terminal 15. At this time, the manager terminal 15 transmits the sample receipt completion message to the gene bank server 30.

The genetic bank server 30 checks whether a gene sample receipt complete message is received in step 227, and when the sample receipt complete message is received, the gene bank server 30 transmits a reception completion report message to the user terminal 70 informing that the sample has been received in step 229. .

Figure 3 is a procedure showing a method for providing a cultivation / breeding solution using real-time cultivation / breeding information of the ubiquitous gene bank system using a ubiquitous network according to the present invention. A description with reference to FIGS. 1 and 3 is as follows.

The user terminal 70 checks whether the breed purchase information is input from the user in step 311. The variety purchase information includes its own cultivation / rearing purpose and environmental information.

When the breed purchase information is input in step 311, the user terminal 70 transmits a breed purchase request message including the breed purchase information to the gene bank server 30 in step 313.

The gene bank server 30 receiving the breed purchase request message detects the breed purchase information in the breed purchase request message in step 315 and searches the main DB 23 to search for the genetic information related to the breed of the breed purchase information. And collect at least one recommendation variety information. After collecting the genetic information and the recommended breed information related to the breed, the gene bank server 30 transmits the collected genetic information and the recommended breed information in step 317.

The user terminal 70 receiving the genetic information and the recommended variety information displays the genetic information and the recommended variety information in step 319, displays a message requesting to select one of the recommended varieties or one selected by the user, It is checked whether one of the displayed varieties is selected.

When one of the varieties is selected, the user terminal 70 displays a message asking whether to purchase the selected variety in step 321, and checks whether the purchase is selected by the user.

If the purchase is selected in step 321, the user terminal 70 transmits a breed purchase request message including the selected variety information to the gene bank server 30 through the service portal server 40 in step 323.

The gene bank server 30 stores the breed information included in the breed purchase request message when the breed purchase request message is received, and in step 325, the gene bank server 30 sends a loan message whether to rent the ubiquitous sensor network 180. To send.

The user terminal 70 receiving the rental status message displays the rental status message and checks whether the rental of the ubiquitous sensor network 180 is determined in step 337.

If the rental of the ubiquitous sensor network 180 is determined by the user in step 337, the user terminal 70 transmits the ubiquitous sensor network rental result message to the gene bank server 30 in step 239.

Gene bank server 30 stores the ubiquitous rental acceptance information in the information about the user for the user terminal 70 when the ubiquitous sensor network rental message is received, and the management portal that the ubiquitous sensor network 180 has accepted the rental The server 20 transmits the data to the manager terminal 15. Then, the administrator views the information of the user who has accepted the ubiquitous sensor network 180 through the manager terminal 15, and the user installs the ubiquitous sensor network 180 in the production site where the user grows / breds the animals / plants / microorganisms. will be.

When the ubiquitous sensor network 180 is installed, the RFID reader 160 is connected to the user terminal 70. Since the RFID reader 160 is connected, the user terminal 70 measures the amount of sunshine and rainfall measured by the sunshine / measuring device 181 of the ubiquitous sensor network 180 and the cultivation / breeding information input by the user in step 341. The rainfall measured by 183, the humidity measured through the humidity measuring device 185, and the image data photographed through the CCTV 187 are collected and transmitted to the gene bank server 30 in step 343.

The gene bank server 30 stores the information in the main DB 23, analyzes the information, searches for an optimal solution, and transmits the searched solution to the user terminal 70 in step 347. If the search result of the information is the same as the solution determined in step 315, the gene bank server 30 will not provide the solution information. However, there is a change factor of the environmental information due to the actual environmental information measured by the ubiquitous sensor network 180, and if the variety is to be changed, the solution information will be transmitted to the user terminal 70.

4 is a diagram illustrating a first method for collecting and transmitting real-time cultivation / breeding information of FIG. 3, and FIG. 5 is a diagram illustrating a second method for collecting and transmitting real-time cultivation / breeding information of FIG. 3.

In FIG. 4, the user terminal 70 continuously collects environmental information through the ubiquitous sensor network 180 in step 411. The user terminal 70 accesses the web site designated by the user in step 413 and proceeds to step 415 to check whether automatic transmission of environment information is set, and proceeds to step 419 if the automatic transmission is set. Send environmental information. On the other hand, if the automatic transmission of the environmental information is not set, the user terminal 70 proceeds to step 417 and checks whether a transmission command is input from the user. If the transmission command is input, the user terminal 70 proceeds to step 419 to transmit the environmental information. The genetic bank server 30 receives the environmental information in step 421 and stores the environmental information in the main DB in step 423.

In FIG. 5, if the environmental information is received from the ubiquitous sensor network 180 in step 611 without accessing the designated website in step 413 of FIG. 4 and without determining whether to transmit the environment information in step 415 and step 417, the environment information is immediately transmitted in step 613. To the gene bank server (30).

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

The present invention as described above has the advantage of sharing each other's basic genetic information of gene banks and new genetic information generated by laboratories, companies and producers.

In addition, if the producer provides the genetic bank with the purpose of cultivation / breeding and the environmental information of the production site, the user provides the optimal solution for the above-mentioned purpose and environmental information of the production site and the breed information and the best varieties within the same breed. Has the advantage of increasing the success rate of cultivation / breeding.

Moreover, by using the ubiquitous sensor network, it is possible to continuously grasp accurate environmental information and environmental change factors of the production site and provide an alternative solution to environmental changes, so that the user can quickly cope with environmental changes.

Claims (14)

In the ubiquitous gene bank system using the ubiquitous network, A user terminal receiving a genetic information search request from a user, transmitting a genetic information search request message, and receiving genetic information in response to the genetic information search request message; A ubiquitous gene bank system using a ubiquitous network, characterized in that the gene bank server receives the genetic information search request, retrieves the genetic information for the request, and transmits the genetic information to the user terminal. The method of claim 1, The user terminal receives a research result of the gene information from a user and transmits the research result information to the annoying gene bank server, and the gene bank stores the research result information to generate a gene for another gene information search request. Ubiquitous gene bank system using a ubiquitous network, characterized in that used as information. In the ubiquitous gene bank system using the ubiquitous network, A ubiquitous sensor network having a plurality of sensors for sensing the environmental information of the production site, and transmitting the environmental information measured through the sensor, A user terminal that receives the environment information and transmits it to a ubiquitous network, and receives and displays predetermined solution information according to the environment information; A ubiquitous gene bank system using a ubiquitous network, characterized in that the gene bank server for receiving the environmental information from the user terminal, and provides solution information of the production site for the environmental information to the user terminal. The method of claim 3, Ubiquitous gene bank system using the ubiquitous network, characterized in that the environmental information, the amount of sunshine, rainfall, humidity and video information of the production site. The ubiquitous sensor network measures and stores the environmental information and wirelessly transmits the RFID tag and the environmental information lead signal to wirelessly transmit the environmental information in response to a predetermined signal, and in response to the environmental information lead signal. Ubiquitous gene bank system using a ubiquitous network, characterized in that the reader receives the environmental information from the RFID to transmit to the user terminal. The method of claim 4, wherein The ubiquitous gene bank system using the ubiquitous network, characterized in that the solution information, the optimal flora and fauna information according to the environmental information. In the service providing method of a ubiquitous gene bank system using a ubiquitous network including a plurality of user terminals and gene bank server, Receiving, by the arbitrary user terminal, gene search information from a user, generating a gene information search request message, and transmitting the gene information search request message to the ubiquitous gene bank; Receiving, by the gene bank, the gene information search request message, retrieving relevant gene information about the gene information search request from a gene information database, and transmitting the same to the user terminal; And receiving, storing, and displaying the genetic information by the user terminal. The method of claim 7, wherein When the user terminal receives and stores research result information researched using the received genetic information from the user and the ubiquitous gene bank storage command is input from the user, the ubiquitous gene bank storage request message including the research result information is received. Transfer it to a genetic bank, And receiving, by the ubiquitous gene bank, the gene bank storage request message, detecting the study result information, and storing the research result information in the gene information database. The method of claim 8, wherein the user terminal receives the sample generation information from the user and transmits the sample generation information to the ubiquitous gene bank when the gene bank storage request message is generated. The method of claim 9, And receiving, by the ubiquitous gene bank, the gene bank storage request message, and transmitting the reception completion message to the user terminal when the study result storage and the offline reception of the sample are completed. In the service providing method of a ubiquitous gene bank system using a ubiquitous network including a ubiquitous sensor network, a user terminal, and a ubiquitous gene bank server, Receiving, by the user terminal, breed purchase information from a user and transmitting a breed purchase request message including the breed purchase information to the ubiquitous gene bank server; The ubiquitous gene bank server receives the variety purchase request message, retrieves at least one recommendation variety and gene information related to the recommendation variety according to the variety purchase information, and transmits the recommendation variety information and variety related gene information to the user terminal. Transfer process, And displaying, by the user terminal, the recommended breed information and breed related gene information to a user. The method of claim 11, The ubiquitous gene bank manager further includes a step of transmitting a variety purchase request message including the variety information to the ubiquitous gene bank server when the user terminal generates a variety purchase information selected by the user and a variety purchase request from the user. Delivering the variety to the user offline. The method of claim 12, When the ubiquitous gene bank server receives a breed purchase request message from the user terminal, transmitting a loan whether or not message to the user terminal to ask whether to rent the ubiquitous sensor network; When the user terminal inputs a rental decision from the user in response to receiving the rental status message, transmitting the rental status result message to the ubiquitous gene bank server; Receiving, by the ubiquitous gene bank server, the ubiquitous sensor network installation result message and displaying the same to an administrator; After the installation of the ubiquitous sensor network at the production site, the user terminal receiving environmental information from the ubiquitous sensor network and transmitting the environmental information to the ubiquitous gene bank server; The ubiquitous gene bank server further comprises the step of analyzing the environmental information and transmitting the solution information according to the environmental change factors to the user terminal.  The method of claim 13, The solution information is characterized in that the information on the breed and the reason for the change to change.

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