JP4396065B2 - Contactless communication system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, the display unit of the first terminal displays information as a two-dimensional array image, and the imaging unit of the second terminal captures the two-dimensional array image displayed on the display unit. The present invention relates to a contactless communication system that transmits information from a first terminal to the second terminal.
[0002]
[Problems to be solved by the invention]
As a form of the communication system, in general, a wired communication system that employs a wire such as a communication cable as a transmission medium for transmitting information, or a wireless such as a radio wave or an infrared as a transmission medium for transmitting information. There is provided a wireless communication system adopting the above. However, these devices require a dedicated connector for connecting a communication cable in the case of wired communication on the side that transmits information and the side that receives information, and in the case of wireless communication. If necessary, a dedicated antenna for capturing and radiating radio waves is required, and in addition to these connectors and antennas, a dedicated communication circuit is required. There is a problem that the configuration on the receiving side becomes complicated.
[0003]
Therefore, in recent years, the information transmitting side displays information as an image, and the information receiving side captures an image displayed on the information transmitting side, and reproduces information recorded in the captured image. Thus, a contactless communication system for communicating information has been considered. According to this, there is no need for a dedicated connector for connecting a communication cable and a dedicated antenna for capturing and radiating radio waves on the side that transmits information and the side that receives information. Furthermore, since a dedicated communication circuit is not required, information can be communicated with a simple configuration.
[0004]
By the way, in such a non-contact communication system, when the information transmitting side displays information as a two-dimensional array image, the information receiving side receives 2 for capturing a two-dimensional array image. It is necessary to use a dimensional array sensor. However, the two-dimensional array sensor is more expensive than the one-dimensional array sensor. Therefore, the configuration in which the information receiving side uses the two-dimensional array sensor causes a cost increase as a whole system. is there.
[0005]
The present invention has been made in view of the above-described circumstances, and its purpose is to enable communication of information with a simple configuration and also to suppress the cost of the entire system. It is to provide a contact communication system.
[0006]
[Means for Solving the Problems]
  According to the non-contact communication system according to claim 1, in the first terminal, display means for displaying information as a two-dimensional array image is a two-dimensional array image.As a single 2D code image representing a 2D code in which information is recorded is displayed on the same display screen, and at the same time, in units of columns or rowsFrom the one-dimensional array sensor configured to capture the two-dimensional array image scroll-displayed on the display means, the one-dimensional array sensor configured to perform the scroll display, And reproducing means for reproducing the information recorded in the original two-dimensional array image scroll-displayed on the display means, based on the image one-dimensionally imaged by the imaging means. did.
[0007]
  Therefore, there is no need for a dedicated connector for connecting a communication cable or a dedicated antenna for capturing and radiating radio waves on the side that transmits information and the side that receives information. Since a communication circuit is not required, it is possible to communicate information with a simple configuration, and at this time, the information receiving side is not configured to use a two-dimensional array sensor, but receives information. The cost of the entire system can be suppressed because the side to be used is configured to use a one-dimensional array sensor. Also, in this case, it is possible to cope with this by simply changing the software of an existing terminal equipped with a one-dimensional array sensor, which can be realized easily. Even when the system is introduced or expanded, , Can respond promptly.Also, by recording information in a two-dimensional code, information can be communicated taking advantage of the two-dimensional code. Further, if the information receiving side includes a two-dimensional array sensor, the two-dimensional array sensor can read the statically displayed two-dimensional code image so that the information can be communicated quickly. Even if the receiving side is not equipped with a two-dimensional array sensor, if it is equipped with a one-dimensional array sensor, the information is obtained by reading the two-dimensional code image scroll-displayed in column units or row units with the one-dimensional array sensor. It can communicate and can improve usability. In addition, when a two-dimensional code image that is scroll-displayed in column units or row units is read by a one-dimensional array sensor, the original two-dimensional code image that is scroll-displayed is still or scroll-displayed. It is possible to easily recognize that the image read by the two-dimensional array sensor is a two-dimensional code image. Furthermore, since the two-dimensional code image is scroll-displayed on a part of the display means, 2 Compared with the one in which the dimension code image is scroll-displayed on the entire display means, there is also an advantage that the reading position of the one-dimensional array sensor can be easily determined.
[0008]
  According to the contactless communication system according to claim 2, tableIndication meansThe size in the scroll direction of the display area in which the two-dimensional code image is scroll-displayed in columns or rows is equal to or longer than the length of one side of the unit cell of the two-dimensional code image.Because it was configured asWhen a two-dimensional code image that is scroll-displayed in columns or rows is read by a one-dimensional array sensor, the reading position of the one-dimensional array sensor is strictly aligned with the display area in which the two-dimensional code image is scroll-displayed. It is not necessary to improve the operabilitybe able to.
  According to the non-contact communication system according to claim 3, the display means displays the two-dimensional code image representing the two-dimensional code in which the information is recorded on the same display screen as the two-dimensional array image. If the information receiving side includes a two-dimensional array sensor, the information can be quickly displayed by reading the two-dimensional array image displayed stationary with the two-dimensional array sensor. On the other hand, even if the information receiving side is not equipped with a two-dimensional array sensor, if the point sensor is provided, the two-dimensional code image scroll-displayed in cell units can be read with the point sensor. Therefore, information can be communicated and usability can be improved. Also in this case, when the two-dimensional code image scroll-displayed in cell units is read by the point sensor, the original two-dimensional code image scroll-displayed is still or scroll-displayed. It is also possible to easily recognize that the image read in is a two-dimensional code image.
[0009]
  Claim4According to the non-contact communication system described in (2), the display means is in a period from the time when the scroll display start instruction means is instructed to start the scroll display to the time when the scroll display stop instruction means is instructed to stop the scroll display. Since it is configured to repeatedly scroll and display a two-dimensional array image, it is not necessary to synchronize the timing at which the imaging unit captures the two-dimensional array image with the timing at which the display unit scrolls the two-dimensional array image. As a result, the second terminal provided with the image pickup means and the first terminal provided with the display means perform the image pickup of the two-dimensional array and the scroll display of the image of the two-dimensional array at the timing set to each. The second terminal and the first terminal can be easily controlled and operated.
[0010]
  Claim5According to the non-contact communication system described above, when the scroll means is instructed to change the scroll speed by the scroll speed change instruction means, the display means is changed to the instructed scroll speed. If the image can be captured at a relatively high speed, information can be communicated quickly by changing the scroll speed relatively fast, while the imaging means can only image at a relatively low speed. In this case, it is possible to reliably communicate information by changing the scroll speed to be relatively slow, and thus it is possible to flexibly cope with the imaging capability of the imaging unit.
[0011]
  Claim6According to the non-contact communication system described in the above, when the second terminal operates using the two-dimensional array image capturing mode as the operation mode, the display unit displays the playback unit based on the image captured one-dimensionally by the imaging unit. When the information recorded in the two-dimensional array image scroll-displayed on the means is reproduced while the second terminal operates with the one-dimensional code image photographing mode as the operation mode, the image is picked up one-dimensionally by the image pickup means. Since the recorded image is analyzed as a one-dimensional code image representing a one-dimensional code and the information recorded in the one-dimensional code is reproduced, the information recorded in the two-dimensional array image is communicated. In addition to being able to communicate information recorded in a one-dimensional code, the second terminal can be used as a normal one-dimensional code reading terminal. It can be.
[0012]
  Claim7According to the non-contact communication system described in the above, the imaging unit is scrolled on the display unit after the imaging start instruction unit instructs the start of imaging until the imaging stop instruction unit instructs the imaging stop. Since the two-dimensional array image is repeatedly captured one-dimensionally, the timing at which the display unit scrolls the two-dimensional array image is set to the timing at which the imaging unit captures the two-dimensional array image. There is no need to synchronize, so that the first terminal provided with the display means and the second terminal provided with the image pickup means can be scrolled and displayed in a two-dimensional array at a timing set to the first terminal. In this case, the first terminal and the second terminal can be easily controlled and operated.
[0013]
  Claim8According to the non-contact communication system described in the above, the second terminal is provided with other display means for displaying information as an image, and the first terminal is configured to capture an image displayed on the other display means. Since the image forming apparatus is provided with another reproducing unit that reproduces information recorded in an image captured by another image capturing unit, information can be transmitted from the first terminal to the second terminal. Not only can information be transmitted from the second terminal to the first terminal, but the information can be communicated bidirectionally.
[0014]
  Claim9According to the non-contact communication system described in 1), since the first terminal is composed of the mobile phone, it is not necessary to prepare a dedicated terminal as the first terminal, and only the software of the existing mobile phone is changed. Can be realized easily. Furthermore, in view of the widespread use of mobile phones, it is possible to respond quickly even when a system is introduced or expanded by effectively using an existing mobile phone, and costs are reduced. The burden can be reduced.
[0015]
  Claim10According to the contactless communication system described in the above, since the second terminal is configured by the POS terminal, it is not necessary to prepare a dedicated terminal as the second terminal, and only the software of the existing POS terminal is changed. Can be realized easily. Furthermore, in view of the widespread use of POS terminals, it is possible to quickly cope with the introduction or expansion of a system by effectively using an existing POS terminal, and cost The burden can be reduced.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Hereinafter, according to the present invention, a mobile phone displays a two-dimensional code image representing a two-dimensional code on a display, and a POS (Point Of Sales) terminal captures the two-dimensional code image displayed on the display of the mobile phone. A first embodiment applied to a contactless communication system for transmitting information recorded in a two-dimensional code from a mobile phone to a POS terminal will be described with reference to FIGS. First, FIG. 1 is a functional block diagram showing the electrical configuration of a mobile phone and a POS terminal.
[0020]
A cellular phone 1 (first terminal in the present invention) includes a CPU (Central Processing Unit) 2 mainly composed of a microcomputer, a radio circuit 3 that performs radio processing with a base station (not shown), a display 4 (display means in the present invention), microphone 5 for inputting the transmitted voice, receiver 6 for outputting the received voice, "call start" key, "call end" key, "redial" key, and "0" to "9" A keypad 7 (a scroll display start instruction means, a scroll display stop instruction means, a scroll speed change instruction means referred to in the present invention) in which a large number of keys such as “number” keys are arranged, and an LED that flashes when an incoming call is received (Light Emitting Diode) 8 is configured by connecting a speaker 9 and a memory 10 for outputting a ring tone (including a ringing melody) when an incoming call is received.
[0021]
In this case, the CPU 2 executes the following process in addition to the original process of the telephone by executing the program stored in the storage area. That is, the memory 10 stores information necessary for electronic commerce such as a deposit account number and a personal identification number in addition to information related to the original function of the telephone such as an address book, outgoing call history, incoming call history, and ringing tone pattern. As will be described in detail later, when a predetermined condition is satisfied, the CPU 2 reads information of, for example, a deposit account number stored in the memory 10, records it in a two-dimensional code, and stores the deposit. A two-dimensional code image representing the two-dimensional code in which the account number information is recorded is scroll-displayed on the display 4.
[0022]
The POS terminal 11 (second terminal in the present invention) is a CPU 12 (reproduction means in the present invention) mainly composed of a microcomputer. The scanner 13, numbers “0” to “ A keyboard 14 (imaging start instruction means, imaging stop instruction means as used in the present invention) provided with a number of keys such as “9”, “00”, “000” “numeric” keys, displays the amount of goods, etc. A display 15, an LED 16, a speaker 17, a memory 18, and a receipt issuing device 19 for issuing a receipt are connected to each other.
[0023]
The scanner 13 includes a lens 20, a one-dimensional array of optical sensors 21 (imaging means, one-dimensional array sensor referred to in the present invention), an amplification circuit 22, an A / D conversion circuit 23, a storage circuit 24, and an illumination LED 25. Has been. When the optical sensor 21 captures an image one-dimensionally through the lens 20, the optical sensor 21 converts the one-dimensionally captured image into an electrical signal and outputs the electrical signal to the amplifier circuit 22. When the electrical signal is input from the optical sensor 21, the amplifier circuit 22 amplifies the input electrical signal and outputs the amplified electrical signal to the A / D converter circuit 23. The A / D converter circuit 23 receives the electrical signal from the amplifier circuit 22. Then, the input electrical signal is subjected to analog-digital conversion, and the analog-digital converted electrical signal is output to the storage circuit 24. When the storage circuit 24 receives an electrical signal from the A / D conversion circuit 23, the storage circuit 24 temporarily stores the input electrical signal.
[0024]
In this case, the POS terminal 11 operates using either the two-dimensional array image capturing mode or the one-dimensional code image capturing mode as the operation mode, and the CPU 12 executes the program stored in the storage area, thereby The process shown in is performed. That is, when the POS terminal 11 operates using the two-dimensional array image capturing mode as the operation mode, the CPU 12 inputs an image captured one-dimensionally by the optical sensor 21 of the scanner 13 from the scanner 13 and inputs from the scanner 13. Based on the one-dimensionally captured image, information recorded in the two-dimensional array image is reproduced. On the other hand, when the POS terminal 11 operates using the one-dimensional code image capturing mode as the operation mode, the CPU 12 inputs an image captured by the optical sensor 21 of the scanner 13 from the scanner 13 and inputs the image from the scanner 13. An image captured one-dimensionally is analyzed as a one-dimensional code image representing a one-dimensional code, and information recorded in the one-dimensional code is reproduced.
[0025]
Next, the operation of the above configuration will be described with reference to FIGS. Here, FIG. 2 shows a process performed by the CPU 2 of the mobile phone 1 as a flowchart, and FIG. 3 shows a process performed by the CPU 12 of the POS terminal 11 as a flowchart.
[0026]
First, in the mobile phone 1, the CPU 2 inputs a selection screen display command signal from the keypad 7, and performs an operation on the keypad 7 to display a selection screen on the display 4 so that the user can select a two-dimensional code. When it is detected ("YES" in step S1), a selection screen is displayed on the display 4 to select a two-dimensional code as shown in FIG. 4 (step S2). Here, it is assumed that the user selects, for example, “QR code”.
[0027]
Next, the CPU 2 inputs a selection confirmation signal from the keypad 7 and detects that the user has performed an operation on the keypad 7 for selecting and confirming, for example, “QR code” (“ YES "), for example, information of a deposit account number designated in advance is read out from the information stored in the memory 10 (step S4). Then, the CPU 2 records the deposit account number information read out from the memory 10 in the QR code that has been previously selected and confirmed (step S5), and records the deposit account number information as shown in FIG. A QR code image representing the QR code thus displayed is displayed on the display 4 (step S6).
[0028]
Next, when the CPU 2 inputs a scroll display start instruction signal from the keypad 7 and detects that the user has performed an operation for starting the scroll display (“YES” in step S7), FIG. 6 (a). As shown in (d), scroll display of the QR code image is started (step S8). By such control, the cellular phone 1 records, for example, information on the deposit account number stored in the memory 10 in the QR code, and scroll display of the QR code image representing the QR code in which the information on the deposit account number is recorded. To start. At this time, the scroll speed is, for example, a default value.
[0029]
Then, after starting the scroll display of the QR code image in this way, the CPU 2 inputs a scroll speed change instruction signal from the keypad 7, and the user performs an operation for changing the scroll speed. If this is detected (“YES” in step S9), the scroll speed is changed to the instructed scroll speed (step S10), and a scroll display stop instruction signal is input from the keypad 7, and the user scrolls the QR code image. When it is detected that an operation for stopping the display is performed (“YES” in step S11), the scroll display of the QR code image is stopped (step S12). In other words, after the CPU 2 starts the scroll display of the QR code image, the CPU 2 scrolls the QR code image unless the user performs an operation for stopping the scroll display of the QR code image. The display is not stopped, and the scroll display of the QR code image is repeated.
[0030]
Now, it is assumed that the user makes the reading port 13a of the scanner 13 face a predetermined position on the display 4 of the mobile phone 1, as shown in FIG. In FIG. 7, the reading position (scanning position) of the optical sensor 21 is indicated by a one-dot chain line P.
[0031]
Assuming that the POS terminal 11 is in the two-dimensional array image capturing mode, the CPU 12 in the POS terminal 11 inputs an image capturing start instruction signal from the keyboard 14 and allows the user to start capturing a QR code image. When it is detected that the operation has been performed with the keyboard 14 (“YES” in step T1), an imaging start instruction signal is output to the scanner 13, and imaging of the QR code image by the optical sensor 21 of the scanner 13 is started (step S1). T2).
[0032]
When the imaging start instruction signal is input from the CPU 12, the scanner 13 starts imaging by the optical sensor 21. At this time, as described above, the scanner 13 has its reading port 13a facing a predetermined position on the display 4 of the mobile phone 1, so that the QR code image by the optical sensor 21 is 1 at a predetermined time interval. Dimensionally image.
[0033]
Specifically, as shown in FIG. 8, when the optical sensor 21 is at the imaging timing t1, for example, the first row of the QR code image faces the reading position (state (a)). ), The light and dark pattern in the first column of the QR code image is captured. Next, the optical sensor 21 detects that, for example, the fifth row of the QR code image faces the reading position at the next imaging timing t2 after a predetermined time has elapsed from the imaging timing t1 (state (b)). ), The light and dark pattern in the fifth column of the QR code image is captured. Next, the optical sensor 21 detects that, for example, the ninth column of the QR code image faces the reading position at the next imaging timing t3 after a predetermined time has elapsed from the imaging timing t2 (state (c)). ), The light-dark pattern in the ninth column of the QR code image is captured. Thereafter, the optical sensor 21 repeats the same processing. In FIG. 8, “bright” of the light / dark pattern is indicated by “unfilled area”, and “dark” in the light / dark pattern is indicated by “filled area”. The scanner 13 sequentially outputs the light / dark pattern imaged one-dimensionally by the optical sensor 21 to the CPU 12 as an electrical signal.
[0034]
When the CPU 12 sequentially inputs the light and dark patterns from the scanner 13 (step T3), the CPU 12 records the original QR code image scrolled on the display 4 of the mobile phone 1 based on the light and dark patterns input from the scanner 13. Is started to be reproduced (step T4). By such control, the POS terminal 11 captures the QR code image scroll-displayed on the display 4 of the mobile phone 1 one-dimensionally, and displays the display of the mobile phone 1 based on the one-dimensionally captured image. The reproduction of the information recorded in the original QR code image scroll-displayed at 4 is started.
[0035]
Next, when the CPU 12 completes the reproduction of the information recorded in the QR code (“YES” in step T5), as shown in FIG. 9, for example, as shown in FIG. A display message “Reproduction completed” is displayed on the display 15 (step T6). Thus, the user can confirm that the reproduction of the information recorded in the QR code is completed by confirming the display message displayed on the display 15. Then, the CPU 12 inputs an imaging stop instruction signal from the keyboard 14 and detects that the user has performed an operation on the keyboard 14 to stop capturing the QR code image (“YES” in step T7). An imaging stop instruction signal is output to the scanner 13, and imaging of the QR code image by the optical sensor 21 of the scanner 13 is stopped (step T8).
[0036]
FIG. 10 schematically shows how information is transmitted from the mobile phone 1 to the POS terminal 11 in this way. By the way, the case where “QR code” is selected when the two-dimensional code is selected in the mobile phone 1 has been described above, but other two-dimensional codes such as “PDF417” and “Data Matrix” are described. This is the same even if is selected.
[0037]
As described above, according to the first embodiment, in the mobile phone 1, for example, information on the deposit account number is recorded in the QR code, and a QR code image representing the QR code in which the information on the deposit account number is recorded is displayed. 4, and the QR code image scroll-displayed on the display 4 of the mobile phone 1 is captured one-dimensionally in the POS terminal 11, and the display of the mobile phone 1 is displayed based on the one-dimensionally captured image. The information recorded in the original QR code image scroll-displayed at 4 is reproduced.
[0038]
Therefore, a dedicated connector for connecting a communication cable and a dedicated antenna for capturing and radiating radio waves are not required for the mobile phone 1 for transmitting information and the POS terminal 11 for receiving information. Further, since a dedicated communication circuit is not required, information can be communicated with a simple configuration, and at this time, the POS terminal 11 that receives the information is a two-dimensional optical sensor. Since the POS terminal 11 that receives information uses the one-dimensional array of optical sensors 21, the cost of the entire system can be suppressed. Further, in this case, it can be dealt with only by changing the software of the existing POS terminal 11 provided with the one-dimensional array of optical sensors 21, and can be realized easily. Therefore, the system is introduced or expanded. It is possible to respond promptly even in the case of.
[0039]
In addition, a two-dimensional code is adopted (a QR code is adopted in this embodiment), information on the deposit account number is recorded in the two-dimensional code, and a two-dimensional code representing the two-dimensional code in which the information on the deposit account number is recorded. Since the image is scroll-displayed on the display 4, information can be communicated by taking advantage of the two-dimensional code by recording the information in the two-dimensional code.
[0040]
Since the QR code image is repeatedly scrolled and displayed until the user performs the operation for starting the scrolling display and the operation for stopping the scrolling display, the scanner 13 is configured to display the QR code repeatedly. There is no need to synchronize the timing for capturing the code image with the timing at which the display 4 scrolls the QR code image. As a result, the POS terminal 11 and the mobile phone 1 can be used to set the QR code image at the timing set for itself. What is necessary is just to comprise so that imaging and the scroll display of a QR code image may be performed, and control and operation of the POS terminal 11 and the mobile telephone 1 can be simplified. Further, when the reproduction of the information recorded in the QR code image is completed, the scroll display can be quickly stopped by promptly instructing the stop of the scroll display. The mobile phone 1 that transmits information can reduce power consumption in advance.
[0041]
Further, when the user performs an operation for changing the scroll display, the scroll speed is changed to the instructed scroll speed. For example, when the scanner 13 of the POS terminal 11 can capture images at a relatively high speed. Then, by changing the scroll speed relatively fast, information can be communicated promptly. On the other hand, if the scanner 13 can only capture images at a relatively slow speed, the scroll speed is set to the relative speed. The information can be reliably communicated by changing it late, and thus it is possible to respond flexibly according to the imaging capability of the scanner 13.
[0042]
When the POS terminal 11 operates in the one-dimensional code image capturing mode as an operation mode, the image captured one-dimensionally by the optical sensor 21 is analyzed as a one-dimensional code image representing the one-dimensional code, and the one-dimensional code Since the information recorded in the recording medium is reproduced, not only the information recorded in the two-dimensional array image can be communicated but also the information recorded in the one-dimensional code can be communicated. The POS terminal 11 can be used as a normal one-dimensional code reading terminal.
[0043]
In addition, since the QR code image is repeatedly captured one-dimensionally from when the user performs an operation for starting imaging until the user performs an operation for stopping imaging, the display 4 does not need to synchronize the timing at which the QR code image is scroll-displayed with the timing at which the scanner 13 captures the QR code image, so that the cellular phone 1 and the POS terminal 11 can be set to QR at the timings set to self. What is necessary is just to comprise so that the scroll display of a code image and the imaging of a QR code image may be performed, and control and operation of the mobile telephone 1 and the POS terminal 11 can be simplified. Further, when the reproduction of the information recorded in the QR code image is completed, it is possible to quickly stop the imaging by promptly instructing the stop of the imaging, and thereafter, the imaging is performed unnecessary. This can be avoided, and power consumption can be reduced in the POS terminal 11 that receives information.
[0044]
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIG. 11 and FIG. The same parts as those in the first embodiment are denoted by the same reference numerals and the description thereof is omitted. Hereinafter, different parts will be described.
In the first embodiment described above, the cellular phone 1 scrolls the QR code image on the display 4 and the POS terminal 11 captures the scroll-displayed image on the display 4 of the cellular phone 1 in a one-dimensional manner. The configuration in which information is transmitted from the telephone 1 to the POS terminal 11, that is, the information is communicated only in one direction has been described. On the other hand, in the second embodiment, information is transmitted from the mobile telephone to the POS terminal. Is transmitted from the POS terminal to the mobile phone, that is, the information is communicated bidirectionally.
[0045]
In other words, in FIG. 11, a cellular phone 31 is connected to a CPU 32 (other reproduction means referred to in the present invention) mainly composed of a microcomputer by the radio circuit 3, display 4, microphone 5, receiver described in the first embodiment. 6. In addition to the keypad 7, the LED 8, the speaker 9, and the memory 10, a CCD (Charge Coupled Device) sensor 33 (another imaging means in the present invention) is connected. Further, the POS terminal 34 has a CPU 35 mainly composed of a microcomputer, a scanner 13, a keyboard 14, a display 15, an LED 16, a speaker 17, a memory 18, and a receipt issuing device 19 described in the first embodiment. A display device 36 (another display means in the present invention) is connected.
[0046]
In this case, in the POS terminal 34, the memory 18 temporarily stores information necessary for electronic commerce such as a bank account number for transfer or a product price, and the CPU 35 stores the memory when a predetermined condition is satisfied. For example, the information of the transfer account number stored in 18 is read and recorded in, for example, a QR code, and a QR code image representing the QR code in which the information of the transfer account number is recorded is displayed on the display device 36. In the mobile phone 31, when a predetermined condition is satisfied, the CPU 32 starts imaging by the CCD sensor 33 on the assumption that the CCD sensor 33 faces the display device 36 and inputs a light / dark pattern from the CCD sensor 33. Then, based on the light and dark pattern input from the CCD sensor 33, the information recorded in the original QR code image displayed on the display device 36 of the POS terminal 34 is reproduced.
[0047]
FIG. 12 schematically shows how information is transmitted from the cellular phone 31 to the POS terminal 34 and information is transmitted from the POS terminal 34 to the cellular phone 31 in this way. In this case, if the CCD sensor 33 is a two-dimensional array sensor, it is not necessary to scroll the QR code image on the display device 36. If the CCD sensor 33 is a one-dimensional array sensor, the QR code image is not displayed. Can be scroll-displayed on the display device 36, so that, for example, information on a bank account number for transfer can be transmitted from the POS terminal 34 to the mobile phone 31. Further, the information of the transfer account number may be recorded in another two-dimensional code such as “PDF417” or “Data Matrix” other than “QR code”, and the information is not limited to recording in the two-dimensional code. Instead, information may be recorded in a one-dimensional code and information may be communicated.
[0048]
As described above, according to the second embodiment, the same effects as those described in the first embodiment can be obtained. In this case, in particular, in the POS terminal 34, for example, information on the transfer account number is recorded in a QR code, and a QR code image representing the QR code in which the information on the transfer account number is recorded is displayed on the display device 36. In the mobile phone 31, a QR code image displayed on the display device 36 of the POS terminal 34 is captured, and based on the captured image, the QR code image displayed on the display device 36 of the POS terminal 34 is recorded. In addition to being able to transmit information from the mobile phone 31 to the POS terminal 34, it is possible to transmit information from the POS terminal 34 to the mobile phone 31 as well. Two-way communication is possible.
[0049]
(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to FIGS. The same parts as those in the first embodiment are denoted by the same reference numerals and the description thereof is omitted. Hereinafter, different parts will be described.
The first embodiment described above describes the configuration in which the mobile phone 1 scrolls and displays the QR code image. On the other hand, in the third embodiment, the mobile phone 1 displays the QR code image as a still image. At the same time as the scroll display, the display is scrolled in units of columns.
[0050]
That is, in the mobile phone 1, as shown in FIG. 13, the CPU 2 statically displays a QR code image representing a QR code in which information of a deposit account number is recorded, for example, on the display area 4 a of the display 4 and at the same time The light / dark pattern in the first row of the code image is displayed in the display area 4 b of the display 4. Thereafter, when the CPU 2 detects that the user has performed an operation for starting the scroll display, as shown in FIG. 14, the QR code extends from the first column to the last column of the QR code image. The light / dark pattern of the image is displayed on the display area 4b of the display 4 every predetermined time in units of columns, and the QR code image is scroll-displayed. At this time, the entire QR code image may be scroll-displayed in the display area 4a of the display 4 in the same manner as that described in the first embodiment. As an example, FIG. 13A shows a state in which the light / dark pattern in the first column of the QR code image is displayed, and FIG. 13B shows the light / dark pattern in the second column of the QR code image. Indicates a state where is displayed.
[0051]
In this case, the dimension of the display area 4b in the scroll direction (indicated by L1 in FIG. 13) is the length of one side of the unit cell of the QR code image displayed in the display area 4a of the display 4 (in FIG. 13). Longer than L3). With such a configuration, even when the reading position of the one-dimensional array of optical sensors 21 is tilted as shown in FIG. 15B, the information recorded in the QR code image is appropriately reproduced. It can be carried out.
[0052]
As described above, according to the third embodiment, the mobile phone 1 is configured such that the QR code image representing the QR code is displayed on the display 4 in a stationary or scrolling manner, and at the same time the scrolling display is performed in units of columns. If the receiving side is equipped with a two-dimensional array sensor, information can be communicated quickly by reading a statically displayed QR code image with the two-dimensional array sensor. Even if it is not equipped with a one-dimensional array sensor, if it is equipped with a one-dimensional array sensor, information can be communicated by reading a QR code image scroll-displayed in units of columns with the one-dimensional array sensor. Can be increased.
[0053]
Further, when a QR code image scroll-displayed in units of columns is read by a one-dimensional array sensor, the original two-dimensional code image scroll-displayed is statically or scroll-displayed. It is possible to easily recognize that the image being read is a QR code image. Furthermore, since the QR code image is scroll-displayed on a part of the display 4, the QR code image is displayed on the display 4. There is also an advantage that the reading position of the one-dimensional array sensor can be easily determined as compared with the one described in the first embodiment which is scroll-displayed as a whole.
[0054]
Further, in this case, since the size in the scroll direction of the display area in which the QR code image is scroll-displayed in units of columns is configured to be longer than the length of one side of the unit cell of the QR code image, scroll display is performed in units of columns. When a QR code image is read by a one-dimensional array sensor, the reading position of the one-dimensional array sensor does not need to be strictly aligned with the display area where the QR code image is scroll-displayed, and operability is improved. Can do.
[0055]
(Fourth embodiment)
Next, a fourth embodiment of the present invention will be described with reference to FIGS. The same parts as those in the third embodiment are denoted by the same reference numerals and the description thereof is omitted. Hereinafter, different parts will be described.
In the third embodiment described above, the mobile phone 1 is configured to display the QR code image statically or scrolling, and at the same time, scroll display is performed in units of columns. On the other hand, in the fourth embodiment, The mobile phone 1 is configured to display the QR code image on the display 4 in a stationary or scrolling manner, and at the same time, scroll the cell-by-cell scroll display.
[0056]
That is, in the mobile phone 1, as shown in FIG. 16, the CPU 2 causes a QR code image representing, for example, a QR code in which information of a deposit account number is recorded to be statically displayed on the display area 4 a of the display 4 and at the same time The bright / dark pattern of one cell of the code image (the cell located at the upper left end in FIG. 17) is displayed in the display area 4c of the display 4. Thereafter, when the CPU 2 detects that the user has performed an operation for starting the scroll display, as shown in FIG. 17A, the first cell to the last cell (in FIG. 17) of the QR code image. The light and dark pattern of the QR code image is displayed on the display area 4c of the display 4 at predetermined time intervals in units of cells until the eye reaches the eye), and the QR code image is scroll-displayed. Also at this time, the entire QR code image may be scroll-displayed in the display area 4 a of the display 4. As an example, FIG. 16A shows a state where a “dark” cell of a light / dark pattern is displayed, and FIG. 16B shows a case where a “light” cell of a light / dark pattern is displayed. It shows the state. FIG. 17B shows a change in the on / off state (time) of display in the display area 4c when the light and dark pattern of each unit cell located in the first column of the QR code image is displayed.
[0057]
Also in this case, the dimension of the display area 4c in the scroll direction (indicated by L2 in FIG. 16) is longer than the length of one side of the unit cell of the QR code image displayed in the display area 4a of the display 4. ing.
[0058]
In this case, instead of a two-dimensional code image representing a two-dimensional code such as a QR code image, a barcode image representing a one-dimensional code such as a barcode image is displayed statically, as shown in FIG. You may comprise so that a scroll display may be carried out. In this case, as shown in FIG. 19B, the on / off state (time) of display in the display area 4c changes corresponding to the length of the bar or space.
[0059]
As described above, according to the fourth embodiment, the mobile phone 1 is configured such that the QR code image representing the QR code is displayed on the display 4 in a stationary or scrolling manner, and at the same time, the mobile phone 1 scrolls in units of cells. If the receiving side is equipped with a two-dimensional array sensor, information can be communicated quickly by reading a statically displayed QR code image with the two-dimensional array sensor. Even if it is not equipped with a three-dimensional array sensor, if it is equipped with a point sensor, information can be communicated by reading the QR code image scroll-displayed in cell units with the point sensor, and usability can be improved. .
[0060]
Also in this case, when the QR code image scroll-displayed in cell units is read by the point sensor, the original two-dimensional code image scroll-displayed is still or scroll-displayed. It can be easily recognized that the image being read is a QR code image.
[0061]
(Other embodiments)
The present invention is not limited to the above-described embodiments, and can be modified or expanded as follows.
The first terminal is not limited to a mobile phone, and may be another device such as a portable information terminal or a television, or may be a dedicated device. The second terminal is not limited to the POS terminal, and may be another device or a dedicated device.
[0062]
The information is not limited to information necessary for electronic commerce such as a deposit account number or a personal identification number, but may be other information downloaded from the outside, and is not limited to information downloaded from the outside. For example, the address book or e-mail information generated inside the telephone may be used. For example, the address book information is recorded in a two-dimensional code, and the two-dimensional code representing the two-dimensional code in which the address book information is recorded. The configuration may be such that the address book information is transmitted by displaying an image.
[0063]
The direction in which the image is scroll-displayed (scroll direction) may be any of up, down, left and right directions.
[0064]
In the POS terminal, when the information reproduction is completed, the display is not limited to the display message, but the LED blinks or the speaker outputs a sound to notify that the information reproduction is completed. It may be a configuration.
[0065]
When the amount of information is extremely large, a mobile phone that transmits information records information divided into a plurality of QR codes, and sequentially scrolls and displays a plurality of QR codes, and a POS terminal that receives information, A configuration may be adopted in which information is communicated by sequentially imaging a plurality of QR codes.
[0066]
In the third embodiment, the QR code image may be displayed in a scrolling manner in units of lines at the same time that the QR code image is displayed stationary or scrolling. Further, a configuration in which the user can select whether the QR code image is displayed statically or scrolled is also possible. Further, the dimension in the scroll direction of the display area in which the QR code image is scroll-displayed in units of columns may be equal to the length of one side of the unit cell of the QR code image.
[Brief description of the drawings]
FIG. 1 is a functional block diagram showing a first embodiment of the present invention.
FIG. 2 is a flowchart showing processing of the mobile phone
FIG. 3 is a flowchart showing processing of a POS terminal.
FIG. 4 is a diagram showing an example of a selection screen for selecting a two-dimensional code.
FIG. 5 is a diagram showing an example of a screen that displays a QR code image.
FIG. 6 is a diagram illustrating a state in which a QR code image is scroll-displayed.
FIG. 7 is a diagram showing the positional relationship between a mobile phone and a scanner.
FIG. 8 is a diagram illustrating an example of a light / dark pattern captured by a scanner;
FIG. 9 is a diagram showing an example of a display message
FIG. 10 is a diagram schematically illustrating a state in which information is transmitted from a mobile phone to a POS terminal.
FIG. 11 is a functional block diagram showing a second embodiment of the present invention.
FIG. 12 is a diagram schematically illustrating a state in which information is transmitted from the mobile phone to the POS terminal and information is transmitted from the POS terminal to the mobile phone.
FIG. 13 is a diagram showing an example of a screen displaying a QR code image according to the third embodiment of the present invention.
FIG. 14 shows a QR code image.
15 is a view corresponding to FIG.
FIG. 16 is a diagram showing an example of a screen displaying a QR code image according to the fourth embodiment of the present invention.
FIG. 17 is a diagram showing a QR code image and display timing.
FIG. 18 is a diagram showing an example of a screen displaying a barcode image
FIG. 19 is a diagram showing a barcode image and display timing.
[Explanation of symbols]
In the drawings, 1 is a cellular phone (first terminal), 4 is a display (display means), 7 is a keypad (scroll display start instruction means, scroll display stop instruction means, scroll speed change instruction means), and 11 is a POS terminal. (Second terminal), 12 is a CPU (reproducing means), 14 is a keyboard (imaging start instruction means, imaging stop instruction means), 21 is an optical sensor (imaging means, one-dimensional array sensor), and 31 is a mobile phone (first terminal). 1 is a CPU (other reproduction means), 33 is a CCD sensor (other imaging means), 34 is a POS terminal (second terminal), and 36 is a display device (other display means).

Claims (10)

The display unit of the first terminal displays information as a two-dimensional array image, and the imaging unit of the second terminal captures the two-dimensional array image displayed on the display unit, whereby the first terminal A contactless communication system for transmitting information to the second terminal,
The display means is configured to display one two-dimensional code image representing a two-dimensional code in which information is recorded as a two- dimensional array image on the same display screen, and at the same time, scroll display in units of columns or rows. And
The imaging means is composed of a one-dimensional array sensor that one-dimensionally images a two-dimensional array image scroll-displayed on the display means,
And a reproducing unit that reproduces information recorded in the original two-dimensional array image scroll-displayed on the display unit based on an image captured one-dimensionally by the imaging unit. Non-contact communication system. The contactless communication system according to claim 1,
The display means is configured such that the size in the scroll direction of the display area in which the two-dimensional code image is scroll-displayed in units of columns or rows is equal to or longer than the length of one side of the unit cell of the two-dimensional code image. A non-contact communication system. The display unit of the first terminal displays information as a two-dimensional array image, and the imaging unit of the second terminal captures the two-dimensional array image displayed on the display unit, whereby the first terminal A contactless communication system for transmitting information to the second terminal,
The display means is configured to display one two-dimensional code image representing a two-dimensional code in which information is recorded on the same display screen and at the same time to scroll and display in units of cells.
The imaging means is composed of a one-dimensional array sensor that one-dimensionally images a two-dimensional array image scroll-displayed on the display means,
And a reproducing unit that reproduces information recorded in the original two-dimensional array image scroll-displayed on the display unit based on an image captured one-dimensionally by the imaging unit. Non-contact communication system. The contactless communication system according to any one of claims 1 to 3,
Scroll display start instruction means for instructing start of scroll display in the display means ;
Scroll display stop instruction means for instructing stop of scroll display in the display means ,
Scroll the display unit, during the period from said start of the scroll display by scroll display start indicating means is instructed to stop the scrolling display is instructed by the scroll display stop instruction means, by repeating the image of the two-dimensional array A non-contact communication system configured to display . The contactless communication system according to any one of claims 1 to 4,
Scroll speed change instruction means for instructing to change the scroll speed in the display means,
A non-contact communication system, characterized in that the display means is configured to change to the instructed scroll speed when the scroll speed change instructing means is instructed to change the scroll speed . The contactless communication system according to any one of claims 1 to 5,
The second terminal is configured to operate with at least one of the two-dimensional array image capturing mode or the one-dimensional code image capturing mode as an operation mode,
When the second terminal operates using the two-dimensional array image imaging mode as an operation mode, the playback unit is originally scroll-displayed on the display unit based on an image captured one-dimensionally by the imaging unit. When the second terminal operates using the one-dimensional code image imaging mode as an operation mode, the information is captured one-dimensionally by the imaging means. A non-contact communication system configured to analyze a recorded image as a one-dimensional code image representing a one-dimensional code and reproduce information recorded in the one-dimensional code . The contactless communication system according to any one of claims 1 to 6,
Imaging start instruction means for instructing start of imaging in the imaging means;
An imaging stop instruction means for instructing to stop imaging in the imaging means,
A two-dimensional array of images scrolled on the display unit from when the start of imaging is instructed by the imaging start instruction unit to when the imaging stop is instructed by the imaging stop instruction unit. A non-contact communication system characterized in that it is configured to repeatedly image one-dimensionally . The contactless communication system according to any one of claims 1 to 7,
The second terminal includes other display means for displaying information as an image,
The first terminal includes another imaging unit that captures an image displayed on the other display unit,
A non-contact communication system comprising: other reproduction means for reproducing information recorded in an image picked up by the other image pickup means . The contactless communication system according to any one of claims 1 to 8,
The contactless communication system, wherein the first terminal is a mobile phone . The contactless communication system according to any one of claims 1 to 9,
The non-contact communication system , wherein the second terminal is a POS terminal .

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