JP2016075973A - Data structure, communication terminal, information acquisition system, information acquisition program, information code creation device, and information code program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To properly acquire information corresponding to an information code read by a communication terminal.SOLUTION: A URL stored in a QR code that can be read by a communication terminal 2 includes a first data row for an application to acquire information from a server 3 and a second data row for the application to locally acquire information from the QR code by using a decoding library. In a system for storing, in the server 3, information on an enormous amount of data and information to be kept secret by the communication terminal 2 reading the QR code having a specifiable URL, the first data row is used so that the application can acquire information from the server 3. In a system where the application cannot access the server 3, the second data row is used so that the application can locally acquire information from the QR code by using the decoding library.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a URL (Uniform Resource Locator) and data structure of an information code, a communication terminal, an information acquisition system, an information acquisition program, an information code generation device, and an information code generation program.

  Conventionally, an information code obtained by encoding predetermined information such as a QR (Quick Response) code (registered trademark) has been provided. This type of information code is highly convenient, such as being able to start a corresponding application program (hereinafter referred to as an application) by being read by a communication terminal as disclosed in Patent Document 1, for example, Widely used.

JP 2008-181504 A

  By the way, the information code has a limit in the amount of data that can be stored. In addition, there is a demand to keep information stored in a format that cannot be understood by humans. In this regard, a method (first method) of encoding (encrypting or compressing) data that can be understood by a person and storing the data in an information code is considered. Also, a method of storing a huge amount of data or information (actual data) to be concealed in the server and storing only an ID for accessing the server in the information code (second method) is also considered. It has been.

  In the first method, in order for an application to decode (decode) the read information code, it is necessary to recognize an algorithm for decoding (decoding or expanding). It is useful for one organization or one person to monopolize the encoding / decoding method. In order for other applications to decode the information code, a black-box decoding library (dedicated library) is provided. However, in order to be widely used, it is necessary to distribute and incorporate a decoding library into each application, which is practically difficult.

  In the second method, the application accesses the server and acquires information corresponding to (associated with) the ID. Unlike the first method, the application only accesses the server of the defined URL, and the decoding of the information code only needs to be processed inside the black boxed server, so it may be widely used. . However, in order for the application to acquire information from the server, the environment needs to be accessible to the server, and there is a problem that the application cannot be used in an inaccessible environment.

  The present invention has been made in view of the above-described circumstances, and the object thereof is a data structure, a communication terminal, an information acquisition system, and an information that can appropriately acquire information corresponding to an information code read by the communication terminal. An acquisition program, an information code generation device, and an information code generation program are provided.

  The invention described in claim 1 is a URL data structure stored in an information code readable by a communication terminal, wherein a first data string for an application to acquire information from a server, and an application decodes the data. 2 is a data structure of a URL including a second data string for locally acquiring information from the information code by using a library for information.

  As a result, the information code that can specify the URL including the first data string and the second data string is read by the communication terminal, so that an enormous amount of data and information to be concealed are stored in the server. In the system, by using the first data string, the application can acquire information from the server. Even in a system in which the application cannot access the server, the application can locally acquire information from the information code using the decoding library by using the second data string. In other words, by using either the first data string or the second data string, it is possible to select whether information is acquired from the server or locally from the information code. In this way, information corresponding to the information code read by the communication terminal can be appropriately acquired. Note that the information acquired from the server by the application may be more detailed information (having a larger amount of data) than information acquired locally from the information code. The information acquired locally from the information code may be the minimum necessary information.

  The invention described in claim 2 is a data structure of an information code readable by a communication terminal, wherein the application uses a decoding library to obtain information using a first data string for the application to acquire information from the server. Is a data structure of an information code in which a URL including a second data string for locally acquiring the information from the information code is encoded. Thus, as in the invention described in claim 1, by using either the first data string or the second data string, it is selectively used whether information is acquired from the server or locally from the information code. be able to.

  In the invention described in claim 3, the information code reading means reads the information code. The process execution means uses the information code read by the information code reading means, and includes a first information acquisition process for acquiring information from the server, and a second information acquisition process for acquiring information locally from the information code. Do either. The information output means outputs information acquired by the process execution means. As a result, the information code is read by the communication terminal, so that whether the information is acquired from the server or locally from the information code can be properly used as in the first aspect of the invention.

  The invention described in claim 15 is an information code readable by the communication terminal, wherein the application uses the first data string for the information to be acquired from the server, and the application uses the decoding library to store the information. An information code in which a URL including a second data string to be acquired locally from the code is encoded is generated. Accordingly, by using the information code in which the URL including the first data string and the second data string is encoded, the first data string and the second data string are similar to the first aspect of the invention described in claim 1. By using any one of the data strings, it is possible to select whether information is acquired from the server or acquired locally from the information code.

The figure which shows the whole structure of the information acquisition system of one Embodiment. The figure which shows the data structure of URL The figure which shows the flow of a process of a communication terminal and a server (the 1) The figure which shows the aspect in which a communication terminal acquires information (the 1) The figure which shows the flow of a process of a communication terminal and a server (the 2) The figure which shows the aspect from which a communication terminal acquires information (the 2) The figure which shows the flow of a process of a communication terminal and a server (the 3) The figure which shows the aspect from which a communication terminal acquires information (the 3) The figure which shows the aspect from which a communication terminal acquires information (the 4) The figure which shows the flow of a process of a communication terminal and a server (the 4) The figure which shows the aspect in which a communication terminal acquires information (the 5) The figure which shows the flow of a process of a communication terminal and a server (the 5) The figure which shows the aspect in which a communication terminal acquires information (the 6)

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the information acquisition system 1 includes a communication terminal 2 and a server 3 (corresponding to an information code generation device), both configured to be capable of data communication via a communication network (including the Internet). Has been. In the present embodiment, a so-called smartphone (multifunctional mobile phone) is assumed as the communication terminal 2, and a QR (Quick Response) code (registered trademark) is assumed as the information code. An unspecified number of communication terminals 2 can access the server 3.

  The communication terminal 2 includes a terminal-side control unit 21 (corresponding to a terminal-side control unit), a memory 22, a user interface (UI (User Interface)) unit 23, a display unit 24, a communication unit 25, a camera 26, Have The terminal-side control unit 21 includes a microcomputer having a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and an I / O (Input / Output). The memory 22 is composed of, for example, a semiconductor storage element or the like, and stores a computer program. The terminal-side control unit 21 executes a computer program stored in the memory 22 and controls the overall operation of the communication terminal 2.

  The user interface unit 23 includes, for example, a touch panel or a mechanical switch formed on the screen of the display unit 24. When an operation from the user is received, an operation detection signal indicating the operation content is transmitted to the terminal side control unit. To 21. The display unit 24 includes, for example, a liquid crystal panel, an organic EL (Electro-Luminescence) panel, and the like. When a display command signal is input from the terminal-side control unit 21, a screen specified by the input display command signal is displayed. Do (draw). The communication unit 25 controls data communication with the server 3 via the communication network. The camera 26 includes a CCD (Charge Coupled Device) image sensor and a CMOS (Complementary Metal Oxide Semiconductor) image sensor. When receiving an imaging command signal from the terminal-side control unit 21, the camera 26 performs an imaging operation and outputs an image acquired by imaging to the terminal-side control unit 21. In addition to these functions, the communication terminal 2 has a function of inputting a voice uttered by a user as a transmission voice, a function of outputting a voice received from a communication partner via a communication network as a reception voice, and telephone directory data. It has various well-known functions related to the telephone, such as a function for storing.

  The server 3 includes a server-side control unit 31 (corresponding to a device-side control unit), a memory 32, a storage unit 33, and a communication unit 34. The server-side control unit 31 includes a microcomputer having a CPU, ROM, RAM, and I / O. The memory 32 is composed of, for example, a semiconductor storage element or the like, and stores a computer program. The server-side control unit 31 executes a computer program stored in the memory 32 and controls the overall operation of the server 3. The storage unit 33 is configured by a storage medium such as a hard disk, and stores various types of information (such as point information and parking lot information described later) in the database 33a. The communication unit 34 controls data communication with the communication terminal 2 via the communication network.

  The server-side control unit 31 includes a QR code generation unit 31a, a reception control unit 31b, a transmission control unit 31c, and an information extraction unit 31d. These QR code generation unit 31a, reception control unit 31b, transmission control unit 31c, and information extraction unit 31d are configured by a computer program (including an information code generation program) executed by the server-side control unit 31, and realized by software. Has been.

  Here, the QR code generated by the QR code generation unit 31a will be described. The QR code generation unit 31a generates a QR code in which a URL (Uniform Resource Locator) (data string starting with “https: //”) as shown in FIG. 2 is encoded (information code generation processing is performed). ). In this embodiment, the URL of the data string starting with “https: //” is illustrated, but the URL of the data string starting with “http: //” may be used. The URL of the data string starting with “https: //” is encrypted by SSL (Secure Sockets Layer) or TLS (Transport Layer Security). Indicates a state, which means that communication between the Web server and the Web browser is encrypted.

  The URL shown in FIG. 2 has a data structure including a first data string and a second data string. The first data string is a data string for an application to access the server 3 and acquire information stored in the database 33 a of the server 3 from the server 3. The second data string is a data string for an application to locally acquire information from the QR code by decoding (decoding) the QR code using a decoding library (dedicated library). That is, the first data string is an ID for acquiring information from the server 3, and the second data string is data for local acquisition for acquiring information locally from the QR code. Each of the first data string and the second data string is described by a combination of symbols (including letters and numbers). In the URL shown in FIG. 2, “1agc9xs00g40a8e” immediately after “id =” to immediately before “& xx =” is the first data string, and “1f2FJFi3mxpes_S8sLLxvNKlx6Xzpb2hv” immediately after “& xx =” to the end is the second. This is a data string. The QR code generated in this way is read by the communication terminal 2 having an imaging function, for example, by publishing it on the page of an information magazine or a web page. That is, an unspecified number of users using the communication terminal 2 having the imaging function can easily read the QR code in which the URL having the above characteristics is encoded by using the imaging function of the communication terminal 2. Is possible.

  The terminal-side control unit 21 corresponds to reading a QR code in which a URL having the above characteristics is encoded, and includes a QR code reading unit 21a (corresponding to an information code reading unit) and a URL specifying unit 21b (processing execution) Means, URL specifying means), transmission control section 21c (corresponding to process execution means, transmission control means), reception control section 21d (corresponding to process execution means, reception control means), decoding section 21e (process execution means, And an information output unit 21f (corresponding to information output means). The QR code reading unit 21a, URL specifying unit 21b, transmission control unit 21c, reception control unit 21d, decoding unit 21e, and information output unit 21f are executed by a computer program (including an information acquisition program) executed by the terminal-side control unit 21. It is configured and realized by software.

  In the QR code reading unit 21a, the camera 26 images the QR code, and reads the QR code by inputting an image indicating the QR code from the camera 26 (information code reading process). The URL specifying unit 21b determines the QR code read by the QR code reading unit 21a according to a predetermined determination algorithm and specifies the URL indicated by the QR code. The transmission control unit 21c causes the communication unit 25 to transmit the data string constituting the URL specified by the URL specifying unit 21b to the server 3. The reception control unit 21d causes the communication unit 25 to receive an information response signal including information corresponding to the first data string from the server 3. The decoding unit 21e obtains information by decoding the second data sequence among the data sequences constituting the URL specified by the URL specifying unit 21b using the decoding library. When the decoding library is incorporated (distributed) in the application, the application in which the decoding library is incorporated is used to decode the second data string and acquire information. The information output unit 21f generates an image indicating the information acquired from the server 3 or the information acquired locally from the QR code, and displays the image on the display unit 24 (information output process).

  As a method of acquiring information corresponding to the read QR code, the communication terminal 2 that has read the QR code in this way acquires the information from the server 3 by transmitting a data string constituting the URL to the server 3. Information (a server access acquisition type method, first information acquisition processing) and a second data string among the data strings constituting the URL are decoded using a decoding library, so that the information is locally generated from the QR code. (A local acquisition type method, a second information acquisition process). In this case, the server access acquisition type method can be used in an environment where an application activated on the communication terminal 2 can access the server 3, but cannot be used in an environment where the server 3 cannot be accessed. The local acquisition type method can be used if a decoding library is incorporated in the application activated in the communication terminal 2, but cannot be used unless the decoding library is incorporated. Therefore, the communication terminal 2 uses the server access acquisition type and the local acquisition type properly as follows depending on the environment for accessing the server 3 and the nature of the application.

  In the server access acquisition type method, when an application that does not incorporate the decoding library accesses the URL server 3, the server 3 starts “& xx =” immediately after “id =” in the data string constituting the URL. Only the first data string up to immediately before is discriminated (valid), and the second data string from immediately after “& xx =” to the end is discarded without being discriminated (invalid). In the local acquisition type method, the application incorporating the decoding library determines only the second data string immediately after “& xx =” to the end of the data string constituting the URL (valid). The first data string immediately after “id =” to immediately before “& xx =” is discarded without being identified (invalidated). The information acquired by the server access acquisition type method may be more detailed information (the amount of data is larger) than the information acquired by the local acquisition type method. The information acquired by the local acquisition type method may be the minimum necessary information.

Next, the operation of the above configuration will be described with reference to FIGS. here,
(1) System that supports only server access acquisition type (2) System that supports only local acquisition type (3) System that supports both server access acquisition type and local acquisition type
(4) System compatible with both server access acquisition type and local acquisition type (local information is given priority)
(5) System compatible with both server access acquisition type and local acquisition type (using server 3 information and local information together)
These cases will be described sequentially.

(1) System compatible with server access acquisition type only (see FIGS. 3 and 4)
When using the QR code, the user operates the communication terminal 2 and images the QR code with the camera 26. In the communication terminal 2, when the terminal side control unit 21 inputs an image indicating a QR code from the camera 26, the terminal side control unit 21 reads the QR code from the input image by the QR code reading unit 21a (A1). When reading the QR code, the terminal-side control unit 21 determines the read QR code according to a predetermined determination algorithm, and specifies the URL indicated by the QR code by the URL specifying unit 21b (A2). When the terminal-side control unit 21 specifies the URL, the terminal-side control unit 21 accesses the server 3 of the specified URL, and causes the transmission control unit 21c to transmit the data string constituting the URL from the communication unit 25 to the server 3 (A3). That is, the terminal-side control unit 21 causes the communication unit 25 to transmit an information request signal including an ID for acquiring information stored in the server 3 to the server 3.

  In the server 3, when the server side control unit 31 receives the information request signal transmitted from the communication terminal 2 by the reception control unit 31b, the server side control unit 31 specifies an ID included in the received information request signal (B1). When the server-side control unit 31 specifies the ID, the server-side control unit 31 searches the database 33a and extracts (corresponds to) the information corresponding to the specified ID from the database 33a (B2). Then, the server-side control unit 31 transmits an information response signal including the extracted information from the communication unit 34 to the communication terminal 2.

  In the communication terminal 2, when the information response signal transmitted from the server 3 is received by the reception control unit 21d, the terminal-side control unit 21 extracts information included in the received information response signal. And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the extracted information (A4).

  FIG. 4 illustrates a case where the communication terminal 2 reads a QR code in which point information is stored. When the communication terminal 2 activates the QR code reading application and reads the QR code by the QR code reading application, the communication terminal 2 specifies the URL indicated by the read QR code. Then, the communication terminal 2 switches from the QR code reading application to the browser application (activates the browser application), and accesses the server 3 having the URL indicated by the read QR code. When the server 3 specifies the ID from the first data string received from the communication terminal 2, the server 3 extracts information corresponding to the specified ID from the database 33a. Then, the server 3 generates Web page data (HTML file format) based on the extracted information and transmits it to the communication terminal 2. When the communication terminal 2 receives Web page data from the server 3, the communication terminal 2 displays the Web page. As a result, the user can grasp the information stored in the server 3 (in FIG. 4, information on the AA department store (for example, the URL of the home page)) by visually recognizing the Web page.

(2) System compatible with local acquisition type only (see FIGS. 5 and 6)
In this case, in the communication terminal 2, the terminal-side control unit 21 reads the QR code from the image input from the camera 26 by the QR code reading unit 21a (A11), and specifies the URL by the URL specifying unit 21b (A12). When the URL is specified, the terminal-side control unit 21 specifies the data for local acquisition, and the specified local acquisition data is decoded by the decoding unit 21e using the decoding library (A13). And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the information extracted by decoding (A14).

  FIG. 6 illustrates a case where the communication terminal 2 reads a QR code in which point information is stored. When the communication terminal 2 starts the navigation application in which the decoding library is incorporated and reads the QR code by the QR code reading function of the navigation application, the communication terminal 2 specifies the URL indicated by the read QR code. Then, the communication terminal 2 specifies data for local acquisition, decodes the specified data for local acquisition using a decoding library, extracts information (coordinates and names), and images of the extracted information Is displayed. As a result, the user cannot grasp the information stored in the server 3 if the navigation application displays the route from the current position to the destination with the coordinates as the destination, By visually recognizing, the route from the current position to the destination can be grasped.

(3) System compatible with both server access acquisition type and local acquisition type (server information is given priority) (see FIGS. 7 to 9)
In this case, in the communication terminal 2, the terminal-side control unit 21 reads the QR code from the image input from the camera 26 by the QR code reading unit 21a (A21), and specifies the URL by the URL specifying unit 21b (A22). 3 is determined whether it is accessible (A23). If the terminal-side control unit 21 determines that the server 3 is accessible (A23: YES), the terminal-side control unit 21 accesses the server 3 of the specified URL, and transmits a data string constituting the URL from the communication unit 25 by the transmission control unit 21c. It is transmitted to the server 3 (A24).

  In the server 3, when the server side control unit 31 receives the information request signal transmitted from the communication terminal 2 by the reception control unit 31b, the server side control unit 31 specifies the ID included in the received information request signal (B21). When the server-side control unit 31 specifies the ID, the server-side control unit 31 searches the database 33a and extracts (corresponds to) the information corresponding to the specified ID from the database 33a (B22). Then, the server-side control unit 31 transmits an information response signal including the extracted information from the communication unit 34 to the communication terminal 2.

  In the communication terminal 2, when the information response signal transmitted from the server 3 is received by the reception control unit 21d, the terminal-side control unit 21 extracts information included in the received information response signal. And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the extracted information (A25). On the other hand, if the terminal-side control unit 21 determines that the server 3 is not accessible (is inaccessible) (A23: NO), the terminal-side control unit 21 specifies the data for local acquisition and decodes the specified data for local acquisition Using the library for decoding, the decoding unit 21e decodes (A26). And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the information extracted by the decoding (A27).

  8 and 9 illustrate a case where the communication terminal 2 reads a QR code in which parking lot information is stored. When the communication terminal 2 starts the parking lot information application in which the decoding library is incorporated and reads the QR code by the QR code reading function of the parking lot information application, if the server 3 can be accessed, the read QR is read. The server 3 having the URL indicated by the code is accessed. When the server 3 specifies an ID from the first data string received from the communication terminal 2, the server 3 extracts information corresponding to the specified ID from the database 33a, generates Web page data (HTML file format), and performs communication. Transmit to terminal 2. When the communication terminal 2 receives Web page data from the server 3, the communication terminal 2 displays the Web page. Thereby, the user can grasp | ascertain the information (In FIG. 8, the information regarding the AA parking lot (latest empty information) etc.) stored in the server 3 by visually recognizing the Web page.

  On the other hand, if the communication terminal 2 cannot access the server 3, it specifies data for local acquisition from the URL indicated by the read QR code. And the communication terminal 2 decodes the data for local acquisition using a decoding library, extracts information (coordinates, name, and address), and displays an image of the extracted information. Thereby, although the user cannot grasp | ascertain detailed information as much as the information stored in the server 3, it can grasp | ascertain simple information, such as a location of an AA parking lot, by visually recognizing the image. .

(4) System compatible with both server access acquisition type and local acquisition type (local information is given priority) (see FIGS. 10 and 11)
In this case, in the communication terminal 2, the terminal-side control unit 21 reads the QR code from the image input from the camera 26 by the QR code reading unit 21a (A31), and specifies the URL by the URL specifying unit 21b (A32). When the URL is specified, the terminal-side control unit 21 specifies local acquisition data, and the specified local acquisition data is decoded by the decoding unit 21e using the decoding library (A33). And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the information extracted by decoding (A34). Subsequently, the terminal-side control unit 21 determines whether or not the information of the server 3 is necessary (whether or not the execution condition of the first information acquisition process is satisfied) (A35). If the terminal-side control unit 21 determines that the information of the server 3 is necessary (the execution condition of the first information acquisition process is satisfied) (A35: YES), the terminal-side control unit 21 accesses the server 3 of the specified URL, and the URL Is transmitted from the communication unit 25 to the server 3 by the transmission control unit 21c (A36).

  In the server 3, when the server side control unit 31 receives the information request signal transmitted from the communication terminal 2 by the reception control unit 31b, the server side control unit 31 specifies the ID included in the received information request signal (B31). When the server-side control unit 31 specifies the ID, the server-side control unit 31 searches the database 33a and extracts (corresponds to) the information corresponding to the specified ID from the database 33a (B32). Then, the server-side control unit 31 transmits an information response signal including the extracted information from the communication unit 34 to the communication terminal 2.

  In the communication terminal 2, when the information response signal transmitted from the server 3 is received by the reception control unit 21d, the terminal-side control unit 21 extracts information included in the received information response signal. And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the extracted information (A37).

  FIG. 11 illustrates a case where the communication terminal 2 reads a QR code in which event information is stored. When the communication terminal 2 starts the event information application in which the decoding library is incorporated and reads the QR code by the QR code reading function of the event information application, the data for local acquisition is obtained from the URL indicated by the read QR code. Is identified. Then, the communication terminal 2 decodes the specified local acquisition data using the decoding library, extracts information (event name and address), and displays the extracted image. Thereby, although the user cannot grasp the information stored in the server 3 at this stage, the user can grasp simple information such as the event name and the holding place by visually checking the image.

  Subsequently, when the display of detailed information is requested by the user's operation, the communication terminal 2 accesses the server 3 having the URL indicated by the read QR code. When the server 3 specifies an ID from the first data string received from the communication terminal 2, the server 3 extracts information corresponding to the specified ID from the database 33a, generates Web page data (HTML file format), and performs communication. Transmit to terminal 2. When the communication terminal 2 receives Web page data from the server 3, the communication terminal 2 displays the Web page. Thereby, the user can grasp information stored in the server 3 (in FIG. 11, information related to AA fireworks (for example, real-time information such as timetable and weather) in FIG. 11) by visually recognizing the web page. .

(5) System compatible with both server access acquisition type and local acquisition type (using server information and local information together) (see FIGS. 12 and 13)
In this case, in the communication terminal 2, the terminal-side control unit 21 reads the QR code from the image input from the camera 26 by the QR code reading unit 21a (A41), and specifies the URL by the URL specifying unit 21b (A42). When the URL is specified, the terminal-side control unit 21 specifies data for local acquisition, and the specified local acquisition data is decoded by the decoding unit 21e using the decoding library (A43). The terminal-side control unit 21 adds the information (additional data) decoded and extracted to the identified URL to access the server 3, and the transmission control unit 21c transmits the data string constituting the URL from the communication unit 25 to the server 3. (A44).

  In the server 3, when the server side control unit 31 receives the information request signal transmitted from the communication terminal 2 by the reception control unit 31b, the server side control unit 31 specifies an ID included in the received information request signal (B41). When the server-side control unit 31 specifies the ID, the server-side control unit 31 searches the database 33a and extracts (corresponds to) the information corresponding to the specified ID from the database 33a (B42). Then, the server-side control unit 31 transmits an information response signal including the extracted information from the communication unit 34 to the communication terminal 2.

  In the communication terminal 2, when the information response signal transmitted from the server 3 is received by the reception control unit 21d, the terminal-side control unit 21 extracts information included in the received information response signal. And the terminal side control part 21 produces | generates and displays an image by the information output part 21f based on the extracted information and the information extracted by decoding (A45).

  FIG. 13 illustrates a case where the communication terminal 2 reads a QR code in which customer information is stored. When the communication terminal 2 starts the customer information management application in which the decoding library is incorporated and reads the QR code by the QR code reading function of the customer information management application, the communication terminal 2 uses the URL indicated by the read QR code for local acquisition. Identify the data. The communication terminal 2 decodes the specified data for local acquisition using a decoding library, and extracts information (for example, an authentication key (“abcde” in FIG. 13). The communication terminal 2 reads the read QR code. Is added to the URL indicated by the authentication key and information held by the customer information management application (for example, accessor information (“opqrstu” in FIG. 13)) to access the server 3. The server 3 receives the authentication key received from the communication terminal 2. If the authentication result is positive, the ID is identified from the first data string received from the communication terminal 2. Then, the server 3 obtains information corresponding to the identified ID from the database 33a. Based on the extracted information, Web page data (HTML file format) is generated and transmitted to the communication terminal 2. The server 3 updates the stored information by newly writing the accessor information received from the communication terminal 2. When the communication terminal 2 receives the data of the Web page from the server 3, the communication terminal 2 displays the Web page. As a result, the user grasps information stored in the server 3 (in FIG. 13, information related to the purchase history of the customer AA (for example, purchased product name, date, etc.) by visually recognizing the Web page. can do.

  The systems (1) to (5) described above may be combined in any way. For example, the period during which access to the server 3 can be made may be limited, and the time period may be used to classify (1) and (2). Further, for example, a user who does not require authentication and a user who requires authentication may be distinguished and (3) and (5) may be used together.

As described above, according to the embodiment, the following effects can be obtained.
In the information acquisition system 1, as a URL data structure stored in a QR code readable by the communication terminal 2, a first data string for the application to acquire information from the server 3, and the application includes a decoding library. And a URL data structure including a second data string for locally acquiring information from the QR code. In a system in which an information code that can identify a URL is read by the communication terminal 2 to store a huge amount of data or information to be concealed in the server 3, the application can be executed by using the first data string. Information can be acquired from the server 3. In a system in which the application cannot access the server 3, the second data string is used so that the application can obtain information locally from the QR code using the decoding library. In other words, by using either the first data string or the second data string, it is possible to select whether information is acquired from the server 3 or locally from the QR code.

The present invention is not limited to those exemplified in the above-described embodiment, and can be arbitrarily modified or expanded without departing from the scope thereof.
In one embodiment, the QR code is exemplified as the information code, but it may be a two-dimensional code other than the QR code or a one-dimensional code. Moreover, in one Embodiment, although the smart phone was illustrated as the communication terminal 2, a simple mobile telephone with a display area of a display part smaller than a smart phone, a tablet terminal with a display area of a display part larger than a smart phone, etc. may be sufficient. .

In one embodiment, the configuration in which the server 3 generates a QR code, that is, the configuration in which the server that generates the QR code is the same as the server that the communication terminal 2 that has read the QR code accesses is the same. You may make it cooperate as a different server. That is, when the communication terminal 2 accesses the server of the URL stored in the QR code, if the information corresponding to the ID included in the URL can be provided to the communication terminal 2, a QR code is generated. The server and the server that provides information corresponding to the ID to the communication terminal 2 may be separate, and the server may be configured in any way.
In the embodiment, the configuration in which the information stored in the QR code is simple information and the information (information associated with the ID) stored in the server 3 is detailed information is illustrated. It is not necessary to have it.

  In the drawings, 1 is an information acquisition system, 2 is a communication terminal, 3 is a server (information code generation device), 21 is a terminal side control unit (terminal side control means), 21a is a QR code reading unit (information code reading means), 21b is a URL specifying unit (process execution unit, URL specifying unit), 21c is a transmission control unit (process execution unit, transmission control unit), 21d reception control unit (process execution unit, reception control unit), 21e is a decoding unit (processing 21f is an information output unit (information output unit), and 31 is a server side control unit (device side control unit).

Claims (16)

  A data structure of a URL stored in an information code readable by the communication terminal (2), in which a first data string for the application to acquire information from the server (3), and a decoding library for the application And a second data string for locally acquiring information from the information code using the URL data structure.   A data structure of an information code read by the communication terminal (2), the first data string for the app to acquire information from the server (3), and the app using the decoding library for the information code A data structure of an information code characterized in that a URL including a second data string to be acquired locally from is encoded. An information code reading means (21a) for reading the information code;
Whichever of the first information acquisition process for acquiring information from the server (3) using the information code read by the information code reading means and the second information acquisition process for acquiring information locally from the information code Process execution means (21b-21e) for performing
An information output means (21f) for outputting information acquired by the processing execution means, and a communication terminal (2) characterized by comprising: In the communication terminal according to claim 3,
The process execution means includes a URL specifying means (21b) for specifying a URL indicated by the information code read by the information code reading means, and at least an application among data strings constituting the URL specified by the URL specifying means. Transmission control means (21c) for causing the server to transmit an information request signal including a first data string for acquiring information from the server, and an information response signal including information corresponding to the first data string. A reception control means (21d) for receiving from the server, and a second for at least an application to locally acquire information from the information code using the decoding library among the data strings constituting the URL specified by the URL specifying means. Decoding means (21e) for decoding two data strings, and performing the first information acquisition process Communication terminal whose serial performed by the transmission control means and said reception control means, and wherein said second information acquisition process be carried out by the decoding means. In the communication terminal according to claim 3 or 4,
The process execution means performs the first information acquisition process when an application that does not incorporate a decoding library is activated, and acquires the second information when the application that incorporates a decoding library is activated. A communication terminal that performs processing. In the communication terminal according to claim 3 or 4,
The process execution means activates an application in which a decoding library is incorporated, performs the first information acquisition process when the activated application is accessible to the server, and the activated application is the server A communication terminal that performs the second information acquisition process when access to the network is impossible. In the communication terminal according to claim 3 or 4,
The process execution means performs the second information acquisition process when an application in which a decoding library is incorporated is activated, and the first information is acquired when an execution condition for the first information acquisition process is satisfied. A communication terminal that performs an acquisition process. In the communication terminal according to claim 3 or 4,
The communication terminal characterized in that the process execution means performs the first information acquisition process and the second information acquisition process together when an application in which a decoding library is incorporated is activated. In the communication terminal according to claim 8,
The communication terminal is characterized in that the process execution means extracts the additional data by performing the second information acquisition process, and performs the first information acquisition process including the extracted additional data. In the communication terminal according to claim 9,
The communication terminal characterized in that the process execution means extracts an authentication key as the additional data. In the communication terminal as described in any one of Claim 3 to 10,
The said process execution means updates the information stored in the said server, when performing a said 1st information acquisition process, The communication terminal characterized by the above-mentioned. In the communication terminal as described in any one of Claim 3 to 11,
The process execution means performs the first information acquisition process, and the information acquired from the server is more detailed than the information acquired locally from the information code by performing the second information acquisition process. Thus, the communication terminal characterized by performing the first information acquisition process and the second information acquisition process. A communication terminal (2) according to any one of claims 3 to 12,
A server (3) for providing information to the communication terminal; and an information acquisition system (1). In the terminal side control means (21) of the communication terminal (2),
An information code reading process for reading the information code;
Whichever of the first information acquisition process for acquiring information from the server (3) using the information code read by the information code reading procedure and the second information acquisition process for acquiring information locally from the information code Information acquisition processing to do
An information output program for executing an information output process for outputting the information acquired by the information acquisition process.   An information code that is read by the communication terminal (2), in which the application obtains information from the server (3), and the application uses the decoding library to obtain information locally from the information code. An information code generation device (3), characterized by generating an information code in which a URL including a second data string for acquisition is encoded. In the device side control means (31) of the information code generation device (3),
An information code that is read by the communication terminal (2), in which the application obtains information from the server (3), and the application uses the decoding library to obtain information locally from the information code. An information code generation program for executing an information code generation process for generating an information code in which a URL including a second data string for acquisition is encoded.

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