WO2018110793A1 - Smartphone cover for operating smartphone, processing method thereof, and method for processing financial transaction relay application linked therewith - Google Patents
Smartphone cover for operating smartphone, processing method thereof, and method for processing financial transaction relay application linked therewith Download PDFInfo
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- WO2018110793A1 WO2018110793A1 PCT/KR2017/008975 KR2017008975W WO2018110793A1 WO 2018110793 A1 WO2018110793 A1 WO 2018110793A1 KR 2017008975 W KR2017008975 W KR 2017008975W WO 2018110793 A1 WO2018110793 A1 WO 2018110793A1
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/38—Payment protocols; Details thereof
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- A—HUMAN NECESSITIES
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- A—HUMAN NECESSITIES
- A45—HAND OR TRAVELLING ARTICLES
- A45C—PURSES; LUGGAGE; HAND CARRIED BAGS
- A45C15/00—Purses, bags, luggage or other receptacles covered by groups A45C1/00 - A45C11/00, combined with other objects or articles
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/02—Detecting, measuring or recording pulse, heart rate, blood pressure or blood flow; Combined pulse/heart-rate/blood pressure determination; Evaluating a cardiovascular condition not otherwise provided for, e.g. using combinations of techniques provided for in this group with electrocardiography or electroauscultation; Heart catheters for measuring blood pressure
- A61B5/026—Measuring blood flow
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/117—Identification of persons
- A61B5/1171—Identification of persons based on the shapes or appearances of their bodies or parts thereof
- A61B5/1172—Identification of persons based on the shapes or appearances of their bodies or parts thereof using fingerprinting
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/30—Authentication, i.e. establishing the identity or authorisation of security principals
- G06F21/31—User authentication
- G06F21/32—User authentication using biometric data, e.g. fingerprints, iris scans or voiceprints
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/38—Payment protocols; Details thereof
- G06Q20/40—Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B5/00—Near-field transmission systems, e.g. inductive or capacitive transmission systems
Definitions
- the present invention relates to a smart phone cover for operating a smart phone and a processing method thereof and a financial transaction relay app processing method linked thereto.
- a smartphone cover that can be used by integrating finger fingerprints and finger vein separately or simultaneously.
- a smartphone cover that operates a smartphone using fingerprint recognition or finger vein recognition, which is created so that it cannot be used unless it is the human body information.
- the present inventors have already researched and applied a technology for turning on a smartphone with a fingerprint in 10-2016-93315.
- the NFC (Near Field Communication) method in the card is contactless short-range communication is activated by being applied to the smart phone in favor of security, NFC communication is wirelessly between the NFC reader and the NFC tag (tag), and the NFC tag is information It consists of an NFC chip and a loop antenna that stores the antenna.
- the NFC technology includes a component that includes a communication interface that operates in inductive coupling and has two or more modes of operation including a reader mode and a card emulation mode.
- the NFC communication unit performs short-range data communication with the outside to perform the RFID reader function and / or tag function in the 13.56MHz band, for example.
- a magnet card having a magnet has three magnet tracks in a magnet strip. Magnetic track fragments are engraved with a linear pattern. The spacing between the magnetic fluxes changes depending on the binary information 0 or 1. Successive magnetic fluxes are then operated with the corresponding magnetization directions.
- Fingerprint vein authentication technology is superior to biometrics in all aspects such as forgery resistance, false acceptance rate, false reject rate, failure to enroll rate, and authentication time. Became known. Finger vein authentication technology recognizes vein patterns by transmitting near infrared rays through fingers. Forgery modulation is impossible because of the internal blood vessels, and the vein pattern of the dead can not be utilized.
- the finger vein authentication technology combines hardware device technology to obtain finger vein image using CCD camera, and software technology to filter finger vein image or extract vein pattern using finger vein image using pattern processing program. .
- FIG. 1 is a view of a smart phone cover used without other functions for general use.
- the authentication card 500 includes a fingerprint recognition device 502a and finger vein data for generating and outputting fingerprint data by a human finger. And the fingerprint and finger vein data stored in the card memory unit 503 by reading the fingerprint and finger vein data from the fingerprint and the finger vein recognition device 502a, 502b. And a card controller 501 for determining whether to match with the data controller, and a data output unit 505 for transmitting an output signal to the NFC electronic operation unit 506 from the card controller 501.
- a display unit 504 is provided to display.
- the method for processing a signal transmitted from the data output unit 505 to the NFC electronic operation unit 506 is a signal transmitted when the card holder and the fingerprint and finger vein data stored in the card memory unit 503 match, that is, the card. It is preferable that the information is lost after one touch with the ASC value output as 0/1.
- the present inventors have applied for a technology for applying a credit card or finger vein to a credit card.
- the fingerprint recognition technology when the fingerprint recognition technology is mounted on the smart phone itself as described above, it is easy to use, and it is easy to recognize the identity, but it is easy to know that it is not a technology that can be easily connected to the overall fusion of internal devices. have.
- An object of the present invention is to mount the data of the fingerprint or finger vein on the smartphone cover itself, and read the user's fingerprint or finger vein from the smartphone cover itself, so that you can not use it, so that you can easily hold the smartphone
- the purpose is to turn on the smartphone by transmitting the signal to the signal receiving unit that turns on the smartphone by applying the authentication processing system by the fingerprint and finger vein in the simple and reliable smartphone cover that enables to turn on the smartphone. .
- Fingerprints and / or finger veins can be authenticated to the cover of the current smartphone so that even if there is a fingerprint recognition or number detection unit, the smartphone can be turned on to the ear without opening the cover of the smartphone or touching the number with a finger. Its purpose is to make it available for use.
- the present invention is formed in the authentication cover scan unit for scanning the fingerprint or / and finger vein from the user's finger; Caba memory unit for storing the Kaaba information of the authentication cover and fingerprint or / and finger vein data for authenticity confirmation of the user; A data output unit for recording cover information on the tag portion formed in the authentication cover; Caba controller receives the fingerprint or / and finger vein data from the scan unit and compares the fingerprint or / and finger vein data for the authenticity stored in the cover memory to record the cover information through the data output unit in the tag unit ; And a power supply unit generating and charging power for operating the authentication cover, wherein the scan unit further comprises a bioswitch unit that activates the carba controller through a bioelectric generated when the finger is in contact with the cover.
- the smart sensor to operate the smart phone using the fingerprint and finger vein recognition, characterized in that it further comprises at least one of a temperature sensor for detecting the temperature of the finger and blood flow recognition sensor for recognizing the blood flowing through the finger. It's von Caba.
- the scan unit of the present invention includes a fingerprint scan unit including a visible light source unit for irradiating the visible line to scan the fingerprint of the finger and a fingerprint image sensor for photographing the fingerprint; Or / and the fingertip and finger vein recognition, characterized in that it comprises a finger vein scan unit including an infrared light source unit for irradiating infrared rays to scan the finger vein of the finger and the finger vein image sensor to shoot the finger vein A smartphone cover that powers your phone.
- the fingerprint scanning unit may further include a reflecting member reflecting the contact surface of the finger to the fingerprint image sensor under the contact surface where the authentication cover and the finger are in contact, wherein the visible light source unit may include the authentication cover.
- a smartphone cover that operates the smartphone using a fingerprint and finger vein recognition, characterized in that the inclined toward the contact surface where the finger is in contact.
- the pressure-sensitive power sensor 1509 of the present invention forms a polymer conductor film on the ground of one non-conductor film and a polymer electrode film on the ground of the other non-conductor film to form a matrix electrode, and carbon powder on the upper surface thereof.
- the present invention is formed in the authentication cover scan unit for scanning the fingerprint from the user's finger; Caba memory unit for storing the Kaaba information of the authentication cover and fingerprint data for authenticity confirmation of the user; A data output unit for recording cover information on the tag portion formed in the authentication cover; A cover controller that receives the fingerprint data from the scan unit and compares the fingerprint data stored in the cover memory with the fingerprint data to record the cover information through the data output unit in the tag unit; And a power supply unit configured to generate and charge power for the operation of the authentication cover, wherein the authentication processing algorithm of the authentication cover is connected with the fingerprint recognition through the NFC authentication and the NFC near field communication to perform NFC module short range wireless communication.
- the smart phone cover for operating the smart phone using a fingerprint recognition characterized in that it comprises a.
- the GND line 1 of the NFC module (U5) is a reference of the (-) voltage, 0V ground function
- LB line 2 is a function for amplifying the received signal of the NFC antenna (U6)
- FD line 3 receives the control signal of the main controller (U3) to function for the NFC short-range wireless communication output
- LA line 4 is to function to amplify the received signal of the NFC antenna (U6).
- the smartphone is a smartphone that operates the smartphone by using a fingerprint recognition, characterized in that the short-range wireless communication by controlling the NFC module (U5) in the main controller (U3).
- the VDDIO line 1 of the fingerprint scan module U4 serves as a + 3V voltage input based on the positive voltage of the power supply circuit
- the VSSIO line 2 serves as a reference of the negative voltage circuit. It has 0V grounding function.
- SPICLK line 3 is connected to PTA15 / SP10_SCK L9 line of main controller U3 to control SPI communication clock signal.
- CS_N line 4 of main controller U3 MPI line 5 controls the SPI communication input of the main controller (U3)
- MOSI line 6 provides the control function for the SPI communication output of the main controller (U3).
- the RST_N line 8 is a control function to reset the fingerprint scan module (U4) to be restarted.
- the VSSD line 9 serves as a reference for the negative voltage circuit and has a 0V grounding function, and the VDDD line 10 + 3V voltage input function based on the positive voltage of the power supply circuit, IRQ 11 Line 1 outputs the image scan completion signal of the fingerprint scan module (U4) .
- VDDA line 14 functions as a + 3V voltage input based on the positive voltage of the power supply circuit, and VSSA line 17 ( -)
- VDDX line 19 is a + 3V voltage input function based on the (+) voltage of the power supply circuit, by scanning the fingerprint in the fingerprint scan module (U4)
- the smart phone cover to operate the smart phone using the fingerprint recognition, characterized in that the transmission to the main controller (U3) SPI communication.
- the VDD E5 line of the main controller U3 serves as a + 3V voltage input function based on the positive voltage of the power supply circuit
- the VDD E6 line refers to a positive voltage reference of the power supply circuit.
- + 3V voltage input function VDD E7 line is based on (+) voltage of power supply circuit, + 3V voltage input function is used
- ADC1_DP1 / ADCO_DP2 J1 line is (+) voltage reference of power circuit
- VDD L10 line is the + voltage reference of the power circuit
- VSS G3 line is the (-) voltage circuit reference, 0V ground function
- VSS G7 line serves as a reference for the (-) voltage circuit and 0V grounding
- ADC1_DM1 / ADCO_DM2 J2 line serves as a reference for the (-) voltage circuit, 0V grounding
- VSS K10 line (- As a reference for the voltage circuit, 0V ground function is provided, and V
- the ADC0_DP1 H1 line receives the analog signal (+) of the blood flow detection module (U8) and checks the blood flow detection.
- the ADC0_DM1 H2 line inputs the analog signal (-) side of the blood flow detection module (U8).
- PTA3 H9 line detects finger contact of the fingerprint scan module U4, and PTA17 / SPI_SIN H10 line detects blood flow and detects blood flow.
- the PTA0 J6 line controls the NFC communication of the NFC module (U5), and the PTA2 J7 line activates the blood flow detection module of the blood flow detection module (U8).
- the PTA16 / SPI_SOUT J10 line controls the SPI communication output of the fingerprint scan module U4, and the PTA14 / SPI_PCS0 K9 line controls the SPI communication selection of the fingerprint scan module U4.
- PTA15 / SPI_SCK line L9 is the SPI communication module of the fingerprint scan module (U4). It is to control the signal, the fingerprint scan module (U4) to scan the fingerprint compared to the pre-stored image if it is the same to enable NFC communication (near field wireless communication) using the NFC module (U5) It is a smartphone cover that operates the smartphone using a fingerprint recognition.
- the 3V line 1 of the solar cell U1 is connected to the VCC line of the main controller U3 and the fingerprint scan module U4 based on the positive voltage of the power supply circuit. It supplies the positive voltage, and the GND line 2 functions as 0V ground as the reference of the negative voltage circuit, and is connected to the GND line of the main controller (U3) and the fingerprint scan module (U4).
- a smartphone cover that operates the smartphone using fingerprint recognition, further comprising a function of supplying a negative voltage of the power source.
- the GND line 1 of the blood flow detection module U8 serves as a + 3V voltage input function of the main controller U3, and the GND line 2 serves as a reference for the negative voltage and has a 0V grounding function.
- GNDA line 3 is the reference for the negative voltage of the analog signal of the main controller (U3), and it functions as the analog 0V ground, and line AO 4 is the positive voltage of the analog signal of the main controller (U3).
- the smart phone cover to operate the smart phone using the fingerprint recognition, characterized in that further comprising the blood flow detection by controlling the blood flow detection module (U8) in the main controller (U3).
- a carba controller of the present invention operating the fingerprint scan unit and the designated mac scan unit;
- the carba controller receiving fingerprint or / and finger vein data from the fingerprint scan unit and / or the finger vein scan unit; Comparing the fingerprint or / and finger vein data input by the carba controller with the fingerprint or / and finger vein data for authenticity verification stored in the cover memory;
- the Kava controller recording the Kava information in the tag unit according to the comparison result of the fingerprint or / and the finger vein data. How to deal with it.
- the present invention is a smart phone cover to operate the smart phone using a fingerprint and finger vein recognition, characterized in that further comprising the step of activating the car bar controller through the bioelectricity generated by the contact of the finger from the bio switch unit The treatment method of.
- the present invention further comprises the step of operating the display unit after the carba controller writes the cover information to the tag unit, characterized in that for operating the smartphone using a fingerprint and finger vein recognition, characterized in that the processing method of the smartphone cover. to be.
- the present invention further includes the step of initializing the tag unit when the cover information is used after the cover controller writes the cover information to the tag unit, and operates the smartphone using fingerprint and finger vein recognition. It is a processing method of the smartphone cover.
- the present invention is a step of downloading a financial transaction relay app that forms a program allowing a non-authenticated connection with a partner bank using a customer terminal, the step of downloading the relay app to a customer terminal (S1301); Step S1302 to turn on the execution button to be authenticated access to the affiliated financial company from the relay app; Selecting a financial company that deals with the transaction as a next step (S1303); As a next step (S1304) to determine whether or not the registered consumer is authenticated to be able to transact with the fingerprint or / and finger vein authentication; In the case of a registered consumer, inputting a fingerprint or / and a finger vein for an unauthorized connection for electronic commerce or financial settlement (S1305); If authentication is not performed even if the fingerprint or / and finger vein authentication is performed according to a predetermined procedure, it is terminated.
- the method includes inputting an authentication signal registered by the user (S1311), and the payment of the uncertified financial transaction is approved (S1313).
- step S1304 if it is determined that the user is not the consumer, the next step is to select a financial company to be authenticated as an unauthorized access registration step (S1321); Inputting to be transacted with fingerprint or / and finger vein authentication as a next step (S1322); If the fingerprint or / and finger vein registration is made by the procedure (S1323), the registration is made to pass through the middleware to notify the consumer that the unauthenticated financial transaction is possible (S1326); smart phone comprising a It is a method of processing a financial transaction relay app linked to Kaaba.
- the present invention further includes an authentication signal input step (S1307) for inputting an authentication signal, which is a next step, when the fingerprint or / and the finger vein is authenticated (S1306), but the authentication signal is incorrectly input. If it does not meet the requirements or is terminated and restarted, and when the input of the authentication signal is completed (S1308) processing of the financial transaction relay app linked to the smartphone cover, characterized in that the authentication to pass through the middleware Way.
- S1307 for inputting an authentication signal, which is a next step, when the fingerprint or / and the finger vein is authenticated (S1306), but the authentication signal is incorrectly input. If it does not meet the requirements or is terminated and restarted, and when the input of the authentication signal is completed (S1308) processing of the financial transaction relay app linked to the smartphone cover, characterized in that the authentication to pass through the middleware Way.
- the present invention further includes a step (S1324) of inputting an authentication signal as a next step in addition to the registration of the fingerprint or / and the finger vein (S1323), when the authentication signal input thereof is completed (S1325).
- the authentication signal of the present invention is a fingerprint or / and a finger vein, password, password, facial recognition signal and iris recognition signal is a processing method of the financial transaction relay app linked to the smartphone cover, characterized in that any one of. .
- the authentication of the fingerprint or / and finger vein of the present invention receives the finger vein information and the fingerprint information from the customer terminal primarily processes the user authentication using the finger vein information, from the finger vein information If the user identification is impossible because there are a plurality of the same similar, the second process of the financial transaction relay app linked to the smartphone cover, characterized in that for processing the user authentication from the same plurality of finger vein information using the fingerprint information. Way.
- the effect of the present invention is that the smartphone cover itself is equipped with the data of the fingerprint or finger vein, and other users use it so that it can not be used unless after reading the user's fingerprint or / and finger vein in the authentication cover itself In doing so, it is effective to increase the security and reliability of the authenticity check of the user.
- fingerprint and finger vein can be simultaneously authenticated, which can significantly improve the false recognition rate of the fingerprint, thereby reducing the false recognition rate of the fingerprint, and the human body information of the fingerprint can be easily recognized with a single finger.
- the power supply is made in the smartphone cover itself has the effect of minimizing standby power consumption.
- FIG. 1 is a perspective view of a smartphone cover as an embodiment of the prior invention
- FIG. 2 is a main configuration diagram of the fusion authentication card described in the present application of the present inventors
- 3 is a main configuration of the smartphone cover as an embodiment of the present invention
- FIG. 4 is a rear perspective view of the smartphone cover as an embodiment of the present invention.
- FIG. 5 is a rear perspective view of the smartphone cover as another embodiment of the present invention.
- FIG. 6 is a front view of the inner surface of the smartphone cover as an embodiment of the present invention
- FIG. 7 is a configuration diagram showing in detail the scanning portion of the smartphone cover according to an embodiment of the present invention (a) is a sectional view seen from the front, (b) is a perspective view
- FIG. 8 is a configuration diagram showing in detail the scanning unit and the pressure-sensitive sensor of the smartphone cover according to another embodiment of the present invention (a) is a sectional view seen from the front, (b) is a perspective view
- FIG. 9 is a configuration diagram showing in detail the pressure-sensitive sensor of the smart phone cover of the present invention.
- FIG. 10 is a flowchart illustrating a method of processing a smartphone cover according to an embodiment of the present invention.
- FIG. 13 is a rear perspective view of a smartphone cover as another embodiment of the present invention.
- FIG. 14 is a circuit diagram of a smartphone cover according to another embodiment of the present invention.
- 15 is a flowchart illustrating a method of processing a smartphone cover according to another embodiment of the present invention.
- 16 is a flowchart showing a procedure for relaying unauthenticated financial transactions using the multiple security lock function of the financial transaction relay system according to the present invention.
- 17 is a flowchart showing a procedure for relaying an unauthenticated financial transaction using the multiple security lock function of the financial transaction relay system according to another embodiment of the present invention.
- 502a fingerprint recognition unit 502b: finger vein recognition unit
- Display unit 1505 data output unit
- Tag unit 1506a NFC tag
- fingerprint scan unit 1520a visible light source
- Designated Max Scan Unit 1521a Infrared Light Source
- FIG 3 is a main configuration of the smartphone cover as an embodiment of the present invention
- Figure 4 is a rear perspective view of the smartphone cover as an embodiment of the present invention
- Figure 5 is a back of the smartphone cover as another embodiment of the present invention
- 6 is a perspective view of the inner surface of the smartphone cover as an embodiment of the present invention
- Figure 7 is a schematic view showing a scan portion of the smartphone cover according to an embodiment of the present invention (a) is a cross-sectional view seen from the front
- (b) is a perspective view
- Figure 8 is a schematic view showing the scan unit and the pressure-sensitive sensor of the smart phone cover according to another embodiment of the present invention
- (a) is a sectional view from the front
- the back of the smartphone cover 1500 includes a fingerprint scan unit 1520 for generating and outputting fingerprint data by a human finger, and a designated mac scan unit 1521 for generating and outputting finger vein data.
- a scan unit 1502 including a bio switch unit 1522 for activating the carba controller 1501 is formed through a bioelectric generated when a contact is made, and a fingerprint or / and finger vein data is read from the scan unit 1502.
- the data output unit 1505 is recorded in the tag unit 1506 such as the IC chip 1506b, and a display unit 1504 indicating whether or not its operation is performed is formed.
- the fingerprint or / and finger vein data stored in the Kaaba memory unit 1503 is the fingerprint or / and through the scanning equipment (not shown) provided separately at financial institutions and sales office when issuing the back of the smart phone cover 1500 Fingerprints and / or finger vein data acquired by scanning finger veins can be stored.
- the solar cell panel 1507a is formed on the back of the smartphone cover 1500 as a power supply 1507 that generates and stores power for operating the back of the smartphone cover 1500.
- the carba controller 1501 records the signal recorded in the tag unit 1506, that is, the carba information is stored in the fingerprint or / and finger vein data inputted from the scan unit 1502 and the carba memory unit 1503 and / or finger vein. If the data match, it is preferable to initialize the tag unit 1506 so that the cover information is lost after sending and recording the data and touching it once.
- the cover unit 1506 is held for 5 seconds to be used for a set time, for example, for the approval of the cover signal. It is also preferable to initialize the so that the cover information is lost.
- the carba controller 1501 may use various software for processing and calculating the finger vein image input from the finger vein image sensor 1521b.
- the Canny edge detector algorithm can be used.
- Gaussian filter can be applied to remove the noise of the original image as a whole.
- Edge the image through the Image Gradient.
- the sketch line of the image is extracted.
- Apply the Non-maximum Supression to make the edges thin (sketch line), and apply the Double Threshold to classify dark edges as solid edges and faint edges as noises as weak edges. .
- it deletes the weak edges, leaves only the obvious edges, and finally prints the edged image of the finger vein.
- the solar cell panel of the IC chip 1506b and the power supply unit 1507 is provided on the rear surface of the smartphone cover 1500 as a tag unit 1506.
- the scan unit 1502 is formed, including 1507a, and the NFC tag 1506a may be formed as a tag unit 1506 on the front surface as shown in FIG. 6.
- the scan unit 1502 is provided with a finger receiving unit 1523 to place a finger on the back of the smartphone cover 1500 to scan a fingerprint and a finger vein, and a finger receiving unit 1523. ), A scan unit 1502 is formed.
- the finger receiving unit 1523 may be formed of a transparent material through which infrared rays and visible rays of the fingerprint scan unit 1520 and the designated maxcan scan unit 1521 may be transmitted.
- the fingerprint scanning unit 1520 has a visible light source 1520a and a fingerprint image sensor 1520b for capturing a fingerprint of a finger at the edge of the finger receiving unit 1523.
- the visible light source unit 1520a may be inclined toward the contact surface where the smartphone cover 1500 is in contact with the finger so that the visible line may be irradiated on the front surface of the finger, and the finger may be in contact with the smartphone cover 1500.
- a reflection member 1520c may be formed to reflect the finger contact surface to the fingerprint image sensor 1520b at the lower portion of the contact surface of the unit 1523 to increase the positional freedom of the fingerprint image sensor 1520b.
- the finger contact surface may be reflected by the reflective member 1520c, so that the fingerprint of the finger may be photographed.
- the reflective member 1520c may be formed in a flat or curved surface according to the installation environment.
- the visible light source unit 1520a and the fingerprint image sensor 1520b of the fingerprint scan unit 1520 may be formed in pairs at opposite positions, or a plurality of visible light source units 1520a may be formed.
- the designated mac scan unit 1521 is a finger vein image sensor that photographs the infrared light source unit 1521a and the finger vein horizontally higher than the contact surface where the smartphone cover 1500 contacts the finger at the edge of the finger receiving unit 1523 ( 1521b is formed so that the infrared light emitted from the infrared light source unit 1521a passes through the finger and is recognized by the finger vein image sensor 1521b.
- the infrared light source unit 1521a and the finger vein image sensor 1521b of the finger scan unit 1521 may be formed in pairs at opposite positions, respectively, and each of a plurality of infrared light source units may be used to measure a plurality of positions of a finger. 1521a and finger vein image sensor 1521b may be formed.
- the infrared light source unit 1521a irradiates infrared light having a wavelength of 630 to 1,000 nm suitable for capturing the finger vein image toward the finger receiving unit 1523, and may include one or more LEDs. Also preferably, an optical filter (not shown) may be installed to remove optical noise.
- the infrared light source unit 1521a and the visible line light source unit 1520a are configured as a single module and installed on the outer side of the finger receiving unit 1523 so that infrared rays and visible lines are evenly distributed on the finger, thereby providing fingerprint data or / and designation. It is possible to form an optimal environment for acquiring Mcdata.
- the finger accommodating part 1523 is formed with a bio switch unit 1522, when the finger touches the power supply unit after activating the carba controller 1501 using a bioelectric generated by the difference between the temperature of the finger and the ambient temperature
- the scan unit 1502 may be operated through the power of 1507.
- the carba controller 1501 can be activated by the bioelectric generated when the finger contacts the finger receiving unit 1523, thereby reducing standby power and reducing the standby power load.
- the size of the solar cell panel 1507a and the storage battery (not shown) of the power supply unit 1507 may be reduced, thereby increasing space utilization.
- the bioelectric is generated by the bioswitch unit 1522 of the scan unit 1502.
- the activated carba controller 1501 operates the fingerprint scan unit 1520 or / and the designated max scan unit 1521 of the scan unit 1502 to receive a finger through the visible light source unit 1520a or the infrared light source unit 1521a.
- Fingerprints and / or finger veins that are irradiated with visible or / and infrared rays to the fingers placed in the unit 1523 and photographed the fingerprints and / or finger veins through the fingerprint image sensor 1520b or / and the finger vein image sensor 1521b. Receive data.
- the bioswitch unit 1522 further includes at least one of a temperature sensor for detecting a temperature of a finger and a blood flow recognition sensor for recognizing blood flowing in the finger when acquiring fingerprint or finger vein information from the scan unit. And if it is determined that there is no abnormality by recognizing at least one of the flow of blood flow, it is possible to process the finger vein information obtained from the scan unit to be provided to the customer terminal, thereby forcing the temperature of the living body at the time of forgery of the fingerprint or finger vein. If there is no blood flow, it is effective to make it impossible to recognize and transmit.
- the carba controller 1501 receiving the fingerprint or / and the finger vein data of the finger compares the user's fingerprint or / and the finger vein data stored in the kava memory unit 1503 and matches the cover information with the data output unit 1505.
- the smartphone cover 1500 by recording in at least one of the NFC tag 1506a and IC chip 1506b, the tag unit 1506 And, it is easily turned on by the touch of the finger from the outside to enable the phone to use the smartphone.
- the user may display the display unit 1504 to check the normal use state of the smartphone cover 1500.
- the carba controller 1501 may compare all of the fingerprints and / or finger vein data and the fingerprints and / or finger vein data of the user stored in the kava memory unit 1503, respectively. Not only one can be compared, but also the fingerprint and finger vein data can be fused and compared.
- the smartphone cover using the fingerprint and finger vein recognition is equipped with data of the fingerprint or / and finger vein, the user's fingerprint or / and It is effective to increase the security and reliability of authenticity verification of users by turning off the smart phone by disabling it unless it is read after reading the finger vein.
- the false recognition rate of the fingerprint By simultaneously authenticating fingerprints and finger veins, which can significantly improve the number of fingerprints, it reduces the false recognition rate of fingerprints and easily recognizes human body information about finger veins with just one finger. It has an effect that can be brought out.
- a reduced pressure power sensor 1509 is formed at the lower end of the finger receiver 1523.
- the reduced pressure power sensor 1509 is formed by stacking a polymer conductor film on a sheet of thin film, and alternately arranging the negative electrode and the positive electrode in the shape of a comb in the form of another film facing the plate, and carbon powder and tungsten on the surface thereof.
- TUNGSTEN A pressure-sensitive resistance variable sensor element made of an oxide powder is stacked to form a pressure sensor that is pressed against the polymer conductor film to sense a change in resistance to pressure and transmit it as an electrical signal.
- a polymer conductor film 2 is laminated on the substrate 1 of one non-conductor film, and a polymer conductor film is matrixed on the substrate 1 'of the other non-conductor film.
- An electrode 2 ' is formed, and a pressure sensor is formed by stacking a pressure-sensitive resistance variable pressure sensor element 3 in which carbon powder and tungsten oxide powder are mixed and laminated with a synthetic resin binder on the upper surface thereof.
- a carbon powder and a tungsten oxide powder are formed on one earth 1 'and the other earth 1 on which the polymer conductor matrix electrode 2' is formed.
- the pressure-sensitive-resistance variable pressure sensor 3 (3 ') mixed and laminated with a bonding agent may be laminated.
- the decompression power sensor 1509 is formed on a portion that is naturally pressurized when holding the cover to recognize the fingerprint, it is easy to use, and is treated as a permanent material that can generate power at all times. Therefore, it is adopted as a power source for fingerprint and finger vein recognition.
- FIG. 10 is a flowchart illustrating a method of processing a smartphone cover according to an embodiment of the present invention.
- a finger is detected whether a finger is placed on the finger receiving unit 1523 (S1500).
- the carba controller 1501 in order to detect a finger, when the finger is detected through the bioswitch unit 1522 of the scan unit 1502 formed in the finger accommodating unit 1523, the carba controller 1501 is activated through the bioelectric.
- step S1500 the cara controller 1501 is not activated and continues to stand by.
- the carba controller 1501 operates the fingerprint scan unit 1520 or / and the designated maxcan scan unit 1521 of the scan unit 1502 to make the visible light source unit 1520a operate. ) And / or the visible line and / or the infrared ray of the infrared light source unit 1521a to the finger (S1510).
- the fingerprint or / and the finger vein may be scanned by scanning the fingerprint or / and the finger vein of the finger through the fingerprint image sensor 1520b or the finger vein image sensor 1521b while irradiating the finger with visible or / or infrared rays.
- the data is input (S1520).
- the carba controller 1501 After receiving the fingerprint or / and finger vein data input from the user's finger in step S1520 the carba controller 1501 compares the fingerprint or / and finger vein data stored in the cover memory (1503) to determine whether the match ( S1530).
- the carba controller 1501 may compare all of the fingerprints and / or finger vein data and the fingerprints and / or finger vein data of the user stored in the kava memory unit 1503, respectively. Not only one can be compared, but also the fingerprint and finger vein data can be fused and compared.
- the cover controller 1501 When the scan information scanning the user's finger and the information stored in the cover memory unit 1503 match in step S1530, the cover controller 1501 outputs cover information through the data output unit 1505, thereby providing the tag unit 1506.
- the cover information is recorded in at least one of the NFC tag 1506a and the IC chip 1506b (S1540).
- the cover controller 1501 operates the display unit 1504 to allow the user to recognize that the authentication cover can be normally used (S1550).
- the smartphone cover 1500 may be provided to another person for payment such as a cashier.
- the car controller 1501 compares whether the set time has elapsed (S1560).
- step S1560 When the set time has elapsed in step S1560, for example, when 5 seconds have elapsed, the carba controller 1501 initializes the tag unit 1506 to lose the cover information recorded on the NFC tag 1506a and the IC chip 1506b. By doing so, the use of the smart phone cover 1500 is impossible.
- the cover controller 1501 may touch the smartphone cover 1500 once to use the cover information to initialize the tag unit 1506 so that the cover information is lost.
- the display unit 1504 may be stopped to allow the user to recognize a state in which the smart phone cover 1500 cannot be used.
- the following describes the relationship to turn on the operation of the smart phone by the contact fingerprint module of the fingerprint reader.
- FIG. 11 is a main configuration diagram of a smartphone cover as another embodiment of the present invention
- Figure 12 is a perspective view of the inside of the smartphone cover as another embodiment of the present invention
- Figure 13 is a smartphone cover as another embodiment of the present invention
- 14 is a circuit diagram of a smartphone cover according to another embodiment of the present invention
- FIG. 15 is a flowchart illustrating a processing method of the smartphone cover according to another embodiment of the present invention.
- the back cover of the smartphone cover 1500 includes a fingerprint scan unit 1520 for generating and outputting fingerprint data by a human finger, and a cover controller 1501 through a bioelectric generated when a finger is in contact with the fingerprint cover unit 1520.
- a scan unit 1502 including a bioswitch unit 1522 for activating the readout unit is configured to read fingerprint data from the scan unit 1502 and match the fingerprint data for authenticity verification stored in the cover memory unit 1503.
- a data output unit 1505 for recording a signal output from the cover controller 1501 to a tag unit 1506 such as an NFC tag 1506a or an IC chip 1506b.
- a display unit 1504 indicating whether or not its operation is performed.
- the fingerprint data stored in the cover memory unit 1503 is scanned by the fingerprint or / and finger vein through a scanning device (not shown) provided separately at financial institutions and sales offices when the back of the smartphone cover 1500 is initially issued.
- the acquired fingerprint data can be stored.
- the charging battery 1570 is formed on the back of the smart phone cover 1500 as a power supply unit 1507 for generating and storing power for the operation of the back of the smart phone cover 1500.
- the carba controller 1501 transmits and records a signal recorded in the tag unit 1506, that is, the carba information when the fingerprint data input from the scan unit 1502 and the fingerprint data stored in the carba memory unit 1503 match. After using the cover information by touching it once, it is preferable to initialize the tag unit 1506 so that the cover information is lost.
- the cover unit 1506 is held for 5 seconds to be used for a set time, for example, for the approval of the cover signal. It is also preferable to initialize the so that the cover information is lost.
- the smartphone cover 1500 includes a tag unit 1506 and a charging battery 1570 of the power supply unit 1507 on the rear surface of the smartphone cover 1500.
- the fingerprint scan unit 1550 is formed.
- the scan unit 1502 is provided with a fingerprint scan unit 1550 to place a finger on the back of the smartphone cover 1500 to scan the fingerprint.
- the fingerprint scan unit 1520 adopts a contact fingerprint scan method.
- the following describes a phone cover in which the NFC function is implemented.
- FIG. 14 is a block diagram of an algorithm capable of NFC function according to an embodiment of the present invention according to FIG. 11, and FIG. 15 is an authentication step of a phone cover capable of NFC function according to an embodiment of the present invention according to FIG. 11. Is the processing procedure of.
- the smart phone cover 1500 includes a main controller U3 for fingerprint authentication, a fingerprint scan module U4, a blood flow detection module U8, and an NFC module U5 to be used after fingerprint authentication. It consists of NFC antenna (U6) and solar cell (U1) and emergency charging battery (U2) to be used for power supply.
- the fingerprint scan module U4 will be described.
- the VDDIO line 1 of the fingerprint scan module U4 serves as a + 3V voltage input based on the positive voltage of the power supply circuit, and the VSSIO line 2 serves as a reference of the negative voltage circuit and functions as a 0V ground.
- SPICLK line 3 is connected to PTA15 / SP10_SCK L9 line of main controller (U3) to control SPI communication clock.
- CS_N line 4 is connected to PTA14 / SP10_PCSO K9 line of main controller (U3).
- MISO line 5 is connected to PTA16 / SP10_SOUT J10 line of main controller (U3) to control SPI communication input.
- MOSI line 6 is main controller ( It is connected to PTA17 / SP10_SIN H10 line of U3) to control SPI communication output, and RST_N line 8 is a control function to reset to restart fingerprint scan module (U4), VSSD line 9 is As a reference for the negative voltage circuit, it functions as 0V ground and VD Line 10 of DD provides + 3V voltage input based on the positive voltage of the power supply circuit. Line 11 of IRQ outputs the image scan completion signal of the fingerprint scan module (U4).
- Line 14 of VDDA Is the + 3V voltage input of the power supply circuit, + 3V voltage input function, VSSA line 17 is the (-) voltage circuit reference, 0V ground function, VDDX line 19 is the (+) Based on the voltage, it functions as a + 3V voltage input, and the configuration as described above scans the fingerprint in the fingerprint scan module U4 and transmits the SPI communication to the main controller U3.
- SPI communication refers to the international standard communication method.
- the GND line 1 of the blood flow detection module U8 is connected to the PTA2 J7 line of the main controller U3 to provide a + 3V voltage input function, and the GND line 2 is a reference of (-) voltage and is grounded at 0V.
- GNDA line 3 is connected to ADCO_DM1 line of main controller (U3) and serves as a reference for the negative voltage among analog signals. It functions as an analog 0V ground and line AO 4 is connected to main controller (U3). It is connected to the ADCO_DP1 line and outputs a positive voltage among analog signals.
- the configuration as described above allows the main controller U3 to control the blood flow detection module U8 to detect blood flow.
- the GND line 1 of the NFC module U5 serves as a reference of the (-) voltage and has a 0V grounding function
- the LB line 2 is connected to the LB line 2 of the NFC antenna U6 to amplify a received signal.
- FD line 3 is connected to the PTAO J6QJS line of the main controller (U3) to receive a control signal for NFC short-range wireless communication output
- LA line 4 is LA 1 of the NFC antenna (U6).
- the configuration as described above enables the near field communication by controlling the NFC module (U5) in the main controller (U3).
- the LA line 1 of the NFC antenna U6 is connected to the LA line 4 of the NFC module U5 to function as an antenna for signal amplification
- the LB line 2 is connected to the LB line 2 of the NFC module U5.
- the configuration as described above enables the NFC module (U5) short-range wireless communication.
- the 3V line 1 of the solar cell U1 is connected to all VCC lines of the circuit diagram based on the positive voltage of the power supply circuit, and the corresponding lines are E5, E6, E7, J1, and L10 of the main controller U3.
- line 2 of GND As a reference for the negative voltage circuit, it functions as a 0V ground and is connected to all GND lines of the circuit diagram.
- the lines are the G3, G7, J2, K10, and L6 lines of the main controller (U3), and the fingerprint scan module (U4).
- Lines 2, 9, and 17, and line 2 of the emergency charging battery (U2) function to supply the negative voltage of all power sources.
- the configuration as described above charges the power supply and emergency charging battery (U2) of all modules of the fingerprint authentication card.
- the 3V line 1 of the emergency charging battery (U2) is connected to the 3V line 1 of the solar cell (U1) and functions as a + 3V voltage output based on the positive voltage of the power circuit. It is connected to the GND line 2 of the battery U1 and serves as a reference of the (-) voltage circuit, and has a 0V grounding function.
- the above configuration provides the auxiliary power supply of the fingerprint authentication card.
- the VDD E5 line of the main controller (U3) functions as a + 3V voltage input based on the positive voltage of the power supply circuit
- the VDD E6 line is a + 3V voltage input function as a positive voltage reference of the power supply circuit.
- the VDD E7 line functions as a + 3V voltage input based on the positive voltage of the power supply circuit
- the ADC1_DP1 / ADCO_DP2 J1 line functions as a + 3V voltage input as a positive voltage reference in the power circuit.
- VDD L10 line is + 3V voltage input based on (+) voltage of power circuit
- VSS G3 line is a reference of (-) voltage circuit, 0V ground function
- VSS G7 line is ( -)
- ADC1_DM1 / ADCO_DM2 J2 line is the (-) voltage circuit reference, 0V grounding function
- VSS K10 line is the (-) voltage circuit reference, 0V ground function
- VSS L6 line is the reference of (-) voltage circuit, 0V ground function
- ADC0_DP1 H1 line is It is connected to the AD4 line of the flow detection module (U8) to receive the analog signal (+) and receives blood flow detection.
- the ADC0_DM1 H2 line is connected to the GND A3 line of the blood flow detection module (U8) to connect the analog signal.
- PTA3 H9 line is connected to IRQ line 11 of fingerprint scan module (U4) to detect finger contact and PTA17 / SPI_SIN H10 line. Is connected to MDSI line 6 of fingerprint scan module (U4) to control SPI communication input, and PTA0 J6 line is connected to FD line 3 of NFC module (U5) to control whether to use NFC communication.
- the PTA2 J7 line is connected to the VCC line 1 of the blood flow detection module (U8) to activate the blood flow detection module, and the PTA16 / SPI_SOUT J10 line is the fingerprint scan module (U4).
- Control function for SPI communication output connected to MIXO line 5 PTA14 / SPI_PCS0 K9 line is connected to CSN line 4 of fingerprint scan module (U4) to control SPI communication.
- PTA15 / SPI_SCK L9 line SP9 is SPICLK 3 of fingerprint scan module (U4). It is connected to the line to control the SPI communication clock signal, the above configuration is compared to the pre-stored image by scanning the fingerprint in the fingerprint scan module (U4) NFC communication using the NFC module (U5) Enable (Near Field Communication).
- SPI communication and NFC communication refer to international standard communication method.
- the fingerprint sensor module scans the fingerprint image (S112).
- the scanned fingerprint image is compared with the fingerprint image of the user to determine whether to authenticate (S113).
- the fingerprint sensor module determines whether 10 seconds have elapsed when the finger is in contact (S116).
- the following is a process of downloading and processing a financial transaction relay app from a smartphone when the smartphone is turned on by a fingerprint or / and finger vein authentication signal, that is, a program that allows unauthorized access to an affiliated bank using a customer terminal.
- the driving method is applied after the formed financial transaction relaying app is downloaded and the execution button is turned on so as to be able to authenticate with the affiliated financial company from the relaying app.
- FIG. 16 is a flowchart illustrating a procedure for relaying unauthenticated financial transactions using the multiple security lock function of the financial transaction relay system according to the present invention.
- FIG. 17 is another embodiment of the financial transaction relay system according to the present invention. This is a chart showing the procedure of relaying unauthenticated financial transactions using multiple security locks.
- a step of downloading a financial transaction relay app (hereinafter referred to as a "relay app") that forms a program allowing a non-authenticated connection with a partner bank using a smartphone as a customer terminal, Download the app (S1301).
- the relay app can also be linked by the phone number registered in the SIM card in the smartphone and the phone number listed in the member information of the bank.
- a step of selecting a financial company appears, and at this time, a consumer selects a financial company with which a transaction is made (S1303).
- the authentication of the fingerprint or / and finger vein is not performed even if the authentication is performed according to a predetermined procedure, it is terminated. If authentication is performed according to the procedure (S1306), the next step is to input an authentication signal. The process goes to the authentication number input step (S1307).
- the authentication signal corresponds to a password, a password, human body information, etc., and the user can select the desired signal.
- the authentication signal is incorrectly input or does not meet the requirements, it is terminated and restarted.
- the electronic commerce can be authenticated to pass through the middleware and be transacted without authentication.
- the financial settlement can be selected (S1309).
- the following is a step of restarting if the registration is not authenticated when the execution button is turned ON to download the financial transaction relay app that forms a program that allows unauthenticated access with a partner bank using a smartphone, which is a customer terminal.
- the fingerprint or / and the finger vein are input so as to be input (S1322).
- the authentication signal corresponds to a password, a password, human body information, etc., and the user can select the desired signal.
- the authentication signal When the authentication signal is incorrectly input or does not meet the requirements, it is terminated and restarted.
- the authentication signal input is completed (S1325), the authentication signal is authenticated so as to pass through the middleware and select e-commerce or financial settlement without authentication. It is to be made (S1313).
- the car controllers 501 and 1501 are connected by fingerprints and / or finger vein authentication signals interlocked in the smartphone cover shown in FIGS. 2 and 3.
- the NFC electronic operation unit 506 1506, which is operated, and then the data output unit 505, 1505 is operated from the cover controller 501, 1501, and is output from the data output unit 505, 1505.
- a signal for example, a signal for turning on a smartphone by a single touch and a signal for driving a financial transaction arbitration app of a smartphone by a third touch
- the execution buttons shown in FIGS. 16 and 17 are turned on.
- step S132 the financial company that deals with the transaction is selected on the screen of the smartphone.
- the driving procedure is executed as it is.
- the smartphone cover itself is equipped with data of fingerprint or / and finger vein, and the user's fingerprint or / And after reading and reading the finger vein, it is not possible to use it is effective in improving the security and reliability of the authenticity check of the smartphone cover users in the implementation of the smartphone on.
- fingerprints and / or finger veins can be simultaneously authenticated, which can significantly improve the false recognition rate of the fingerprint, reducing the false recognition rate of the fingerprint, and easily accepting human body information on the fingerprint with just one finger. Therefore, there is an effect that can bring out the effect of security that can replace the fingerprint recognition of the smartphone itself.
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Abstract
The present invention relates to a main controller (U3) comprising: a scan unit formed in an authentication cover so as to scan the fingerprint from a finger of a user; a cover memory unit for storing cover information of the authentication cover and fingerprint data for confirming the identity of the user; a data output unit for recording the cover information in a tag unit formed in the authentication cover; a cover controller, which receives fingerprint data from the scan unit so as to compare the same with the fingerprint data, stored in the cover memory unit, for confirming the identity of the user, thereby recording cover information in the tag unit through the data output unit; and a power unit for generating and charging power for operation of the authentication cover, wherein an authentication processing algorithm of the authentication cover is linked with fingerprint authentication of the authentication cover and fingerprint recognition through NFC short-range wireless communication such that short-range wireless communication of an NFC module is operated.
Description
본 발명은 스마트폰을 작동시키는 스마트폰 카바 및 이것의 처리방법과 이에 연동되는 금융거래 중계 앱의 처리방법에 관한 것이다. 특히 손가락지문과 지정맥을 통합하여 각각 또는 동시에 인증하여 사용할 수 있는 스마트폰 카바로서, 본인의 인체정보가 아니면 사용할 수 없도록 창안된 지문인식 또는 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바 및 이것의 처리방법과 이에 연동되는 금융거래 중계 앱의 처리방법에 관한 것이다.The present invention relates to a smart phone cover for operating a smart phone and a processing method thereof and a financial transaction relay app processing method linked thereto. In particular, it is a smartphone cover that can be used by integrating finger fingerprints and finger vein separately or simultaneously.It is a smartphone cover that operates a smartphone using fingerprint recognition or finger vein recognition, which is created so that it cannot be used unless it is the human body information. And a processing method thereof and a processing method of a financial transaction relay app linked thereto.
본 발명자는 이미 스마트폰을 지문으로 온시키는 기술을 10-2016-93315에서 연구 개발되어 출원하고 있다.The present inventors have already researched and applied a technology for turning on a smartphone with a fingerprint in 10-2016-93315.
이러한 생체정보를 이용한 기술은 특히 손가락의 이용한 지문의 활용은 상당한 효과를 거두고 있다.In such a technique using biometric information, the use of a fingerprint using a finger has a considerable effect.
그러나, 보안에 있어서 지문인식의 경우에는 지문 겉면이 쉽게 위조 및 복사가 가능하다는 문제점이 있었다. 또한 습기나 이물질이 손가락에 묻어 있는 경우나 손가락 피부의 훼손과 변형이 있는 경우 등, 잦은 인증 오류가 지적되었다. 지문인식의 오인식률은 약 5%에 이르는 것으로 알려졌다. 예컨대 100명 중 5명 정도의 지문을 인식하지 못한다는 것이다.However, in the case of fingerprint recognition, there is a problem that the surface of the fingerprint can be easily forged and copied. Frequent authentication errors have also been pointed out, such as moisture or debris on the fingers, or damage and deformation of the skin of the fingers. False recognition rate of fingerprint recognition is known to reach about 5%. For example, 5 out of 100 fingerprints are not recognized.
한편, 홍체 인식기술에서는 거리와 각도에 따른 오류 문제가 지적되었다. 또한 대상자가 컬러 콘텐트렌즈를 착용했다거나 라식, 라섹 수술을 받았을 경우에 인증에 실패한다는 문제점이 있었다. 특히 인증에 소요되는 시간이 길었다.On the other hand, in the iris recognition technology, an error problem according to distance and angle was pointed out. In addition, there was a problem that authentication fails when the subject wears a color content lens or undergoes LASIK or LASEK surgery. In particular, the time required for certification was long.
카드에 있어서 NFC(Near Field Communication)방식은 비접촉의 근거리 통신으로 보안에 유리하여 스마트폰에 적용되면서 활성화되었고, NFC 통신은 NFC 리더기와 NFC 태그(Tag) 사이에서 무선으로 이뤄지고, 그리고 NFC 태그는 정보를 저장하고 있는 NFC칩과 루프안테나(Loop Antenna)로 구성이 되어 있다.The NFC (Near Field Communication) method in the card is contactless short-range communication is activated by being applied to the smart phone in favor of security, NFC communication is wirelessly between the NFC reader and the NFC tag (tag), and the NFC tag is information It consists of an NFC chip and a loop antenna that stores the antenna.
상기 NFC 기술은 유도 결합(inductive coupling)으로 동작하는 통신 인터페이스를 포함하는 구성요소를 포함하고, 리더(Reader) 모드와 카드 에뮬레이션(Card Emulation) 모드를 포함하는 2개 이상의 동작 모드를 가진다.The NFC technology includes a component that includes a communication interface that operates in inductive coupling and has two or more modes of operation including a reader mode and a card emulation mode.
그리고, NFC 통신부는 외부와 예를 들어 13.56㎒ 대역에서 RFID 리더 기능 및/또는 태그 기능을 수행하도록 하는 근거리 데이터 통신을 수행한다.And, the NFC communication unit performs short-range data communication with the outside to perform the RFID reader function and / or tag function in the 13.56MHz band, for example.
또한, 마그네트(이하, 'MGT'라 한다) 카드의 해독방법으로, 마그네트를 갖춘 마그네트카드에는 마그네트띠에 3개의 마그네트트랙이 있다. 마그네트트랙 단편에는 자속(磁束)이 선무늬 모양으로 새겨져 있다. 자속 간의 간격은 이진정보 0이나 1에 따라 바뀐다. 서로 연속되는 자속은 그때 그때마다 대응되는 마그네트화 방향을 가지고 작동되는 것이다.In addition, as a method of decrypting a magnet (hereinafter, referred to as 'MGT') card, a magnet card having a magnet has three magnet tracks in a magnet strip. Magnetic track fragments are engraved with a linear pattern. The spacing between the magnetic fluxes changes depending on the binary information 0 or 1. Successive magnetic fluxes are then operated with the corresponding magnetization directions.
위와 같은 생체인식 기술보다 내위조성, 오인식률(False Acceptance Rate), 오거절률(False Reject Rate), 등록실패율(Failure to Enroll Rate), 인증시간 등 모든 면에서 우수한 생체정보로서 지정맥 인증기술이 알려졌다. 지정맥 인증기술은 근적외선을 손가락에 투과시켜 정맥 패턴을 인식하는 기술이다. 혈관내부를 인증하기 때문에 위변조가 불가능하며, 죽은 사람의 지정맥 패턴은 활용할 수 없다는 장점도 있다.Fingerprint vein authentication technology is superior to biometrics in all aspects such as forgery resistance, false acceptance rate, false reject rate, failure to enroll rate, and authentication time. Became known. Finger vein authentication technology recognizes vein patterns by transmitting near infrared rays through fingers. Forgery modulation is impossible because of the internal blood vessels, and the vein pattern of the dead can not be utilized.
이러한 지정맥 인증기술은 CCD 카메라를 이용하여 지정맥 이미지를 얻는 하드웨어 장치 기술과, 지정맥 이미지를 패턴처리 프로그램을 이용해서 지정맥 이미지를 필터링하거나 정맥 패턴을 추출하여 연산하는 소프트웨어 기술이 결합되어 있다.The finger vein authentication technology combines hardware device technology to obtain finger vein image using CCD camera, and software technology to filter finger vein image or extract vein pattern using finger vein image using pattern processing program. .
도 1에는 일반용으로 다른 기능이 없이 사용되는 스마트폰 카바에 관한 도면이다.1 is a view of a smart phone cover used without other functions for general use.
도 2에서 보는 바와 같이, 본 발명자는 신용카드에 적용될 수 있는 기본적인 기술을 개발하였고, 이러한 인증카드(500)는 사람의 손가락에 의하여 지문데이터를 생성 출력하는 지문인식소자(502a)와 지정맥데이터를 생성 출력하는 지정맥인식소자(502b)로 형성하고 있고, 지문 및 지정맥인식소자(502a)(502b)로부터 지문 및 지정맥데이터를 읽어 들여 카드메모리부(503)에 저장된 지문 및 지정맥데이터와의 일치 여부를 판단하는 카드콘트롤러(501)와, 카드콘트롤러(501)에서 출력되는 신호를 NFC 전자작동부(506)로 출력신호를 송출하는 데이터출력부(505)로 이루어져 있고, 이의 작동여부를 표시하는 표시부(504)가 형성되어 있다.As shown in FIG. 2, the present inventors have developed a basic technology that can be applied to a credit card. The authentication card 500 includes a fingerprint recognition device 502a and finger vein data for generating and outputting fingerprint data by a human finger. And the fingerprint and finger vein data stored in the card memory unit 503 by reading the fingerprint and finger vein data from the fingerprint and the finger vein recognition device 502a, 502b. And a card controller 501 for determining whether to match with the data controller, and a data output unit 505 for transmitting an output signal to the NFC electronic operation unit 506 from the card controller 501. A display unit 504 is provided to display.
데이터출력부(505)로부터 NFC 전자작동부(506)에 송출되는 신호를 처리하는 방법은 카드소지자와 카드메모리부(503)에 저장된 지문 및 지정맥데이터가 일치할 경우에 송출되는 신호 즉, 카드정보는 0/1로 출력되는 ASC값으로 1회 터치하여 사용한 후에는 상실되는 방법이 바람직하다.The method for processing a signal transmitted from the data output unit 505 to the NFC electronic operation unit 506 is a signal transmitted when the card holder and the fingerprint and finger vein data stored in the card memory unit 503 match, that is, the card. It is preferable that the information is lost after one touch with the ASC value output as 0/1.
상기와 같이, 본 발명자는 지문이나 지정맥의 기술을 개발하여 신용카드에 적용시키는 기술을 특허출원하였던 것이다.As described above, the present inventors have applied for a technology for applying a credit card or finger vein to a credit card.
이와 같이 종래의 상기와 같은 스마트폰 자체에 지문인식 기술을 탑재하는 경우에는 사용이 편리하고, 본인 인증이 확실하나 내부 장치들의 전체적 융합이 필요하고, 단순히 쉽게 연결될 수 있는 기술이 아니라는 것은 쉽게 알 수 있다.As such, when the fingerprint recognition technology is mounted on the smart phone itself as described above, it is easy to use, and it is easy to recognize the identity, but it is easy to know that it is not a technology that can be easily connected to the overall fusion of internal devices. have.
그렇다고 해서 모든 핸드폰에 이의 지문인증기술이 탑재되어 있는 것은 아니어서, 이를 탑재하지 않은 스마트폰의 기기에는 간편하고 본인 인증이 확실한 지문인증 시스템을 활용할 수 있는 방안이 절실히 요구되었다.However, not all mobile phones are equipped with its fingerprint authentication technology, so a device that does not have a smart phone device that requires simple and reliable authentication system is urgently needed.
현재의 스마트폰에 지문인식이나 번호감지부가 있다하더라도, 스마트폰의 카바를 별도로 열거나 손가락으로 번호 터치를 해야만 통화할 수 있는 번거로움이 있었다.Even if the current smartphone has a fingerprint recognition or a number detection unit, there was a hassle that can be called only by opening the cover of the smartphone separately or touching the number with a finger.
본 발명의 목적은 스마트폰 카바 자체에 지문 또는 지정맥의 데이터를 탑재하고, 스마트폰 카바 자체에서 사용자의 지문 또는 지정맥을 읽어 들여 판독한 후가 아니면, 이를 사용할 수 없도록 하여 쉽게 스마트폰을 잡고 온시킬 수 있도록 하는 간편하고 확실한 스마트폰 카바에서의 지문 및 지정맥에 의한 인증처리 시스템을 적용하여 스마트폰을 온시키는 신호수신부에 상기 신호를 송신할 수 있도록 하여 스마트폰을 온시키는데 그 목적이 있다.An object of the present invention is to mount the data of the fingerprint or finger vein on the smartphone cover itself, and read the user's fingerprint or finger vein from the smartphone cover itself, so that you can not use it, so that you can easily hold the smartphone The purpose is to turn on the smartphone by transmitting the signal to the signal receiving unit that turns on the smartphone by applying the authentication processing system by the fingerprint and finger vein in the simple and reliable smartphone cover that enables to turn on the smartphone. .
현재의 스마트폰의 카바에 지문 또는/및 지정맥의 인증을 할 수 있도록 하여 지문인식이나 번호감지부가 있다하더라도, 스마트폰의 카바를 별도로 열거나 손가락으로 번호를 터치하지 않더라도 스마트폰을 온시켜 귀에 대고 사용할 수 있도록 하는데 그 목적이 있다.Fingerprints and / or finger veins can be authenticated to the cover of the current smartphone so that even if there is a fingerprint recognition or number detection unit, the smartphone can be turned on to the ear without opening the cover of the smartphone or touching the number with a finger. Its purpose is to make it available for use.
본 발명은 인증카바에 형성되어 사용자의 손가락으로부터 지문 또는/및 지정맥을 스캔하기 위한 스캔부; 상기 인증카바의 카바정보와 사용자의 진성확인을 위한 지문 또는/및 지정맥데이터를 저장하는 카바메모리부; 상기 인증카바에 형성된 태그부에 카바정보를 기록하기 위한 데이터출력부; 상기 스캔부로부터 지문 또는/및 지정맥데이터를 입력받아 상기 카바메모리부에 저장된 진성확인을 위한 지문 또는/및 지정맥데이터와 비교하여 상기 데이터출력부를 통해 카바정보를 상기 태그부에 기록하는 카바콘트롤러; 및 상기 인증카바의 작동을 위한 전력을 생성하여 충전하는 전원부;를 포함하되, 상기 스캔부는 상기 손가락이 접촉될 경우 발생되는 생체전기를 통해 상기 카바콘트롤러를 활성화시키는 생체스위치부를 더 포함하고, 상기 카바콘트롤러에서 출력되는 신호를 NFC 전자작동부로 송출하는 데이터출력부로 이루어져 있고, 상기 전원부로서 감압전원센서(1509)가 손가락 수용부(1523)의 하단부에 형성되고, 상기 생체스위치부는 스캔부로부터 지문 또는 지정맥 정보를 획득 시, 손가락의 온도를 감지하는 온도 센서와 손가락에 흐르는 혈액을 인식하는 혈류 인식 센서 중 적어도 하나를 더 구비하는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.The present invention is formed in the authentication cover scan unit for scanning the fingerprint or / and finger vein from the user's finger; Caba memory unit for storing the Kaaba information of the authentication cover and fingerprint or / and finger vein data for authenticity confirmation of the user; A data output unit for recording cover information on the tag portion formed in the authentication cover; Caba controller receives the fingerprint or / and finger vein data from the scan unit and compares the fingerprint or / and finger vein data for the authenticity stored in the cover memory to record the cover information through the data output unit in the tag unit ; And a power supply unit generating and charging power for operating the authentication cover, wherein the scan unit further comprises a bioswitch unit that activates the carba controller through a bioelectric generated when the finger is in contact with the cover. It consists of a data output unit for transmitting a signal output from the controller to the NFC electronic operation unit, the pressure-sensitive power sensor 1509 is formed at the lower end of the finger receiving unit 1523 as the power supply unit, the bioswitch unit fingerprint or designation from the scanning unit When acquiring the Mac information, the smart sensor to operate the smart phone using the fingerprint and finger vein recognition, characterized in that it further comprises at least one of a temperature sensor for detecting the temperature of the finger and blood flow recognition sensor for recognizing the blood flowing through the finger. It's von Caba.
또한, 본 발명의 상기 스캔부는 상기 손가락의 지문을 스캔하기 위해 가시선을 조사하는 가시선 광원부와 지문을 촬영하는 지문이미지센서를 포함하는 지문스캔부; 또는/및 상기 손가락의 지정맥을 스캔하기 위해 적외선을 조사하는 적외선 광원부와 지정맥을 촬영하는 지정맥이미지센서를 포함하는 지정맥스캔부를 포함하는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.In addition, the scan unit of the present invention includes a fingerprint scan unit including a visible light source unit for irradiating the visible line to scan the fingerprint of the finger and a fingerprint image sensor for photographing the fingerprint; Or / and the fingertip and finger vein recognition, characterized in that it comprises a finger vein scan unit including an infrared light source unit for irradiating infrared rays to scan the finger vein of the finger and the finger vein image sensor to shoot the finger vein A smartphone cover that powers your phone.
또한, 본 발명의 상기 지문스캔부는, 상기 인증카바와 상기 손가락이 접촉되는 접촉면 하부에서 상기 손가락의 접촉면을 상기 지문이미지센서로 반사시키는 반사부재를 더 포함하고, 상기 가시선 광원부는, 상기 인증카바와 상기 손가락이 접촉되는 접촉면을 향해 경사지게 형성되는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.The fingerprint scanning unit may further include a reflecting member reflecting the contact surface of the finger to the fingerprint image sensor under the contact surface where the authentication cover and the finger are in contact, wherein the visible light source unit may include the authentication cover. It is a smartphone cover that operates the smartphone using a fingerprint and finger vein recognition, characterized in that the inclined toward the contact surface where the finger is in contact.
또한, 본 발명의 상기 감압전원센서(1509)는 한쪽의 부도체 필름의 대지에는 고분자 도전체막을 적층 형성하고 다른쪽의 부도체 필름의 대지에는 고분자 도전체막을 매트릭스 전극을 형성하고, 그 상면에 탄소분말과 텅스텐산화분말을 합성수지 접합제로 혼합적층한 감압저항 가변형 압력센서소자(3)를 적층 형성한 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.In addition, the pressure-sensitive power sensor 1509 of the present invention forms a polymer conductor film on the ground of one non-conductor film and a polymer electrode film on the ground of the other non-conductor film to form a matrix electrode, and carbon powder on the upper surface thereof. It is a smartphone cover that operates the smartphone using fingerprint and finger vein recognition, characterized in that the pressure-sensitive and variable pressure sensor element (3) laminated by stacking a tungsten oxide powder mixed with a synthetic resin binder.
본 발명은 인증카바에 형성되어 사용자의 손가락으로부터 지문을 스캔하기 위한 스캔부; 상기 인증카바의 카바정보와 사용자의 진성확인을 위한 지문데이터를 저장하는 카바메모리부; 상기 인증카바에 형성된 태그부에 카바정보를 기록하기 위한 데이터출력부; 상기 스캔부로부터 지문데이터를 입력받아 상기 카바메모리부에 저장된 진성확인을 위한 지문데이터와 비교하여 상기 데이터출력부를 통해 카바정보를 상기 태그부에 기록하는 카바콘트롤러; 및 상기 인증카바의 작동을 위한 전력을 생성하여 충전하는 전원부;를 포함하되, 상기 인증카바의 인증처리 알고리즘은 인증카바의 지문 인증과 NFC 근거리 무선 통신를 통하여 지문인식과 연동되어 NFC모듈 근거리 무선 통신을 작동시키는 메인컨트롤러(U3); 지문 이미지를 스캔하는 지문스캔모듈(U4); 지문 인증이 되었을 경우 NFC 근거리 무선 통신을 가능하게 활성시키는 NFC모듈(U5); 상기 메인컨트롤러(U3) 및 지문스캔모듈(U4), NFC모듈(U5)에 대하여 전원을 공급하는 충전밧테리(U2); 를 포함하는 것을 특징으로 하는 지문인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.The present invention is formed in the authentication cover scan unit for scanning the fingerprint from the user's finger; Caba memory unit for storing the Kaaba information of the authentication cover and fingerprint data for authenticity confirmation of the user; A data output unit for recording cover information on the tag portion formed in the authentication cover; A cover controller that receives the fingerprint data from the scan unit and compares the fingerprint data stored in the cover memory with the fingerprint data to record the cover information through the data output unit in the tag unit; And a power supply unit configured to generate and charge power for the operation of the authentication cover, wherein the authentication processing algorithm of the authentication cover is connected with the fingerprint recognition through the NFC authentication and the NFC near field communication to perform NFC module short range wireless communication. A main controller (U3) to operate; A fingerprint scan module U4 for scanning a fingerprint image; NFC module (U5) to enable NFC near-field wireless communication when the fingerprint has been authenticated; Charging battery (U2) for supplying power to the main controller (U3), fingerprint scan module (U4), NFC module (U5); The smart phone cover for operating the smart phone using a fingerprint recognition, characterized in that it comprises a.
그리고, 본 발명에 있어서, 상기 NFC모듈(U5)의 GND 1번 라인은 (-)전압의 기준으로서, 0V 접지 기능을 하며, LB 2번 라인은 NFC안테나(U6)의 수신 신호 증폭을 위한 기능을 하며, FD 3번 라인은 메인컨트롤러(U3)의 제어 신호를 입력 받아 NFC 근거리 무선 통신 출력을 위한 기능을 하며, LA 4번 라인은 NFC안테나(U6)의 수신 신호 증폭을 위한 기능을 하는 것으로, 메인컨트롤러(U3)에서 NFC모듈(U5)를 제어하여 근거리 무선 통신을 가능하는 것을 특징으로 하는 지문인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.And, in the present invention, the GND line 1 of the NFC module (U5) is a reference of the (-) voltage, 0V ground function, LB line 2 is a function for amplifying the received signal of the NFC antenna (U6) FD line 3 receives the control signal of the main controller (U3) to function for the NFC short-range wireless communication output, LA line 4 is to function to amplify the received signal of the NFC antenna (U6). The smartphone is a smartphone that operates the smartphone by using a fingerprint recognition, characterized in that the short-range wireless communication by controlling the NFC module (U5) in the main controller (U3).
그리고, 본 발명에 있어서, 상기 지문스캔모듈(U4)의 VDDIO 1번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSSIO 2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, SPICLK 3번 라인은 메인컨트롤러(U3)의 PTA15/SP10_SCK L9번 라인과 연결되어 SPI통신 클럭을 신호 위한 제어 기능을 하며, CS_N 4번 라인은 메인컨트롤러(U3)의 SPI통신 선택을 위한 제어 기능을 하며, MISO 5번 라인은 메인컨트롤러(U3)의 SPI통신 입력을 위한 제어 기능을 하며, MOSI 6번 라인은 메인컨트롤러(U3)의 SPI통신 출력을 위한 제어 기능을 하며, RST_N 8번 라인은 지문스캔모듈(U4)을 다시 시작할 수 있게 RESET 위한 제어 기능을 하며, VSSD 9번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VDDD 10번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, IRQ 11번 라인은 지문스캔모듈(U4)의 이미지 스캔완료 신호를 출력하는 기능을 하며, VDDA 14번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSSA 17번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VDDX 19번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하는 것으로, 상기 지문스캔모듈(U4)에서 지문을 스캔하여 메인컨트롤러(U3)로 SPI통신으로 전송하는 것을 특징으로 하는 지문인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.In the present invention, the VDDIO line 1 of the fingerprint scan module U4 serves as a + 3V voltage input based on the positive voltage of the power supply circuit, and the VSSIO line 2 serves as a reference of the negative voltage circuit. It has 0V grounding function. SPICLK line 3 is connected to PTA15 / SP10_SCK L9 line of main controller U3 to control SPI communication clock signal. CS_N line 4 of main controller U3 MPI line 5 controls the SPI communication input of the main controller (U3), and MOSI line 6 provides the control function for the SPI communication output of the main controller (U3). The RST_N line 8 is a control function to reset the fingerprint scan module (U4) to be restarted.The VSSD line 9 serves as a reference for the negative voltage circuit and has a 0V grounding function, and the VDDD line 10 + 3V voltage input function based on the positive voltage of the power supply circuit, IRQ 11 Line 1 outputs the image scan completion signal of the fingerprint scan module (U4) .VDDA line 14 functions as a + 3V voltage input based on the positive voltage of the power supply circuit, and VSSA line 17 ( -) As a reference of the voltage circuit, 0V grounding function, VDDX line 19 is a + 3V voltage input function based on the (+) voltage of the power supply circuit, by scanning the fingerprint in the fingerprint scan module (U4) The smart phone cover to operate the smart phone using the fingerprint recognition, characterized in that the transmission to the main controller (U3) SPI communication.
그리고, 본 발명에 있어서, 상기 메인컨트롤러(U3)의 VDD E5번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD E6번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD E7번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, ADC1_DP1/ADCO_DP2 J1번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD L10번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSS G3번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS G7번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, ADC1_DM1/ADCO_DM2 J2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS K10번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS L6번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, ADC0_DP1 H1번 라인은 혈류감지모듈(U8)의 아날로그신호 (+)측 입력받고 혈류감지를 확인하는 기능을 하며, ADC0_DM1 H2번 라인은 혈류감지모듈(U8)의 아날로그신호 (-)측 입력받고 혈류감지를 확인하는 기능을 하며, PTA3 H9번 라인은 지문스캔모듈(U4)의 손가락 접촉을 감지하는 기능을 하며, PTA17/SPI_SIN H10번 라인은 지문스캔모듈(U4)의 SPI통신 입력을 위한 제어 기능을 하며, PTA0 J6번 라인은 NFC모듈(U5)의 NFC통신 사용 여부를 제어하는 기능을 하며, PTA2 J7번 라인은 혈류감지모듈(U8)의 혈류감지모듈을 사용할 수 있게 활성 시키는 기능을 하며, PTA16/SPI_SOUT J10번 라인은 지문스캔모듈(U4)의 SPI통신 출력을 위한 제어 기능을 하며, PTA14/SPI_PCS0 K9번 라인은 지문스캔모듈(U4)의 SPI통신 선택을 위한 제어 기능을 하며, PTA15/SPI_SCK L9번 라인은 지문스캔모듈(U4)의 SPI통신 클럭을 신호 위한 제어 기능을 하는 것으로, 상기 지문스캔모듈(U4)에서 지문을 스캔하여 미리 저장된 이미지와 비교하여 같을 경우 NFC모듈(U5)을 이용하여 NFC통신(근거리 무선 통신) 사용할 수 있게 하는 것을 특징으로 하는 지문인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.In the present invention, the VDD E5 line of the main controller U3 serves as a + 3V voltage input function based on the positive voltage of the power supply circuit, and the VDD E6 line refers to a positive voltage reference of the power supply circuit. + 3V voltage input function, VDD E7 line is based on (+) voltage of power supply circuit, + 3V voltage input function is used, and ADC1_DP1 / ADCO_DP2 J1 line is (+) voltage reference of power circuit, + 3V voltage input function, VDD L10 line is the + voltage reference of the power circuit, + 3V voltage input function, VSS G3 line is the (-) voltage circuit reference, 0V ground function , VSS G7 line serves as a reference for the (-) voltage circuit and 0V grounding, ADC1_DM1 / ADCO_DM2 J2 line serves as a reference for the (-) voltage circuit, 0V grounding, and VSS K10 line (- As a reference for the voltage circuit, 0V ground function is provided, and VSS L6 line is a 0-V ground function as a reference for the (-) voltage circuit. The ADC0_DP1 H1 line receives the analog signal (+) of the blood flow detection module (U8) and checks the blood flow detection.The ADC0_DM1 H2 line inputs the analog signal (-) side of the blood flow detection module (U8). PTA3 H9 line detects finger contact of the fingerprint scan module U4, and PTA17 / SPI_SIN H10 line detects blood flow and detects blood flow. The PTA0 J6 line controls the NFC communication of the NFC module (U5), and the PTA2 J7 line activates the blood flow detection module of the blood flow detection module (U8). The PTA16 / SPI_SOUT J10 line controls the SPI communication output of the fingerprint scan module U4, and the PTA14 / SPI_PCS0 K9 line controls the SPI communication selection of the fingerprint scan module U4. PTA15 / SPI_SCK line L9 is the SPI communication module of the fingerprint scan module (U4). It is to control the signal, the fingerprint scan module (U4) to scan the fingerprint compared to the pre-stored image if it is the same to enable NFC communication (near field wireless communication) using the NFC module (U5) It is a smartphone cover that operates the smartphone using a fingerprint recognition.
그리고, 본 발명에 있어서, 태양전지(U1)의 3V 1번 라인은 전원 회로의 (+)전압 기준으로, 메인컨트롤러(U3) 및 지문스캔모듈(U4)의 VCC 라인에 연결되며, 모든 전원의 (+)전압을 공급하는 기능을 하고, GND 2번 라인은 (-)전압 회로의 기준으로서 0V 접지 기능을 하고, 메인컨트롤러(U3) 및 지문스캔모듈(U4)의 GND 라인에 연결되며, 모든 전원의 (-)전압을 공급하는 기능을 하는 것을 더 포함하는 것을 특징으로 하는 지문인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.In the present invention, the 3V line 1 of the solar cell U1 is connected to the VCC line of the main controller U3 and the fingerprint scan module U4 based on the positive voltage of the power supply circuit. It supplies the positive voltage, and the GND line 2 functions as 0V ground as the reference of the negative voltage circuit, and is connected to the GND line of the main controller (U3) and the fingerprint scan module (U4). A smartphone cover that operates the smartphone using fingerprint recognition, further comprising a function of supplying a negative voltage of the power source.
그리고, 본 발명에 있어서, 상기 혈류감지모듈(U8)의 GND 1번 라인은 메인컨트롤러(U3)의 +3V 전압 입력 기능을 하고, GND 2번 라인은 (-)전압의 기준으로서, 0V 접지 기능을 하며, GNDA 3번 라인은 메인컨트롤러(U3)의 아날로그 신호 중 (-)전압의 기준으로서, 아날로그 0V 접지 기능을 하며, AO 4번 라인은 메인컨트롤러(U3)의 아날로그 신호 중 (+)전압을 출력 하고, 메인컨트롤러(U3)에서 혈류감지모듈(U8)를 제어하여 혈류감지를 하게 하는 것을 더 포함하는 것을 특징으로 하는 지문인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바이다.In the present invention, the GND line 1 of the blood flow detection module U8 serves as a + 3V voltage input function of the main controller U3, and the GND line 2 serves as a reference for the negative voltage and has a 0V grounding function. GNDA line 3 is the reference for the negative voltage of the analog signal of the main controller (U3), and it functions as the analog 0V ground, and line AO 4 is the positive voltage of the analog signal of the main controller (U3). The smart phone cover to operate the smart phone using the fingerprint recognition, characterized in that further comprising the blood flow detection by controlling the blood flow detection module (U8) in the main controller (U3).
본 발명의 카바콘트롤러가 지문스캔부와 지정맥스캔부를 작동시키는 단계; 상기 카바콘트롤러가 상기 지문스캔부 또는/및 상기 지정맥스캔부로부터 지문 또는/및 지정맥데이터를 입력받는 단계; 상기 카바콘트롤러가 입력된 지문 또는/및 지정맥데이터를 카바메모리부에 저장된 진성확인을 위한 지문 또는/및 지정맥데이터와 비교하는 단계; 및 상기 카바콘트롤러가 지문 또는/및 지정맥데이터의 비교결과에 따라 카바정보를 태그부에 기록하는 단계를 포함하는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바의 처리방법이다.A carba controller of the present invention operating the fingerprint scan unit and the designated mac scan unit; The carba controller receiving fingerprint or / and finger vein data from the fingerprint scan unit and / or the finger vein scan unit; Comparing the fingerprint or / and finger vein data input by the carba controller with the fingerprint or / and finger vein data for authenticity verification stored in the cover memory; And the Kava controller recording the Kava information in the tag unit according to the comparison result of the fingerprint or / and the finger vein data. How to deal with it.
또한, 본 발명은 생체스위치부로부터 손가락의 접촉으로 발생된 생체전기를 통해 상기 카바콘트롤러를 활성화시키는 단계를 더 포함하는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바의 처리방법이다.In addition, the present invention is a smart phone cover to operate the smart phone using a fingerprint and finger vein recognition, characterized in that further comprising the step of activating the car bar controller through the bioelectricity generated by the contact of the finger from the bio switch unit The treatment method of.
또한, 본 발명은 상기 카바콘트롤러가 카바정보를 상기 태그부에 기록한 후 표시부를 작동시키는 단계를 더 포함하는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바의 처리방법이다.In addition, the present invention further comprises the step of operating the display unit after the carba controller writes the cover information to the tag unit, characterized in that for operating the smartphone using a fingerprint and finger vein recognition, characterized in that the processing method of the smartphone cover. to be.
또한, 본 발명은 상기 카바콘트롤러가 카바정보를 상기 태그부에 기록한 후 카바정보가 사용된 경우 상기 태그부를 초기화하는 단계를 더 포함하는 것을 특징으로 하는 지문과 지정맥 인식을 이용하여 스마트폰을 작동시키는 스마트폰 카바의 처리방법이다.The present invention further includes the step of initializing the tag unit when the cover information is used after the cover controller writes the cover information to the tag unit, and operates the smartphone using fingerprint and finger vein recognition. It is a processing method of the smartphone cover.
본 발명은 고객 단말기를 이용하여 제휴은행과 무인증접속을 허용하는 프로그램을 형성한 금융거래 중계 앱을 다운받는 단계로서, 고객단말기에 상기 중계 앱을 다운받는 단계(S1301); 상기 중계 앱으로부터 제휴한 금융회사와 무인증접속할 수 있도록 실행버튼을 ON하는 단계(S1302); 다음 단계로서 중계 앱을 통해 거래코저하는 금융회사를 선택하는 단계(S1303); 다음 단계로서 지문 또는/및 지정맥의 인증으로 거래할 수 있도록 인증을 받아 등록된 수요자인지 여부를 판단하는 단계(S1304); 등록된 수요자일 경우에는 전자상거래나 금융결재를 위하여 무인증접속을 위하여 지문 또는/및 지정맥을 입력하는 단계(S1305); 상기 지문 또는/및 지정맥의 인증이 소정의 절차에 따라 이행하여도 인증이 되지 않을 경우에는 종료가 되며, 상기 절차에 의하여 지문 또는/및 지정맥의 인증이 이루어질 경우(S1306)에는 미들웨어에 통과될 수 있도록 인증되어 무인증으로 거래할 수 있는 전자 상거래 또는 금융결제를 선택하는 단계(S1309); 상기 전자 상거래 또는 금융결제의 선택에 의하여 이후부터는 무인증 금융거래를 중계하는 단계(S1310); 상기 무인증금융거래 중계시 최종 결제의 요청이 있을 경우에는 본인이 등록한 인증신호를 입력하게 되는 단계(S1311)로 이루어져 무인증 금융거래의 결제가 승인되는 것(S1313)을 포함하고, 상기 등록된 수요자인지 여부를 판단하는 단계(S1304)에서 수요자가 아닌 것으로 판단하게 되면, 다음 단계로서 무인증접속등록단계를 인증받기 위한 금융회사를 선택하는 단계(S1321); 다음 단계로서 지문 또는/및 지정맥의 인증으로 거래할 수 있도록 입력하는 단계(S1322); 절차에 의하여 지문 또는/및 지정맥의 등록이 이루어질 경우(S1323)에는 미들웨어에 통과될 수 있는 등록이 이루어져 무인증금융거래가 가능한 것을 수요자에게 통보하는 단계(S1326);를 포함하는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법이다.The present invention is a step of downloading a financial transaction relay app that forms a program allowing a non-authenticated connection with a partner bank using a customer terminal, the step of downloading the relay app to a customer terminal (S1301); Step S1302 to turn on the execution button to be authenticated access to the affiliated financial company from the relay app; Selecting a financial company that deals with the transaction as a next step (S1303); As a next step (S1304) to determine whether or not the registered consumer is authenticated to be able to transact with the fingerprint or / and finger vein authentication; In the case of a registered consumer, inputting a fingerprint or / and a finger vein for an unauthorized connection for electronic commerce or financial settlement (S1305); If authentication is not performed even if the fingerprint or / and finger vein authentication is performed according to a predetermined procedure, it is terminated. If authentication of the fingerprint or finger vein is performed by the procedure (S1306), it passes to the middleware. Selecting an electronic commerce or a financial settlement that can be authenticated so that the transaction can be performed without authentication (S1309); Relaying an unauthenticated financial transaction thereafter by selection of the electronic commerce or financial settlement (S1310); If there is a request for a final payment when the unauthenticated financial transaction is relayed, the method includes inputting an authentication signal registered by the user (S1311), and the payment of the uncertified financial transaction is approved (S1313). In step S1304, if it is determined that the user is not the consumer, the next step is to select a financial company to be authenticated as an unauthorized access registration step (S1321); Inputting to be transacted with fingerprint or / and finger vein authentication as a next step (S1322); If the fingerprint or / and finger vein registration is made by the procedure (S1323), the registration is made to pass through the middleware to notify the consumer that the unauthenticated financial transaction is possible (S1326); smart phone comprising a It is a method of processing a financial transaction relay app linked to Kaaba.
또한, 본 발명은 지문 또는/및 지정맥의 인증이 이루어질 경우(S1306)에, 부가하여 다음 단계인 인증신호를 입력하도록 하는 인증신호 입력단계(S1307)를 더 포함하되, 상기 인증신호가 잘못 입력되거나 요건에 맞지 않을 경우에는 종료되어 다시 시작하도록 하고, 이의 인증신호입력이 완결될 경우(S1308)에는 미들웨어에 통과될 수 있도록 인증되는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법이다.In addition, the present invention further includes an authentication signal input step (S1307) for inputting an authentication signal, which is a next step, when the fingerprint or / and the finger vein is authenticated (S1306), but the authentication signal is incorrectly input. If it does not meet the requirements or is terminated and restarted, and when the input of the authentication signal is completed (S1308) processing of the financial transaction relay app linked to the smartphone cover, characterized in that the authentication to pass through the middleware Way.
또한, 본 발명은 상기 지문 또는/및 지정맥의 등록이 이루어질 경우(S1323)에 부가하여 다음 단계로서 인증신호를 입력하는 단계(S1324)을 더 포함하되, 이의 인증신호입력이 완결될 경우(S1325)에, 미들웨어에 통과될 수 있는 등록이 이루어지는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법이다.In addition, the present invention further includes a step (S1324) of inputting an authentication signal as a next step in addition to the registration of the fingerprint or / and the finger vein (S1323), when the authentication signal input thereof is completed (S1325). ), A method of processing a financial transaction relay app linked to the smartphone cover, characterized in that registration is made to pass through the middleware.
또한, 본 발명의 상기 인증신호는 지문 또는/및 지정맥이나, 패스워드, 비밀번호, 얼굴인식신호 및 홍채인식신호 중 어느 하나인 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법이다.In addition, the authentication signal of the present invention is a fingerprint or / and a finger vein, password, password, facial recognition signal and iris recognition signal is a processing method of the financial transaction relay app linked to the smartphone cover, characterized in that any one of. .
또한, 본 발명의 상기 지문 또는/및 지정맥의 인증은 상기 고객 단말기로부터 상기 지정맥 정보와 상기 지문 정보를 전송받아서 1 차로 상기 지정맥 정보를 이용하여 사용자 인증을 처리하고, 상기 지정맥 정보로부터 동일 유사한 것이 다수 있음으로써 사용자 식별이 불가능하면, 2 차로 상기 지문 정보를 이용하여 상기 동일 유사한 다수의 지정맥 정보 중에서 사용자 인증을 처리하는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법이다.In addition, the authentication of the fingerprint or / and finger vein of the present invention receives the finger vein information and the fingerprint information from the customer terminal primarily processes the user authentication using the finger vein information, from the finger vein information If the user identification is impossible because there are a plurality of the same similar, the second process of the financial transaction relay app linked to the smartphone cover, characterized in that for processing the user authentication from the same plurality of finger vein information using the fingerprint information. Way.
본 발명의 효과는 스마트폰 카바 자체에 지문 또는 지정맥의 데이터를 탑재하고, 인증카바 자체에서 사용자의 지문 또는/및 지정맥을 읽어들여 판독한 후가 아니면, 이를 사용할 수 없도록 하여 타인이 이를 사용하는 데 있어서 사용자의 진성 확인의 보안성과 신뢰성을 높일 수 있도록 하는 효과가 있는 것이다.The effect of the present invention is that the smartphone cover itself is equipped with the data of the fingerprint or finger vein, and other users use it so that it can not be used unless after reading the user's fingerprint or / and finger vein in the authentication cover itself In doing so, it is effective to increase the security and reliability of the authenticity check of the user.
또한, 스마트폰에 수신 신호가 올 경우에는 스마트폰 카바를 그대로 잡기만 하면, 지문 또는/및 지정맥의 인증신호를 받아 스마트폰이 온되므로 그대로 전화를 귀에 대고 받을 수 있는 장점이 있다.In addition, when the received signal to the smart phone, as long as you hold the smartphone cover as it is, there is an advantage that can receive the phone as it is because the smartphone is turned on by receiving the authentication signal of the fingerprint or / and finger vein.
스마트폰이 온 된 후에는 각종 앱을 활성화시켜 스마트폰을 활용하게 되는 효과가 있는 것이다. After the smartphone is turned on, it is effective to utilize various smartphones by activating various apps.
더구나, 이중 보안이 필요한 경우에는 지문의 오인식률을 현저하게 개선할 수 있는 지문과 지정맥을 동시에 인증함으로써 지문의 오인식률을 줄이고, 지문에 대한 사람의 인체정보를 손가락 하나만으로도 쉽게 인정할 수 있으므로, 번호 터치나 자체 지문인증을 대체할 수 있는 보안의 효과를 자아낼 수 있는 효과가 있다.In addition, when double security is required, fingerprint and finger vein can be simultaneously authenticated, which can significantly improve the false recognition rate of the fingerprint, thereby reducing the false recognition rate of the fingerprint, and the human body information of the fingerprint can be easily recognized with a single finger. There is an effect that can produce a security effect that can replace the number touch or its own fingerprint authentication.
또한, 스마트폰 카바 자체에서 전원 공급이 이루어지도록 하여 대기전력 소모를 최소화할 수 있는 효과가 있다.In addition, the power supply is made in the smartphone cover itself has the effect of minimizing standby power consumption.
도 1은 종래 발명의 실시예로서 스마트폰 카바의 사시도1 is a perspective view of a smartphone cover as an embodiment of the prior invention
도 2는 본 발명자의 선출원에 기재된 융합 인증카드의 주요구성도 2 is a main configuration diagram of the fusion authentication card described in the present application of the present inventors
도 3은 본 발명의 실시예로서 스마트폰 카바의 주요구성도 3 is a main configuration of the smartphone cover as an embodiment of the present invention
도 4는 본 발명의 실시예로서 스마트폰 카바의 배면 사시도 4 is a rear perspective view of the smartphone cover as an embodiment of the present invention;
도 5는 본 발명의 다른 실시예로서 스마트폰 카바의 배면 사시도 5 is a rear perspective view of the smartphone cover as another embodiment of the present invention
도 6은 본 발명의 실시예로서 스마트폰 카바의 내면 정면도 6 is a front view of the inner surface of the smartphone cover as an embodiment of the present invention
도 7은 본 발명의 실시예에 따른 스마트폰 카바의 스캔부를 구체적으로 나타낸 구성도로써 (a)는 전면에서 바라본 단면도, (b)는 사시도 7 is a configuration diagram showing in detail the scanning portion of the smartphone cover according to an embodiment of the present invention (a) is a sectional view seen from the front, (b) is a perspective view
도 8은 본 발명의 다른 실시예에 따른 스마트폰 카바의 스캔부 및 감압센서를 구체적으로 나타낸 구성도로써 (a)는 전면에서 바라본 단면도, (b)는 사시도 8 is a configuration diagram showing in detail the scanning unit and the pressure-sensitive sensor of the smartphone cover according to another embodiment of the present invention (a) is a sectional view seen from the front, (b) is a perspective view
도 9는 본 발명의 스마트폰 카바의 감압센서를 구체적으로 나타낸 구성도9 is a configuration diagram showing in detail the pressure-sensitive sensor of the smart phone cover of the present invention
도 10은 본 발명의 일 실시예에 따른 스마트폰 카바의 처리방법을 설명하기 위한 흐름도 10 is a flowchart illustrating a method of processing a smartphone cover according to an embodiment of the present invention.
도 11은 본 발명의 다른 실시예로서 스마트폰 카바의 주요구성도 11 is a main configuration of the smartphone cover as another embodiment of the present invention
도 12는 본 발명의 다른 실시예로서 스마트폰 카바의 내면 사시도 12 is a perspective view of the inside of the smartphone cover as another embodiment of the present invention
도 13은 본 발명의 다른 실시예로서 스마트폰 카바의 배면 사시도 13 is a rear perspective view of a smartphone cover as another embodiment of the present invention
도 14는 본 발명의 다른 실시예에 따른 스마트폰 카바의 회로도14 is a circuit diagram of a smartphone cover according to another embodiment of the present invention
도 15는 본 발명의 다른 실시예에 따른 스마트폰 카바의 처리방법을 설명하기 위한 흐름도 15 is a flowchart illustrating a method of processing a smartphone cover according to another embodiment of the present invention.
도 16은 본 발명에 따른 금융거래 중계시스템의 다중 안전 잠금기능을 이용하여 무인증 금융거래를 중계처리하는 수순을 도시한 프로차트16 is a flowchart showing a procedure for relaying unauthenticated financial transactions using the multiple security lock function of the financial transaction relay system according to the present invention.
도 17은 다른 실시예로서, 본 발명에 따른 금융거래 중계시스템의 다중 안전 잠금기능을 이용하여 무인증 금융거래를 중계처리하는 수순을 도시한 프로차트17 is a flowchart showing a procedure for relaying an unauthenticated financial transaction using the multiple security lock function of the financial transaction relay system according to another embodiment of the present invention.
<도면 부호의 설명><Description of Drawing>
500 : 인증카드 501 : 카드콘트롤러500: authentication card 501: card controller
502a : 지문인식부 502b : 지정맥인식부502a: fingerprint recognition unit 502b: finger vein recognition unit
503 : 카드메모리부 504 ; 표시부503: card memory section 504; Display
505 : 데이터출력부 506 : NFC전자작동부505: data output unit 506: NFC electronic operation unit
1500 : 인증카바 1501 : 카바콘트롤러1500: Cab cover 1501: Cab controller
1502 : 스캔부 1503 : 카바메모리부1502: scan unit 1503: cover memory unit
1504 ; 표시부 1505 : 데이터출력부1504; Display unit 1505: data output unit
1506 : 태그부 1506a : NFC 태그 1506: Tag unit 1506a: NFC tag
1506b : IC칩 1507 : 전원부1506b: IC chip 1507: power supply
1507a : 태양전지 패널 1507b : 태양전지 패널1507a: solar cell panel 1507b: solar cell panel
1520 : 지문스캔부 1520a : 가시선 광원부1520: fingerprint scan unit 1520a: visible light source
1520b : 지문이미지센서 1520c : 반사부재1520b: fingerprint image sensor 1520c: reflective member
1521 : 지정맥스캔부 1521a : 적외선 광원부1521: Designated Max Scan Unit 1521a: Infrared Light Source
1521b : 지정맥이미지센서 1522 : 생체스위치부 1521b: finger vein image sensor 1522: biological switch unit
1523 : 손가락 수용부 1600 : 케이스 1523: finger receptacle 1600: case
본 발명을 설명함에 있어서 관련된 공지기능에 대하여 이 분야의 기술자에게 자명한 사항으로서 본 발명의 요지를 불필요하게 흐릴 수 있다고 판단되는 경우에는 그 상세한 설명을 생략한다.In the following description of the present invention, when it is determined that the subject matter of the present invention may be unnecessarily obscured by the person skilled in the art with respect to the related well-known functions, the detailed description thereof will be omitted.
도 3은 본 발명의 실시예로서 스마트폰 카바의 주요구성도이고, 도 4는 본 발명의 실시예로서 스마트폰 카바의 배면 사시도이며, 도 5는 본 발명의 다른 실시예로서 스마트폰 카바의 배면 사시도이며, 도 6은 본 발명의 실시예로서 스마트폰 카바의 내면 정면도이고, 도 7은 본 발명의 실시예에 따른 스마트폰 카바의 스캔부를 구체적으로 나타낸 구성도로써 (a)는 전면에서 바라본 단면도, (b)는 사시도이고, 도 8은 본 발명의 다른 실시예에 따른 스마트폰 카바의 스캔부 및 감압센서를 구체적으로 나타낸 구성도로써 (a)는 전면에서 바라본 단면도, (b)는 사시도이고, 도 9는 본 발명의 스마트폰 카바의 감압센서를 구체적으로 나타낸 구성도이다.3 is a main configuration of the smartphone cover as an embodiment of the present invention, Figure 4 is a rear perspective view of the smartphone cover as an embodiment of the present invention, Figure 5 is a back of the smartphone cover as another embodiment of the present invention 6 is a perspective view of the inner surface of the smartphone cover as an embodiment of the present invention, Figure 7 is a schematic view showing a scan portion of the smartphone cover according to an embodiment of the present invention (a) is a cross-sectional view seen from the front , (b) is a perspective view, Figure 8 is a schematic view showing the scan unit and the pressure-sensitive sensor of the smart phone cover according to another embodiment of the present invention (a) is a sectional view from the front, (b) is a perspective view 9 is a configuration diagram showing in detail the pressure-sensitive sensor of the smart phone cover of the present invention.
도 3에 도시된 바와 같이 스마트폰카바(1500) 배면에는 사람의 손가락에 의하여 지문데이터를 생성 출력하는 지문스캔부(1520)와 지정맥데이터를 생성 출력하는 지정맥스캔부(1521)과, 손가락이 접촉될 경우 발생되는 생체전기를 통해 카바콘트롤러(1501)를 활성화시키는 생체스위치부(1522)를 포함하는 스캔부(1502)가 형성되고, 스캔부(1502)로부터 지문 또는/및 지정맥데이터를 읽어 들여 카바메모리부(1503)에 저장된 진성확인을 위한 지문 또는/및 지정맥데이터와의 일치 여부를 판단하는 카바콘트롤러(1501)와, 카바콘트롤러(1501)에서 출력되는 신호를 NFC 태그(1506a)나 IC칩(1506b)과 같은 태그부(1506)에 기록하는 데이터출력부(1505)로 이루어져 있고, 이의 작동여부를 표시하는 표시부(1504)가 형성되어 있다. As shown in FIG. 3, the back of the smartphone cover 1500 includes a fingerprint scan unit 1520 for generating and outputting fingerprint data by a human finger, and a designated mac scan unit 1521 for generating and outputting finger vein data. A scan unit 1502 including a bio switch unit 1522 for activating the carba controller 1501 is formed through a bioelectric generated when a contact is made, and a fingerprint or / and finger vein data is read from the scan unit 1502. And a signal output from the carba controller 1501 and the carba controller 1501 to determine whether the fingerprint and / or finger vein data match for the authenticity check stored in the carba memory unit 1503, and the NFC tag 1506a or the like. The data output unit 1505 is recorded in the tag unit 1506 such as the IC chip 1506b, and a display unit 1504 indicating whether or not its operation is performed is formed.
여기서 카바메모리부(1503)에 저장되는 지문 또는/및 지정맥데이터는 스마트폰카바(1500) 배면을 초기 발급할 때 금융기관 및 판매소에 별도로 구비된 스캔장비(미도시)를 통해 지문 또는/및 지정맥을 스캔하여 취득한 지문 또는/및 지정맥데이터를 저장할 수 있다. Here, the fingerprint or / and finger vein data stored in the Kaaba memory unit 1503 is the fingerprint or / and through the scanning equipment (not shown) provided separately at financial institutions and sales office when issuing the back of the smart phone cover 1500 Fingerprints and / or finger vein data acquired by scanning finger veins can be stored.
또한, 스마트폰카바(1500) 배면의 작동을 위한 전원을 생성하여 저장하는 전원부(1507)로써 태양전지 패널(1507a)이 스마트폰카바(1500) 배면에 형성된다. In addition, the solar cell panel 1507a is formed on the back of the smartphone cover 1500 as a power supply 1507 that generates and stores power for operating the back of the smartphone cover 1500.
카바콘트롤러(1501)는 태그부(1506)에 기록하는 신호 즉, 카바정보는 스캔부(1502)로부터 입력된 지문 또는/및 지정맥데이터와 카바메모리부(1503)에 저장된 지문 또는/및 지정맥데이터가 일치할 경우 송출하여 기록한 후 1회 터치하여 카바정보를 사용한 후에는 태그부(1506)를 초기화하여 카바정보가 상실되도록 하는 것이 바람직하다.The carba controller 1501 records the signal recorded in the tag unit 1506, that is, the carba information is stored in the fingerprint or / and finger vein data inputted from the scan unit 1502 and the carba memory unit 1503 and / or finger vein. If the data match, it is preferable to initialize the tag unit 1506 so that the cover information is lost after sending and recording the data and touching it once.
다른 방법으로는, 카바콘트롤러(1501)가 태그부(1506)에 카바정보를 기록한 후 설정시간 예를 들어, 카바 신호 승인을 위해 사용하는 5초 동안 유지되어 사용 가능하도록 한 후 태그부(1506)를 초기화하여 카바정보가 상실되도록 하는 방법도 바람직하다. Alternatively, after the cover controller 1501 records the cover information in the tag unit 1506, the cover unit 1506 is held for 5 seconds to be used for a set time, for example, for the approval of the cover signal. It is also preferable to initialize the so that the cover information is lost.
또한, 카바콘트롤러(1501)는 지정맥이미지센서(1521b)로부터 입력된 지정맥 이미지의 처리와 연산을 위해 다양한 소프트웨어를 이용할 수 있다. In addition, the carba controller 1501 may use various software for processing and calculating the finger vein image input from the finger vein image sensor 1521b.
예컨대 캐니 모서리 감지(Canny edge detector) 알고리즘을 사용할 수 있다. 가우스 필터(Gaussian Filter)를 적용하여 원본 이미지의 노이즈를 전체적으로 제거할 수 있다. 이미지 그레디언트(Image Gradient)를 통해서 이미지를 모서리화 한다. 즉 이미지의 스케치 선을 추출한다. Non-maximum Supression을 적용하여 모서리(스케치선)를 얇게 만드는 작업을 실시하고, 이중 한계점(Double Threshold)를 적용하여 진한 모서리는 확실한 모서리로 분류하고, 희미한 모서리는 노이즈로 간주하여 약한 모서리로 분류한다. 그리고 마지막으로 약한 모서리들을 삭제하고, 확실한 모서리만 남기고, 최종적으로 지정맥의 모서리화된 이미지를 출력하는 것이다.For example, the Canny edge detector algorithm can be used. Gaussian filter can be applied to remove the noise of the original image as a whole. Edge the image through the Image Gradient. In other words, the sketch line of the image is extracted. Apply the Non-maximum Supression to make the edges thin (sketch line), and apply the Double Threshold to classify dark edges as solid edges and faint edges as noises as weak edges. . Finally, it deletes the weak edges, leaves only the obvious edges, and finally prints the edged image of the finger vein.
그리고, 스마트폰카바(1500)의 외형 구성으로써, 도 4에 도시된 바와 같이 스마트폰카바(1500)의 배면에는 태그부(1506)로써 IC칩(1506b)과 전원부(1507)의 태양전지 패널(1507a)을 비롯하여 스캔부(1502)가 형성되어 있고, 도 6에 도시된 바와 같이 전면에는 태그부(1506)로써 NFC 태그(1506a)가 형성될 수 있다. As an external configuration of the smartphone cover 1500, the solar cell panel of the IC chip 1506b and the power supply unit 1507 is provided on the rear surface of the smartphone cover 1500 as a tag unit 1506. The scan unit 1502 is formed, including 1507a, and the NFC tag 1506a may be formed as a tag unit 1506 on the front surface as shown in FIG. 6.
스캔부(1502)는 도 7에 도시된 바와 같이 스마트폰카바(1500)의 배면에 지문과 지정맥을 스캔하기 위해 손가락을 놓을 수 있도록 손가락 수용부(1523)가 구비되고, 손가락 수용부(1523)에는 스캔부(1502)가 형성된다. 이때 손가락 수용부(1523)는 지문스캔부(1520) 및 지정맥스캔부(1521)의 적외선 및 가시광선이 투과될 수 있는 투명소재로 형성되는 것이 바람직하다. As illustrated in FIG. 7, the scan unit 1502 is provided with a finger receiving unit 1523 to place a finger on the back of the smartphone cover 1500 to scan a fingerprint and a finger vein, and a finger receiving unit 1523. ), A scan unit 1502 is formed. In this case, the finger receiving unit 1523 may be formed of a transparent material through which infrared rays and visible rays of the fingerprint scan unit 1520 and the designated maxcan scan unit 1521 may be transmitted.
지문스캔부(1520)는 손가락 수용부(1523)의 가장자리에 가시선 광원부(1520a)와 손가락의 지문을 촬영하는 지문이미지센서(1520b)가 형성된다. 이때 가시선 광원부(1520a)는 스마트폰카바(1500)와 손가락이 접촉되는 접촉면을 향해 경사지게 형성되어 손가락의 지문 전면에 가시선이 조사되도록 할 수 있고, 스마트폰카바(1500)와 손가락이 접촉되는 손가락 수용부(1523)의 접촉면 하부에서 손가락 접촉면을 지문이미지센서(1520b)로 반사하는 반사부재(1520c)를 형성하여 지문이미지센서(1520b)의 위치 자유도를 높일 수 있도록 할 수도 있다. The fingerprint scanning unit 1520 has a visible light source 1520a and a fingerprint image sensor 1520b for capturing a fingerprint of a finger at the edge of the finger receiving unit 1523. In this case, the visible light source unit 1520a may be inclined toward the contact surface where the smartphone cover 1500 is in contact with the finger so that the visible line may be irradiated on the front surface of the finger, and the finger may be in contact with the smartphone cover 1500. A reflection member 1520c may be formed to reflect the finger contact surface to the fingerprint image sensor 1520b at the lower portion of the contact surface of the unit 1523 to increase the positional freedom of the fingerprint image sensor 1520b.
따라서 지문이미지센서(1520b)가 가장자리에 형성되더라도 반사부재(1520c)를 통해 손가락 접촉면이 반사되도록 하여 손가락의 지문을 촬영할 수 있도록 할 수 있다. 이때 반사부재(1520c)는 설치환경에 따라 평면이나 곡면으로 형성할 수도 있다. Therefore, even if the fingerprint image sensor 1520b is formed at the edge, the finger contact surface may be reflected by the reflective member 1520c, so that the fingerprint of the finger may be photographed. At this time, the reflective member 1520c may be formed in a flat or curved surface according to the installation environment.
또한, 지문스캔부(1520)의 가시선 광원부(1520a)와 지문이미지센서(1520b)는 각각 쌍을 이루어 대향하는 위치에 형성할 수도 있고 가시선 광원부(1520a)를 다수 개 형성할 수도 있다. In addition, the visible light source unit 1520a and the fingerprint image sensor 1520b of the fingerprint scan unit 1520 may be formed in pairs at opposite positions, or a plurality of visible light source units 1520a may be formed.
지정맥스캔부(1521)는 손가락 수용부(1523)의 가장자리에서 스마트폰카바(1500)와 손가락이 접촉되는 접촉면보다 높게 수평으로 적외선 광원부(1521a)와 손가락의 지정맥을 촬영하는 지정맥이미지센서(1521b)가 형성되어 적외선 광원부(1521a)에서 조사된 적외선이 손가락을 투과하여 지정맥이미지센서(1521b)에서 인식되도록 한다. The designated mac scan unit 1521 is a finger vein image sensor that photographs the infrared light source unit 1521a and the finger vein horizontally higher than the contact surface where the smartphone cover 1500 contacts the finger at the edge of the finger receiving unit 1523 ( 1521b is formed so that the infrared light emitted from the infrared light source unit 1521a passes through the finger and is recognized by the finger vein image sensor 1521b.
여기서 지정맥스캔부(1521)의 적외선 광원부(1521a)와 지정맥이미지센서(1521b)는 각각 쌍을 이루어 대향하는 위치에 형성할 수도 있고, 손가락의 다수의 위치를 측정하기 위해 각각 다수의 적외선 광원부(1521a)와 지정맥이미지센서(1521b)가 형성될 수도 있다. Herein, the infrared light source unit 1521a and the finger vein image sensor 1521b of the finger scan unit 1521 may be formed in pairs at opposite positions, respectively, and each of a plurality of infrared light source units may be used to measure a plurality of positions of a finger. 1521a and finger vein image sensor 1521b may be formed.
적외선 광원부(1521a)는 손가락 수용부(1523)를 향하여 지정맥 이미지를 촬영하기 적합한 630~1,000nm 파장의 적외선광을 조사하는 것으로서 1개 이상의 LED로 구성될 수 있다. 또한 바람직하게는 광학필터(미도시)가 설치되어 광 노이즈를 제거하도록 할 수 있다. The infrared light source unit 1521a irradiates infrared light having a wavelength of 630 to 1,000 nm suitable for capturing the finger vein image toward the finger receiving unit 1523, and may include one or more LEDs. Also preferably, an optical filter (not shown) may be installed to remove optical noise.
한편, 적외선 광원부(1521a)와 가시선 광원부(1520a)를 하나의 모듈로 구성하여 손가락 수용부(1523)의 측면 외곽에 여러 개 설치하여 손가락에 골고루 적외선과 가시선이 조사되도록 함으로써 지문데이터 또는/및 지정맥데이터를 획득할 수 있는 최적 환경을 형성할 수 있다. On the other hand, the infrared light source unit 1521a and the visible line light source unit 1520a are configured as a single module and installed on the outer side of the finger receiving unit 1523 so that infrared rays and visible lines are evenly distributed on the finger, thereby providing fingerprint data or / and designation. It is possible to form an optimal environment for acquiring Mcdata.
또한 손가락 수용부(1523)에는 생체스위치부(1522)가 형성되어 손가락이 접촉될 경우 손가락의 온도와 주변 온도와의 차이를 통해 발생되는 생체전기를 이용하여 카바콘트롤러(1501)를 활성화시킨 후 전원부(1507)의 전원을 통해 스캔부(1502)가 작동되도록 할 수 있다. In addition, the finger accommodating part 1523 is formed with a bio switch unit 1522, when the finger touches the power supply unit after activating the carba controller 1501 using a bioelectric generated by the difference between the temperature of the finger and the ambient temperature The scan unit 1502 may be operated through the power of 1507.
즉, 대기상태에서 전원을 오프 시키더라도 손가락 수용부(1523)에 손가락이 접촉될 경우 발생되는 생체전기에 의해 카바콘트롤러(1501)를 활성화시킬 수 있어 대기전력을 줄일 수 있고, 대기전력 부하를 줄임으로써 전원부(1507)의 태양전지 패널(1507a)와 축전지(미도시)의 크기를 줄일 수 있어 공간 활용도를 높일 수 있다. That is, even when the power is turned off in the standby state, the carba controller 1501 can be activated by the bioelectric generated when the finger contacts the finger receiving unit 1523, thereby reducing standby power and reducing the standby power load. As a result, the size of the solar cell panel 1507a and the storage battery (not shown) of the power supply unit 1507 may be reduced, thereby increasing space utilization.
본 실시예에 따른 스마트폰카바는 사용자가 스마트폰카바(1500)의 손가락 수용부(1523)에 손가락을 대면 스캔부(1502)의 생체스위치부(1522)에 의해 생체전기가 발생되면서 생체전기에 의해 카바콘트롤러(1501)를 활성화시킨다. 이렇게 활성화된 카바콘트롤러(1501)는 스캔부(1502)의 지문스캔부(1520) 또는/및 지정맥스캔부(1521)를 작동시켜 가시선 광원부(1520a) 또는/및 적외선 광원부(1521a)를 통해 손가락 수용부(1523)에 놓인 손가락에 가시선 또는/및 적외선을 조사하고, 지문이미지센서(1520b) 또는/및 지정맥이미지센서(1521b)를 통해 지문 또는/및 지정맥을 촬영한 지문 또는/및 지정맥데이터를 입력받는다. In the smartphone cover according to the present embodiment, when the user touches the finger receiving unit 1523 of the smartphone cover 1500, the bioelectric is generated by the bioswitch unit 1522 of the scan unit 1502. Activates the cara controller 1501. The activated carba controller 1501 operates the fingerprint scan unit 1520 or / and the designated max scan unit 1521 of the scan unit 1502 to receive a finger through the visible light source unit 1520a or the infrared light source unit 1521a. Fingerprints and / or finger veins that are irradiated with visible or / and infrared rays to the fingers placed in the unit 1523 and photographed the fingerprints and / or finger veins through the fingerprint image sensor 1520b or / and the finger vein image sensor 1521b. Receive data.
상기 생체스위치부(1522)는 스캔부로부터 지문 또는 지정맥 정보를 획득 시, 손가락의 온도를 감지하는 온도 센서와 손가락에 흐르는 혈액을 인식하는 혈류 인식 센서 중 적어도 하나를 더 구비하여, 손가락의 온도 및 혈류의 흐름 중 적어도 하나를 인식하여 이상이 없다고 판단되면, 상기 스캔부로부터 획득된 지정맥 정보를 상기 고객 단말기로 제공하도록 처리하게 할 수 있게 함으로써, 지문이나 지정맥의 위변조시에 생체의 온도나 혈액의 흐름이 없을 경우에는 이의 인식 및 전송이 불가능하도록 하는 효과가 있는 것이다.The bioswitch unit 1522 further includes at least one of a temperature sensor for detecting a temperature of a finger and a blood flow recognition sensor for recognizing blood flowing in the finger when acquiring fingerprint or finger vein information from the scan unit. And if it is determined that there is no abnormality by recognizing at least one of the flow of blood flow, it is possible to process the finger vein information obtained from the scan unit to be provided to the customer terminal, thereby forcing the temperature of the living body at the time of forgery of the fingerprint or finger vein. If there is no blood flow, it is effective to make it impossible to recognize and transmit.
이후 손가락의 지문 또는/및 지정맥데이터를 입력받은 카바콘트롤러(1501)는 카바메모리부(1503)에 저장된 사용자의 지문 또는/및 지정맥데이터를 비교하여 일치할 경우 카바정보를 데이터출력부(1505)를 통해 태그부(1506)인 NFC 태그(1506a) 및 IC칩(1506b) 중 적어도 하나에 기록하여 스마트폰카바(1500)를 통하여 스마트폰의 신호수신부에 신호를 발신하여 스마트폰을 온시킬수 있도록 하고, 외부에서 손가락의 접촉에 의하여 쉽게 온시켜 통화가 가능하게 하여 스마트폰을 사용할 수 있도록 한다. Then, the carba controller 1501 receiving the fingerprint or / and the finger vein data of the finger compares the user's fingerprint or / and the finger vein data stored in the kava memory unit 1503 and matches the cover information with the data output unit 1505. In order to turn on the smartphone by sending a signal to the signal receiver of the smartphone through the smartphone cover 1500 by recording in at least one of the NFC tag 1506a and IC chip 1506b, the tag unit 1506 And, it is easily turned on by the touch of the finger from the outside to enable the phone to use the smartphone.
이때 표시부(1504)를 통해 태그부(1506)에 카바정보가 정상적으로 기록된 경우 이를 표시함으로써 사용자가 표시부(1504)를 보고 스마트폰카바(1500)의 정상 사용상태를 확인할 수 있도록 한다. In this case, if the cover information is normally recorded on the tag unit 1506 through the display unit 1504, the user may display the display unit 1504 to check the normal use state of the smartphone cover 1500.
여기서 카바콘트롤러(1501)는 입력된 지문 또는/및 지정맥데이터와 카바메모리부(1503)에 저장된 사용자의 지문 또는/및 지정맥데이터를 비교할 때 각각 모두 비교할 수도 있고, 지문데이터와 지정맥데이터 중 어느 하나만을 비교할 수도 있을 뿐만 아니라 지문 및 지정맥데이터를 융합하여 복합적으로 비교할 수도 있다. Here, the carba controller 1501 may compare all of the fingerprints and / or finger vein data and the fingerprints and / or finger vein data of the user stored in the kava memory unit 1503, respectively. Not only one can be compared, but also the fingerprint and finger vein data can be fused and compared.
상술한 바와 같이, 본 발명의 실시예에 의한 지문과 지정맥 인식을 이용한 스마트폰카바에 따르면, 스마트폰카바 자체에 지문 또는/및 지정맥의 데이터를 탑재하고, 카바 자체에서 사용자의 지문 또는/및 지정맥을 읽어 들여 판독한 후가 아니면, 이를 사용할 수 없도록 하여 스마트폰을 온시킴에 있어 사용자의 진성확인의 보안성과 신뢰성을 높일 수 있도록 하는 효과가 있고, 이중 보안이 필요한 경우에는 지문의 오인식률을 현저하게 개선할 수 있는 지문과 지정맥을 동시에 인증함으로써 지문의 오인식률을 줄이고, 지정맥에 대한 사람의 인체정보를 손가락 하나만으로도 쉽게 인정할 수 있으므로, 번호 인식을 대체할 수 있는 보안의 효과를 자아낼 수 있는 효과가 있다.As described above, according to the smartphone cover using the fingerprint and finger vein recognition according to an embodiment of the present invention, the smartphone cover itself is equipped with data of the fingerprint or / and finger vein, the user's fingerprint or / and It is effective to increase the security and reliability of authenticity verification of users by turning off the smart phone by disabling it unless it is read after reading the finger vein.If the double security is required, the false recognition rate of the fingerprint By simultaneously authenticating fingerprints and finger veins, which can significantly improve the number of fingerprints, it reduces the false recognition rate of fingerprints and easily recognizes human body information about finger veins with just one finger. It has an effect that can be brought out.
도 8에서 보는 바와 같이, 감압전원센서(1509)가 손가락 수용부(1523)의 하단부에 형성된다. As shown in FIG. 8, a reduced pressure power sensor 1509 is formed at the lower end of the finger receiver 1523.
상기 감압전원센서(1509)는 얇은 필름의 대지에 고분자 도전체막을 적층 형성하고, 이 대판과 대향한 또다른 필름의 대지에는 빗살모양으로 음전극과 양전극을 교호로 배치하고 그 표면에 탄소분말과 텅스텐(TUNGSTEN)산화분말로 된 감압저항 가변형 센서소자를 적층 형성하여 상기한 고분자 도전체막과 맞대어 누르면 압력에 대한 저항변화를 감지하여 전기적 신호로 전달할 수 있게 한 구성으로 되어 있다.The reduced pressure power sensor 1509 is formed by stacking a polymer conductor film on a sheet of thin film, and alternately arranging the negative electrode and the positive electrode in the shape of a comb in the form of another film facing the plate, and carbon powder and tungsten on the surface thereof. (TUNGSTEN) A pressure-sensitive resistance variable sensor element made of an oxide powder is stacked to form a pressure sensor that is pressed against the polymer conductor film to sense a change in resistance to pressure and transmit it as an electrical signal.
도 9(a)(b)에서 보는 바와 같이, 한쪽의 부도체 필름의 대지(1)에는 고분자 도전체막(2)을 적층 형성하고 다른쪽의 부도체 필름의 대지(1')에는 고분자 도전체막을 매트릭스 전극(2')을 형성하고, 그 상면에 탄소분말과 텅스텐산화분말을 합성수지 접합제로 혼합적층한 감압저항 가변형 압력센서소자(3)를 적층 형성하여 압력센서를 구성하여서 된 것이다. As shown in Fig. 9 (a) and (b), a polymer conductor film 2 is laminated on the substrate 1 of one non-conductor film, and a polymer conductor film is matrixed on the substrate 1 'of the other non-conductor film. An electrode 2 'is formed, and a pressure sensor is formed by stacking a pressure-sensitive resistance variable pressure sensor element 3 in which carbon powder and tungsten oxide powder are mixed and laminated with a synthetic resin binder on the upper surface thereof.
또한 다른 실시예에 있어서, 도 9(c)에 표시한 바와 같이 고분자 도전체 매트릭스전극(2')이 형성된 한쪽 대지(1')와 다른쪽 대지(1)에 탄소분말과 텅스텐산화분말을 합성수지 접합제로 혼합 적층한 감압저항 가변형 압력센서(3)(3')를 적층 형성할 수도 있다.In another embodiment, as shown in Fig. 9 (c), a carbon powder and a tungsten oxide powder are formed on one earth 1 'and the other earth 1 on which the polymer conductor matrix electrode 2' is formed. The pressure-sensitive-resistance variable pressure sensor 3 (3 ') mixed and laminated with a bonding agent may be laminated.
따라서, 상기 감압전원센서(1509)는 지문을 인식시키기 위하여 카바를 잡고저 할 경우에는 자연스럽게 가압되는 부분에 형성되어 있으므로, 그 사용이 간편하고, 항시 전원이 발생될 수 있는 영구적인 소재로 취급되고 있으므로, 이를 지문 및 지정맥의 인식을 위한 전원으로 채택되어지는 것이다. Therefore, the decompression power sensor 1509 is formed on a portion that is naturally pressurized when holding the cover to recognize the fingerprint, it is easy to use, and is treated as a permanent material that can generate power at all times. Therefore, it is adopted as a power source for fingerprint and finger vein recognition.
도 10은 본 발명의 일 실시예에 따른 스마트폰카바의 처리방법을 설명하기 위한 흐름도이다. 10 is a flowchart illustrating a method of processing a smartphone cover according to an embodiment of the present invention.
도 10에 도시된 바와 같이 본 발명의 일 실시예에 따른 스마트폰카바의 처리를 위해 먼저, 손가락 수용부(1523)에 손가락이 놓여졌는지 손가락을 감지한다(S1500). As shown in FIG. 10, for processing of the smartphone cover according to an embodiment of the present invention, first, a finger is detected whether a finger is placed on the finger receiving unit 1523 (S1500).
손가락을 감지하기 위해 본 실시예에서는 손가락 수용부(1523)에 형성된 스캔부(1502)의 생체스위치부(1522)를 통해 손가락이 감지될 경우 생체전기를 통해 카바콘트롤러(1501)를 활성화시킨다. In this embodiment, in order to detect a finger, when the finger is detected through the bioswitch unit 1522 of the scan unit 1502 formed in the finger accommodating unit 1523, the carba controller 1501 is activated through the bioelectric.
S1500 단계에서 손가락이 감지되지 않을 경우 카바콘트롤러(1501)는 활성화되지 않으며 계속 대기상태를 유지하게 된다. If the finger is not detected at step S1500, the cara controller 1501 is not activated and continues to stand by.
반면 S1500 단계에서 손가락이 감지되어 카바콘트롤러(1501)가 활성화되면 카바콘트롤러(1501)는 스캔부(1502)의 지문스캔부(1520) 또는/및 지정맥스캔부(1521)를 작동시켜 가시선 광원부(1520a) 또는/및 적외선 광원부(1521a)의 가시선 또는/및 적외선을 손가락에 조사한다(S1510). On the other hand, when the finger is detected at step S1500 and the carba controller 1501 is activated, the carba controller 1501 operates the fingerprint scan unit 1520 or / and the designated maxcan scan unit 1521 of the scan unit 1502 to make the visible light source unit 1520a operate. ) And / or the visible line and / or the infrared ray of the infrared light source unit 1521a to the finger (S1510).
그리고, S1510 단계에서 가시선 또는/및 적외선을 손가락에 조사하면서 지문이미지센서(1520b) 또는/및 지정맥이미지센서(1521b)를 통해 손가락의 지문 또는/및 지정맥을 스캔하여 지문 또는/및 지정맥데이터를 입력받는다(S1520). In operation S1510, the fingerprint or / and the finger vein may be scanned by scanning the fingerprint or / and the finger vein of the finger through the fingerprint image sensor 1520b or the finger vein image sensor 1521b while irradiating the finger with visible or / or infrared rays. The data is input (S1520).
S1520 단계에서 사용자의 손가락에서 입력된 지문 또는/및 지정맥데이터를 입력받은 후 카바콘트롤러(1501)는 카바메모리부(1503)에 저장된 지문 또는/및 지정맥데이터와 비교하여 일치여부를 판단한다(S1530). After receiving the fingerprint or / and finger vein data input from the user's finger in step S1520 the carba controller 1501 compares the fingerprint or / and finger vein data stored in the cover memory (1503) to determine whether the match ( S1530).
여기서 카바콘트롤러(1501)는 입력된 지문 또는/및 지정맥데이터와 카바메모리부(1503)에 저장된 사용자의 지문 또는/및 지정맥데이터를 비교할 때 각각 모두 비교할 수도 있고, 지문데이터와 지정맥데이터 중 어느 하나만을 비교할 수도 있을 뿐만 아니라 지문 및 지정맥데이터를 융합하여 복합적으로 비교할 수도 있다. Here, the carba controller 1501 may compare all of the fingerprints and / or finger vein data and the fingerprints and / or finger vein data of the user stored in the kava memory unit 1503, respectively. Not only one can be compared, but also the fingerprint and finger vein data can be fused and compared.
S1530 단계에서 사용자의 손가락을 스캔한 스캔정보와 카바메모리부(1503)에 저장된 정보가 일치한 경우 카바콘트롤러(1501)는 데이터출력부(1505)를 통해 카바정보를 출력함으로써 태그부(1506)의 NFC 태그(1506a) 및 IC칩(1506b) 중 적어도 하나에 카바정보를 기록한다(S1540). When the scan information scanning the user's finger and the information stored in the cover memory unit 1503 match in step S1530, the cover controller 1501 outputs cover information through the data output unit 1505, thereby providing the tag unit 1506. The cover information is recorded in at least one of the NFC tag 1506a and the IC chip 1506b (S1540).
또한, 카바정보가 태그부(1506)에 정상적으로 기록된 경우 카바콘트롤러(1501)는 표시부(1504)를 작동시켜 정상적으로 인증카바 사용이 가능하게 된 것을 사용자가 인지할 수 있도록 한다(S1550). In addition, when the cover information is normally recorded in the tag unit 1506, the cover controller 1501 operates the display unit 1504 to allow the user to recognize that the authentication cover can be normally used (S1550).
S1550 단계에서 스마트폰카바(1500)의 사용이 가능하게 된 상태에서는 스마트폰카바(1500)를 점원 등 결제를 위해 타인에게 제공할 수도 있다. 이와 같이 스마트폰카바(1500)의 사용을 가능하게 한 후 카바콘트롤러(1501)는 설정시간이 경과되었는지 비교한다(S1560). In a state in which the use of the smartphone cover 1500 is enabled in step S1550, the smartphone cover 1500 may be provided to another person for payment such as a cashier. After enabling the use of the smart phone cover 1500, the car controller 1501 compares whether the set time has elapsed (S1560).
S1560 단계에서 설정시간이 경과하게 되면, 예를 들어 5초가 경과하게 되면 카바콘트롤러(1501)는 태그부(1506)를 초기화하여 NFC 태그(1506a) 및 IC칩(1506b)에 기록된 카바정보가 상실되도록 함으로써 스마트폰카바(1500)의 사용이 불가능하도록 한다. When the set time has elapsed in step S1560, for example, when 5 seconds have elapsed, the carba controller 1501 initializes the tag unit 1506 to lose the cover information recorded on the NFC tag 1506a and the IC chip 1506b. By doing so, the use of the smart phone cover 1500 is impossible.
이때 카바콘트롤러(1501)는 스마트폰카바(1500)를 1회 터치하여 카바정보를 사용한 경우 태그부(1506)을 초기화하여 카바정보가 상실되도록 할 수도 있다. In this case, the cover controller 1501 may touch the smartphone cover 1500 once to use the cover information to initialize the tag unit 1506 so that the cover information is lost.
이렇게 카바콘트롤러(1501)가 태그부(1506)를 초기화한 후 표시부(1504)의 작동을 중지시켜 사용자가 스마트폰카바(1500)의 사용이 불가능한 상태를 인지하도록 할 수 있다.In this manner, after the cara controller 1501 initializes the tag unit 1506, the display unit 1504 may be stopped to allow the user to recognize a state in which the smart phone cover 1500 cannot be used.
다음은 지문인식기의 접촉식 지문인식모듈에 의한 스마트폰의 작동을 온 시키는 관계를 설명한다.The following describes the relationship to turn on the operation of the smart phone by the contact fingerprint module of the fingerprint reader.
도 11은 본 발명의 다른 실시예로서 스마트폰 카바의 주요구성도이고, 도 12는 본 발명의 다른 실시예로서 스마트폰 카바의 내면 사시도이며, 도 13은 본 발명의 다른 실시예로서 스마트폰 카바의 배면 사시도이고, 도 14는 본 발명의 다른 실시예에 따른 스마트폰 카바의 회로도이며, 도 15는 본 발명의 다른 실시예에 따른 스마트폰 카바의 처리방법을 설명하기 위한 흐름도이다.11 is a main configuration diagram of a smartphone cover as another embodiment of the present invention, Figure 12 is a perspective view of the inside of the smartphone cover as another embodiment of the present invention, Figure 13 is a smartphone cover as another embodiment of the present invention 14 is a circuit diagram of a smartphone cover according to another embodiment of the present invention, and FIG. 15 is a flowchart illustrating a processing method of the smartphone cover according to another embodiment of the present invention.
도 11에 도시된 바와 같이 스마트폰카바(1500) 배면에는 사람의 손가락에 의하여 지문데이터를 생성 출력하는 지문스캔부(1520)와, 손가락이 접촉될 경우 발생되는 생체전기를 통해 카바콘트롤러(1501)를 활성화시키는 생체스위치부(1522)를 포함하는 스캔부(1502)가 형성되고, 스캔부(1502)로부터 지문데이터를 읽어 들여 카바메모리부(1503)에 저장된 진성확인을 위한 지문데이터와의 일치 여부를 판단하는 카바콘트롤러(1501)와, 카바콘트롤러(1501)에서 출력되는 신호를 NFC 태그(1506a)나 IC칩(1506b)과 같은 태그부(1506)에 기록하는 데이터출력부(1505)로 이루어져 있고, 이의 작동여부를 표시하는 표시부(1504)가 형성되어 있다. As shown in FIG. 11, the back cover of the smartphone cover 1500 includes a fingerprint scan unit 1520 for generating and outputting fingerprint data by a human finger, and a cover controller 1501 through a bioelectric generated when a finger is in contact with the fingerprint cover unit 1520. A scan unit 1502 including a bioswitch unit 1522 for activating the readout unit is configured to read fingerprint data from the scan unit 1502 and match the fingerprint data for authenticity verification stored in the cover memory unit 1503. And a data output unit 1505 for recording a signal output from the cover controller 1501 to a tag unit 1506 such as an NFC tag 1506a or an IC chip 1506b. And a display unit 1504 indicating whether or not its operation is performed.
여기서 카바메모리부(1503)에 저장되는 지문데이터는 스마트폰카바(1500) 배면을 초기 발급할 때 금융기관 및 판매소에 별도로 구비된 스캔장비(미도시)를 통해 지문 또는/및 지정맥을 스캔하여 취득한 지문데이터를 저장할 수 있다. Here, the fingerprint data stored in the cover memory unit 1503 is scanned by the fingerprint or / and finger vein through a scanning device (not shown) provided separately at financial institutions and sales offices when the back of the smartphone cover 1500 is initially issued. The acquired fingerprint data can be stored.
또한, 스마트폰카바(1500) 배면의 작동을 위한 전원을 생성하여 저장하는 전원부(1507)로써 충전용밧테리(1570)가 스마트폰카바(1500) 배면에 형성된다. In addition, the charging battery 1570 is formed on the back of the smart phone cover 1500 as a power supply unit 1507 for generating and storing power for the operation of the back of the smart phone cover 1500.
카바콘트롤러(1501)는 태그부(1506)에 기록하는 신호 즉, 카바정보는 스캔부(1502)로부터 입력된 지문데이터와 카바메모리부(1503)에 저장된 지문데이터가 일치할 경우 송출하여 기록한 후 1회 터치하여 카바정보를 사용한 후에는 태그부(1506)를 초기화하여 카바정보가 상실되도록 하는 것이 바람직하다.The carba controller 1501 transmits and records a signal recorded in the tag unit 1506, that is, the carba information when the fingerprint data input from the scan unit 1502 and the fingerprint data stored in the carba memory unit 1503 match. After using the cover information by touching it once, it is preferable to initialize the tag unit 1506 so that the cover information is lost.
다른 방법으로는, 카바콘트롤러(1501)가 태그부(1506)에 카바정보를 기록한 후 설정시간 예를 들어, 카바 신호 승인을 위해 사용하는 5초 동안 유지되어 사용 가능하도록 한 후 태그부(1506)를 초기화하여 카바정보가 상실되도록 하는 방법도 바람직하다. Alternatively, after the cover controller 1501 records the cover information in the tag unit 1506, the cover unit 1506 is held for 5 seconds to be used for a set time, for example, for the approval of the cover signal. It is also preferable to initialize the so that the cover information is lost.
그리고, 스마트폰카바(1500)의 외형 구성으로써, 도 12, 13에 도시된 바와 같이 스마트폰카바(1500)의 배면에는 태그부(1506), 전원부(1507)의 충전용밧테리(1570)를 비롯하여 지문스캔부(1550)가 형성되어 있다.In addition, as shown in FIGS. 12 and 13, the smartphone cover 1500 includes a tag unit 1506 and a charging battery 1570 of the power supply unit 1507 on the rear surface of the smartphone cover 1500. The fingerprint scan unit 1550 is formed.
스캔부(1502)는 도 12, 13에 도시된 바와 같이 스마트폰카바(1500)의 배면에 지문을 스캔하기 위해 손가락을 놓을 수 있도록 지문스캔부(1550)가 형성되어 있다.12 and 13, the scan unit 1502 is provided with a fingerprint scan unit 1550 to place a finger on the back of the smartphone cover 1500 to scan the fingerprint.
여기서, 지문스캔부(1520)는 접촉식 지문스캔방식을 채택하고 있다.Here, the fingerprint scan unit 1520 adopts a contact fingerprint scan method.
명심할 것은 비록 스마트폰카바에서 스마트폰만이 온 되는 것이 아니라, 스마트폰을 온 되게 한 후 앱을 활성화시켜 각종 금융거래 등을 할 수 있는 작동을 할 수 있는 것이다. Keep in mind that although smartphones are not only smartphones on, the smartphones are turned on and the app can activate various financial transactions by activating the app.
다음은 NFC 기능이 구현되는 폰카바에 대하여 설명한다.The following describes a phone cover in which the NFC function is implemented.
도 14는 도 11에 따른 본 발명의 일실시예인 NFC 기능을 할 수 있는 알고리즘에 관한 구성도이고, 도 15는 도 11에 따른 본 발명의 일실시예인 NFC 기능을 할 수 있는 폰카바의 인증단계의 처리 수순도이다.FIG. 14 is a block diagram of an algorithm capable of NFC function according to an embodiment of the present invention according to FIG. 11, and FIG. 15 is an authentication step of a phone cover capable of NFC function according to an embodiment of the present invention according to FIG. 11. Is the processing procedure of.
상기 도 14, 15에서 보는 바와 같이, 스마트폰카바(1500)는 지문인증을 위한 메인컨트롤러(U3)와 지문스캔모듈(U4), 혈류감지모듈(U8) 지문인증 후에 사용될 NFC모듈(U5)과 NFC안테나(U6) 그리고 전원 공급에 사용될 태양전지(U1)와 비상용충전밧테리(U2)로 이루어져 있다.As shown in FIGS. 14 and 15, the smart phone cover 1500 includes a main controller U3 for fingerprint authentication, a fingerprint scan module U4, a blood flow detection module U8, and an NFC module U5 to be used after fingerprint authentication. It consists of NFC antenna (U6) and solar cell (U1) and emergency charging battery (U2) to be used for power supply.
우선, 지문스캔모듈(U4)에 대하여 설명한다.First, the fingerprint scan module U4 will be described.
상기 지문스캔모듈(U4)의 VDDIO 1번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSSIO 2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, SPICLK 3번 라인은 메인컨트롤러(U3)의 PTA15/SP10_SCK L9번 라인과 연결되어 SPI통신 클럭을 신호 위한 제어 기능을 하며, CS_N 4번 라인은 메인컨트롤러(U3)의 PTA14/SP10_PCSO K9번 라인과 연결되어 SPI통신 선택을 위한 제어 기능을 하며, MISO 5번 라인은 메인컨트롤러(U3)의 PTA16/SP10_SOUT J10번 라인과 연결되어 SPI통신 입력을 위한 제어 기능을 하며, MOSI 6번 라인은 메인컨트롤러(U3)의 PTA17/SP10_SIN H10번 라인과 연결되어 SPI통신 출력을 위한 제어 기능을 하며, RST_N 8번 라인은 지문스캔모듈(U4)을 다시 시작할 수 있게 RESET 위한 제어 기능을 하며, VSSD 9번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VDDD 10번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, IRQ 11번 라인은 지문스캔모듈(U4)의 이미지 스캔완료 신호를 출력하는 기능을 하며, VDDA 14번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSSA 17번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며,VDDX 19번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하는 것으로, 상기와 같은 구성은 지문스캔모듈(U4)에서 지문을 스캔하여 메인컨트롤러(U3)로 SPI통신으로 전송는 기능을 한다.The VDDIO line 1 of the fingerprint scan module U4 serves as a + 3V voltage input based on the positive voltage of the power supply circuit, and the VSSIO line 2 serves as a reference of the negative voltage circuit and functions as a 0V ground. , SPICLK line 3 is connected to PTA15 / SP10_SCK L9 line of main controller (U3) to control SPI communication clock. CS_N line 4 is connected to PTA14 / SP10_PCSO K9 line of main controller (U3). Connected to control SPI communication, MISO line 5 is connected to PTA16 / SP10_SOUT J10 line of main controller (U3) to control SPI communication input. MOSI line 6 is main controller ( It is connected to PTA17 / SP10_SIN H10 line of U3) to control SPI communication output, and RST_N line 8 is a control function to reset to restart fingerprint scan module (U4), VSSD line 9 is As a reference for the negative voltage circuit, it functions as 0V ground and VD Line 10 of DD provides + 3V voltage input based on the positive voltage of the power supply circuit. Line 11 of IRQ outputs the image scan completion signal of the fingerprint scan module (U4). Line 14 of VDDA Is the + 3V voltage input of the power supply circuit, + 3V voltage input function, VSSA line 17 is the (-) voltage circuit reference, 0V ground function, VDDX line 19 is the (+) Based on the voltage, it functions as a + 3V voltage input, and the configuration as described above scans the fingerprint in the fingerprint scan module U4 and transmits the SPI communication to the main controller U3.
여기서 SPI통신이란 국제규격통신방법을 말하는 것이다.Here, SPI communication refers to the international standard communication method.
다음은 혈류감지모듈(U8)에 대하여 설명한다.Next, the blood flow detection module U8 will be described.
상기 혈류감지모듈(U8)의 GND 1번 라인은 메인컨트롤러(U3)의 PTA2 J7번 라인과 연결되어 +3V 전압 입력 기능을 하는 것으로, GND 2번 라인은 (-)전압의 기준으로서, 0V 접지 기능을 하며, GNDA 3번 라인은 메인컨트롤러(U3)의 ADCO_DM1번 라인과 연결되어 아날로그 신호 중 (-)전압의 기준으로서, 아날로그 0V 접지 기능을 하며, AO 4번 라인은 메인컨트롤러(U3)의 ADCO_DP1번 라인과 연결되어 아날로그 신호 중 (+)전압을 출력 하는 것으로, 상기와 같은 구성은 메인컨트롤러(U3)에서 혈류감지모듈(U8)를 제어하여 혈류감지를 하게 한다.The GND line 1 of the blood flow detection module U8 is connected to the PTA2 J7 line of the main controller U3 to provide a + 3V voltage input function, and the GND line 2 is a reference of (-) voltage and is grounded at 0V. GNDA line 3 is connected to ADCO_DM1 line of main controller (U3) and serves as a reference for the negative voltage among analog signals. It functions as an analog 0V ground and line AO 4 is connected to main controller (U3). It is connected to the ADCO_DP1 line and outputs a positive voltage among analog signals. The configuration as described above allows the main controller U3 to control the blood flow detection module U8 to detect blood flow.
다음은 NFC모듈(U5)에 대하여 설명한다.Next, the NFC module U5 will be described.
상기 NFC모듈(U5)의 GND 1번 라인은 (-)전압의 기준으로서, 0V 접지 기능을 하며, LB 2번 라인은 NFC안테나(U6)의 LB 2번 라인과 연결되어 수신 신호 증폭을 위한 기능을 하며, FD 3번 라인은 메인컨트롤러(U3)의 PTAO J6QJS 라인과 연결되어 제어 신호를 입력 받아 NFC 근거리 무선 통신 출력을 위한 기능을 하며, LA 4번 라인은 NFC안테나(U6)의 LA 1번 라인과 연결되어 수신 신호 증폭을 위한 기능을 하는 것으로, 상기와 같은 구성은 메인컨트롤러(U3)에서 NFC모듈(U5)를 제어하여 근거리 무선 통신을 가능하게 한다.The GND line 1 of the NFC module U5 serves as a reference of the (-) voltage and has a 0V grounding function, and the LB line 2 is connected to the LB line 2 of the NFC antenna U6 to amplify a received signal. FD line 3 is connected to the PTAO J6QJS line of the main controller (U3) to receive a control signal for NFC short-range wireless communication output, and LA line 4 is LA 1 of the NFC antenna (U6). Connected to the line to function to amplify the received signal, the configuration as described above enables the near field communication by controlling the NFC module (U5) in the main controller (U3).
다음은 NFC안테나(U6)에 대하여 설명한다.Next, the NFC antenna U6 will be described.
상기 NFC안테나(U6)의 LA 1번 라인은 NFC모듈(U5)의 LA 4번 라인과 연결되어 신호 증폭을 위한 안테나 기능을 하며, LB 2번 라인은 NFC모듈(U5)의 LB 2번 라인과 연결되어 신호 증폭을 위한 안테나 기능을 하는 것으로, 상기와 같은 구성은 NFC모듈(U5)이 근거리 무선 통신을 가능하게 한다.The LA line 1 of the NFC antenna U6 is connected to the LA line 4 of the NFC module U5 to function as an antenna for signal amplification, and the LB line 2 is connected to the LB line 2 of the NFC module U5. Connected to function as an antenna for signal amplification, the configuration as described above enables the NFC module (U5) short-range wireless communication.
다음은 태양전지(U1)에 대하여 설명한다.Next, the solar cell U1 will be described.
상기 태양전지(U1)의 3V 1번 라인은 전원 회로의 (+)전압 기준으로, 회로도의 모든 VCC 라인에 연결되며, 해당 라인은 메인컨트롤러(U3)의 E5, E6, E7, J1, L10번 라인이고, 지문스캔모듈(U4)의 1, 10, 14번 라인이고, 비상용충전밧테리(U2)의 1번 라인이며, 모든 전원의 (+)전압을 공급하는 기능을 하고, GND 2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하고 회로도의 모든 GND 라인에 연결되며 해당 라인은 메인컨트롤러(U3)의 G3, G7, J2, K10, L6 라인이고, 지문스캔모듈(U4)의 2, 9, 17번 라인이고, 비상용충전밧테리(U2)의 2번 라인이며, 모든 전원의 (-)전압을 공급하는 기능을 하는 것으로. 상기와 같은 구성은 지문인증카드의 모든 모듈의 전원 공급과 비상용충전밧테리(U2)를 충전한다.The 3V line 1 of the solar cell U1 is connected to all VCC lines of the circuit diagram based on the positive voltage of the power supply circuit, and the corresponding lines are E5, E6, E7, J1, and L10 of the main controller U3. Line 1, lines 10, 14 of the fingerprint scan module U4, Line 1 of the emergency charging battery U2, and supply a positive voltage of all power supplies, line 2 of GND As a reference for the negative voltage circuit, it functions as a 0V ground and is connected to all GND lines of the circuit diagram. The lines are the G3, G7, J2, K10, and L6 lines of the main controller (U3), and the fingerprint scan module (U4). Lines 2, 9, and 17, and line 2 of the emergency charging battery (U2), function to supply the negative voltage of all power sources. The configuration as described above charges the power supply and emergency charging battery (U2) of all modules of the fingerprint authentication card.
다음은 비상용충전밧테리(U2)에 대하여 설명한다.Next, the emergency charging battery (U2) will be described.
상기 비상용충전밧테리(U2)의 3V 1번 라인은 태양전지(U1)의 3V 1번 라인과 연결되어 전원 회로의 (+)전압 기준으로, +3V 전압 출력 기능을 하며, GND 2번 라인은 태양전지(U1)의 GND 2번 라인과 연결되며, (-)전압 회로의 기준으로서, 0V 접지 기능을 하는 것으로, 상기와 같은 구성은 지문인증카드의 보조 전원 공급을 한다.The 3V line 1 of the emergency charging battery (U2) is connected to the 3V line 1 of the solar cell (U1) and functions as a + 3V voltage output based on the positive voltage of the power circuit. It is connected to the GND line 2 of the battery U1 and serves as a reference of the (-) voltage circuit, and has a 0V grounding function. The above configuration provides the auxiliary power supply of the fingerprint authentication card.
다음은 메인컨트롤러(U3)에 대하여 설명한다.Next, the main controller U3 will be described.
상기 메인컨트롤러(U3)의 VDD E5번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD E6번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD E7번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, ADC1_DP1/ADCO_DP2 J1번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD L10번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSS G3번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS G7번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, ADC1_DM1/ADCO_DM2 J2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS K10번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS L6번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, ADC0_DP1 H1번 라인은 혈류감지모듈(U8)의 AD4번 라인과 연결되어 아날로그신호 (+)측 입력받고 혈류감지를 확인하는 기능을 하며, ADC0_DM1 H2번 라인은 혈류감지모듈(U8)의 GND A3번 라인과 연결되어 아날로그신호 (-)측 입력받고 혈류감지를 확인하는 기능을 하며, PTA3 H9번 라인은 지문스캔모듈(U4)의 IRQ 11번 라인과 연결되어 손가락 접촉을 감지하는 기능을 하며, PTA17/SPI_SIN H10번 라인은 지문스캔모듈(U4)의 MDSI 6번 라인과 연결되어 SPI통신 입력을 위한 제어 기능을 하며, PTA0 J6번 라인은 NFC모듈(U5)의 FD 3번 라인과 연결되어 NFC통신 사용 여부를 제어하는 기능을 하며, PTA2 J7번 라인은 혈류감지모듈(U8)의 VCC 1번 라인과 연결되어 혈류감지모듈을 사용할 수 있게 활성 시키는 기능을 하며, PTA16/SPI_SOUT J10번 라인은 지문스캔모듈(U4)의 MIXO 5번 라인과 연결되어 SPI통신 출력을 위한 제어 기능을 하며, PTA14/SPI_PCS0 K9번 라인은 지문스캔모듈(U4)의 CSN 4번 라인과 연결되어 SPI통신 선택을 위한 제어 기능을 하며, PTA15/SPI_SCK L9번 라인은 지문스캔모듈(U4)의 SPICLK 3번 라인과 연결되어 SPI통신 클럭을 신호 위한 제어 기능을 하는 것으로, 상기와 같은 구성은 지문스캔모둘(U4)에서 지문을 스캔하여 미리 저장된 이미지와 비교하여 같을 경우 NFC모듈(U5)을 이용하여 NFC통신(근거리 무선 통신)을 사용할 수 있게 한다.The VDD E5 line of the main controller (U3) functions as a + 3V voltage input based on the positive voltage of the power supply circuit, and the VDD E6 line is a + 3V voltage input function as a positive voltage reference of the power supply circuit. The VDD E7 line functions as a + 3V voltage input based on the positive voltage of the power supply circuit, and the ADC1_DP1 / ADCO_DP2 J1 line functions as a + 3V voltage input as a positive voltage reference in the power circuit. , VDD L10 line is + 3V voltage input based on (+) voltage of power circuit, VSS G3 line is a reference of (-) voltage circuit, 0V ground function, and VSS G7 line is ( -) As a reference of the voltage circuit, 0V grounding function, ADC1_DM1 / ADCO_DM2 J2 line is the (-) voltage circuit reference, 0V grounding function, VSS K10 line is the (-) voltage circuit reference, 0V ground function, VSS L6 line is the reference of (-) voltage circuit, 0V ground function, ADC0_DP1 H1 line is It is connected to the AD4 line of the flow detection module (U8) to receive the analog signal (+) and receives blood flow detection.The ADC0_DM1 H2 line is connected to the GND A3 line of the blood flow detection module (U8) to connect the analog signal. PTA3 H9 line is connected to IRQ line 11 of fingerprint scan module (U4) to detect finger contact and PTA17 / SPI_SIN H10 line. Is connected to MDSI line 6 of fingerprint scan module (U4) to control SPI communication input, and PTA0 J6 line is connected to FD line 3 of NFC module (U5) to control whether to use NFC communication. The PTA2 J7 line is connected to the VCC line 1 of the blood flow detection module (U8) to activate the blood flow detection module, and the PTA16 / SPI_SOUT J10 line is the fingerprint scan module (U4). Control function for SPI communication output connected to MIXO line 5 PTA14 / SPI_PCS0 K9 line is connected to CSN line 4 of fingerprint scan module (U4) to control SPI communication.PTA15 / SPI_SCK L9 line SP9 is SPICLK 3 of fingerprint scan module (U4). It is connected to the line to control the SPI communication clock signal, the above configuration is compared to the pre-stored image by scanning the fingerprint in the fingerprint scan module (U4) NFC communication using the NFC module (U5) Enable (Near Field Communication).
여기서 SPI통신과 NFC통신은 국제규격통신방법을 말하는 것이다.Here, SPI communication and NFC communication refer to international standard communication method.
다음은 도 15에서 지문카드의 지문 인증과 NFC 근거리 무선 통신을 하는 수순에 대하여 설명한다.Next, the procedure of fingerprint authentication and NFC near field communication of the fingerprint card will be described with reference to FIG. 15.
혈류감지 여부를 판별한다(S111).It is determined whether blood flow is detected (S111).
혈류감지 되었을 경우 지문센서모듈에서 지문 이미지를 스캔한다(S112).When blood flow is detected, the fingerprint sensor module scans the fingerprint image (S112).
스캔한 지문 이미지와 사용자의 지문이미지를 비교하여 인증 여부를 판별한다(S113).The scanned fingerprint image is compared with the fingerprint image of the user to determine whether to authenticate (S113).
지문 인증이 되었을 경우 NFC 근거리 무선 통신를 가능하게 활성 시킨다(S115).When fingerprint authentication is enabled, enabling NFC near field communication (S115).
지문센서모듈에서 손가락이 비접촉시 10초 경과 여부를 판별 한다(S116).The fingerprint sensor module determines whether 10 seconds have elapsed when the finger is in contact (S116).
카드의 사용목적 달성시 NFC 근거리 무선 통신를 차단 한다(S118).When the purpose of the card achieves NFC short-range wireless communication is blocked (S118).
다음은 지문 또는/및 지정맥의 인증신호에 의하여 스마트폰이 온되었을 경우에 스마트폰에서 금융거래 중계 앱을 다운받아 처리하는 과정 즉, 고객 단말기를 이용하여 제휴은행과 무인증접속을 허용하는 프로그램을 형성한 금융거래 중계 앱을 다운받아, 상기 중계 앱으로부터 제휴한 금융회사와 무인증접속할 수 있도록 실행버튼을 ON하게 된 후부터 이의 구동방법이 적용되는 것에 대하여 설명한다.The following is a process of downloading and processing a financial transaction relay app from a smartphone when the smartphone is turned on by a fingerprint or / and finger vein authentication signal, that is, a program that allows unauthorized access to an affiliated bank using a customer terminal. The driving method is applied after the formed financial transaction relaying app is downloaded and the execution button is turned on so as to be able to authenticate with the affiliated financial company from the relaying app.
도 16은 본 발명에 따른 금융거래 중계시스템의 다중 안전 잠금기능을 이용하여 무인증 금융거래를 중계처리하는 수순을 도시한 프로차트이며, 도 17은 다른 실시예로서, 본 발명에 따른 금융거래 중계시스템의 다중 안전 잠금기능을 이용하여 무인증 금융거래를 중계처리하는 수순을 도시한 프로차트이다.FIG. 16 is a flowchart illustrating a procedure for relaying unauthenticated financial transactions using the multiple security lock function of the financial transaction relay system according to the present invention. FIG. 17 is another embodiment of the financial transaction relay system according to the present invention. This is a chart showing the procedure of relaying unauthenticated financial transactions using multiple security locks.
상기 도면에서 보는 바와 같이, 고객 단말기인 스마트폰을 이용하여 제휴은행과 무인증접속을 허용하는 프로그램을 형성한 금융거래 중계 앱(이하, '중계 앱'이라 한다)을 다운받는 단계로서, 스마트폰에 상기 앱을 다운받는다(S1301).As shown in the figure, a step of downloading a financial transaction relay app (hereinafter referred to as a "relay app") that forms a program allowing a non-authenticated connection with a partner bank using a smartphone as a customer terminal, Download the app (S1301).
상기 중계 앱은 스마트폰내의 유심카드에 등록된 전화번호와 은행의 회원정보에 기재된 전화번호의 일치에 의하여도 연동 될 수 있는 것이다.The relay app can also be linked by the phone number registered in the SIM card in the smartphone and the phone number listed in the member information of the bank.
상기 중계 앱으로부터 제휴한 금융회사와 무인증접속할 수 있도록 다음 단계인 실행버튼을 ON한다(S1302).From the relay app to turn on the next step to execute a non-authenticated access to affiliated financial companies (S1302).
다음 단계로서, 금융회사를 선택하는 단계가 나타나고, 이때 수요자가 거래코저하는 금융회사를 선택한다(S1303).As a next step, a step of selecting a financial company appears, and at this time, a consumer selects a financial company with which a transaction is made (S1303).
여기서 이미 지문이나 지정맥으로 거래할 수 있도록 인증을 받아 등록된 수요자인지 여부를 판단하게 된다(S1304).Here, it is determined whether or not the registered consumer is already authenticated to be able to transact with a fingerprint or finger vein (S1304).
{만약 등록되지 않은 수요자일 경우에는 등록과정을 거치도록 하는 단계로 전환한다(S1321)}.{If the consumer is not registered, switch to the step to go through the registration process (S1321)}.
그러나, 이미 등록된 수요자일 경우에는 전자상거래나 금융결재를 위하여 무인증접속을 위하여 지문 또는/및 지정맥을 입력한다(S1305).However, if the consumer is already registered, the fingerprint or / and finger vein is input for unauthorized access for electronic commerce or financial settlement (S1305).
이때, 상기 지문 또는/및 지정맥의 인증이 소정의 절차에 따라 이행하여도 인증이 되지 않을 경우에는 종료가 되며, 상기 절차에 의한 인증이 이루어질 경우(S1306)에는 다음 단계인 인증신호를 입력하도록 하는 인증번호 입력단계로 넘어간다(S1307).At this time, if the authentication of the fingerprint or / and finger vein is not performed even if the authentication is performed according to a predetermined procedure, it is terminated. If authentication is performed according to the procedure (S1306), the next step is to input an authentication signal. The process goes to the authentication number input step (S1307).
상기 인증신호로서 패스워드, 비밀번호, 인체정보 등이 해당하며, 수요자가 원하는 신호를 선정하면 되는 것이다.The authentication signal corresponds to a password, a password, human body information, etc., and the user can select the desired signal.
그리고, 상기 인증신호가 잘못 입력되거나 요건에 맞지 않을 경우에는 종료되어 다시하도록 하고, 이의 인증신호입력이 완결될 경우(S1308)에는 미들웨어에 통과될 수 있도록 인증되어 무인증으로 거래할 수 있는 전자 상거래 또는 금융결제를 선택할 수 있도록 하게 된다(S1309).If the authentication signal is incorrectly input or does not meet the requirements, it is terminated and restarted. When the input of the authentication signal is completed (S1308), the electronic commerce can be authenticated to pass through the middleware and be transacted without authentication. The financial settlement can be selected (S1309).
상기 전자 상거래 또는 금융결제의 선택에 의하여 이후부터는 무인증 금융거래를 중계하게 된다(S1310).Subsequently, the unauthenticated financial transaction is relayed by the selection of the electronic commerce or financial settlement (S1310).
이 단계에서는 각각의 금융거래처의 안내에 따라 상품의 구입 등을 할 수 있게되며, 상기 무인증금융거래 중계시 최종 결재의 요청이 있을 경우에는 본인이 등록한 지문 또는/및 지정맥이나 인증신호를 입력하게 된다(S1311).At this stage, purchases of goods can be made according to the guidance of each financial customer, and when a request for final settlement is made during relaying of the uncertified financial transaction, the fingerprint or / and finger vein or authentication signal registered by the user is inputted. It becomes (S1311).
만약, 인증이 이루어지지 않을 경우에는 결제가 되지 않은 상태에서 종료되게 되는 것이고, 이러한 일련의 과정이 인증되면(S1312), 결재가 완료되게 되고, 종료된다(S1313).If the authentication is not made, it will be terminated in the non-payment state. If such a series of processes are authenticated (S1312), the payment will be completed and terminated (S1313).
다음은 고객 단말기인 스마트폰을 이용하여 제휴은행과 무인증접속을 허용하는 프로그램을 형성한 금융거래 중계 앱을 다운받는 후 무인증접속할 수 있도록 실행버튼을 ON하였을 경우 등록인증이 되지 않은 경우 다시 시작하는 단계를 설명한다.The following is a step of restarting if the registration is not authenticated when the execution button is turned ON to download the financial transaction relay app that forms a program that allows unauthenticated access with a partner bank using a smartphone, which is a customer terminal. Explain.
우선, 무인증 접속등록단계(여기서는 안내 표시 생략)를 접속하게 되면 금융회사를 선택하는 단계가 나타나고, 이때 수요자가 거래코저하는 금융회사를 선택한다(S1321).First, when accessing the non-authentication access registration step (here, the indication is omitted), a step of selecting a financial company appears, and at this time, the consumer selects a financial company with which the transaction is made (S1321).
여기서 이미 지문 또는/및 지정맥으로 거래할 수 있도록 입력하게 된다(S1322).In this case, the fingerprint or / and the finger vein are input so as to be input (S1322).
만약, 등록되지 않은 요건에 해당할 경우에는 강제로 종료되고, 상기 절차에 의한 인증이 이루어질 경우(S1323)에는 다음 단계인 인증신호를 입력하는 단계로 넘어간다(S1324).If it corresponds to a requirement that is not registered, it is forcibly terminated. If authentication is performed according to the above procedure (S1323), the process proceeds to a step of inputting an authentication signal, which is the next step (S1324).
상기 인증신호로서 패스워드, 비밀번호, 인체정보 등이 해당하며, 수요자가 원하는 신호를 선정하면 되는 것이다.The authentication signal corresponds to a password, a password, human body information, etc., and the user can select the desired signal.
그리고, 상기 인증신호가 잘못 입력되거나 요건에 맞지 않을 경우에는 종료되어 다시 하도록 하고, 이의 인증신호입력이 완결될 경우(S1325)에는 미들웨어에 통과될 수 있도록 인증되어 무인증으로 전자 상거래 또는 금융결제를 선택할 수 있도록 하게 된다(S1313).When the authentication signal is incorrectly input or does not meet the requirements, it is terminated and restarted. When the authentication signal input is completed (S1325), the authentication signal is authenticated so as to pass through the middleware and select e-commerce or financial settlement without authentication. It is to be made (S1313).
상기 절차에 의하여 지문 또는/및 지정맥의 등록이 이루어질 경우(S1323)에는 미들웨어에 통과될 수 있는 등록이 이루어져 무인증금융거래가 가능한 것을 수요자에게 통보하는 단계(S1326)로 이루어져 있다.When the fingerprint or / and the finger vein registration is made by the above procedure (S1323), the registration is made to pass through the middleware and notifies the consumer that the unauthorized financial transaction is possible (S1326).
이와 같이, 상기 폰 카바에 의하여 온되었을 경우 금융거래가 이루어지는 과정을 살펴보면, 도 2, 3에 도시된 스마트폰 카바에서 연동되는 지문 또는/및 지정맥 인증신호에 의하여 카바콘트롤러(501)(1501)가 작동되고, 상기 카바콘트롤러(501)(1501)로부터 이어서 데이터출력부(505)(1505)가 작동되고, 상기 데이터출력부(505)(1505)에서 출력되는 NFC전자작동부(506)1506)의 신호(예를 들어, 1회 텃치에 의하여 스마트폰을 온하는 신호, 3회 텃치에 의하여 스마트폰의 금융거래 중재 앱을 구동하는 신호)가 발생함에 따라, 도 16, 17에 도시된 실행버튼 ON단계(S132)가 실행되는 것으로, 스마트폰의 화면에서 거래코저하는 금융회사를 선택하게 되고, 상기 금융회사가 본인이 등록한 금융회사일 경우에는 상기 구동절차가 그대로 실행되게 되는 것이다.As described above, when the financial transaction is performed when the phone cover is turned on, the car controllers 501 and 1501 are connected by fingerprints and / or finger vein authentication signals interlocked in the smartphone cover shown in FIGS. 2 and 3. Of the NFC electronic operation unit 506, 1506, which is operated, and then the data output unit 505, 1505 is operated from the cover controller 501, 1501, and is output from the data output unit 505, 1505. As a signal (for example, a signal for turning on a smartphone by a single touch and a signal for driving a financial transaction arbitration app of a smartphone by a third touch) is generated, the execution buttons shown in FIGS. 16 and 17 are turned on. In step S132, the financial company that deals with the transaction is selected on the screen of the smartphone. When the financial company is a financial company registered by the user, the driving procedure is executed as it is.
상술한 바와 같이, 본 발명의 실시예에 의한 지문 인식을 이용한 스마트폰카바의 처리방법에 따르면, 스마트폰카바 자체에 지문 또는/및 지정맥의 데이터를 탑재하고, 카바 자체에서 사용자의 지문 또는/및 지정맥을 읽어들여 판독한 후가 아니면, 이를 사용할 수 없도록 하여 스마트폰의 온을 이행함에 있어 스마트폰카바 사용자의 진성 확인의 보안성과 신뢰성을 높일 수 있도록 하는 효과가 있는 것이다.As described above, according to the method for processing a smartphone cover using fingerprint recognition according to an embodiment of the present invention, the smartphone cover itself is equipped with data of fingerprint or / and finger vein, and the user's fingerprint or / And after reading and reading the finger vein, it is not possible to use it is effective in improving the security and reliability of the authenticity check of the smartphone cover users in the implementation of the smartphone on.
그리고, 이중 보안이 필요한 경우에는 지문의 오인식률을 현저하게 개선할 수 있는 지문 또는/및 지정맥을 동시에 인증함으로써 지문의 오인식률을 줄이고, 지문에 대한 사람의 인체정보를 손가락 하나만으로도 쉽게 인정할 수 있으므로, 스마트폰 자체의 지문인식을 대체할 수 있는 보안의 효과를 자아낼 수 있는 효과가 있다.And, if double security is required, fingerprints and / or finger veins can be simultaneously authenticated, which can significantly improve the false recognition rate of the fingerprint, reducing the false recognition rate of the fingerprint, and easily accepting human body information on the fingerprint with just one finger. Therefore, there is an effect that can bring out the effect of security that can replace the fingerprint recognition of the smartphone itself.
본 발명의 보호범위가 이상에서 명시적으로 설명한 실시예의 기재와 표현에 제한되는 것은 아니다. 또한, 본 발명이 속하는 기술분야에서 자명한 변경이나 치환으로 말미암아 본 발명이 보호범위가 제한될 수도 없음을 다시 한 번 첨언한다.The protection scope of the present invention is not limited to the description and expression of the embodiments explicitly described above. In addition, it is again noted that the scope of protection of the present invention may not be limited due to obvious changes or substitutions in the technical field to which the present invention pertains.
Claims (19)
- 인증카바에 형성되어 사용자의 손가락으로부터 지문 또는/및 지정맥을 스캔하기 위한 스캔부; A scan unit formed on the authentication cover to scan the fingerprint or / and the finger vein from a user's finger;상기 인증카바의 카바정보와 사용자의 진성확인을 위한 지문 또는/및 지정맥데이터를 저장하는 카바메모리부; Caba memory unit for storing the Kaaba information of the authentication cover and fingerprint or / and finger vein data for authenticity confirmation of the user;상기 인증카바에 형성된 태그부에 카바정보를 기록하기 위한 데이터출력부; A data output unit for recording cover information on the tag portion formed in the authentication cover;상기 스캔부로부터 지문 또는/및 지정맥데이터를 입력받아 상기 카바메모리부에 저장된 진성확인을 위한 지문 또는/및 지정맥데이터와 비교하여 상기 데이터출력부를 통해 카바정보를 상기 태그부에 기록하는 카바콘트롤러; 및 Caba controller receives the fingerprint or / and finger vein data from the scan unit and compares the fingerprint or / and finger vein data for the authenticity stored in the cover memory to record the cover information through the data output unit in the tag unit ; And상기 인증카바의 작동을 위한 전력을 생성하여 충전하는 전원부;를 포함하되, 상기 스캔부는 상기 손가락이 접촉될 경우 발생되는 생체전기를 통해 상기 카바콘트롤러를 활성화시키는 생체스위치부를 더 포함하고, 상기 카바콘트롤러에서 출력되는 신호를 NFC 전자작동부로 송출하는 데이터출력부로 이루어져 있고, 상기 전원부로서 감압전원센서(1509)가 손가락 수용부(1523)의 하단부에 형성되며, 상기 생체스위치부는 스캔부로부터 지문 또는 지정맥 정보를 획득 시, 손가락의 온도를 감지하는 온도 센서와 손가락에 흐르는 혈액을 인식하는 혈류 인식 센서 중 적어도 하나를 더 구비하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.And a power supply unit configured to generate and charge power for the operation of the authentication cover, wherein the scan unit further includes a bioswitch unit that activates the carba controller through a bioelectric generated when the finger is in contact with the carba controller. Consists of a data output unit for transmitting a signal output from the NFC to the electronic operation unit, the pressure-sensitive power sensor 1509 is formed at the lower end of the finger receiving unit 1523 as the power supply unit, the bioswitch unit fingerprint or finger vein from the scan unit When acquiring information, at least one of a temperature sensor for sensing the temperature of the finger and blood flow recognition sensor for recognizing blood flowing in the finger, the smartphone Kaba operating the smartphone.
- 제 1항에 있어서, 상기 스캔부는 상기 손가락의 지문을 스캔하기 위해 가시선을 조사하는 가시선 광원부와 지문을 촬영하는 지문이미지센서를 포함하는 지문스캔부; 또는/및 상기 손가락의 지정맥을 스캔하기 위해 적외선을 조사하는 적외선 광원부와 지정맥을 촬영하는 지정맥이미지센서를 포함하는 지정맥스캔부를 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.The apparatus of claim 1, wherein the scan unit comprises: a fingerprint scan unit including a visible light source unit for irradiating a visible line to scan a fingerprint of the finger and a fingerprint image sensor for capturing a fingerprint; Or / and a fingertip cover unit including a fingertip scan unit including an infrared light source unit for irradiating infrared rays to scan the finger vein of the finger and a finger vein image sensor for photographing the finger vein.
- 제 2항에 있어서, 상기 지문스캔부는 상기 인증카바와 상기 손가락이 접촉되는 접촉면 하부에서 상기 손가락의 접촉면을 상기 지문이미지센서로 반사시키는 반사부재를 더 포함하고, 상기 가시선 광원부는, 상기 인증카바와 상기 손가락이 접촉되는 접촉면을 향해 경사지게 형성되는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.3. The fingerprint scanner of claim 2, wherein the fingerprint scan unit further comprises a reflective member reflecting the contact surface of the finger to the fingerprint image sensor under a contact surface where the authentication cover and the finger are in contact. Smartphone cover to operate the smartphone, characterized in that the inclined toward the contact surface where the finger is in contact.
- 제 1항 내지 제 3항 중 어느 한 항에 있어서, 상기 감압전원센서(1509)는 한쪽의 부도체 필름의 대지에는 고분자 도전체막을 적층 형성하고 다른쪽의 부도체 필름의 대지에는 고분자 도전체막을 매트릭스 전극을 형성하고, 그 상면에 탄소분말과 텅스텐산화분말을 합성수지 접합제로 혼합적층한 감압저항 가변형 압력센서소자(3)를 적층 형성한 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.The matrix electrode according to any one of claims 1 to 3, wherein the decompression power supply sensor 1509 is formed by stacking a polymer conductor film on the ground of one non-conductor film and a polymer conductor film on the ground of the other non-conductor film. A smartphone cover for operating a smartphone, comprising: forming a laminate of a pressure-sensitive-resistance variable pressure sensor element (3) formed by laminating a carbon powder and a tungsten oxide powder mixed with a synthetic resin binder on an upper surface thereof.
- 인증카바에 형성되어 사용자의 손가락으로부터 지문을 스캔하기 위한 스캔부; A scan unit formed on the authentication cover to scan a fingerprint from a user's finger;상기 인증카바의 카바정보와 사용자의 진성확인을 위한 지문데이터를 저장하는 카바메모리부; Caba memory unit for storing the Kaaba information of the authentication cover and fingerprint data for authenticity confirmation of the user;상기 인증카바에 형성된 태그부에 카바정보를 기록하기 위한 데이터출력부; A data output unit for recording cover information on the tag portion formed in the authentication cover;상기 스캔부로부터 지문데이터를 입력받아 상기 카바메모리부에 저장된 진성확인을 위한 지문데이터와 비교하여 상기 데이터출력부를 통해 카바정보를 상기 태그부에 기록하는 카바콘트롤러; 및 A cover controller that receives the fingerprint data from the scan unit and compares the fingerprint data stored in the cover memory with the fingerprint data to record the cover information through the data output unit in the tag unit; And상기 인증카바의 작동을 위한 전력을 생성하여 충전하는 전원부;를 포함하되, Including; a power supply unit for generating and charging power for the operation of the authentication cover;상기 인증카바의 인증처리 알고리즘은 인증카바의 지문 인증과 NFC 근거리 무선 통신를 통하여 지문인식과 연동되어 NFC모듈 근거리 무선 통신을 작동시키는 메인컨트롤러(U3); The authentication processing algorithm of the authentication cover is a main controller (U3) to operate the NFC module short-range wireless communication in conjunction with the fingerprint recognition through the fingerprint authentication and NFC short-range wireless communication of the authentication cover;지문 이미지를 스캔하는 지문스캔모듈(U4);A fingerprint scan module U4 for scanning a fingerprint image;지문 인증이 되었을 경우 NFC 근거리 무선 통신을 가능하게 활성시키는 NFC모듈(U5);NFC module (U5) to enable NFC near-field wireless communication when the fingerprint has been authenticated;상기 메인컨트롤러(U3) 및 지문스캔모듈(U4), NFC모듈(U5)에 대하여 전원을 공급하는 충전밧테리(U2);Charging battery (U2) for supplying power to the main controller (U3), fingerprint scan module (U4), NFC module (U5);를 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.Smartphone cover to operate the smartphone, characterized in that it comprises a.
- 제 5항에 있어서, 상기 NFC모듈(U5)의 GND 1번 라인은 (-)전압의 기준으로서, 0V 접지 기능을 하며, LB 2번 라인은 NFC안테나(U6)의 수신 신호 증폭을 위한 기능을 하며, FD 3번 라인은 메인컨트롤러(U3)의 제어 신호를 입력 받아 NFC 근거리 무선 통신 출력을 위한 기능을 하며, LA 4번 라인은 NFC안테나(U6)의 수신 신호 증폭을 위한 기능을 하는 것으로, 메인컨트롤러(U3)에서 NFC모듈(U5)를 제어하여 근거리 무선 통신을 가능하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.The GND line 1 of the NFC module U5 is a reference of a (-) voltage, and has a 0V ground function, and the LB line 2 has a function for amplifying a received signal of the NFC antenna U6. And, FD line 3 receives the control signal of the main controller (U3) to function for the NFC short-range wireless communication output, LA line 4 is to amplify the received signal of the NFC antenna (U6), Smartphone cover that operates the smartphone, characterized in that the short-range wireless communication by controlling the NFC module (U5) from the main controller (U3).
- 제 5항 또는 제 6항에 있어서, 상기 지문스캔모듈(U4)의 VDDIO 1번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSSIO 2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, SPICLK 3번 라인은 메인컨트롤러(U3)의 PTA15/SP10_SCK L9번 라인과 연결되어 SPI통신 클럭을 신호 위한 제어 기능을 하며, CS_N 4번 라인은 메인컨트롤러(U3)의 SPI통신 선택을 위한 제어 기능을 하며, MISO 5번 라인은 메인컨트롤러(U3)의 SPI통신 입력을 위한 제어 기능을 하며, MOSI 6번 라인은 메인컨트롤러(U3)의 SPI통신 출력을 위한 제어 기능을 하며, RST_N 8번 라인은 지문스캔모듈(U4)을 다시 시작할 수 있게 RESET 위한 제어 기능을 하며, VSSD 9번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VDDD 10번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, IRQ 11번 라인은 지문스캔모듈(U4)의 이미지 스캔완료 신호를 출력하는 기능을 하며, VDDA 14번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSSA 17번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VDDX 19번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하는 것으로, 상기 지문스캔모듈(U4)에서 지문을 스캔하여 메인컨트롤러(U3)로 SPI통신으로 전송하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.The VDDIO line 1 of the fingerprint scan module U4 has a + 3V voltage input function based on a positive voltage of the power supply circuit, and the VSSIO line 2 has a negative voltage. As a reference of the circuit, it functions as 0V ground, and the SPICLK line 3 is connected to the PTA15 / SP10_SCK L9 line of the main controller (U3) to control the SPI communication clock signal, and the CS_N line 4 is the main controller ( The control function for selecting the SPI communication of U3), the MISO line 5 controls the SPI communication input of the main controller (U3), and the line 6 of MOSI is for the SPI communication output of the main controller (U3). The RST_N line 8 is a control function to reset the fingerprint scan module (U4) to be restarted.The VSSD line 9 serves as a reference for the (-) voltage circuit and functions as a 0V ground, and the VDDD 10 Line 1 is a + 3V voltage input based on the positive voltage of the power supply circuit. Line 11 outputs the image scan completion signal of the fingerprint scan module (U4) .VDDA line 14 functions as a + 3V voltage input based on the positive voltage of the power supply circuit, and VSSA line 17 As a reference of the (-) voltage circuit, 0V ground function, VDDX line 19 is a + 3V voltage input function based on the (+) voltage of the power supply circuit, the fingerprint scan module (U4) scans the fingerprint Smartphone cover to operate the smartphone, characterized in that the transmission to the SPI communication to the main controller (U3).
- 제 7항에 있어서, 상기 메인컨트롤러(U3)의 VDD E5번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD E6번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD E7번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, ADC1_DP1/ADCO_DP2 J1번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VDD L10번 라인은 전원 회로의 (+)전압 기준으로, +3V 전압 입력 기능을 하며, VSS G3번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS G7번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, ADC1_DM1/ADCO_DM2 J2번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS K10번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, VSS L6번 라인은 (-)전압 회로의 기준으로서, 0V 접지 기능을 하며, ADC0_DP1 H1번 라인은 혈류감지모듈(U8)의 아날로그신호 (+)측 입력받고 혈류감지를 확인하는 기능을 하며, ADC0_DM1 H2번 라인은 혈류감지모듈(U8)의 아날로그신호 (-)측 입력받고 혈류감지를 확인하는 기능을 하며, PTA3 H9번 라인은 지문스캔모듈(U4)의 손가락 접촉을 감지하는 기능을 하며, PTA17/SPI_SIN H10번 라인은 지문스캔모듈(U4)의 SPI통신 입력을 위한 제어 기능을 하며, PTA0 J6번 라인은 NFC모듈(U5)의 NFC통신 사용 여부를 제어하는 기능을 하며, PTA2 J7번 라인은 혈류감지모듈(U8)의 혈류감지모듈을 사용할 수 있게 활성 시키는 기능을 하며, PTA16/SPI_SOUT J10번 라인은 지문스캔모듈(U4)의 SPI통신 출력을 위한 제어 기능을 하며, PTA14/SPI_PCS0 K9번 라인은 지문스캔모듈(U4)의 SPI통신 선택을 위한 제어 기능을 하며, PTA15/SPI_SCK L9번 라인은 지문스캔모듈(U4)의 SPI통신 클럭을 신호 위한 제어 기능을 하는 것으로, 상기 지문스캔모듈(U4)에서 지문을 스캔하여 미리 저장된 이미지와 비교하여 같을 경우 NFC모듈(U5)을 이용하여 NFC통신(근거리 무선 통신) 사용할 수 있게 하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.The VDD E5 line of the main controller U3 functions as a + 3V voltage input based on a positive voltage of the power supply circuit, and the VDD E6 line is a positive voltage reference of the power supply circuit. , + 3V voltage input function, VDD E7 line is based on (+) voltage of power circuit, + 3V voltage input function, ADC1_DP1 / ADCO_DP2 J1 line is (+) voltage of power circuit, + 3V voltage input function, VDD L10 line is + 3V voltage input based on (+) voltage of power supply circuit, VSS G3 line is 0V ground function as reference of (-) voltage circuit, Line VSS G7 serves as a reference for the (-) voltage circuit and has a 0V grounding function. ADC1_DM1 / ADCO_DM2 Line J2 serves as a reference for the (-) voltage circuit and has a 0V grounding function. As a reference of the voltage circuit, 0V ground function, VSS L6 line is a reference of the (-) voltage circuit, 0V ground function, ADC 0_DP1 H1 line receives the analog signal (+) side of blood flow detection module (U8) and checks blood flow detection. ADC0_DM1 H2 line receives the analog signal (-) side of blood flow detection module (U8) and receives blood flow. The PTA3 H9 line detects the finger contact of the fingerprint scan module (U4), and the PTA17 / SPI_SIN H10 line controls the SPI communication input of the fingerprint scan module (U4). PTA0 J6 line controls the use of NFC communication of the NFC module (U5), PTA2 J7 line functions to enable the blood flow detection module of the blood flow detection module (U8), PTA16 / SPI_SOUT J10 line controls the SPI communication output of the fingerprint scan module (U4), PTA14 / SPI_PCS0 K9 line controls the SPI communication of the fingerprint scan module (U4), and PTA15 / SPI_SCK line L9 signals SPI communication clock of fingerprint scan module (U4). The control function for, characterized in that by scanning the fingerprint in the fingerprint scan module (U4) compared to the pre-stored image is equal to the NFC module (U5) using the NFC communication (near-field wireless communication) to use Smartphone cover to operate the smartphone.
- 제 5항 또는 제 6항에 있어서, 태양전지(U1)의 3V 1번 라인은 전원 회로의 (+)전압 기준으로, 메인컨트롤러(U3) 및 지문스캔모듈(U4)의 VCC 라인에 연결되며, 모든 전원의 (+)전압을 공급하는 기능을 하고, GND 2번 라인은 (-)전압 회로의 기준으로서 0V 접지 기능을 하고, 메인컨트롤러(U3) 및 지문스캔모듈(U4)의 GND 라인에 연결되며, 모든 전원의 (-)전압을 공급하는 기능을 하는 것을 더 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.According to claim 5 or 6, Line 3V 1 of the solar cell (U1) is connected to the VCC line of the main controller (U3) and the fingerprint scan module (U4), based on the (+) voltage of the power supply circuit, It supplies the positive voltage of all power supplies, and the GND line 2 functions as 0V ground as the reference of the negative voltage circuit, and is connected to the GND line of the main controller (U3) and the fingerprint scan module (U4). And, the smartphone cover to operate the smartphone characterized in that it further comprises the function of supplying the negative voltage of all the power.
- 제 5항 또는 제 6항에 있어서, 상기 혈류감지모듈(U8)의 GND 1번 라인은 메인컨트롤러(U3)의 +3V 전압 입력 기능을 하고, GND 2번 라인은 (-)전압의 기준으로서, 0V 접지 기능을 하며, GNDA 3번 라인은 메인컨트롤러(U3)의 아날로그 신호 중 (-)전압의 기준으로서, 아날로그 0V 접지 기능을 하며, AO 4번 라인은 메인컨트롤러(U3)의 아날로그 신호 중 (+)전압을 출력 하고, 메인컨트롤러(U3)에서 혈류감지모듈(U8)를 제어하여 혈류감지를 하게 하는 것을 더 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바.According to claim 5 or 6, GND line 1 of the blood flow detection module (U8) serves as a + 3V voltage input function of the main controller (U3), GND line 2 as a reference of the (-) voltage, GNDA line 3 serves as a reference for the negative voltage of the analog signal of the main controller (U3), and has an analog 0V grounding function, and AO line 4 shows the analog signal of the main controller (U3). +) Outputs the voltage, the smartphone Kaba operating the smartphone, characterized in that further comprising the blood flow detection by controlling the blood flow detection module (U8) in the main controller (U3).
- 카바콘트롤러가 지문스캔부와 지정맥스캔부를 작동시키는 단계; The carba controller operating the fingerprint scan unit and the designated mac scan unit;상기 카바콘트롤러가 상기 지문스캔부 또는/및 상기 지정맥스캔부로부터 지문 또는/및 지정맥데이터를 입력받는 단계; The carba controller receiving fingerprint or / and finger vein data from the fingerprint scan unit and / or the finger vein scan unit;상기 카바콘트롤러가 입력된 지문 또는/및 지정맥데이터를 카바메모리부에 저장된 진성확인을 위한 지문 또는/및 지정맥데이터와 비교하는 단계; 및 Comparing the fingerprint or / and finger vein data input by the carba controller with the fingerprint or / and finger vein data for authenticity verification stored in the cover memory; And상기 카바콘트롤러가 지문 또는/및 지정맥데이터의 비교결과에 따라 카바정보를 태그부에 기록하는 단계를 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바의 처리방법.And a step in which the cara controller writes the cara information to the tag unit according to a comparison result of the fingerprint or / and the finger vein data.
- 제 11항에 있어서, 생체스위치부로부터 손가락의 접촉으로 발생된 생체전기를 통해 상기 카바콘트롤러를 활성화시키는 단계를 더 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바의 처리방법.12. The method of claim 11, further comprising activating the carba controller via a bioelectric generated by the contact of a finger from the bioswitch unit.
- 제 11 항 또는 제 12항에 있어서, 상기 카바콘트롤러가 카바정보를 상기 태그부에 기록한 후 표시부를 작동시키는 단계를 더 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바의 처리방법.13. The method of claim 11 or 12, further comprising the step of operating the display unit after the carba controller writes the cover information to the tag unit.
- 제 11 항 또는 제 12항에 있어서, 상기 카바콘트롤러가 카바정보를 상기 태그부에 기록한 후 카바정보가 사용된 경우 상기 태그부를 초기화하는 단계를 더 포함하는 것을 특징으로 하는 스마트폰을 작동시키는 스마트폰 카바의 처리방법.The smartphone of claim 11 or 12, further comprising the step of initializing the tag unit when the cover information is used after the cover controller writes the cover information to the tag unit. How to treat kava.
- 고객 단말기를 이용하여 제휴은행과 무인증접속을 허용하는 프로그램을 형성한 금융거래 중계 앱을 다운받는 단계로서, 고객단말기에 상기 중계 앱을 다운받는 단계(S1301);Downloading a financial transaction relay app that forms a program allowing a non-authenticated connection with a partner bank using a customer terminal, the step of downloading the relay app to a customer terminal (S1301);상기 중계 앱으로부터 제휴한 금융회사와 무인증접속할 수 있도록 실행버튼을 ON하는 단계(S1302);Step S1302 to turn on the execution button to be authenticated access to the affiliated financial company from the relay app;다음 단계로서 중계 앱을 통해 거래코저하는 금융회사를 선택하는 단계(S1303);Selecting a financial company that deals with the transaction as a next step (S1303);다음 단계로서 지문 또는/및 지정맥의 인증으로 거래할 수 있도록 인증을 받아 등록된 수요자인지 여부를 판단하는 단계(S1304);As a next step (S1304) to determine whether or not the registered consumer is authenticated to be able to transact with the fingerprint or / and finger vein authentication;등록된 수요자일 경우에는 전자상거래나 금융결재를 위하여 무인증접속을 위하여 지문 또는/및 지정맥을 입력하는 단계(S1305);In the case of a registered consumer, inputting a fingerprint or / and a finger vein for an unauthorized connection for electronic commerce or financial settlement (S1305);상기 지문 또는/및 지정맥의 인증이 소정의 절차에 따라 이행하여도 인증이 되지 않을 경우에는 종료가 되며, 상기 절차에 의하여 지문 또는/및 지정맥의 인증이 이루어질 경우(S1306)에는 미들웨어에 통과될 수 있도록 인증되어 무인증으로 거래할 수 있는 전자 상거래 또는 금융결제를 선택하는 단계(S1309);If authentication is not performed even if the fingerprint or / and finger vein authentication is performed according to a predetermined procedure, it is terminated. If authentication of the fingerprint or finger vein is performed by the procedure (S1306), it passes to the middleware. Selecting an electronic commerce or a financial settlement that can be authenticated so that the transaction can be performed without authentication (S1309);상기 전자 상거래 또는 금융결제의 선택에 의하여 이후부터는 무인증 금융거래를 중계하는 단계(S1310);Relaying an unauthenticated financial transaction thereafter by selection of the electronic commerce or financial settlement (S1310);상기 무인증금융거래 중계시 최종 결제의 요청이 있을 경우에는 본인이 등록한 인증신호를 입력하게 되는 단계(S1311)로 이루어져 무인증 금융거래의 결제가 승인되는 것(S1313)을 포함하고, If there is a request for the final payment when the unauthenticated financial transaction is relayed, the method includes inputting an authentication signal registered by the user (S1311), and the payment of the uncertified financial transaction is approved (S1313).상기 등록된 수요자인지 여부를 판단하는 단계(S1304)에서 수요자가 아닌 것으로 판단하게 되면, 다음 단계로서 무인증접속등록단계를 인증받기 위한 금융회사를 선택하는 단계(S1321);In step S1304, if it is determined that the user is not a consumer, the next step is to select a financial company to be authenticated as an unauthorized access registration step (S1321).다음 단계로서 지문 또는/및 지정맥의 인증으로 거래할 수 있도록 입력하는 단계(S1322);Inputting to be transacted with fingerprint or / and finger vein authentication as a next step (S1322);절차에 의하여 지문 또는/및 지정맥의 등록이 이루어질 경우(S1323)에는 미들웨어에 통과될 수 있는 등록이 이루어져 무인증금융거래가 가능한 것을 수요자에게 통보하는 단계(S1326);를 포함하는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법.When the fingerprint or / and finger vein registration is made by the procedure (S1323), the registration is made to pass through the middleware to notify the consumer that the unauthenticated financial transaction is possible (S1326); smart phone comprising a How to handle the financial transaction relay app linked to the Kaaba.
- 제 15 항에 있어서, 지문 또는/및 지정맥의 인증이 이루어질 경우(S1306)에, 부가하여 다음 단계인 인증신호를 입력하도록 하는 인증신호 입력단계(S1307)를 더 포함하되, 상기 인증신호가 잘못 입력되거나 요건에 맞지 않을 경우에는 종료되어 다시 시작하도록 하고, 이의 인증신호입력이 완결될 경우(S1308)에는 미들웨어에 통과될 수 있도록 인증되는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법.16. The method of claim 15, further comprising an authentication signal input step S1307 for inputting an authentication signal, which is a next step, when fingerprint or / and finger vein authentication is performed (S1306), wherein the authentication signal is wrong. If the input or does not meet the requirements to be terminated and restarted, and when the input of the authentication signal is completed (S1308) of the financial transaction relay app linked to the smart phone cover, characterized in that the authentication to pass through the middleware Treatment method.
- 제 15 항에 있어서, 상기 지문 또는/및 지정맥의 등록이 이루어질 경우(S1323)에 부가하여 다음 단계로서 인증신호를 입력하는 단계(S1324)을 더 포함하되, 이의 인증신호입력이 완결될 경우(S1325)에, 미들웨어에 통과될 수 있는 등록이 이루어지는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법.The method of claim 15, further comprising the step (S1324) of inputting an authentication signal as a next step in addition to the case where the fingerprint or / and the finger vein is registered (S1323), when the authentication signal input thereof is completed ( S1325), the financial transaction relay app processing method linked to the smartphone cover, characterized in that the registration is made to pass through the middleware.
- 제 15 항 내지 제 17 항 중 어느 한 항에 있어서, The method according to any one of claims 15 to 17,상기 인증신호는 지문 또는/및 지정맥이나, 패스워드, 비밀번호, 얼굴인식신호 및 홍채인식신호 중 어느 하나인 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법.The authentication signal is a fingerprint or / and finger vein, password, password, facial recognition signal and iris recognition signal, any one of the financial transaction relay app processing method that is linked to the smart phone cover.
- 제 15 항 내지 제 17 항 중 어느 한 항에 있어서, The method according to any one of claims 15 to 17,상기 지문 또는/및 지정맥의 인증은 상기 고객 단말기로부터 상기 지정맥 정보와 상기 지문 정보를 전송받아서 1 차로 상기 지정맥 정보를 이용하여 사용자 인증을 처리하고, 상기 지정맥 정보로부터 동일 유사한 것이 다수 있음으로써 사용자 식별이 불가능하면, 2 차로 상기 지문 정보를 이용하여 상기 동일 유사한 다수의 지정맥 정보 중에서 사용자 인증을 처리하는 것을 특징으로 하는 스마트폰 카바에 연동되는 금융거래 중계 앱의 처리방법.Authentication of the fingerprint or / and the finger vein receives the finger vein information and the fingerprint information from the customer terminal to process the user authentication using the finger vein information primarily, there are many similarities from the finger vein information If it is impossible to identify the user, the second method using the fingerprint information processing method of the financial transaction relay app linked to the smart phone cover, characterized in that for processing the user authentication of the same plurality of finger vein information.
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