JP2008269550A - Recognition system for dynamically displayed two-dimensional code - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a cellular phone to surely recognize a two-dimensional code when a distance between a device for displaying the two-dimensional code such as a QR code and a device (cellular phone) for reading the two-dimensional code is 1 m to 10 m or longer or when the degree of the ambient illumination of the two-dimensional code is low in an audience seat in a movie theater or the like. <P>SOLUTION: When the two-dimensional code is displayed, the two-dimensional code is not read by adjusting an individual cellular phone but can be read when a display system side displays the two-dimensional code as animation that changes a display size and brightness following a time regardless of a distance and brightness. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention provides a distance between a video display device and a portable terminal using a video display system that displays a video including a two-dimensional code whose size changes over time and a portable terminal that reads the video. The present invention relates to a technology that enables reading of a two-dimensional code regardless of the above.

A two-dimensional matrix barcode (two-dimensional code) represented by a QR code (a registered trademark of Denso Wave Co., Ltd.) has a much higher information recording density per area than a one-dimensional barcode. It is possible to embed an amount of information that cannot be described in code, and its use is widespread for purposes such as logistics and production process management.

“Reading a two-dimensional code” means that a built-in program uses a photographing device to photograph a two-dimensional code, obtains the result as data, analyzes it, decodes the two-dimensional code, and obtains a decoded result data string Say to do. The expression “reading a two-dimensional code” also includes a case where a user using a portable terminal activates a built-in program by a button operation or the like. In general, when a mobile phone is used as a two-dimensional code reading terminal, if a URL (UNIFORM RESOURCE LOCATOR) is included as a character string in the read data string, the mobile phone automatically recognizes the URL. Then, the user can connect to the web page indicated by the URL with a single or several button operations.

The number of popular mobile phones and the number of popular mobile phones capable of reading a two-dimensional code will be described. Currently in Japan, most people in high school or older have mobile phones. As a specific result of the survey on the number of vehicles, there is a report by the Telecommunications Carriers Association (TCA). According to the announcement on February 7, 2007, as of the end of January 2007, the total number of mobile phone contracts was 9531,200 units and PHS was 490,9300 units. The total number of mobile phone and PHS contracts Is 122,500 units. It is estimated that the number of mobile phones that can read QR codes (which is a kind of two-dimensional code described above) has exceeded 40 million. Therefore, various systems and methods combining a mobile phone and a two-dimensional code have been devised or invented.

There are the following systems or methods combining a mobile phone and a two-dimensional code. In this method, a two-dimensional code encoded with information including a URL displayed in a magazine, an advertisement, a web page, or the like is recognized by a mobile phone and connected to the web page indicated by the URL from the mobile phone. In this way, instead of displaying the URL itself as characters, encoding it into a two-dimensional code and having the user read the two-dimensional code saves the trouble of inputting the URL, and at the same time, may cause an erroneous input. Is also significantly reduced. As a result, the method using the two-dimensional code can increase the number of connections to the web page as compared with the case where the URL itself is displayed as characters. This can be said to be a method aimed at improving advertising effectiveness.

Patent Document 1 is a system that displays a two-dimensional code obtained by encoding a data string including a URL on an indoor or outdoor signboard or the like. By reading the two-dimensional code with a mobile phone or the like, the web server or web page indicated by the URL can be accessed. The server aggregates the data transmitted by the access. For example, if a system in which a survey subject is considered to have been answered by reading a specific two-dimensional code and accessing a web server, a counting operation such as a questionnaire can be performed.

Patent Document 2 is an invention related to an apparatus, a system, and a method for performing information communication using a “moving image two-dimensional code”. The next paragraph is a quotation from Patent Document 2 paragraph 0012, which is a description defining "moving image two-dimensional code".

The “moving image two-dimensional code” is code information including a series of two-dimensional codes that change along the time axis. Here, the “two-dimensional code” is a symbol having a stationary content at each time point, and its configuration and meaning are defined in advance according to a predetermined format. The barcode is a special aspect of the two-dimensional code. The “symbol” is an image pattern configured by arranging a plurality of display elements, for example. Usually, symbols as such image patterns are formed by setting optical physical quantities such as luminance and color for each display element.

Patent Document 2 performs information communication by continuously performing an operation of sequentially reading a stationary content at each time point in a “moving image two-dimensional code” as described in the preceding paragraph as a two-dimensional code. . In the information communication, information is transmitted by displaying a “moving image two-dimensional code”, and information is received by sequentially reading the two-dimensional code and sequentially acquiring the resulting data string.

Patent Document 3 is an invention relating to a gaming machine having a display unit that transmits game information to a user by displaying a two-dimensional code. In some cases, the two-dimensional code is displayed larger for a predetermined time.

In Patent Document 1, it is impossible to read a two-dimensional code from a mobile phone having various distance relationships with respect to one signboard. The two-dimensional code reader attached to the mobile phone is generally not equipped with a zoom adjustment function or is very poor even if it is provided. It can be read only in the case of distance. Therefore, according to the technique disclosed in Patent Document 1, an unspecified number of mobile phones can be read from the two-dimensional code displayed on the video display device at almost the same time. Information communication cannot be performed between the terminal and the server computer.

As one of the inventions in Patent Document 2, there is one that performs information communication between two display devices using a “moving image two-dimensional code”. In the present invention, there is a process for sharing communication conditions between two display devices in order to define optimal communication conditions. According to the process, between two display devices, the format, transmission speed, display screen size, size of the light receiving area (used when one display device receives a moving image two-dimensional code displayed on the other display device), Conditions such as the light receiving resolution are determined. However, even after such a process, it is not possible for one display device to transmit information to a plurality of display devices having different distance relations from the display device at approximately the same time using a moving image two-dimensional code. . Therefore, in the invention shown here, information communication cannot be performed between an unspecified number of portable terminals and a server computer at almost the same time by the two-dimensional code displayed on the video display device.

Conventionally, if a spectator who has a mobile phone as a mobile terminal tries to read a two-dimensional code displayed on a screen in a movie theater without moving the seat, it is impossible to read it in all seats. It was possible. The two-dimensional code has a distance and brightness suitable for reading according to its size. Also, the two-dimensional code reading system mounted on the mobile phone has a different distance suitable for reading the two-dimensional code for each model. Therefore, when a two-dimensional code, which is a still image displayed on the screen, is to be read from a spectator seat using a mobile phone, it cannot be read unless there is a specific distance relationship between the two-dimensional code and the mobile phone. . Therefore, it is impossible to read the two-dimensional code on the screen while sitting from all the seats.

Using the invention of Patent Document 3, it is assumed that a two-dimensional code is displayed at a specified size, a two-dimensional code is displayed large for a predetermined time, and the display is read by a mobile phone as a mobile terminal. First, in order to read a two-dimensional code of a specified size, the distance from the two-dimensional code of the mobile phone must be adjusted. Furthermore, even if the display is large, the distance from the two-dimensional code of the mobile phone must be adjusted to the display size. For example, by displaying a two-dimensional code on the screen of a movie theater and displaying it large for a predetermined period of time, it is possible to transmit information using the two-dimensional code to the audience who has a mobile phone and is sitting on the seat. Suppose you try. In this case, the effect is the same as displaying two types of two-dimensional codes that are still images with different sizes. In this case as well, it can be easily estimated that there will be some increase in the number of seats that can read the two-dimensional code compared to the case where a two-dimensional code is displayed as one kind of still image. It is not possible to read. Again, only the audience sitting in a specific seat (the seat where the distance between the two-dimensional code and the mobile terminal is optimal) can read the two-dimensional code, so the two-dimensional code was used for all audiences. It is impossible to send information.
JP 2006-91355 A JP 2005-33892 A JP 2006-10227 A

The present invention has been made in view of the above circumstances, and its object is to display a screen or the like from a display system such as a large display to a portable terminal holder in any seat of a movie theater. Information that is encoded in a two-dimensional code is sent to an unspecified number of mobile terminal holders in the vicinity, and the two-dimensional code can be read regardless of the distance relationship with the mobile terminal holder. A system for displaying is provided.

The present invention has been proposed in order to achieve the above-mentioned object, and what is described in claim 1 includes a video display system 1, a two-dimensional code 2 displayed on the video display system 1, and the The mobile terminal 3 is configured to read the two-dimensional code 2, and the display size of the two-dimensional code 2 changes with time. Furthermore, a second aspect of the present invention is the two-dimensional code recognition system, wherein the display brightness of the two-dimensional code 2 changes with time. Furthermore, a third aspect of the present invention is the two-dimensional code recognition system, wherein the display size and display brightness of the two-dimensional code 2 change with time. Further, the present invention as described in claim 4 includes a video display system 1, a two-dimensional code 2 displayed on the video display system 1, and a portable terminal 3 having a function of reading the two-dimensional code 2. In the two-dimensional code recognition system, the display of the two-dimensional code using the animation is displayed as an animation in which the number of frames displayed per second of the animation is 1/2 frame or more and the two-dimensional code is changed in size. In addition, the correlation 4 is expressed as a non-linear function when the rate of change is expressed by the correlation 4 with the time of one side of the two-dimensional code. Further, the invention described in claim 5 includes a video display system 1, a two-dimensional code 2 displayed on the video display system 1, and a portable terminal 3 having a function of reading the two-dimensional code 2. In the two-dimensional code recognition system, the display of the two-dimensional code using the animation is such that the number of frames displayed per second of the animation is 1/2 or more and that the two-dimensional code is displayed as an animation whose luminance changes. When the rate of change is expressed by the correlation 5 with time, the correlation 5 is expressed as a nonlinear function. Further, the invention according to claim 6 is the two-dimensional code recognition system according to claim 4, wherein the two-dimensional code display using the animation is further displayed as an animation in which the luminance changes. A two-dimensional code recognition system using animation, wherein the correlation 5 is expressed as a nonlinear function when the rate of change is expressed by the correlation 5 with time. Further, a seventh aspect of the present invention is the two-dimensional code recognition system according to the fourth to sixth aspects, wherein the correlation 4 and the correlation 5 are a finite number of overlapping step functions. It is characterized by being expressed by. Further, an eighth aspect of the present invention is the two-dimensional code recognition system according to any one of the fourth to seventh aspects, further comprising dots constituting a two-dimensional code as an encoding method of the two-dimensional code 2. The method of minimizing the number is used. Furthermore, a ninth aspect of the present invention is the two-dimensional code recognition system according to any one of the fourth to eighth aspects, wherein the center position of the image of the two-dimensional code is always in each frame of the animation. It is characterized by being constant. Furthermore, a tenth aspect is the two-dimensional code recognition system according to any one of the fourth to ninth aspects, wherein the correlation 4 and the correlation 5 each have a fixed time. It is a function having a period 4A and a period 5A which are intervals, and each period is within 15 seconds. Further, the invention according to claim 11 is the two-dimensional code recognition system according to claim 10, wherein one of the period 4A and the period 5A is an integral multiple of the other. To do. Furthermore, a twelfth aspect of the present invention is the two-dimensional code recognition system according to the tenth aspect of the present invention, wherein the period 4A is three times as long as the period 5A.

According to the present invention, the following excellent effects are exhibited.

Encodes a two-dimensional code from a display device such as a screen to a portable terminal holder in every seat of a movie theater, or from a display device such as a large display to an unspecified number of portable terminal holders in the vicinity. In the prior art, it has been impossible to realize a system that transmits the received information and displays the two-dimensional code in a readable format regardless of the distance relationship with the portable terminal holder.

The present invention makes it possible to implement the system described in the previous paragraph.

There has been a demand for an invention of a system or method for conducting a questionnaire for the viewer after a movie has been broadcast, which reduces human labor as much as possible and improves the total speed.

For this purpose, a system or method for performing aggregation using a computer program has already been devised or invented. Further, if the input data is directly recorded and counted as electronic data without using a physical medium such as paper at the time of data input, preparation of a questionnaire sheet becomes unnecessary. Therefore, it saves the time and effort of distributing questionnaires and reduces human labor. As an input terminal for questionnaire response data, it is desirable to use a mobile phone owned by most Japanese in high school students and above.

As a method of distributing data to an unspecified number of mobile phones, there is a method of transmitting radio waves using an IC tag. In the case of this method, there is a serious problem that the number of mobile phones that can receive radio waves emitted from IC tags is extremely small. In comparison, the number of mobile phones that can read a QR code, which is a kind of two-dimensional code, is estimated to be 40 million (see paragraph 0004). Therefore, it is desirable to use a two-dimensional code such as a QR code in order to distribute data to mobile phones all at once.

Generally, when a two-dimensional code is photographed using a camera, which is a photographing means attached to a mobile phone, and the reading is attempted, the distance between the two-dimensional code and the camera is about 100 mm to 300 mm. As compared with other distance conditions, there is a high possibility that reading will be performed normally. This is because, in general, the two-dimensional code reading function attached to the mobile phone is designed on the assumption that the distance between the two-dimensional code and the camera is about 100 mm to 300 mm. For this distance, a suitable display size for the two-dimensional code is a few centimeter squares. There are mobile phones that can read a two-dimensional code of several centimeters square from a distance of 1 meter, for example, by using a zoom function of a camera when reading a two-dimensional code. However, very few mobile phones have such a function, and when zooming is performed, the reading accuracy decreases due to camera shake. Furthermore, the reading operation becomes complicated, and there is a drawback that it takes time until the reading is performed.

Considering the above circumstances, the two-dimensional code has an appropriate display size depending on the reading distance. In addition, the appropriate display size varies depending on the terminal reading. Conventionally, a single two-dimensional code has an optimal display size at almost the same time for mobile phones at various distances, so that information can be distributed to mobile phones at various distances at almost the same time. There was no system or method. As a means for solving the problem, a video including a two-dimensional code (a video including a display of a two-dimensional code, and the display of the two-dimensional code is displayed as an animation whose size changes over time. A system or method for distributing information by displaying video) is proposed.

In the next paragraph and the next paragraph, an experiment relating to reading of a two-dimensional code displayed as an animation whose size changes over time will be described.

A description will be given of an experiment in which a two-dimensional code is displayed on a liquid crystal monitor for a personal computer and is read. A two-dimensional barcode is displayed on a 15-inch LCD screen as an animation whose display size and brightness change with time, and two types of mobile phones (model name is SANYO A5514SA and SHARP WS0075H) Attempt to read 2D code. At this time, the position of the mobile phone was the front of the screen. In the case of A5514SA, it was recognized when the distance from the screen was 500 mm to 2500 mm. In the case of WS0075H, it was recognized when the distance from the screen was 150 mm to 1500 mm.

An experiment in which a two-dimensional code is displayed on a cinema screen and attempted to read it will be described. The experimental place is Imagica West preview room, with a floor width of 8 meters and a depth of 13 meters. A mobile phone was used as a mobile terminal for reading a two-dimensional code. The models were “Kyocera WX310K” and “SHARP 705SH”. As the projector, “ELP-73 manufactured by EPSON” was used. The two-dimensional code is displayed on the screen as an animation whose display size and brightness change according to time, and when reading with the above mobile phone, the two-dimensional code is displayed while sitting from all seats. The code could be read.

Also, most QR code readers attached to mobile phones are provided with a function of automatically adjusting white balance according to ambient brightness, and read bright QR codes especially when the surroundings are dark. Can not do. Such a phenomenon that the reading becomes impossible occurs when a QR code is displayed on the screen of a movie theater. The white balance adjustment function that comes with the above-mentioned mobile phone is model-dependent and depends on the ambient brightness, so it is not possible to generate a two-dimensional code that is optimized for reading on any model in advance. Extremely difficult or impossible. Therefore, as shown in the present invention, the display of the two-dimensional code is an animation that changes the brightness according to the time, so that the two-dimensional code can be read using many types of mobile phones.

The components of a dynamic two-dimensional code recognition system are shown. The correlation 4A with the time of the length of one side in the two-dimensional code displayed as an animation represents a non-linear relationship. The correlation 5A with the luminance time in the two-dimensional code displayed as an animation represents a non-linear relationship. An example in which the correlation 4A has periodicity is shown. An example in which the correlation 5A has periodicity is shown. This is an example in which the correlation 4A is expressed by a finite number of overlapping step functions.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Video display system 2 Two-dimensional code 3 Portable terminal 4 Correlation between the length of one side of a two-dimensional code and time 5 Correlation between the brightness | luminance and time of a two-dimensional code 4A Period of the length of one side of a two-dimensional code and time 5A Two-dimensional code brightness and time period

Claims (12)

It comprises a video display system 1, a two-dimensional code 2 displayed on the video display system 1, and a portable terminal 3 that reads the two-dimensional code 2. The display size of the two-dimensional code 2 changes with time. A featured two-dimensional code recognition system. 2. The two-dimensional code recognition system according to claim 1, wherein the display brightness of the two-dimensional code 2 changes with time. 3. The two-dimensional code recognition system according to claim 1, wherein the display size of the two-dimensional code 2 and the brightness of the display change according to time. A two-dimensional code recognition system comprising a video display system 1, a two-dimensional code 2 displayed as an animation on the video display system 1, and a mobile terminal 3 having a function of reading the two-dimensional code 2,
Display of the two-dimensional code using the animation,
The number of frames displayed per second of the animation is 1/2 frame or more, and the two-dimensional code is displayed as an animation whose size changes, and the rate of the change is expressed as the length of one side of the two-dimensional code. When represented by the correlation 4, the correlation 4 is expressed as a nonlinear function,
Two-dimensional code recognition system. A two-dimensional code recognition system comprising a video display system 1, a two-dimensional code 2 displayed as an animation on the video display system 1, and a mobile terminal 3 having a function of reading the two-dimensional code 2,
Display of the two-dimensional code using the animation,
The correlation when the number of frames displayed per second of the animation is 1/2 frame or more, and the two-dimensional code is displayed as an animation whose luminance changes, and the rate of the change is expressed by the correlation 5 with time. 5 is expressed as a nonlinear function,
Two-dimensional code recognition system. The two-dimensional code recognition system according to claim 4,
The display of the two-dimensional code using the animation is further
The two-dimensional code is displayed as an animation in which luminance changes, and the correlation 5 is expressed as a non-linear function when the rate of change is expressed by the correlation 5 with time.
Two-dimensional code recognition system. The two-dimensional code recognition system according to any one of claims 4 to 6,
Further, the correlation 4 and the correlation 5 are expressed by a finite number of overlapping step functions,
Two-dimensional code recognition system. The two-dimensional code recognition system according to any one of claims 4 to 7,
Furthermore, as a method for encoding the two-dimensional code 2, a method for minimizing the number of dots constituting the two-dimensional code is used,
Two-dimensional code recognition system. The two-dimensional code recognition system according to any one of claims 4 to 8,
Furthermore, the center position of the image of the two-dimensional code in each frame of the animation is always constant,
Two-dimensional code recognition system. The two-dimensional code recognition system according to any one of claims 4 to 9,
Further, the correlation 4 and the correlation 5 are functions having a period 4A and a period 5A each having a constant time interval, and each period is within 15 seconds.
Two-dimensional code recognition system. The two-dimensional code recognition system according to claim 10,
Further, one of the period 4A and the period 5A is an integral multiple of the other,
Two-dimensional code recognition system. The two-dimensional code recognition system according to claim 10,
Furthermore, the period 4A is a time that is three times or more of the period 5A.
Two-dimensional code recognition system.

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