JP2018084921A - Information communication method, information communication system and transmission device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information communication method, an information communication system, and an information transmission device for accurately communicating information.SOLUTION: An information transmission device 20 and an information reception device 30 communicate information via a moving image including a plurality of color code images 50. A control part 21 of the information transmission device 20 determines an output form of the code images in accordance with an environmental condition, generates the code images of data obtained by dividing transmission target information by a capacity allowing the coding into the code images, and sequentially displays and outputs the code images on a display part 27 in the output form. A control part 31 of the information reception device 30 sequentially photographs moving code images using a photographing part 36, decodes the photographed code images, combines the decoded codes, restores the information, and displays and outputs it on a display part 37.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an information transmission method, an information transmission system, and a transmission device for transmitting information by an image.

  Conventionally, a two-dimensional code is used to cause a machine to read a large amount of information. A technique for transmitting a large amount of information using this two-dimensional code has also been studied (for example, see Patent Document 1). In this document, an information transmission apparatus including an information transmission unit and an information reception unit is described. Here, the information transmission means divides the information, converts each piece of divided information into a plurality of two-dimensional barcodes, and sequentially displays the images of the plurality of two-dimensional barcodes on the display as moving images. The information receiving means captures a plurality of two-dimensional barcodes displayed in order on the display of the information transmitting means as moving images, decodes each two-dimensional barcode, and reproduces information.

JP 2006-139349 A

  However, when information is transmitted by an image using the technique described in the patent document, it may be difficult to reliably transmit the information depending on the use environment. For example, depending on the size of the display unit and the surrounding conditions, it may be difficult to visually recognize the image.

  The present invention has been made in view of the above problems, and an object thereof is to provide an information transmission method, an information transmission system, and a transmission device for accurately transmitting information.

  An information transmission method for solving the above-described problem is an information transmission method for transmitting information from a transmission device to a reception device including a photographing unit, and the transmission device outputs a code image according to environmental conditions. And generating a code image of data obtained by dividing the transmission target information by a capacity that can be encoded into a code image, and sequentially outputting the code image to the display medium in the output form. The photographing unit sequentially extracts a code image from the photographed image, decodes the extracted code image, combines the identified data, and restores the transmission target information. Thereby, since the output form of the code image is determined according to the environmental condition, it is possible to accurately transmit information in consideration of the use environment of the transmission device and the reception device.

  In the information transmission method, it is preferable to use communication performance in the receiving device as the environmental condition. Thereby, since the code image is output in an output form corresponding to the communication performance of the receiving apparatus, information can be accurately transmitted.

  In the information transmission method, it is preferable that the communication performance is calculated using a distance between the transmission device and the reception device. Thereby, since the output form of the code image is specified according to the distance from the transmission device to the reception device, information can be transmitted accurately.

  In the information transmission method, the display medium is a display unit provided in the transmission device, and the transmission device displays the plurality of code images generated by dividing the transmission target information as the display unit. It is preferable to sequentially output to different code display areas at different switching times. Thereby, the switching time suitable for the use environment can be used. For example, in an environment where it is difficult to visually recognize a code image, the reliability of information transmission is ensured by using a code image displayed with a long switching time. On the other hand, in an environment where the code image is easily visible, priority can be given to the speed of information transmission using the code image displayed in a short switching time.

  In the information transmission method, the code image is a color code image configured by a combination of a plurality of color arrangements, and the receiving device specifies a reference color display area in the captured image, and displays the reference color It is preferable that color correction conversion information is generated using a reference color in the region and information relating to a reference color stored in advance, and the code image is decoded using the color correction conversion information. Thereby, even when there is an influence of surrounding lighting conditions, it is possible to accurately identify the color arrangement of the code image and perform decoding.

  According to the present invention, information can be accurately transmitted using an image.

The schematic block diagram of the information transmission system in embodiment. The flowchart explaining the process sequence of the information transmission process in embodiment. The flowchart explaining the process sequence of the determination process of the output form of the code image in embodiment. Explanatory drawing explaining the code image displayed on a display part in embodiment. It is explanatory drawing of the information transmission method in a modification, Comprising: (a) is a screen figure of an information transmitter, (b) is a flowchart explaining the process sequence of an information receiver.

Hereinafter, an embodiment embodying an information transmission method, an information transmission system, and a transmission device will be described with reference to FIGS.
As shown in FIG. 1, the information transmission system 10 according to the present embodiment includes an information transmission device 20 and an information reception device 30. Here, a color code image 50 formed by a combination of a plurality of color elements (color cells) is used as a communication medium. Then, the information transmitting apparatus 20 transmits information to the information receiving apparatus 30 using an image (moving image) in which a plurality of color code images 50 are displayed in time series. As the information transmitting device 20 and the information receiving device 30, for example, a tablet terminal provided with a touch panel can be used.

The information transmission device 20 includes a control unit 21, a code conversion information storage unit 22, an input unit 26, and a display unit 27. As the input unit 26 and the display unit 27, for example, a touch panel display can be used.
The input unit 26 is used to input information to be transmitted (information to be transmitted).
The display unit 27 is a display medium used for outputting the color code image 50.

  The control unit 21 includes control means (CPU, RAM, ROM, etc.), and performs processes (each process such as a management stage and a code generation stage) described later. For this purpose, the control unit 21 functions as the management unit 211 and the code generation unit 212 by executing the information transmission program stored in the storage unit.

The management unit 211 executes processing related to control such as generation and display of a code image, and also functions as an output unit.
The code generator 212 divides the transmission target information and executes a process of generating a code image using information for specifying the order. In this case, the code generation unit 212 also functions as a form determination unit that determines the output form of the code image according to the environmental conditions. In this embodiment, the resolution of the imaging unit of the information receiving device 30 and the distance from the information transmitting device 20 to the information receiving device 30 are used as environmental conditions. For this reason, the code generation unit 212 stores a model table in which the resolution of the information receiving device 30 is associated with the model identification information of the information receiving device 30.

Further, the code generation unit 212 divides the transmission target information into code images with a capacity that can be encoded, and executes processing for sequentially displaying the code images generated by the division at the switching time stored in advance. To do. In the present embodiment, as a code image, a color code that performs coding by a combination of arrangement and color arrangement by assigning a plurality of colors to each of a plurality of cells is used.
The code conversion information storage unit 22 stores information used for encoding for converting transmission target information into a code image.

  On the other hand, the information receiving device 30 includes a control unit 31, a code conversion information storage unit 33, a photographing unit 36, and a display unit 37.

The photographing unit 36 is used for photographing a moving image displayed on the display unit 27 of the information transmitting apparatus 20.
The display unit 37 is used to display information acquired by decoding a code image included in a captured moving image.

  The control unit 31 includes control means (CPU, RAM, ROM, etc.), and performs processes (each process such as a management stage and a decoding stage) described later. For this purpose, the control unit 31 functions as the management unit 311 and the decoding unit 312 by executing the information reception program stored in the storage unit.

  The management unit 311 performs control processing such as code image shooting, decoding, and display. In this embodiment, a moving image including a code image is taken.

The decoding unit 312 identifies information included in the captured moving image (code image), rearranges the information of each code image according to the order of the code image, and executes a process of restoring the information.
The code conversion information storage unit 33 stores information used for decoding for converting a code image into information (data).

<Information transmission process>
Next, the information transmission process in the information transmission system 10 mentioned above is demonstrated using FIG. This information transmission process includes a transmission process executed by the information transmission apparatus 20 and a reception process executed by the information reception apparatus 30.

  First, the control unit 21 of the information transmission device 20 executes transmission target information acquisition processing (step S1-1). Specifically, the management unit 211 of the control unit 21 displays an information input screen for inputting information (information to be transmitted) to be transmitted to the information receiving device 30 on the display unit 27. This information input screen includes an input field for inputting transmission target information and an execution button. The sender writes contents to be transmitted in the information input field via the input unit 26 and selects an execution button. The management unit 211 of the control unit 21 acquires a transmission instruction including transmission target information.

  Next, the control unit 21 of the information transmitting apparatus 20 executes a code image output form determination process (step S1-2). Specifically, the code generation unit 212 of the control unit 21 determines the output form of the code image according to the environmental conditions. In the present embodiment, as the output form of the code image, the size of the code image (code display area) and the number of cells (color elements) constituting the code image (the number of cells) are determined. Details of this processing will be described later.

  Next, the control unit 21 of the information transmission apparatus 20 executes a transmission target information division process (step S1-3). Specifically, the code generation unit 212 of the control unit 21 specifies the capacity according to the number of cells determined in step S1-2. Then, the code generation unit 212 generates a plurality of pieces of division information obtained by dividing the transmission target information by the specified capacity.

  Next, for each division information, the control unit 21 of the information transmission apparatus 20 repeatedly executes the code imaging process (step S1-4). Specifically, the code generation unit 212 of the control unit 21 converts each piece of division information into a code image using information stored in the code conversion information storage unit 22. In this case, the code generation unit 212 includes division information and an order flag in the code image. This order flag is used to specify the order of data used when restoring information. Specifically, the order flag includes a start flag that specifies the first code image, an end flag that specifies the last code image, and a flag that specifies the order between the start flag and the end flag.

And the control part 21 of the information transmitter 20 performs a continuous code display process (step S1-5). Specifically, the management unit 211 of the control unit 21 sequentially outputs the code images generated in step S1-4 with the code display area determined in step S1-2. In this case, each code image is output as a moving picture by displaying it for a predetermined switching time.
As shown in FIG. 4, the color code images 51, 52, 53, and 54 are repeatedly displayed in order for each switching time in the code display area Ds of the screen 500 of the display unit 27.

  In this case, the control unit 31 of the information receiving device 30 that receives the information executes a moving image shooting start process (step S2-1). Specifically, the management unit 311 of the control unit 31 starts capturing a moving image displayed in the code display area Ds of the display unit 27 of the information transmission device 20.

  Next, the control part 31 of the information receiver 30 performs the code image specific process in a moving image (step S2-2). Specifically, the decoding unit 312 of the control unit 31 specifies a code image included in the captured moving image.

  Next, the control unit 31 of the information receiving apparatus 30 performs a decoding process (step S2-3). Specifically, the decoding unit 312 of the control unit 31 decodes each code image specified in the captured image using the code conversion information storage unit 33. As a result, the division information and the order flag are acquired from the code image.

  And the control part 31 of the information receiver 30 performs the determination process whether the series of code images were acquired (step S2-4). Specifically, the decoding unit 312 of the control unit 31 determines whether or not the code images of all the order flags (all between the start flag and the end flag) have been acquired using the acquired order flag.

  Here, when it is determined that a series of code images has not been acquired (in the case of “NO” in Step S2-4), the control unit 31 of the information reception device 30 executes the processing after Step S2-2.

  On the other hand, when it is determined that a series of code images has been acquired (in the case of “YES” in step S2-4), the control unit 31 of the information receiving device 30 executes output processing of transmission target information (step S2-5). ). Specifically, the decoding unit 312 of the control unit 31 specifies the transmission target information restored by arranging the decoded data using an order flag. Then, the management unit 311 of the control unit 31 displays the specified transmission target information on the display unit 37 and stops moving image shooting.

<Decision processing of output form of code image>
Next, the code image output form determination process (step S1-2) will be described with reference to FIG.

  First, the code generation unit 212 of the control unit 21 executes an environmental condition acquisition process (step S3-1). Specifically, the code generation unit 212 outputs an environmental condition input screen for inputting environmental conditions to the display unit 27. This environmental condition input screen includes an input field for inputting the model of the information receiving apparatus 30 as a transmission destination and a confirmation button.

  Here, the sender inputs the model identification information of the information receiving device 30 and the distance to the information receiving device 30, and selects the confirmation button. The code generation unit 212 of the control unit 21 acquires the resolution of the imaging unit 36 of the information receiving apparatus 30 according to the input model identification information using the model table.

Next, the code generation unit 212 of the control unit 21 executes an output form specifying process corresponding to the environmental condition (step S3-2). Specifically, the code generation unit 212 specifies the minimum cell area that can be visually recognized with the resolution of the imaging unit 36 of the information reception device 30 according to the resolution and distance of the information reception device 30.
Next, the code generation unit 212 specifies the maximum number of cells that can be displayed using the minimum cell area in the code image display area.

According to this embodiment, the following effects can be obtained.
(1) In the present embodiment, the control unit 21 of the information transmission apparatus 20 executes transmission target information division processing, code imaging processing, and continuous code display processing (steps S1-3 to S1-5). The control unit 31 of the information receiving device 30 executes moving image shooting start processing, decoding processing, and transmission target information output processing (steps S2-1 to S2-5). As a result, even in an environment where wireless communication is not possible, the transmission target information can be accurately transmitted from the information transmitting device 20 to the information receiving device 30.

  (2) In the present embodiment, the control unit 21 of the information transmitting apparatus 20 executes a code image output form determination process (step S1-2). Here, an output mode specifying process according to the environmental condition is executed (step S3-2). Thereby, the area of the code image and the number of color elements (cells) are specified according to the environmental conditions, so that the transmission target information can be accurately transmitted.

  (3) In the code imaging process (step S1-4) of the present embodiment, the control unit 21 generates a color code image. Thereby, since the color code which codes by the combination of arrangement | positioning and a color scheme is used, information can be transmitted with the form which is easy to visually recognize.

Moreover, you may change the said embodiment as follows.
In the above embodiment, the control unit 21 of the information transmission device 20 performs a continuous code display process (step S1-5). Here, a code image including division information and an order flag is generated. In this case, the reference color used for color correction may be displayed together with the code image in a predetermined reference color area. Specifically, the control unit 31 of the information receiving device 30 stores reference color information to be displayed in the reference color area and color information used for the cells of the code image. And the control part 31 of the information receiver 30 performs the specific process of a reference color in the specific process (step S2-2) of the code image in a moving image. In this process, the control unit 31 specifies the position of the reference color area from the position of the code image in the moving image, and specifies the color of the reference color area. Then, the control unit 31 compares the color of the reference color area specified in the moving image with the stored reference color information so that the stored reference color information becomes the color of the acquired reference color area. Then, a cell color chart in which each color of the cells used in the code image is corrected is generated.

  And the control part 31 specifies the color with which each color of the cell contained in a code image is the closest among the colors of the produced | generated cell color chart, and specifies the color of a cell. As a result, even when the code image is affected by the light of the environment such as sunset in the outdoors, the information receiving device 30 can accurately identify the color of the code image and decode it.

  In the above embodiment, the control unit 21 of the information transmission device 20 continuously displays code images in one code display region Ds of the display unit 27. The code display area Ds for displaying the code image may be not only one place but also a plurality of places on the display unit 27. For example, a plurality of code images generated based on the division information are displayed in a plurality of code display areas at the same time. In this case, the control unit 31 of the information receiving device 30 acquires a plurality of code images included in one scene of the moving image at the same time, and decodes each of them.

Furthermore, the same series of code images may be displayed in different code display areas at different switching times.
Specifically, as shown in FIG. 5A, two code display areas D1, D2 are provided on the screen 600 of the display unit 27. Here, for example, the code image is switched and displayed in the code display area D1 in a short time, and the code image is switched in the code display area D2 in a longer time than the code display area D1.

  Then, as shown in FIG. 5B, the control unit 31 of the information receiving device 30 executes the moving image shooting start process (step S4-1) similarly to step S2-1, and performs the code display area extraction process. Execute (Step S4-2). Specifically, the control unit 31 specifies the code display areas D1 and D2 from the two code images displayed on the screen 600 of the display unit 27. And the control part 31 performs the following processes simultaneously for every specified code display area.

  Similar to steps S2-3 and S2-4, the control unit 31 of the information receiving device 30 performs a decoding process (step S4-3) and a determination process whether or not a series of code images has been acquired (step S4-4). Execute. When the control unit 31 acquires a series of code images from the two code display areas D1 and D2 (in the case of “YES” in step S4-4), the control unit 31 transmits the same as in step S2-5. The target information output process is executed (step S4-5). If a series of code images has not been acquired (“NO” in step S4-4), the process after the code display area extraction process (step S4-2) is executed. As a result, when the information can be restored with the moving image 61 having a short switching time, the transmission target information can be output with priority given to quickness. In addition, when the moving image 61 having a short switching time cannot be decoded, the information is restored using the moving image 62 having a longer switching time, so that the transmission target information can be output with priority given to certainty.

  Further, the control unit 21 of the information transmitting apparatus 20 may include a group identification flag for identifying a series of code images in each code image. In this case, when the code image is decoded, the control unit 31 of the information receiving device 30 specifies which group the code image belongs to according to the group identification flag included therein. Thus, even when code images belonging to a plurality of groups are output at the same time, the information receiving apparatus 30 can specify each code image for each group.

  In the above embodiment, the control unit 31 of the information receiving device 30 executes the output process of the transmission target information when all the code images are decoded (step S2-5). Alternatively, if information that can be displayed when the code image is decoded can be extracted, the information may be displayed sequentially. For example, the information transmitting apparatus 20 generates a code image including a flag related to a display position for displaying the division information instead of the order flag. Then, the information receiving device 30 outputs the division information at the display position obtained by decoding the code image. As a result, the transmission target information can be partially output sequentially in accordance with the decoding.

  In the above embodiment, the information transmission apparatus 20 changes the size of the code image element (cell) and the area of the code image in accordance with the environmental conditions in the code image output form determination process (step S1-2). did. The output form to be changed according to the environmental conditions is not limited to the size of the element or the area of the code image. For example, the switching time may be changed. Specifically, the switching time is lengthened when the environmental condition is bad with respect to the reference switching time when the environmental condition that is easy to visually recognize is good.

  Moreover, although the resolution of the information receiving device 30 and the distance to the information receiving device 30 are used as the environmental conditions, other environmental conditions, for example, conditions that are indicators of difficulty in viewing such as illuminance and weather may be used. Good. In this case, the information transmission device 20 is provided with a photographing unit. And based on the image image | photographed using this imaging | photography part, you may make it determine the environmental condition of a use environment. For example, the brightness information of the usage environment is acquired using the imaging unit of the information transmission device 20. And when it is too bright or too dark with respect to the environmental conditions (good illuminance range) which are easy to visually recognize, the output mode which is easy to visually recognize is used. Further, when noise due to dust is included in the image of the information receiving device 30 included in the captured image, an output form that is easy to visually recognize is used. In this easily visible output form, the cell area is increased or the switching time is lengthened. Further, the information receiving device 30 itself may be photographed using the photographing unit of the information transmitting device 20 to calculate the distance.

  In the above embodiment, the information transmission device 20 communicates information with the information reception device 30 via a moving image including a plurality of color code images 50. The code image used for information transmission is not limited to a color code image, and may be a code image that can be acquired by photographing. For example, instead of color elements, a code image composed of a single color pattern may be used.

In the above embodiment, the information transmission device 20 uses a touch panel display as the display unit 27. The display medium from which the information transmission device 20 outputs the code image is not limited to the display unit. For example, the code image may be printed on a print medium (display medium) such as paper. In this case, the user switches a plurality of print media like a picture-story show, and the information receiving apparatus 30 captures this state.
In addition, a light emitting device in which a plurality of LED lights are arranged in a grid may be used as a display medium. In this case, the code image can be displayed using a large display.

  In the above embodiment, it is used for information transmission from the information transmitting device 20 (sending tablet terminal) to the information receiving device 30 (receiving tablet terminal). Information transmission is not limited between two tablet terminals. You may use also for the scene which transmits information continuously between many terminals. For example, information may be transmitted between continuously traveling vehicles. Specifically, the information receiving device 30 is attached to the front part of the car, and the information transmitting device 20 is attached to the rear part of the car. Then, the information transmitting device 20 and the information receiving device 30 are communicatively connected in the vehicle. In this case, information to be transmitted from the vehicle ahead is acquired from an image taken in front and transmitted to the driver. Further, the code image generated based on the transmission target information is transmitted to the following vehicle using the information transmission device 20 in the rear part. Thereby, information (for example, information such as an accident or traffic jam) from the preceding vehicle can be transmitted to the following vehicle.

  D1, D2, Ds ... code display area, 10 ... information transmission system, 20 ... information transmission device, 21, 31 ... control unit, 22, 33 ... code conversion information storage unit, 26 ... input unit, 27, 37 ... display unit , 30 ... Information receiving device, 36 ... Shooting unit, 50, 51, 52, 53, 54 ... Color code image, 61, 62 ... Movie, 211, 311 ... Management unit, 212 ... Code generation unit, 312 ... Decoding unit, 500, 600 ... screen.

Claims (7)

An information transmission method for transmitting information from a transmission device to a reception device including an imaging unit,
The transmitter is
Determine the output form of the code image according to the environmental conditions,
Generate a code image of data divided by the capacity that can be encoded into the code image of the transmission target information,
The code image is sequentially output to a display medium in the output form,
The receiving device is:
In the photographing unit, code images are sequentially extracted from the photographed images,
An information transmission method comprising decoding the extracted code image and combining the identified data to restore the transmission target information.   The information transmission method according to claim 1, wherein communication performance of the receiving device is used as the environmental condition.   The information transmission method according to claim 2, wherein the communication performance is calculated using a distance between the transmission device and the reception device. The display medium is a display unit provided in the transmission device,
The transmission device sequentially outputs the plurality of code images generated by dividing the transmission target information to different code display areas in the display unit at different switching times. The information transmission method according to any one of the above. The code image is a color code image configured by a combination of a plurality of color arrangements,
The receiving device is:
In the captured image, specify the reference color display area,
Color correction conversion information is generated using the reference color in the reference color display area and information about the reference color stored in advance,
The information transmission method according to claim 1, wherein the code image is decoded using the color correction conversion information. An information transmission system including a transmission device and a reception device including a photographing unit,
The transmitter is
A form determining unit that determines the output form of the code image according to the environmental conditions;
A code generation unit that generates a code image of data obtained by dividing the transmission target information by a capacity that can be encoded into a code image;
An output unit that sequentially outputs the code image to the display medium in the output form;
The receiving device is:
In the photographing unit, code images are sequentially extracted from the photographed images,
An information transmission system comprising: a decoding unit that decodes the extracted code image and combines the identified data to restore the transmission target information. A transmitting device that transmits the information to a receiving device that receives the information,
A form determining unit that determines the output form of the code image according to the environmental conditions;
A code generation unit that generates a code image of data obtained by dividing the transmission target information by a capacity that can be encoded into a code image;
A transmission apparatus comprising: an output unit that sequentially outputs the code image to a display medium in the output form.