JP2007156969A - Information transfer system and information transfer method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To transfer further much information at high speed by continuous reproduction display of a plurality of code images. <P>SOLUTION: An image generation part 14 performs code conversion of optional information to a plurality of QR codes (R) 30 and generates code images while assigning to the respective QR codes (R) 30 synchronization information 30a or 30b for identifying respective code contents and respective transfer intervals, and an image/voice processing circuit 13 performs continuous reproduction display of a plurality of generated code images on a display part. When a plurality of code images by continuous reproduction display are fetched by a camera part 21 of a cellular phone 20 with camera, an image analysis part 23 identifies the code contents and transfer intervals of a plurality of QR codes (R) 30 based on the synchronization information 30a or 30b, and then analyzes the respective QR codes (R) 30, whereby original information can be obtained. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an information transfer system and an information transfer method for transferring arbitrary information using a two-dimensional code such as a QR code (registered trademark) using a video signal transmission method.

  For example, a QR code (registered trademark) which is a two-dimensional code is a matrix type two-dimensional barcode, and can hold data several hundred times as large as a one-dimensional barcode.

  Incidentally, arbitrary data other than numbers can be recorded in the QR code (registered trademark). In QR Code (registered trademark), depending on the type of data, a numeric mode in which 3 numbers are encoded in 10 bits, an alphanumeric mode in which 2 characters are encoded in 11 bits, and 1 character are encoded as they are in 8 bits. There is an 8-bit byte mode and a Kanji mode in which one Kanji character (2 bytes) is encoded in 13 bits.

  The encoded bit string is added with a mode specifier (4 bits) and a character number specifier (8 to 16 bits) in order at one head to form one segment. A plurality of segments can be stored in the QR code (registered trademark), and each segment is encoded in an encoding mode specified by a mode specifier.

  In order to use the QR code (registered trademark), information such as a telephone number, an address, an Internet URL, etc. is recorded in the QR code (registered trademark), and the QR code (registered trademark) is used for, for example, a mobile phone with a camera. Images are taken with a camera, and information such as telephone numbers and addresses recorded in QR codes (registered trademark), Internet URLs, and the like are obtained from the taken images.

  In addition, such QR code (registered trademark) is posted on a poster, a hanging advertisement in a train, or an advertisement posting page of a magazine, etc., read by a mobile phone camera, and the QR code (registered trademark) By accessing the URL, it is possible to access the Web site without performing the URL input operation using the key.

  It is assumed that such a QR code (registered trademark) is used. In Patent Document 1, a two-dimensional code displayed together with an advertisement image on an rewritable image display unit of an image display device is obtained by an image pickup device including an image pickup device. An image information display device that can accurately and quickly read code information with a large amount of information by picking up an image, decoding it on the image pickup device side, and displaying it on a display unit has been proposed.

In Patent Document 2, the control unit of the mobile phone detects the identification information of the two-dimensional code, selects a specific color from the result of the identification information, converts the two-dimensional code into a specific color, and converts it to the specific color. A portable terminal device that can visually identify and identify a two-dimensional code having different identification information by displaying the converted two-dimensional code on a display unit has been proposed.
JP 2002-15274 A JP 2004-102782 A

  However, the image information display device disclosed in Patent Document 1 can read code information with a large amount of information by imaging a two-dimensional code, but the two-dimensional code is displayed on the image display unit. The information obtained by the imaging device is limited to one two-dimensional code.

  In addition, although the portable terminal device disclosed in Patent Document 2 can visually identify and identify a two-dimensional code having different identification information, the two-dimensional code is a still image as described above. Information obtained by a mobile phone is limited to one two-dimensional code.

  The problem to be solved is that when the two-dimensional code is a still image, information obtained by reading the two-dimensional code is limited to one two-dimensional code.

An information transfer system according to the present invention includes a display device having at least a display unit that displays an image, and an image pickup device having an image pickup unit that captures at least an image displayed on the display unit, and displays the image on the display unit. An information transfer system for transferring information from the display device side to the imaging device side according to an image to be recorded, wherein the display device stores storage means for storing arbitrary information and converts the information into a plurality of code information. Further, an image generating means for generating a code image provided with synchronization information for identifying each code content and each code information transfer interval in each of the code information, and the generated plurality of code images Video processing means for performing video-related processing so as to continuously display and display the information on the display unit; and reading the information from the storage means and providing the information to the image generation means And a control unit that controls the video processing unit to continuously reproduce and display each code image generated by the image generation unit at a predetermined interval, and the imaging device captures the image by the imaging unit. Based on the synchronization information, storage means for storing the plurality of code images by the continuous reproduction display, code contents of code information of the plurality of stored code images, and transfer intervals of the respective code information are based on the synchronization information. And image analysis means for obtaining the information by identifying and selecting and analyzing the code information at a predetermined interval.
In such a configuration, when arbitrary information is read from the storage means by the control means and given to the image generation means, the information is code-converted into a plurality of pieces of code information by the image generation means. When a code image to which synchronization information for identifying each code content and each code information transfer interval is added to the information is generated and the display is instructed to the video processing means by the control means, the video processing Each code image is continuously reproduced and displayed on the display unit at a predetermined interval by the means. On the other hand, when a plurality of code images obtained by continuous reproduction display are captured by the imaging unit of the imaging apparatus, the code images are stored in the storage unit. The code analysis unit stores the code contents of the code information of the plurality of stored code images and the transfer interval of each code information based on the synchronization information. Since the original information is obtained by selecting and analyzing the code information at a predetermined interval, the code conversion is performed even if the synchronization timing of the video signal and the synchronization timing of the code image do not match. Code information can be transferred without any problems.
Further, the control means controls the video processing means to display each code image in a predetermined number of fields when continuously displaying and displaying the plurality of code images, and the image analysis means In each of the code images displayed in the field, the code information of portions where the code information having different code contents identified by the synchronization information is not adjacent to each other is selected and analyzed. it can.
In such a configuration, each code image is displayed in a predetermined number of fields, and among the code images displayed in a plurality of fields by the image analysis means, code information having different code contents identified by the synchronization information Since each piece of code information is not selected and analyzed, it is unlikely that a correct code image is obtained by overlapping code images with different code contents during field rewriting during continuous playback display. Even in this case, the original information can be accurately restored from a plurality of code images that are continuously reproduced and displayed.
The code information may be a two-dimensional code.
In such a configuration, the code information can be either a barcode or a two-dimensional code. In particular, by making the code information a two-dimensional code, the amount of information transferred per unit time is more than that of a barcode. Can do a lot.
An information transfer method of the present invention includes a display device having at least a display unit that displays an image, and an image pickup device that has an image pickup unit that picks up an image displayed on at least the display unit, and displays the image on the display unit. An information transfer method for transferring information from the display device side to the imaging device side according to an image to be displayed, wherein the display device converts arbitrary stored information into a plurality of code information, and further A step of generating a code image in which synchronization information for identifying each code content and each code information transfer interval is added to the code information; and continuously reproducing the generated plurality of code images on the display unit A step of performing video-related processing so as to be displayed, and a step of controlling the generated code images to be continuously reproduced and displayed at predetermined intervals, Storing the plurality of code images by the continuous reproduction display captured by the imaging unit, the code contents of the code information of the plurality of stored code images, and the transfer interval of each code information A step of identifying based on synchronization information, and obtaining the information by selecting and analyzing the code information at a predetermined interval.
In such a configuration, arbitrary information is code-converted into a plurality of code information, and each code information is further provided with synchronization information for identifying each code content and each code information transfer interval. After the image is generated, each code image is continuously reproduced and displayed at a predetermined interval on the display unit. On the other hand, when a plurality of code images by continuous reproduction display are captured by the imaging unit of the imaging device, the code images are displayed. The code contents of the code information of the plurality of stored code images and the transfer intervals of the respective code information are identified based on the synchronization information, and the code information is selected and analyzed at a predetermined interval. Since the original information can be obtained, code information that has been code-converted even if the synchronization timing of the video signal does not match the synchronization timing of the code image It can be transferred without any problem.
The display device includes a step of controlling the code image to be displayed in a predetermined number of fields when the code image is continuously reproduced and displayed, and the imaging device displays the image in a plurality of the fields. A step of selecting and analyzing each piece of code information in a portion where the code information identified by the synchronization information and having different code contents are not adjacent to each other.
In such a configuration, each code image is displayed in a predetermined number of fields, and among the code images displayed in a plurality of fields, code information having different code contents identified by the synchronization information are adjacent to each other. This is the case when there is a low possibility that a correct code image will be obtained due to overlapping of code images with different code contents during field rewriting during continuous playback display. However, the original information can be accurately restored from a plurality of code images that are continuously reproduced and displayed.
The code information may be a two-dimensional code.
In such a configuration, the code information can be either a barcode or a two-dimensional code. In particular, by making the code information a two-dimensional code, the amount of information transferred per unit time is more than that of a barcode. Can do a lot.

  According to the information transfer system and the information transfer method of the present invention, when arbitrary information is read from the storage means by the control means and given to the image generation means, the information is converted into a plurality of code information by the image generation means. A code image is generated after the code conversion, and further, each code information is added with synchronization information for identifying each code content and each code information transfer interval, and is displayed on the video processing means by the control means. Is displayed on the display unit at a predetermined interval by the video processing means. On the other hand, when a plurality of code images are displayed by the imaging unit of the imaging device, Are stored in the storage means, and the image analysis means stores the code contents of the code information of the plurality of stored code images and the respective codes. The transmission interval of the information is identified based on the synchronization information, and the code information is selected and analyzed at a predetermined interval, so that the original information is obtained, so that the synchronization timing of the video signal and the synchronization timing of the code image Even if they do not match, the code information after the code conversion can be transferred without any problem, and more information can be transferred at high speed by continuously reproducing and displaying a plurality of code images.

  In this embodiment, when arbitrary information is read from the storage means by the control means and given to the image generation means, the information is code-converted into a plurality of pieces of code information by the image generation means. When a code image to which synchronization information for identifying each code content and each code information transfer interval is added is generated and a display is instructed to the video processing means by the control means, the video processing means Thus, each code image is continuously reproduced and displayed at a predetermined interval on the display unit. On the other hand, when a plurality of code images obtained by continuous reproduction display are captured by the imaging unit of the imaging apparatus, the code images are stored in the storage unit. The code content of the code information of the plurality of code images stored by the image analysis means and the transfer interval of each code information are based on the synchronization information. The code information is identified and analyzed at a predetermined interval so that the original information can be obtained, and the code conversion is performed even if the synchronization timing of the video signal and the synchronization timing of the code image do not match. By transferring the code information without any problem, more information can be transferred at high speed by continuous playback display of multiple code images.

Embodiments of the present invention will be described below.
FIG. 1 is a diagram for explaining an outline of an embodiment of an information transfer system according to the present invention, FIG. 2 is a block diagram for explaining an internal configuration in the information transfer system of FIG. 1, and FIGS. FIG. 9 is a diagram for explaining an information transfer method in the information transfer system of FIG. 1, and FIG. 9 and FIG. 10 are diagrams for explaining one use form of the information transfer system of FIG.

  The information transfer system shown in FIG. 1 includes a television receiver 10 as a display device and a camera-equipped mobile phone 20 as an imaging device.

  The television receiver 10 uses, for example, a plurality of QR codes (for example, two-dimensional codes as code information to which different synchronization information 30a (or 30b to be described later) is assigned as adjustments and setting values by adjustments and settings inside the apparatus. (Registered trademark) 30 having a function of converting the code into a continuous reproduction display.

  The synchronization information 30a (or 30b described later) here is information for identifying the code contents of each QR code (registered trademark) 30 and the transfer interval of each QR code (registered trademark) 30. Details will be described later. In the following, the QR code (registered trademark) 30 to which synchronization information 30a (or 30b described later) to be continuously reproduced and displayed is added is referred to as a code image.

  The camera-equipped mobile phone 20 can take in a plurality of code images that are continuously reproduced and displayed, and select and decode the QR code (registered trademark) 30 of each code image based on the synchronization information 30a (or 30b described later). It has a function that can.

  The two-dimensional code that is the code information is not limited to the QR code (registered trademark) 30, but may be another two-dimensional code such as a maxi code or a veri code. In addition, the imaging device that captures the QR code (registered trademark) 30 is not limited to the camera-equipped mobile phone 20, and is a device such as a PDA or a video camera having at least an imaging function and a two-dimensional code decoding function. Also good.

Next, the internal configuration of the information transfer system will be described with reference to FIG.
The television receiver 10 includes a microcomputer 11, a memory 12, a video / audio processing circuit 13, an image generation unit 14, an image processing memory 15, and a video / audio output unit 16.

  The microcomputer 11 as a control unit controls the operation of each unit, reads out adjustments and setting values stored in the memory 12, and gives them to the image generation unit 14. The memory 12 as the storage means is either volatile or non-volatile, and stores various setting values such as a state value at the time of image quality adjustment and when the microcomputer is activated, for example, as adjustment and setting values.

  The video / audio processing circuit 13 as video processing means performs video / audio related processing on the video / audio information separated by a not-shown separation unit, and outputs the video / audio information from the video / audio output unit 16. . Further, the video / audio processing circuit 13 continuously reproduces and displays the above-described code image generated by the image generation unit 14 on the display unit of the video / audio output unit 16, and details thereof will be described later.

  The image generation unit 14 as image generation means performs code conversion on the adjustment and setting values from the microcomputer 11 according to the sequence of the values, and generates a plurality of QR codes (registered trademark) 30 having different code contents. Further, as shown in FIG. 3, the image generation unit 14 can identify the code content of each QR code (registered trademark) 30 and the transfer interval of each QR code (registered trademark) 30 on the reading side. The synchronization information 30a or 30b is assigned to each QR code (registered trademark) 30.

  The synchronization information 30 a or 30 b is given to each QR code (registered trademark) 30 when each QR code (registered trademark) 30 is temporarily stored in the image processing memory 15. Here, since each QR code (registered trademark) 30 is generated in accordance with the adjustment and setting value sequence from the microcomputer 11, there are at least two types of synchronization information 30a or 30b as shown in FIG. It will be good.

  When the processing capability of the image generation unit 14 is sufficiently high, each QR code (registered trademark) 30 temporarily stored in the image processing memory 15 is output to the video / audio processing circuit 13. Alternatively, the synchronization information 30a or 30b may be given to each QR code (registered trademark) 30 and may be given to the video / audio processing circuit 13. When the adjustment and setting values are converted into a plurality of QR codes (registered trademark) 30, for example, an existing conversion program for performing the code conversion may be stored in the image generation unit 14.

  In the image processing memory 15, a plurality of QR codes (registered trademark) 30 subjected to code conversion by the image generation unit 14 are temporarily stored. At this time, the synchronization information 30a or 30b described above is assigned to each QR code (registered trademark) 30 by the image generation unit 14 with respect to the plurality of QR codes (registered trademark) 30.

  The video / audio output unit 16 includes a display unit and a speaker, and outputs video / audio that has been subjected to video / audio related processing by the video / audio processing circuit 13. The display unit of the video / audio output unit 16 continuously reproduces and displays the above-described code image generated by the image generation unit 14, and details thereof will be described later.

  The camera-equipped mobile phone 20 includes a camera unit 21, an image processing memory 22, an image analysis unit 23, a microcomputer 24, and an interface 25.

  The camera unit 21 as an imaging unit captures an image, and captures the above-described code image that is continuously reproduced and displayed on the display unit of the video / audio output unit 16. The image processing memory 22 serving as a storage means temporarily stores a plurality of code images captured by the camera unit 21. Here, a plurality of code images stored in the image processing memory 22 can be taken out as a continuously reproduced image 30 c via the interface 25.

  The image analysis unit 23 as an image analysis unit analyzes the QR code (registered trademark) 30 of a plurality of code images stored in the image processing memory 22 and outputs it as adjustment and setting data 30 d via the interface 25. Here, when analyzing the QR code (registered trademark) 30 of a plurality of code images stored in the image processing memory 22, from the above-described synchronization information 30a or 30b given to the QR code (registered trademark) 30, Each QR code (registered trademark) 30 is determined, details of which will be described later.

  When analyzing a plurality of QR codes (registered trademark) 30, an existing analysis program for analyzing the QR code (registered trademark) 30 may be stored in the image analysis unit 23. The microcomputer 24 controls storage of a plurality of code images by the image processing memory 22, analysis of the QR code (registered trademark) 30 of the plurality of code images by the image analysis unit 23, and the like.

Next, an information transfer method will be described.
First, as shown in FIG. 4, when there is an information transfer instruction from a remote controller (not shown), the microcomputer 11 reads out the adjustment and setting values stored in the memory 12 and gives them to the image generation unit 14 ( Step S1). At this time, it is assumed that adjustments and setting values read from the memory 12 by the microcomputer 11 are continuous as shown in FIG.

  When the image generation unit 14 receives the adjustment and setting values from the microcomputer 11, the adjustment and setting values are divided into predetermined data amounts that can be converted into a QR code (registered trademark) 30, and the adjustment and setting values divided into the respective data. As shown in FIG. 5B, the code is converted into a plurality of QR codes (registered trademark) 30 and stored in the image processing memory 15 (step S2). Here, each QR code (registered trademark) 30 stored in the image processing memory 15 has different code contents.

  Next, the synchronization information 30 a or the synchronization information 30 a is stored in each QR code (registered trademark) 30 so that the image generation unit 14 can identify each QR code (registered trademark) 30 stored in the image processing memory 15 on the reading side. 30b is assigned (step S3).

  Here, the code contents of each QR code (registered trademark) 30 are data (1), data (2),..., Data (6).

  Next, when all the adjustments and setting values given to the image generation unit 14 are converted into a plurality of QR codes (registered trademark) 30, the microcomputer 11 controls the video / audio processing circuit 13 and the image generation unit 14. An instruction to reproduce the code image of the QR code (registered trademark) 30 to which the synchronization information 30a or 30b is assigned is issued (step S4).

  At that time, the microcomputer 11 controls the video / audio processing circuit 13 to display one code image in a predetermined number of fields. Note that the number of fields for displaying one code image may be any number, but when the transfer rate of the QR code (registered trademark) 30 of each code image is to be increased, the number is preferably as small as possible. Therefore, in the present embodiment, control is performed so that the QR code (registered trademark) 30 of one code image is displayed in, for example, four fields (step S5).

  As a result, the display unit of the video / audio output unit 16 has code contents of data (1), data (2),..., Data (n), data (n + 1),. Each of the selected QR codes (registered trademark) 30 is continuously reproduced and displayed as a code image (step S6).

  When the code images continuously reproduced and displayed in this way are captured by the camera unit 21 of the camera-equipped mobile phone 20 (step S7), as shown in FIG. 7, the image processing memory 22 is converted into a plurality of consecutive code images. (Step S8).

  Here, the QR code (registered trademark) 30 to which the synchronization information 30a or 30b of each code image stored in the image processing memory 22 is given can be taken out as a continuous reproduction image 30c via the interface 25. .

  On the other hand, when the image analysis unit 23 analyzes the QR code (registered trademark) 30 to which the synchronization information 30a or 30b of each code image stored in the image processing memory 22 is assigned, the image analysis unit 23 By identifying each code content and the transfer interval of each QR code (registered trademark) 30 by the synchronization information 30a or 30b, the code content data (1), data (2), data (3), Can be discriminated (step S9).

  That is, the QR code (registered trademark) 30 in which the same synchronization information 30a or 30b is continuous can be identified as having the same code content, and each QR code ( This is because the transfer interval of (registered trademark) 30 can be identified.

  Here, the display timing of the code image of the QR code (registered trademark) 30 provided with the synchronization information 30a or 30b on the display unit of the video / audio output unit 16, and the capture timing of the camera unit 21 of the camera-equipped mobile phone 20 Does not match in most cases. For this reason, adjacent data between the QR code (registered trademark) 30 to which the synchronization information 30a is added and the QR code (registered trademark) 30 to which the synchronization information 30b is added overlaps in the middle of the field rewriting as correct data. It may not be restored.

  That is, for example, QR code (registered trademark) 30 obtained by transcoding data (1) is displayed in 1 to 4 fields, and QR code (registered trademark) 30 obtained by transcoding data (2) is displayed in 5 to 8 fields. This is because the QR code (registered trademark) 30 in the fourth field and the QR code (registered trademark) 30 in the fifth field may overlap when the display is switched from the 4 fields to the 5 fields.

  Therefore, as shown in FIG. 8A, for example, in the data (1), the image analysis unit 23 uses the data of the two inner QR codes (registered trademark) 30 among the four QR codes (registered trademark) 30. Is determined to have high reliability, and one of the two QR codes (registered trademark) 30 having higher reliability is selected.

  More specifically, the image analysis unit 23 identifies the transfer interval of each QR code (registered trademark) 30 based on the interval of the synchronization information 30a or 30b, and the QR code (registered trademark) 30 of each QR code (registered trademark) 30 is identified from the transfer interval. By determining the sampling period, it is possible to reliably select the QR code (registered trademark) 30 with high data reliability.

  In other words, the QR code (registered trademark) with high data reliability can be obtained even if the camera-equipped mobile phone 20 does not know the transfer intervals of a plurality of code images from the television receiver 10 side. It can be said that 30 can be selected reliably. In addition, it can be said that the transmission interval of a plurality of code images can be set freely on the television receiver 10 side.

  Thereby, as shown in FIG. 8B, QR codes (registered trademark) corresponding to data (1), data (2), data (3),. 30 is selected (step S10). Next, each selected QR code (registered trademark) 30 is sequentially analyzed by the image analysis unit 23 (step S11), and is read by the microcomputer 11 of the television receiver 10 as shown in FIG. 8C. The adjustment and setting values stored in the memory 12 are restored and can be retrieved from the interface 25 as adjustment and setting data 30d (step S11).

  As described above, in the present embodiment, when the microcomputer 11 reads out adjustments and setting values based on, for example, internal adjustments and settings from the memory 12 and gives them to the image generation unit 14, the values are displayed by the image generation unit 14. Is converted into a plurality of QR codes (registered trademark) 30, and each QR code (registered trademark) 30 is made to identify each code content and the transfer interval of each QR code (registered trademark) 30. After the code image with the synchronization information 30a or 30b is generated, the video / audio processing circuit 13 continuously reproduces and displays each code image at a predetermined interval on the display unit. When a plurality of code images obtained by continuous playback display are captured by the unit 21, the code images are stored in the image processing memory 22, and the image solution is displayed. The unit 23 identifies the code content of the QR code (registered trademark) 30 of the plurality of stored code images and the transfer interval of each QR code (registered trademark) 30 based on the synchronization information 30a or 30b, Since QR code (registered trademark) 30 is selected and analyzed at intervals of the above, the original information is obtained, so that the code conversion is performed even if the synchronization timing of the video signal and the synchronization timing of the code image do not match. In addition, a plurality of QR codes (registered trademark) 30 can be transferred without any problem, and more information can be transferred at a high speed by continuously reproducing and displaying a plurality of code images.

  Further, in the present embodiment, each code image is displayed in a predetermined number of fields, and the synchronization information 30a or the code information among the code images displayed in the plurality of fields is displayed by the image analysis unit 23 of the camera-equipped mobile phone 20. Since the QR code (registered trademark) 30 having different code contents identified by 30b is selected and analyzed for each part of the QR code (registered trademark) 30 that is not adjacent to each other, the field is rewritten during continuous reproduction display. Even if it is unlikely that a correct code image will be obtained due to overlapping code images with different code contents in the middle, the QR code (registered trademark) 30 having the correct data can be selected reliably, so that continuous playback display is possible. The original information can be accurately restored from the plurality of code images.

  In this embodiment, since the code contents and the transfer interval can be identified by the synchronization information 30a or 30b, the transfer interval of a plurality of code images from the television receiver 10 side on the camera-equipped mobile phone 20 side. QR code (registered trademark) 30 with high data reliability can be surely selected even if the user does not know, and the television receiver 10 can freely set the transfer intervals of a plurality of code images. Can be set.

  Moreover, since the transfer interval can be grasped by the synchronization information 30a or 30b on the camera-equipped mobile phone 20 side, the sampling period of the QR code (registered trademark) 30 of a plurality of code images can be set to the minimum necessary. Since it is possible to save useless time, the remaining time can be used for other processing (for example, analysis of the QR code (registered trademark) 30 previously captured), and the camera-equipped mobile phone 20 side It is also possible to increase the performance of the entire system (processing speed, etc.).

  Further, in the present embodiment, the case where the code information is a two-dimensional code that is the QR code (registered trademark) 30 has been described. However, when the information transfer amount per unit time may be small, the code information is converted to a barcode. Of course, it is also possible.

  Further, as shown in FIG. 3, the synchronization information 30a or 30b is not limited to the upper right of the QR code (registered trademark) 30, but is provided anywhere around the QR code (registered trademark) 30. Also good. In addition, in the synchronization information 30a or 30b, as shown in FIG. 3, the shape is not limited to the shape in which the quadrangle is outlined or painted, but other shapes in which the circle, ellipse, rhombus, star, etc. are outlined or painted. A shape may be sufficient and these may be combined.

  In addition, the synchronization information 30a or 30b is not limited to a simple mark, but may be a code indicating the type of data, or a code indicating the arrangement order of the QR code (registered trademark) 30 or the like. .

  In this embodiment, as shown in FIG. 1, an image generation unit 14 is incorporated in the television receiver 10, but the image generation unit 14 is realized by adding an existing device and an operation program of the microcomputer 11. Because it is possible, there is no need to add extra parts and the cost merit is great.

  The continuous playback image 30c and the adjustment and setting data 30d obtained by the camera-equipped mobile phone 20 can be used as follows.

  That is, by recording the adjustment and setting data 30d obtained by the camera-equipped mobile phone 20 on a recording medium such as a magnetic tape or an optical disk, the adjustment and setting data 30d can be carried to a remote place as it is.

  Further, by recording, for example, a continuously reproduced image 30c obtained by the camera-equipped mobile phone 20 on a recording medium such as a magnetic tape or an optical disk, the recording medium can be carried to a remote place. Then, for example, the continuously reproduced image 30c recorded on the recording medium is analyzed by another image analysis device at a remote place, so that the original television receiver 10 can be obtained at another time and place in the same manner as described above. The adjustment and setting data 30d obtained by restoring the adjustment and setting values in the memory 12 read by the microcomputer 11 can be obtained.

  In this case, as shown in FIG. 9 and FIG. 10, for example, an image analysis unit 42 is incorporated in, for example, a television receiver 40 that is a target for capturing a continuously reproduced image 30c. Then, the continuously reproduced image 30 c from the camera-equipped mobile phone 20 is taken into the image analysis unit 42 from the interface 41 via the cable 50. In this case as well, an existing program for analyzing the QR code (registered trademark) 30 may be stored in the image analysis unit 42.

  Accordingly, the image analysis unit 42 selects the QR code (registered trademark) 30 corresponding to each of the highly reliable data (1), data (2), data (3),. Then, by analyzing each selected QR code (registered trademark) 30 in order, the adjustment and setting data 30d in which the adjustment and setting values in the memory 12 read by the microcomputer 11 of the original television receiver 10 are restored. And the adjustment and setting data 30d are stored in the memory 44.

  Then, based on the adjustment and setting data 30d stored in the memory 44, the microcomputer 43 can adjust and set the video / audio processing circuit 45 that causes the video / audio output unit 46 to output the video / audio. it can. This means that the television receiver 40 with the same adjustment and setting as the television receiver 10 can be obtained.

  Since the image analysis unit 42 can be realized by adding an existing device and an operation program of the microcomputer 43, there is no need to add extra parts and the cost merit is great.

  In addition, in the television receiver 40 such as a liquid crystal television, a video input terminal that is normally provided can be used as the interface 41, and adjustment and setting can be performed simply by inputting the continuous playback image 30c described above. Thus, a simple and highly versatile mechanism can be configured.

  In the present embodiment, the case where the information to be transferred is the adjustment on the television receiver 10 side, the adjustment by the setting, and the setting value has been described. Of course, this information may be used.

  The present invention is applicable to all systems that transfer information using a video signal transmission method.

It is a figure for demonstrating the outline | summary of one Embodiment of the information transfer system which concerns on this invention. It is a block diagram for demonstrating the internal structure in the information transfer system of FIG. It is a figure for demonstrating the information transfer method in the information transfer system of FIG. It is a flowchart for demonstrating the information transfer method in the information transfer system of FIG. It is a figure for demonstrating the information transfer method in the information transfer system of FIG. It is a figure for demonstrating the information transfer method in the information transfer system of FIG. It is a figure for demonstrating the information transfer method in the information transfer system of FIG. It is a figure for demonstrating the information transfer method in the information transfer system of FIG. It is a figure for demonstrating one utilization form of the information transfer system of FIG. It is a block diagram for demonstrating the internal structure in the information transfer system of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Television receiver 11 Microcomputer 12 Memory 13 Video / audio processing circuit 14 Image generation part 15 Image processing memory 16 Video / audio output part 20 Mobile phone with camera 21 Camera part 22 Image processing memory 23 Image analysis part 24 Microcomputer 25 Interface 30a, 30b Synchronization information 30c Continuous playback image 30d Adjustment and setting data

Claims (6)

A display device having at least a display unit for displaying an image; and an imaging device having an image pickup unit for capturing at least an image displayed on the display unit, wherein the display device side includes an image displayed on the display unit. An information transfer system for transferring information from the image pickup apparatus side to
The display device
Storage means for storing arbitrary information;
Image generation that converts the information into a plurality of pieces of code information, and further generates a code image in which each code information is given synchronization information for identifying each code content and each code information transfer interval Means,
Video processing means for performing video-related processing so as to continuously reproduce and display the generated plurality of code images on the display unit;
Control means for reading the information from the storage means and supplying the information to the image generation means, and for controlling the video processing means to continuously reproduce and display each code image generated by the image generation means at a predetermined interval. And
The imaging device
Storage means for storing a plurality of the code images by the continuous reproduction display captured by the imaging unit;
By identifying the code contents of the code information of the plurality of stored code images and the transfer interval of each code information based on the synchronization information, and selecting and analyzing the code information at a predetermined interval An information transfer system comprising: image analysis means for obtaining the information. The control means controls the video processing means to display each code image in a predetermined number of fields when continuously displaying and displaying the plurality of code images.
The image analysis means selects each of the code information in a portion where the code information identified by the synchronization information is not adjacent to each other among the code images displayed in the plurality of fields. The information transfer system according to claim 1, wherein analysis is performed.   The information transfer system according to claim 1, wherein the code information is a two-dimensional code. A display device having at least a display unit for displaying an image; and an imaging device having an image pickup unit for capturing at least an image displayed on the display unit, wherein the display device side includes an image displayed on the display unit. An information transfer method for transferring information from the imaging device side to the imaging device side,
The display device
Code image obtained by converting arbitrary stored information into a plurality of pieces of code information, and further adding synchronization information for identifying each code content and each code information transfer interval to each code information Generating
Performing video-related processing so as to continuously reproduce and display the generated plurality of code images on the display unit;
A step of controlling each of the generated code images to be continuously reproduced and displayed at a predetermined interval,
The imaging device
Storing the plurality of code images by the continuous reproduction display captured by the imaging unit;
By identifying the code contents of the code information of the plurality of stored code images and the transfer interval of each code information based on the synchronization information, and selecting and analyzing the code information at a predetermined interval And a step of obtaining the information. The display device includes a step of controlling the code images to be displayed in a predetermined number of fields when the code images are continuously reproduced and displayed.
The imaging apparatus selects and analyzes each of the code information displayed in the plurality of fields in a portion where the code information having different code contents identified by the synchronization information is not adjacent to each other. The information transfer method according to claim 4, further comprising: a step of: 7. The information transfer method according to claim 5, wherein the code information is a two-dimensional code.

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