KR101529500B1 - Smart stamp and smart stamp system - Google Patents

Abstract

The present invention relates to a smart stamp and a smart stamp system with enhanced security through pattern recognition. According to the present invention, the smart stamp comprises: a casing part; a control part installed inside the casing part, and to generate stamp data and modulate the stamp data to a sound wave form; a sound wave generator installed inside the casing part and connected with the control part, and to output a sound wave containing the modulated stamp data; and an image sensor part installed in the lower part of the casing part and connected with the control part, and to recognize an image pattern generated in a smart device. The present invention has an effect of improving security as the control part generates stamp data when the image sensor part recognizes an image pattern.

Description

[0001] SMART STAMP AND SMART STAMP SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a smart stamp and smart stamp system, and more particularly, to a smart stamp and smart stamp system capable of stamping a screen of a smart device through a sound signal and enhancing security through pattern recognition.

Recently, it has been providing stamp service in small shops such as coffee shops. The stamp service provides a coupon for stamping the customer at the store, stamps the coupon when the customer presents the coupon at the store, and provides a separate service when the stamped number of times exceeds the predetermined limit . For example, if a customer stamps a coupon with 10 stamps at a coffee shop, a free cup of coffee is provided.

Most of these stamping services provide customers with paper coupons, and each time they use the store, they stamp the paper coupon once. However, such a paper-type stamp service has a problem that it is difficult to verify the number of times of use if a customer loses a paper coupon, and it is difficult to discriminate fraudulent use through copying or the like. Also, the cost of producing paper coupons was incurred, and it was cumbersome to take a picture of each one.

Coupons in the form of plastic cards, which carry out coupon functions more advanced than paper coupons and have means for storing data, are also used. However, coupons in the form of plastic cards also have no protection against the risk of loss. In addition, there are inconveniences that users have to carry with them in order to use them. Further, when a plurality of stores are used, there arises a problem that a plurality of plastic card coupons must be carried.

In order to solve such a problem, a conventional smart stamp system filed by the present applicant is disclosed in Patent Document 1, and Fig. 1 shows a configuration diagram of a conventional smart stamp system. Referring to FIG. 1, a conventional smart stamp system includes a casing 1, an MCU 2 for generating stamp data and modulating it in the form of a sound wave, a sound generator 3 for outputting modulated stamp data, A smart sensor (A) having a touch sensor (4) for generating a touch signal when the touch sensor (4) is activated and a color sensor (5) for sensing color; A touch panel 6 to which the smart stamp A is touched, a microphone 7 for receiving and receiving sound waves from the smart stamp A, and a controller 8 for decoding the recorded data to extract stamp data And a smart device (B).

In the conventional smart stamp system, when the smart stamp A touches the smart device B with the above configuration, the smart stamp A outputs the stamp data in the form of a sound wave to the smart device B, The device B decodes the transmitted data in the form of a sound wave to extract the stamp data.

Data transmission in the form of a sound wave has poor security. In order to compensate for this, the smart stamp A has a color sensor 5. The smart device B outputs various colors when the smart stamp A is touched, and the color sensor 5 senses the color. At this time, the MCU 2 inserts the color value of the color sensed by the color sensor 5 into the stamp data, and then transmits the stamp data to the smart device B via the sound generator 3. The smart device B enhances security by a method of recording stamp data only when the received color value is appropriate.

However, the conventional smart stamp system has a problem that it is difficult to accurately detect the color when the color sensor 5 detects the color. More specifically, since the color of each manufacturer of the smart device B varies slightly depending on the brightness of the smart device B even if the color of the smart device B is slightly different from that of the manufacturer, the color sensor 5 senses the color, It is difficult to assign an accurate color value to the color when the color value is included in the stamp data. That is, the accuracy of color recognition is deteriorated.

KR 10-1414998 B1 2014. 06. 27.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide an image sensor in which a smart device generates a predetermined pattern through a screen (touch panel) , And to provide a smart stamp and smart stamp system capable of recognizing patterns with high accuracy and thereby enhancing security.

According to an aspect of the present invention, there is provided a smart stamp comprising: a casing; A control unit installed in the casing unit for generating stamp data and modulating the stamp data in a sound wave form; A sound wave generating unit installed in the casing unit and connected to the control unit, for outputting a sound wave including the modulated stamp data; And an image sensor unit installed at a lower portion of the casing unit and connected to the control unit and recognizing an image pattern generated in the smart device, wherein the controller generates stamp data when the image sensor unit recognizes the image pattern It is a technical feature.

According to another aspect of the present invention, there is provided a smart stamp system including a smart stamp and a smart device, the smart device including: a touch panel; A pattern generating unit coupled to the touch panel unit to generate an image pattern; A microphone for recording sound waves output from the smart stamp; A decoding unit connected to the microphone unit to receive and decode data recorded from the microphone unit to extract stamp data; And a determination unit that receives stamp data from the decoding unit and records stamp data when it is determined that the stamp data is appropriate, and outputs an error message if the stamp data is determined to be inappropriate. .

The smart stamp and smart stamp system according to the present invention can recognize a pattern with high accuracy by generating a predetermined pattern through a screen (touch panel) in a smart device and an image sensor in which a smart stamp detects a predetermined pattern. As the accuracy of the recognition is improved, the security procedures can be executed more accurately, thereby greatly enhancing security.

1 is a block diagram of a conventional smart stamp system
2 and 3 are perspective views of a smart stamp according to the present invention
Fig. 4 is a schematic view of a smart stamp according to the present invention
5 is a view illustrating a screen in which frequency bands of sound waves generated in the sound wave generator according to the present invention are displayed
6 is a schematic diagram of a smart stamp system according to the present invention
Figure 7 is a flow chart according to an embodiment of a smart stamp system according to the present invention

Hereinafter, a smart stamp and smart stamp system according to the present invention will be described in detail with reference to the drawings.

FIGS. 2 and 3 are perspective views of a smart stamp according to the present invention, and FIG. 4 is a view of a smart stamp according to the present invention, wherein the smart stamp according to the present invention includes a casing part 110; A control unit 120 installed in the casing unit 110 for generating stamp data and modulating the stamp data in the form of a sound wave; A sound generator 130 installed in the casing 110 and connected to the control unit 120 and outputting a sound wave including the modulated stamp data; And an image sensor unit 140 installed below the casing unit 110 and connected to the control unit 120 and recognizing an image pattern generated in the smart device.

The casing 110 is a component for forming the outer shape of the smart stamp according to the present invention and can be made of a hard material such as plastic.

The control unit 120 is installed inside the casing 110 to control various operations of the smart stamp according to the present invention. When the image sensor unit 140 recognizes the image pattern, the control unit 120 generates staff data, As shown in FIG.

In this case, when the touch signal is generated in the touch sensing unit, that is, when the Smart Stamp is connected to the smart device (not shown) And generates stamp data when touched.

Since the stamp data is transmitted in the form of a sound wave, it is preferable to modulate in the audible frequency band of 10 Hz to 20 kHz. Modulation schemes include ASK (Amplitude Shifting Keying), FSK (Frequency Shift Keying), GFSK (Gaussian Frequency Shift Keying), and OOK (On-Off Keying). For example, when a carrier of 20 kHz is represented by a bit '1' and a carrier of 18 kHz is represented by a bit '0', a bit string can be generated by a frequency change.

The stamp data is data to be recorded on the smart device so as to have the same effect as that of the stamp, for example, a box for taking a picture can be displayed on the screen of the smart device in which a separate application is executed, and a smart stamp The stamp image is output to the screen of the smart device, and the stamp data can be configured to be recorded as the stamp of the paint.

The stamp data includes a stamp ID. The stamp ID is a unique ID of the smart stamp, and each smart stamp has its own stamp ID. Such a stamp ID is registered in advance in the server or the smart device.

For example, the stamp ID may be transmitted to the smart device on the header of the stamp data, and the smart device can confirm that the stamp ID transmitted the stamp data is the registered stamp ID. Through this authentication procedure, it is possible to prevent the use of smart stamps that are illegally produced or not registered.

Since the stamp data is transmitted in the form of a sound wave, the recording can be easily copied by a separate method. When copying the stamp data in the form of a duplicated sound wave as a whole, security may be weak because the stamp ID is copied.

In order to prevent this, an authentication code of OTP (One Time Password) method can be added to the stamp data. If an OTP-type authentication code synchronized with an application installed in a smart device is used, even if the same type of sound wave is transmitted, the authentication code is different from time to time, so that the security is greatly improved.

For example, suppose that stamp data containing an OTP-based authorization code is duplicated at 2:10 pm on January 1, 2015, then the replicated stamp data will only be available at 2:10 pm on January 1, 2015 Since it contains a valid authentication code, replicated stamp data can not be used at a later time.

The sound wave generating unit 130 is a component that is installed inside the casing unit 110 and connected to the control unit 120 to output a sound wave including stamp data modulated in the form of a sound wave. That is, the stamp data is output in the form of a sound wave, and the microphone of the smart device can receive the sound wave.

The sound wave generating unit 130 may be divided into a first sound wave generating unit 131 and a second sound wave generating unit 132. At this time, the first sound wave generator 131 outputs the modulated stamp data in the frequency band of 16 to 24 kHz, and the second sound wave generator 132 outputs the melody in the frequency band of 16 kHz or less.

5 is a view showing frequency bands of sound waves generated by the sound wave generator according to the present invention. Digital data concentrated in the 18 kHz to 20 kHz band is stamp data generated in the first sound wave generator 131, (Particularly, 0 to 4 kHz) is the melody generated by the second sound wave generator 132. [

Since the stamp data is composed of various data as described above and is directly modulated into a sound wave form in the state of unprocessed raw data and relatively high frequency band is used, May be inconvenient for a user to listen to.

This inconvenience is caused when the sound wave generating section 130 is divided into a first sound wave generating section 131 and a second sound wave generating section 132 and a sound wave including stamp data is generated in the first sound wave generating section 131 The second sound wave generating unit 132 generates a melody that the user can hear.

At this time, the smart device records the sound waves of all the bands through the microphone, and then filters only the frequency band in which the stamp data is transmitted, thereby obtaining the desired stamp data. This filtering can be done through an application installed on a smart device.

Speakers may be used for the sound generator 130, and a buzzer or a beeper may be used.

The image sensor unit 140 is a component connected to the control unit 120 and is composed of an image sensor such as a CMOS or CCD sensor in order to recognize an image pattern output from a screen (touch panel) of the smart device. For example, as shown in FIG. 4, the image sensor unit 140 includes a lens protection window 141 installed on a lower surface of the casing unit 110; A lens 142 formed at an inner lower end of the casing 110 at a predetermined distance from the lens protection window 141; An image sensor 143 installed at the top of the lens; An image sensor board 144 installed at an upper end of the image sensor 143; And a lens holder 145 interposed between the lens 142 and the image sensor 143. With this configuration, when the image sensor unit 140 approaches the smart device, the image pattern of the screen of the smart device can be recognized.

The image pattern is output from the screen of the smart device. Various types of image patterns such as circles, triangles, squares, and stars can be output, and existing standardized codes such as barcodes and QR codes can be output as image patterns. This image pattern is output differently each time the Smart Stamp approaches the smart device, and the image sensor unit 140 can sense the output image pattern.

At this time, the control unit 120 stores the eigenvalue of the image pattern in advance. When the Smart Stamp is touched on the screen of the smart device, the control unit 120 modifies the stamp data into a sound wave form after incorporating the eigenvalue of the image pattern recognized by the image sensor unit 140 into the stamp data.

If the unique value of the image pattern included in the transmitted stamp data is appropriate (if the received image pattern is identical to the unique value of the image pattern output from the screen of the smart device), the smart device records the stamp data. If the unique value of the image pattern is not suitable (If it differs from the unique value of the image pattern output from the screen of the smart device).

For example, if the eigenvalue of the star pattern is '1111', the star pattern image is output to the screen of the smart device, the star pattern image pattern is sensed by the image sensor unit 140, The stamp data includes '1111', which is a unique value of the image pattern, and the stamp data is transmitted to the smart device through the sound output unit 130.

If the unique value of the received image pattern is '1111' which is the same as the eigenvalue of the star-shaped image pattern generated by the smart device, the smart device judges that the stamp data is appropriate and records the stamp data. However, if the unique value of the transmitted image pattern is a value other than '1111', the smart device determines that the stamp data is not suitable and outputs an error message.

It is preferable that the generation order and algorithm of the image pattern are preset by the user and stored in the smart stamp and the smart device, respectively, and are also stored in the server when communicating through the server.

The conventional smart stamp has a color sensor to improve the security in a similar manner. Generally, smart devices have different color tones even if they have the same color for each manufacturer, and the brightness of the smart device is set differently for each user even if the manufacturer is the same. Accordingly, even if the same color is output from the inside of the smart device, there is a problem that the color sensor recognizes the color differently, that is, the accuracy of color recognition is lowered. For example, the blue color is output from the smart device, but the color sensor recognizes it as sky blue.

The smart stamp according to the present invention further includes the image sensor unit 140, so that the accuracy of recognition can be greatly improved by a method of recognizing an image pattern, not a color.

The smart stamp according to the present invention may further include a battery unit 150, a switch unit 160, a connection terminal unit 170, and a display unit 180.

The battery unit 150 is a component connected to the controller 120 to supply power, and a rechargeable lithium ion battery can be used.

The switch unit 160 is a component connected to the battery unit 150 to turn on / off the power, and is exposed to the outside of the casing unit 110 as shown in FIGS. 2 and 3 The user can easily turn on / off the power. In addition, the switch unit 160 may be connected to the control unit 120 so that stamp data is generated when the user presses the switch.

The connection terminal unit 170 is a component connected to the control unit 120 and the battery unit 150 and connects the control unit 120 and the battery unit 150 to external electronic devices. A firmware or the like connected to the external computer through the connection terminal unit 170 and installed in the control unit 120 may be connected to the battery unit 150 through the connection terminal unit 170, It can be upgraded.

The display unit 180 is a component connected to the control unit 120 and outputting a time signal when a sound wave is outputted from the sound wave generating unit 130. The display unit 180 is formed of an LED or an LCD and outputs a visual signal when the sound wave is outputted from the sound wave generating unit 130 so that the user can visually check the sound signal even when the user can not confirm that the sound wave is generated properly . In addition, when an error occurs such that the battery of the battery unit 150 is exhausted or the smart stamp data is not generated properly, an alarm signal may be output so that the user can confirm and immediately take action.

6 is a configuration diagram of a smart stamp system according to the present invention. Referring to FIG. 6, the smart stamp system according to the present invention includes a smart stamp 100 and a smart device 200.

The smart device 200 includes a touch panel unit 210, a pattern generating unit 220, a microphone unit 230, and a decoding unit 240.

The touch panel unit 210 is a component forming a screen of the smart device 200.

The pattern generating unit 220 is connected to the touch panel unit 210 and generates an image pattern. The image pattern generated by the pattern generating unit 220 is displayed through the touch panel unit 210. The output image pattern is sensed by the image sensor unit 140 of the smart stamp 100. The image pattern has a unique value for each image pattern as described above.

The microphone unit 230 is a component for recording sound waves output from the smart stamp 100 and records all the sound waves output from the sound generator 130 of the smart stamp 100.

The decoding unit 240 is a component connected to the microphone unit 230 and receives recorded data from the microphone unit 230. The decoding unit 240 decodes the received data to extract stamp data.

The determination unit 250 receives the stamp data from the decoding unit 240, records the stamp data when it is determined that the received stamp data is appropriate, and outputs an error message if the received stamp data is determined to be inappropriate Element.

It is determined whether the eigenvalues of the image pattern generated by the pattern generator 220 and the eigenvalues of the image patterns included in the stamp data transmitted from the decoding unit 240 are identical. That is, if the eigenvalues of the image pattern generated by the pattern generating unit 220 and the eigenvalues of the image patterns included in the stamp data transmitted from the decoding unit 240 are identical, it is determined that the stamp data is suitable stamp data, And outputs a paint image through the touch panel unit 210. If the eigenvalues of the image pattern are not identical, it is determined that the stamp data is not suitable, and an error message is output through the touch panel unit 210.

7 is a diagram showing an embodiment of a smart stamp system according to the present invention in a stepwise manner. Referring to Figure 7,

(1) Application execution step (S10): The stamp application installed in the smart device 200 is executed. In this example, the stamp application is executed to stamp the coupon at the store, and then the smart device 200 is presented to the store .

2) Image pattern generation and image pattern recognition step S20: The image pattern is output to the touch panel unit 210, the image sensor unit 140 approaches the touch panel unit 210, And recognizing the pattern. An example is illustrated in which a user executes an application and an image pattern is output to the smart device 200 and an employee of the store touches the smart device 200 with the smart device 200. [

(3) Sound wave generating step S30: The controller 120 generates stamp data as the image sensor 140 recognizes the image pattern, and the sound wave including the stamp data is outputted from the sound generator 130 .

(4) Sound wave recording step (S40): The microphone unit 230 receives and records the sound waves.

(5) Data processing step (S50): Processing the recorded sound wave (voice data), the decoding unit 240 decodes the recorded voice data to extract stamp data, and the judging unit 250 judges When judged, the stamp data is recorded. An example is shown in which a paint image is output to a screen of the smart device 200 after the smart stamp 100 is touched to the smart device 200. [ If it is not proper stamp data, an error message is output.

Existing wireless communications such as Bluetooth, Wi-Fi, etc. may be used to transfer data from the smart stamp to the smart device. However, such a wireless communication requires a pairing or synchronization process, so that the process is complicated.

When smart stamps are used in shops, smart stamps should be put on smart devices of many customers with one smart stamp, so the relationship between smart stamps and smart devices can be seen as a one-to-many relationship rather than a one-to-one relationship . Therefore, communication between the smart stamp and the smart device is not required to pass through a pairing or synchronization process, and it is necessary to send a small amount of data quickly.

The smart stamp and smart stamp system according to the present invention transmit data using a sound wave, so that the communication process is simple and the data transmission can be speeded up without performing a pairing or synchronization process.

In addition, the smart stamp and smart stamp system according to the present invention generates an image pattern, recognizes it, and records only appropriate (authenticated) stamp data, thereby greatly improving security.

100: smart stamp 110: casing part
120: control unit 130: sound wave generating unit
131: first sound wave generating unit 132: second sound wave generating unit
140: Image sensor section 141: Lens protection window
142: Lens 143: Image sensor
144: Image sensor board 145: Lens holder
150: battery section 160: switch section
170: connection terminal part 180: display part
200: smart device 210: touch panel part
220: pattern generating unit 230: microphone unit
240: decoding section 250:

Claims (6)

A casing unit 110;
A control unit 120 installed in the casing unit 110 for generating stamp data and modulating the stamp data in a sound wave form;
A sound generator 130 installed in the casing 110 and connected to the controller 120, for outputting a sound wave including the modulated stamp data;
And an image sensor unit 140 installed at a lower portion of the casing unit 110 and connected to the control unit 120 and recognizing an image pattern generated in the smart device,
The control unit 120 generates stamp data when the image sensor unit 140 recognizes an image pattern,
The sound wave generating unit 130 may include a first sound wave generating unit 131 and a second sound wave generating unit 132,
The first sound wave generator 131 outputs the modulated stamp data in a frequency band of 16 to 24 kHz,
And the second sound wave generator 132 outputs a melody in a frequency band of 16 kHz or less.
The method according to claim 1,
The controller 120 stores the eigenvalue of the image pattern,
When the image sensor unit 140 recognizes the image pattern, the control unit 120 includes the unique value of the image pattern recognized by the image sensor unit 140 in the stamp data.
delete The method according to claim 1,
The image sensor unit 140
A lens protection window 141 provided on a lower surface of the casing unit 110;
A lens 142 formed at an inner lower end of the casing 110 at a predetermined distance from the lens protection window 141;
An image sensor 143 installed at an upper end of the lens 142;
An image sensor board 144 installed at an upper end of the image sensor 143,
And a lens holder (145) interposed between the lens (142) and the image sensor (143).
The method according to claim 1,
A battery unit 150 connected to the controller 120 to supply power;
A switch unit 160 connected to the battery unit 150 to turn on / off the power source;
A connection terminal unit 170 connected to the control unit 120 and the battery unit 150; And
Further comprising a display unit (180) connected to the control unit (120) and outputting a time signal when the stamp data is outputted from the sound wave generating unit (130).
A smart device comprising a smart stamp (100) and a smart device (200) according to any one of claims 1, 2, 4 and 5,
The smart device (200)
A touch panel unit 210;
A pattern generating unit 220 connected to the touch panel unit 210 to generate an image pattern;
A microphone unit 230 for recording sound waves output from the smart stamp 100;
A decoding unit 240 connected to the microphone unit 230 for receiving and decoding the recorded data from the microphone unit 230 to extract stamp data;
And a determination unit (250) for receiving the stamp data from the decoding unit (240), recording the stamp data when it is determined that the stamp data is appropriate, and outputting an error message if the stamp data is determined to be inappropriate Wherein the smart stamping system comprises:

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