JP6414441B2 - Information acquisition system, server, and information providing program - Google Patents

Description

  The present invention relates to an information acquisition system, a server, and an information providing 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

  As one of the usage forms of the information code, there is a form in which point information (POI (Point Of Interest) information) is stored in the information code. When the information code in which the point information is stored is read by the communication terminal, it is possible to acquire a route having, for example, the latitude and longitude of the point information as a destination by cooperating with the navigation application. By the way, even if the point information is stored in the information code, the user cannot understand that the point information is stored only by looking at the information code, and the point information is not stored until the information code is read. I can understand that. Even if the user understands that the point information is stored, the user may want to visit another facility after visiting the facility of the point information. In such a case, the user reads a plurality of information codes continuously in time series, but a plurality of information corresponding to each of the read information codes is not associated with each other. As described above, even if a plurality of information codes are read continuously in time series, there is a problem that the information code cannot be properly handled.

  The present invention has been made in view of the above circumstances, and its purpose is to read appropriate information corresponding to a plurality of read information codes when a plurality of information codes are read continuously in time series. An object is to provide an information acquisition system, a server, and an information providing program that can be acquired and can improve convenience.

In the information acquisition system according to the first aspect, the information code reading unit reads an information code in which information is stored. The information extraction means extracts information corresponding to the read information code when the information code is read by the information code reading means. The time-series information generating means is provided on the condition that the user has set the continuous reading mode, and a plurality of information codes are extracted by the information extracting means by being read by the information code reading means continuously in time series. Information is associated according to a predetermined order to generate time series information having continuity. The information output means outputs the time series information generated by the time series information generation means.

  That is, when a plurality of information codes are continuously read in time series, a plurality of pieces of information corresponding to each of the plurality of information codes are associated according to a predetermined order, and there is continuity associated with each other according to the predetermined order. Output series information. Thereby, when reading a plurality of information codes continuously in time series, appropriate information corresponding to the plurality of read information codes can be acquired, and convenience can be improved.

In the server according to the ninth aspect, the information extraction means extracts information corresponding to the read information code when the information code is read by the communication terminal. The time-series information generating unit is configured to obtain a plurality of pieces of information extracted by the information extracting unit when a plurality of information codes are continuously read in a time series by the communication terminal on condition that the user sets the continuous reading mode. Correlate in accordance with a predetermined order, and generate time series information having continuity.

  Thereby, similarly to the invention described in claim 1, when reading a plurality of information codes continuously in time series, it is possible to obtain appropriate information corresponding to the read information codes, Convenience can be improved.

The figure which shows the whole structure of the information acquisition system of one Embodiment. Diagram showing QR code The figure which shows the aspect in which information is stored in the server The figure which shows the aspect which reads the information code continuously in time series The figure which shows the aspect by which the several information code is provided on the paper of an information magazine The figure which shows the aspect by which the some information code is provided with the web page 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 reads QR code continuously in time series, and acquires route information from a server (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 which a communication terminal reads QR code continuously in time series, and acquires route information from a server (the 2) Diagram showing the flow of processing of the communication terminal (Part 1) The figure which shows the flow of processing of the communication terminal (the 2) Figure showing the screen of the communication terminal (part 1) Figure showing a screen of a communication terminal (part 2) Figure showing a screen of a communication terminal (part 3) Figure showing a screen of a communication terminal (Part 4) Figure showing a screen of a communication terminal (part 5) Figure showing the screen of the communication terminal (Part 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 (corresponding to an information code reader) and a server 3, 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 control unit 21, a memory 22, a user interface (UI (User Interface)) unit 23, a display unit 24, a communication unit 25, and a camera 26. The 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 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 formed on the screen of the display unit 24, a mechanical switch, and the like. When an operation from the user is received, an operation detection signal indicating the operation content is sent to the control unit 21. Output. 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 control unit 21, a screen specified by the input display command signal is displayed ( 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 control unit 21, the camera 26 performs an imaging operation and outputs an image acquired by imaging to the 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 control unit 31 (corresponding to a control unit), a memory 32, a storage unit 33, and a communication unit 34. The 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 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 (point information, service ID, etc. described later) in the database 33a. The communication unit 34 controls data communication with the communication terminal 2 via the communication network.

  The control unit 31 includes a QR code generation unit 31a, a reception control unit 31b, an information extraction unit 31c (corresponding to information extraction unit), a time series information generation unit 31d (corresponding to time series information generation unit), and transmission control. Part 31e. These QR code generation unit 31a, reception control unit 31b, information extraction unit 31c, time-series information generation unit 31d, and transmission control unit 31e are configured by a computer program (including an information providing program) executed by the control unit 31. It is realized by software.

  Here, the QR code generated by the QR code generation unit 31a will be described. The QR code generating unit 31a displays a QR code (MapQ with a route order ID) in which a route order ID is coded in addition to the spot information and service ID as shown in FIG. A QR code (Map QR without a route order ID) in which the point information and the service ID as shown are coded is generated. The point information is POI information including a POI (Point Of Interest) name and latitude and longitude. Service ID is ID which shows the genre (type of service) of point information. The route order ID is an order ID that can specify the order. 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, a Web page, or the like. That is, an unspecified number of users who use the communication terminal 2 having the imaging function can use the imaging function of the communication terminal 2 so that the QR code in which the route order ID is encoded in addition to the point information and the service ID The QR code in which the point information and the service ID are encoded can be easily read.

  The database 33a in the storage unit 33 corresponds to the QR code generation unit 31a generating the QR code having the characteristics described above, and stores various information in association with the spot information and the service ID as shown in FIG. Yes. The reception control unit 31b receives the information request signal transmitted from the communication terminal 2. When the information request signal including the spot information and the service ID is received by the reception control unit 31b, the information extraction unit 31c specifies the spot information and the service ID from the received information request signal, searches the database 33a, Information stored in association with the specified spot information and service ID is extracted. The time series information generation unit 31d associates a plurality of pieces of information extracted by the information extraction unit 31c in a predetermined order according to a procedure described later, and generates route information as time series information having continuity. The transmission control unit 31e causes the communication terminal 2 to transmit an information response signal including the time series information generated by the information extraction unit 31c.

  The control unit 21 includes a QR code reading unit 21a (corresponding to an information code reading unit), a decoding unit 21b, a transmission control unit 21c, a reception control unit 21d, and an information output unit 21e (corresponding to an information output unit). Have. The QR code reading unit 21a, the decoding unit 21b, the transmission control unit 21c, the reception control unit 21d, and the information output unit 21e are configured by a computer program executed by the control unit 21, and are realized by software.

  When the camera 26 captures a QR code, the QR code reading unit 21a reads the QR code by inputting an image of the QR code from the camera 26. The decoding unit 21b decodes the QR code read by the QR code reading unit 21a, and specifies the spot information, service ID, and the like stored in the QR code. The transmission control unit 21c causes the server 3 to transmit an information request signal including the spot information and the service ID decoded by the decoding unit 21b. The reception control unit 21d receives the information response signal transmitted from the server 3. When the information response signal including the route information is received by the reception control unit 21d, the information output unit 21e identifies the route information from the received information response signal and generates an image including the identified route information. It is displayed on the display unit 24.

  Now, as one aspect in which the user reads the QR code by the communication terminal 2, as shown in FIG. 4, a plurality of QR codes (in FIG. 4, QR code 1, QR code 2, QR code 3) are continuously arranged in time series. May be read. In this case, the plurality of QR codes are, for example, a moving image by animation GIF (storing and displaying a plurality of GIF images in one file sequentially), a stationary image attached to the page of an information magazine as shown in FIG. Image, a still image drawn on a Web page as shown in FIG. FIG. 5 illustrates a mode in which MapQR is printed on a map, and FIG. 6 illustrates a mode in which a content name (music title (eg, ABC)) is drawn on a Web page. When a plurality of QR codes are provided as a moving image by the animation GIF, the user reads the plurality of QR codes according to a preset display order. In addition, when a plurality of QR codes are provided as a still image on the page of an information magazine or a Web page, the user reads the plurality of QR codes according to a desired reading order.

Next, the operation of the above configuration will be described with reference to FIGS. here,
(1-1) Case where QR code including root order ID is continuously read in time series (1-2) Case where QR code not including root order ID is read continuously in time series will be described in order.

(1-1) When reading a QR code including a route order ID continuously in time series (see FIG. 7)
The user operates the communication terminal 2 to start a QR code reading application and reads the QR code. In the communication terminal 2, when the user captures a QR code with the camera 26 and the user inputs a QR code image from the camera 26, the control unit 21 reads the QR code from the input image by the QR code reading unit 21 a ( A1). When the control unit 21 reads the QR code, the decoding unit 21b decodes the read QR code according to a predetermined algorithm, and specifies the point information, the service ID, and the route order ID (A2). And the control part 21 accesses the server 3 of URL (Uniform Resource Locator) preset, and the information request signal containing point information, service ID, and route order ID is transmitted from the communication part 25 by the transmission control part 21c. The server 3 is transmitted (A3). In this case, the control unit 21 may transmit an information request signal every time one QR code to be read continuously is read, or collect information requests after reading all the QR codes to be read continuously. A signal may be transmitted. Moreover, the control part 21 specifies the object read continuously, for example, when a user sets continuous reading mode. That is, the control unit 21 specifies the first QR code to be continuously read because, for example, the user has set the continuous reading mode, and for example, the target that is continuously read when the user cancels the continuous reading mode. The QR code at the end of the is specified.

  In the server 3, when the control unit 31 receives the information request signal transmitted from the communication terminal 2 by the reception control unit 31b (B1), the point information, the service ID, and the route order ID included in the received information request signal are displayed. Is specified (B2). When specifying the point information, service ID, and route order ID, the control unit 31 searches the database 33a (B3), and extracts information corresponding to each piece of point information by the information extraction unit 31c (B4). In this case, the control unit 31 may extract information corresponding to the spot information every time the information request signal transmitted from the communication terminal 2 is received by the reception control unit 31b, or after receiving all the information request signals. Information may be extracted collectively. Next, the control unit 31 associates the plurality of extracted information according to the route order ID, and the time series information generation unit 31d generates route information indicating the passing order of each piece of point information (B5). Specifically, the control unit 31 generates route information by sorting a plurality of pieces of information in ascending order of the route order ID, for example. Then, the control unit 31 causes the transmission control unit 31e to transmit the information response signal including the generated route information from the communication unit 34 to the communication terminal 2 (B6).

  In the communication terminal 2, when the control unit 21 receives the information response signal transmitted from the server 3 by the reception control unit 21d (A4), the route information included in the received information response signal is converted into, for example, a map display format. The information is output by the information output unit 21e (A5). As a result, the user activates the QR code reading application and reads the plurality of QR codes continuously in time series so that the route information according to the route order ID stored in the plurality of read QR codes is stored in the server. 3 can be obtained. That is, the user can acquire from the server 3 a route that passes through a plurality of pieces of spot information corresponding to each of the read QR codes.

  FIG. 8 illustrates a case where the communication terminal 2 activates a QR code reading application and sequentially reads a plurality of QR codes each including a route order ID in time series. When the communication terminal 2 continuously reads a plurality of QR codes in time series by the QR code reading application, the communication terminal 2 decodes the read plurality of QR codes to obtain the respective point information, service ID, and route order ID. Send to. When the server 3 receives the point information, service ID, and route order ID from the communication terminal 2, the server 3 searches the database 33a, extracts information corresponding to each piece of point information, and extracts the extracted pieces of information as the route order ID. The route information is generated in association with each other, and the generated route information is transmitted to the communication terminal 2. When receiving the route information from the server 3, the communication terminal 2 displays the received route information.

  In the example of FIG. 8, the communication terminal 2 reads the QR code 1, the QR code 2, and the QR code 3, and the ascending order of the route order ID is stored in the order of the QR code 1, the QR code 2, and the QR code 3. Show. In this case, the communication terminal 2 sends a route from the facility point (G1) indicated by the QR code 1 to the facility (G3) indicated by the QR code 3 via the facility point (G2) indicated by the QR code 2 Route information indicating (R) is displayed. The communication terminal 2 displays the POI name M1 and the map code M2 of the facility indicated by the QR code 1 that is the first destination, and when the user presses the arrow button M3, the QR that is the next destination is QR. The display is sequentially switched to the POI name M1 and map code M2 of the facility indicated by code 2.

(1-2) When reading a QR code that does not include the route order ID continuously in time series (see FIG. 9)
In the communication terminal 2, when the control unit 21 reads the QR code by the QR code reading unit 21a (A1), the control unit 21 decodes the read QR code by the decoding unit 21b according to a predetermined algorithm, and obtains the point information and the service ID. Specify (A2). And the control part 21 accesses the server 3 of URL set beforehand, and transmits the information request signal containing point information and service ID to the server 3 from the communication part 25 by the transmission control part 21c (A3). Also in this case, the control unit 21 may transmit the information request signal every time one QR code to be read continuously in time series is read, or all the QR codes to be read continuously in time series may be transmitted. The information request signal may be transmitted collectively after reading. When the information request signal is transmitted collectively, the control unit 21 transmits the information request signal including the reading order.

  In the server 3, when the control unit 31 receives the information request signal transmitted from the communication terminal 2 by the reception control unit 31b (B1), the control unit 31 specifies the point information and the service ID included in the received information request signal ( B2) The database 33a is searched (B3), and information corresponding to the spot information is extracted by the information extraction unit 31c (B4). Also in this case, the control unit 31 may extract the information corresponding to the spot information every time the information request signal transmitted from the communication terminal 2 is received by the reception control unit 31b, or all the information request signals are received. Information may be extracted later. Next, the control unit 31 specifies the reading order (B11), associates the extracted pieces of information according to the reading order, and generates route information by the time-series information generation unit 31d (B5). Then, the control unit 31 causes the transmission control unit 31e to transmit the information response signal including the generated route information from the communication unit 34 to the communication terminal 2 (B6).

  In the communication terminal 2, when the control unit 21 receives the information response signal transmitted from the server 3 by the reception control unit 21d (A4), the route information included in the received information response signal is converted into, for example, a map display format. The information is output by the information output unit 21e (A5). Thereby, the user can acquire the route information according to the reading order from the server 3 by starting the QR code reading application and reading a plurality of QR codes continuously in time series.

FIG. 10 illustrates a case where the communication terminal 2 activates a QR code reading application, and each of them sequentially reads a plurality of QR codes not including the route order ID in time series. When the communication terminal 2 continuously reads a plurality of QR codes in time series by the QR code reading application, the communication terminal 2 decodes the read plurality of QR codes and transmits each point information and service ID to the server 3. When the server 3 receives the spot information and the service ID from the communication terminal 2, the server 3 searches the database 33a, extracts information corresponding to each spot information, specifies the reading order, and reads the plurality of extracted information. In association with the order, route information is generated, and the generated route information is transmitted to the communication terminal 2. When receiving the route information from the server 3, the communication terminal 2 displays the received route information.
In the example of FIG. 10, a case where the communication terminal 2 reads the QR code 1, the QR code 2, and the QR code 3 in the order of the QR code 1, the QR code 2, and the QR code 3 is illustrated. Also in this case, the communication terminal 2 performs a display similar to the display described in FIG.

By the way, although the case where the server 3 produced | generated route information was demonstrated above, the communication terminal 2 can also produce | generate route information because the communication terminal 2 has a part of function of the server 3. FIG. here,
(2-1) When transmitting point information to the navigation application (2-2) The case of transmitting point information to the navigation device will be sequentially described.

(2-1) When transmitting point information to the navigation application (see FIG. 11)
In this case, in the communication terminal 2, when the control unit 21 activates the QR code reading application and reads the QR code (A11), the control unit 21 decodes the read QR code according to a predetermined algorithm, The route order ID is specified (A12). Then, as shown in FIG. 13, the control unit 21 displays a reading completion screen for inquiring transmission of destination information to the navigation application on the display unit 24 (A13), and waits for an operation from the user (A14). If the control unit 21 determines that transmission to the navigation application is permitted ("YES" key is operated) (A14: YES), the control unit 21 activates the navigation application (A15), and the point information, service ID, and route order The ID is transmitted to the navigation application (A16). And the control part 21 associates several point information according to route order ID, and produces | generates route information (A17). The image including the generated route information is displayed on the display unit 24 (A18).

(2-2) When transmitting point information to the navigation device (see FIG. 12).
In this case, in the communication terminal 2, when the control unit 21 specifies the spot information, the service ID, and the route order ID (A12), as shown in FIG. 14, a read completion screen for inquiring transmission of destination information to the navigation device Is displayed on the display unit 24 (A13), waits for an operation from the user (A21), and determines that transmission to the navigation device is permitted ("YES" key has been operated) (A21: YES), The point information, service ID, and route order ID are transmitted to the navigation device (A21). In this case, the navigation device associates a plurality of pieces of point information according to the route order ID, generates route information, and displays an image including the generated route information.

  The above is an application that generates route information from point information as an application that generates time-series information that is continuous in time series. However, an application that sequentially transmits read information as shown in FIG. 15 is shown in FIG. It is also possible to apply to an application that sequentially reproduces such music, an application that sequentially displays images as shown in FIG. 17, an application that sequentially executes a program as shown in FIG.

As described above, according to the present embodiment, the following effects can be obtained.
In the information acquisition system 1, when a plurality of QR codes are read by the communication terminal 2 continuously in time series, the server 3 associates a plurality of pieces of information corresponding to the read QR codes according to a predetermined order, The time series information associated according to the predetermined order is transmitted to the communication terminal 2. As a result, when a plurality of QR codes are read continuously in time series, appropriate information corresponding to the read QR codes can be acquired, and convenience can be improved. In this case, when the QR code storing the route order ID is read, the route information according to the route order ID can be acquired. When a QR code that does not store a route order ID is read, route information according to the order in which the QR code is read (reading order) can be acquired.

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 reads the QR code and accesses the server, if the information corresponding to the spot information of the QR code can be extracted, the server that generates the QR code and the spot information of the QR code are supported. The server storing the information may be separate, and the server may be configured in any way.
In one embodiment, the case where the point information is latitude and longitude is exemplified, but information that can directly or indirectly specify a point such as an address, a postal code, a telephone number, or a regional mesh code (JIS X 0410) is included. It may be. That is, the “point” includes not only the position but also the area where the position exists.

  In the drawings, 1 is an information acquisition system, 2 is a communication terminal, 3 is a server, 21a is a QR code reading unit (information code reading unit), 21e is an information output unit (information output unit), and 31 is a control unit (control unit). , 31c is an information extracting unit (information extracting unit), and 31d is a time series information generating unit (time series information generating unit).

Claims (10)

An information code reading means (21a) for reading an information code in which information is stored;
An information extraction means (31c) for extracting information corresponding to the read information code by reading the information code by the information code reading means;
On condition that the user has set the continuous reading mode, a plurality of information codes extracted by the information extraction means in a predetermined order because a plurality of information codes are read by the information code reading means continuously in time series. Therefore, time series information generating means (31d) for generating time series information having association and continuity,
An information acquisition system (1) comprising: information output means (21e) for outputting the time series information generated by the time series information generation means. In the information acquisition system according to claim 1,
The information code reading means reads an information code in which an order ID capable of specifying the order is stored,
The time series information generating means generates time series information having continuity with the order specified by the order ID as a predetermined order. In the information acquisition system according to claim 1,
The time-series information generating means generates a time-series information having continuity by setting a reading order, which is an order in which a plurality of information codes are continuously read by the information code reading means, as a predetermined order. Characteristic information acquisition system. In the information acquisition system according to any one of claims 1 to 3,
The information acquisition system, wherein the information code reading unit reads a plurality of information codes sequentially presented in a moving image in time series. In the information acquisition system according to any one of claims 1 to 3,
The information acquisition system, wherein the information code reading unit reads a plurality of information codes presented as still images continuously in time series. In the information acquisition system according to any one of claims 1 to 5,
The time series information generating means generates route information indicating a passing order of a plurality of pieces of point information as time series information. In the information acquisition system according to any one of claims 1 to 5,
The information acquisition system, wherein the time-series information generating means generates content reproduction information indicating a reproduction order of a plurality of contents as time-series information. In the information acquisition system according to any one of claims 1 to 5,
The communication terminal (2) is configured to be accessible to the server (3),
The information code reading means and the information output means are provided in the communication terminal,
The information acquisition system, wherein the time-series information generating means is provided in the server. An information extracting means (31c) for extracting information corresponding to the read information code by reading the information code by the communication terminal (2);
On condition that the user has set the continuous reading mode, a plurality of pieces of information extracted by the information extracting means are associated according to a predetermined order when a plurality of information codes are continuously read in time series by the communication terminal. A server (3) comprising: time series information generating means (31d) for generating time series information having continuity. The control means (31) of the server (3)
An information extraction process for extracting information corresponding to the read information code by reading the information code by the communication terminal (2);
On condition that the user has set the continuous reading mode, a plurality of information codes are sequentially read in time series by the communication terminal so that a plurality of pieces of information extracted by the information extraction process are associated according to a predetermined order, A time series information generation process for generating time series information having continuity, and an information providing program.

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