JP2002279412A - Portable terminal with fingerprint-authenticating function and method for reading fingerprint - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable terminal with fingerprint authenticating functions allowing miniaturization. SOLUTION: A portable telephone 10 comprises a body 11, an indication part 12 mounted on the body 11, an operating part 13, a slit 27 and a light guide plate 14. The operating part 13 has a registering button 15 used for registering fingerprints and an authenticating button 16 used for authenticating the fingerprints. The slit 27 is formed on the upper part of the indicating part 12 and the plate 14 is fitted into the slit 27. The plate 14 is made of transparent glass or plastics into a long shape. Lengths in the longitudinal direction of the slit 27 and the plate 14 are set slightly longer than width of a fingerprint region (for example, 2 cm wide), and lengths of short sides of the slit 27 and the plate 14 are set approximate several millimeters. When authenticating the fingerprint, a user moves the fingerprint, while contacting the plate 14 for reading the fingerprint region.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable terminal having a fingerprint authentication function, and more particularly, to a portable terminal having a function of storing information of an owner of the portable terminal and identifying the owner. .

[0002]

2. Description of the Related Art In recent years, personal information (for example, e-mail, schedule, etc.) has been stored and managed using a portable terminal due to its high portability. In particular, a mobile phone having an Internet access function can use services such as transmission and reception of electronic mail, online banking, and the like. In using such services, there are privacy and security issues due to the handling of personal information. Specifically, the portable telephone may be misplaced due to its high portability and a third party may view the personal information. Conventionally, as a countermeasure, the owner of a mobile phone registers a personal identification number in the mobile phone to prevent viewing by a third party. However, PIN cache card,
It is used on a variety of occasions, such as a credit card, and there is a problem that even the owner who has registered a password forgets the password. In order to solve such a problem, it has been proposed to authenticate an individual by using a fingerprint instead of a password. Referring to FIGS. 5 and 6 illustrating a mobile phone with a fingerprint authentication function. As shown in FIG. 5, the mobile phone 50 includes a main body 51,
A display unit 52, an operation unit 53, and a light guide plate 54 that is in contact with a fingerprint are provided on the main body 51. The operation unit 53 includes a registration button 55 used at the time of fingerprint registration and an authentication button 56 used at the time of fingerprint authentication. The light guide plate 54 is formed on the upper portion of the display unit 52, and the size thereof is set slightly larger than the size of the fingerprint (for example, the width 2c).
m, vertical length 3cm). As shown in FIG. 6, a light receiving unit 57 that receives light from the light guide plate 54 is disposed below the light guide plate 54 that contacts the fingerprint of the finger F. Further, the light guide plate 5
A light source (not shown) for irradiating the light 4 is provided. The light receiving section 57 is a two-dimensional image sensor having a size slightly larger than the light guide plate 54. In addition, a recognition unit 58 for identifying fingerprint information is connected to the light receiving unit 57.
The recognition unit 58 is connected to the display unit 52.

Next, the operation of the fingerprint authentication function will be described. The owner of the portable telephone 50 presses the registration button 55 of the operation unit 53 and then moves his / her finger F as shown in FIG.
put on top. Light from the light source propagates while reflecting inside the light guide plate 54. At this time, a part of the light incident on the position corresponding to the convex portion of the fingerprint is absorbed by the finger F and attenuated. On the other hand, light incident on a position corresponding to the concave portion of the fingerprint is totally reflected without attenuating. in this way,
Since the uneven shape of the fingerprint is converted into light intensity, the light guide plate 5
The two-dimensional fingerprint information can be obtained by receiving the reflected light from the light receiving unit 4 with the light receiving unit 57. The recognition unit 58 receives the obtained fingerprint information. If the registration button 55 of the operation unit 53 has been pressed, the recognition unit 58 registers the obtained fingerprint information. On the other hand, when the authentication button 56 of the operation unit 53 is pressed, the obtained fingerprint information is collated with the fingerprint information registered in advance, and the collation result indicating whether or not the user is recognized is displayed on the display unit 52. To be displayed.

[0004]

However, in the above-described portable telephone 50, the light guide plate 54 has an area larger than the fingerprint. As a result, there is a problem that the size of the mobile phone 50 is increased by an amount corresponding to the provision of the light guide plate 54.
This degrades the portability, which is a feature of the mobile phone 50. Further, the provision of the light guide plate 54 leads to a reduction in the design of the mobile phone 50. An object of the present invention is to provide a mobile terminal with a fingerprint authentication function that can be reduced in size.

[0005]

According to the first aspect of the present invention, there is provided a reading section for reading the irregular shape of a predetermined fingerprint area of a human finger, and a reading section for reading the unevenness of the finger area. In a portable terminal with a fingerprint authentication function, comprising: an authentication unit that compares registered fingerprint information with fingerprint information registered in advance, the reading unit includes a reading area smaller than the fingerprint area that needs to be read, and the reading unit includes The gist of the present invention is to read the concavo-convex shape of the fingerprint area via the reading area. According to the invention, the reading region of the reading portion to reduce the size of the narrow for reading section than the fingerprint area is achieved, the area occupied by the reading unit on the terminal is reduced. At the same time, the degree of freedom when arranging the reading unit on the portable terminal is increased. According to the second aspect of the present invention, in addition to the configuration of the first aspect, the reading area is a light guide plate fitted in a slit, and the reading unit is configured to irradiate a fingerprint through the light guide plate, The gist of the present invention is to provide a one-dimensional image sensor that receives light from a light plate. According to the above invention, the light from the light source propagates while reflecting off the light guide plate, but the intensity of the propagated light changes based on the uneven shape of the fingerprint area. Thus, it is converted into the strength of the uneven light of the fingerprint region, one-dimensional fingerprint information by receiving light reflected from the light guide plate using a one-dimensional image sensor is obtained. By sequentially scanning fingerprints and sequentially obtaining one-dimensional fingerprint information, fingerprint information of the entire fingerprint area can be obtained. According to the third aspect of the present invention, the fingerprint area is exposed to a reading area smaller than the predetermined area in order to read the uneven shape of the predetermined fingerprint area of the human finger, and one end to the other end of the fingerprint area. The gist is that the reading unit sequentially reads the concave and convex shapes of the fingerprint area while moving the finger in the direction, and compares the read fingerprint information with fingerprint information registered in advance. According to the above invention, even if the predetermined fingerprint area is set to be narrower than the reading area, it is possible to read the fingerprint area sequentially by moving the finger sequentially to read the uneven shape of the entire predetermined fingerprint area. Becomes possible.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A mobile phone with a fingerprint authentication function embodying the present invention will be described below in detail with reference to the drawings. Figure 1
Indicates a mobile phone 10 with a fingerprint authentication function. The portable telephone 10 as a portable terminal stores personal data such as transmitted / received e-mails or schedules in a memory (not shown). As shown in FIG. 1, the mobile phone 10 includes a main body 11, a display unit 12, an operation unit 13, a slit 27 provided on the main body 11, and a light guide plate 14 as a reading area. The operation unit 13 includes a registration button 15 used at the time of fingerprint registration and an authentication button 16 used at the time of fingerprint authentication. The slit 27 is formed above the display unit 12 on the surface of the mobile phone 10,
The light guide plate 14 is fitted in the slit 27. The light guide plate 14 is made of long transparent glass or plastic. The length in the longitudinal direction of the slit 27 and the light guide plate 14 is set slightly longer than the width of the fingerprint (for example,
The width of the slit 27 and the short sides of the light guide plate 14 are set to about several millimeters. The areas of the slit 27 and the light guide plate 14 are smaller than the fingerprint area R of the finger F. Thus, the area occupied by the slit 27 and the light guide plate 14 in the mobile phone 10 is relatively small.

As shown in FIGS. 2 and 3, the light guide plate 14
The light receiving unit 1 that receives light from the light guide plate 14
7 are arranged. The light receiving unit 17 is a one-dimensional image sensor having a size slightly larger than the light guide plate 14. As shown in FIG. 3, one end of the light guide plate 14 is formed obliquely, and a light source 18 is provided at one end. The light from the light source 18 is emitted toward one end of the light guide plate 14 at an angle such that the light is totally reflected inside the light guide plate 14. Here, the light guide plate 14, the light source 18, and the light receiving unit 17 constitute a reading unit. The light receiving unit 17 includes a recognition unit 19 for identifying fingerprint information.
Is connected. Further, the recognition unit 19 is connected to the display unit 12. As shown in FIG. 4, the recognition unit 19
/ D conversion circuit 20, buffer 21, image processing circuit 22,
It comprises a fingerprint data memory 23, a personal data memory 24, a comparison circuit 25, and a control circuit 26. The A / D conversion circuit 20 converts an analog signal (fingerprint information) from the light receiving unit 17 into a digital signal. The buffer 21 temporarily stores the converted digital signal. Image processing circuit 22
Receives the digitized fingerprint information from the buffer 21, performs processing such as edge enhancement or noise removal, and provides the fingerprint data memory 23 or the principal data memory 24. Fingerprint data memory 23 and principal data memory 2
Reference numeral 4 stores fingerprint information from the image processing circuit 22. The comparison circuit 25 reads out the fingerprint information stored in the fingerprint data memory 23 and the principal data memory 24, and stores the fingerprint information in the fingerprint data memory 23 as the principal data memory 2.
4 to check whether or not the fingerprint information matches the fingerprint information, and provides the control circuit 26 with the result of the comparison. The control circuit 26 displays the result of the comparison by the comparison circuit 25 on the display unit 12, and determines whether or not the user who has performed the authentication operation can use the mobile phone 10 based on the result of the comparison.

Next, the operation of the fingerprint authentication function will be described. First, the owner of the mobile phone 10 registers his / her fingerprint information. After the registration button 15 of the operation unit 13 is pressed, the finger F is placed on the light guide plate 14 as shown in FIG. At this time, the finger F is arranged so that the base end of the fingerprint area R is in contact with the light guide plate 14. The finger F for registering the fingerprint may be any one of the left and right fingers. Here, the light from the light source 18 is
The light propagates while reflecting inside. At this time, part of the light incident on the position corresponding to the convex part of the fingerprint is absorbed by the finger F and attenuated. On the other hand, light incident on a position corresponding to the concave portion of the fingerprint is totally reflected without attenuation. Thus, in the portion corresponding to the light guide plate 14,
The uneven shape of the fingerprint is converted into light intensity. Then, one-dimensional fingerprint information is obtained by receiving the reflected light from the light guide plate 14 by the light receiving unit 17. Subsequently, the fingerprint is applied to the light guide plate 1
4 while touching the finger F in the right direction of FIG.
From the base end as one end to the front end as the other end). Thereby, the fingerprint region R corresponding to the light guide plate 14 is sequentially optically read, and finally the entire fingerprint region R is read by the light receiving unit 17.

The one-dimensionally read fingerprint information is A /
After being digitized by the D conversion circuit 20, they are sequentially stored in the buffer 21. When the data of the entire fingerprint area R is read into the buffer 21, the data is sent to the image processing circuit 22. After performing processing such as edge enhancement or noise removal, the image processing circuit 22 stores the fingerprint information in the principal data memory 24.
To be stored. As described above, the registration work of the fingerprint information is completed. Next, a method of authenticating a fingerprint will be described. First, after the user presses the authentication button 16 of the operation unit 13,
The registered fingerprint finger F is placed on the light guide plate 14. Then, the entire fingerprint area R is read by moving the finger F in the same procedure as described above. The read fingerprint information is provided to the image processing circuit 22 through the buffer 21. During the authentication process, the fingerprint information subjected to the image processing is stored in the fingerprint data memory 23. Then, the comparison circuit 25
Collates the fingerprint information read this time with the fingerprint information of the person stored in advance, and transmits the collation result to the control circuit 26. The control circuit 26 displays on the display unit 12 a result of the collation as to whether or not the person has been recognized. If the read fingerprint information matches the fingerprint information of the user, it is determined that the user is the user, and the control circuit 26 displays the fact on the display unit 12 and informs the user of the mobile phone 10. Allow use. On the other hand, if the read fingerprint information does not match the fingerprint information of the user, it is determined that the user is a third person who is not the user, and the control circuit 26 displays the fact on the display unit 12 and Refuse the use of the mobile phone 10 by the person.

As described above, according to the present embodiment, the following effects can be obtained. (1) The mobile phone 1 by a third party by the fingerprint authentication function
0 can be prevented from being illegally used. Further, the area of the light guide plate 14 for reading a fingerprint is smaller than the area of the fingerprint region R, and the size of the light guide plate 14 is significantly reduced compared to the related art. Thereby, the light guide plate 14 in the mobile phone 10 is
Occupied area of the mobile phone 10 can be reduced, and the size of the mobile phone 10 can be reduced accordingly. (2) Since the size of the light guide plate 14 is small, the degree of freedom in arranging the light guide plate 14 in the mobile phone is increased, and the light guide plate 14 can be provided without impairing the design of the mobile phone 10. (3) The area of the light guide plate 14 is set to be smaller than the fingerprint area R, and the light receiving unit 17 is a one-dimensional image sensor, but the user moves the finger F to sequentially read the fingerprint area R. Therefore, the fingerprint information of the entire fingerprint region R can be obtained. (4) Since the light receiving unit 17 is a one-dimensional image sensor,
The cost of the sensor can be reduced as compared with a conventional one using a two-dimensional image sensor.

The above embodiment may be embodied as follows. (1) In the above embodiment, the light source 18 is the light guide plate 14
Any light-emitting element such as a light-emitting diode, a semiconductor laser, a tungsten lamp, and an EL element may be used as long as light can be applied to the inside of the device. (2) In the above embodiment, as long as the concavo-convex shape of the fingerprint region R can be converted into image data, not only an optical system but also any other system may be adopted. For example, a pressure sensor or a capacitance sensor that converts a pressure corresponding to the uneven shape of the fingerprint region R into an electric signal may be used. When the above-described sensor is used as the reading unit, the slit 47 is used.
In addition, the sensor is attached to the upper surface of the main body 11 by omitting the light receiving unit 17. In this case, the sensor has an elongated and long shape, and outputs an electric signal corresponding to the uneven shape of the touched fingerprint region R. In this case, the long side of the sensor is set slightly larger than the width of the fingerprint area R, and the short side of the sensor is set to about several millimeters. By moving the finger so as to be in contact with the sensor and sequentially scanning the fingerprint area R, the fingerprint area R
The two-dimensional image data corresponding to the uneven shape is obtained. In this case, the size of the sensor can be reduced, and the sensor can be installed at a narrower position of the mobile phone 10 as compared with a method of reading the uneven shape of the fingerprint area R by an optical method. (3) In the above embodiment, a lens or a filter may be disposed between the light guide plate 14 and the light receiving unit 17 in order to improve the reading accuracy of fingerprint information. (4) In the above embodiment, the light guide plate 14 may be omitted to read the uneven shape of the fingerprint area R. For example, a configuration is adopted in which the light of the light source is directly radiated to the fingerprint area R and the reflected light is received. (5) In the above embodiment, a lens or a filter may be arranged between the light guide plate 14 and the light receiving unit 17 in order to improve the accuracy of reading the uneven shape of the fingerprint area R. (6) In the above embodiment, the present invention is not limited to the mobile phone 10 but may be embodied in a PDA (Personal Data Assistance) or another mobile terminal. (7) In the above embodiment, the light guide plate 14 is the mobile phone 1
Although it is provided at the upper part of the surface of the mobile phone 10, it may be provided at any place that can be arranged on the mobile phone 10. (8) In the above embodiment, the registration button 15 and the authentication button 16 are used when registering or authenticating fingerprint information.
Although fingerprint information is used, registration or authentication of fingerprint information may be performed by an arbitrary operation. (9) In the above embodiment, when reading the fingerprint area R, the finger F is moved in the direction from the base end to the tip end of the fingerprint area R.
Is moved, the finger F may be moved in a direction from the front end to the base end of the fingerprint area R.

The present invention may be configured as follows. In a mobile phone with a fingerprint authentication function, comprising: a reading unit that reads an uneven shape of a predetermined fingerprint region of a human finger; and an authentication unit that compares fingerprint information read by the reading unit with fingerprint information registered in advance. A mobile phone with a fingerprint authentication function, wherein the reading unit has a slit. Note that the present invention may be configured as follows. In a portable terminal with a fingerprint authentication function, comprising: a reading unit that reads the concave and convex shape of the fingerprint; and an authentication unit that compares the fingerprint information read by the reading unit with the fingerprint information registered in advance, the reading unit has a long shape. None. A portable terminal with a fingerprint authentication function, which outputs an electric signal according to the uneven shape of a fingerprint that has been contacted. According to the above configuration, since the reading unit has a long shape, the size of the reading unit can be reduced by setting the length in the longitudinal direction to the width of the fingerprint area. As a result, the degree of freedom of a place where the reading unit is installed on the portable terminal is increased, and the portable terminal can be downsized.

[0013]

According to the invention, unauthorized use of the portable terminal by a third party can be prevented by the fingerprint authentication function. Since the reading area of the reading unit is smaller than the fingerprint area, the reading unit can be significantly reduced in size compared to the related art. As a result, the area occupied by the reading unit in the mobile terminal is reduced, and the size of the mobile terminal can be reduced accordingly. Further, since the size of the reading unit is small, the degree of freedom when arranging the reading unit on the portable terminal is increased, and the reading unit can be provided without deteriorating the design of the portable terminal. According to the second aspect of the present invention, even when the light receiving section is a one-dimensional image sensor, the entire area of the fingerprint area can be read by moving the finger and sequentially reading the fingerprint area. According to the third aspect of the present invention, the reading area of the reading unit is set to be narrower than the fingerprint area. However, since the finger is moved with respect to the reading area, the fingerprint areas are sequentially read to read the fingerprint area. The entire area can be read.

[0014]

[Brief description of the drawings]

FIG. 1 is a plan view showing a mobile phone according to an embodiment of the present invention.

FIG. 2 is a sectional view taken along line 2-2 of FIG. 1;

FIG. 3 is a sectional view taken along line 3-3 in FIG. 1;

FIG. 4 is a schematic block diagram showing a recognition unit.

FIG. 5 is a plan view showing a conventional mobile phone.

FIG. 6 is a sectional view taken along the line 6-6 in FIG. 5;

[Explanation of symbols]

Reference numeral 10: a portable telephone as a portable terminal; 14, a light guide plate as a reading area constituting a reading unit; 17, a light receiving unit as a one-dimensional image sensor constituting a reading unit; 18, a light source constituting a reading unit; Recognition unit, 27: slit constituting a reading unit.

Claims (3)

[Claims] 1. A fingerprint authentication function comprising: a reading unit that reads the uneven shape of a predetermined fingerprint area of a human finger; and an authentication unit that compares the fingerprint information read by the reading unit with pre-registered fingerprint information. In the mobile terminal, the reading unit includes a reading area that is smaller than the fingerprint area that needs to be read, and the reading unit reads an uneven shape of the fingerprint area via the reading area, with a fingerprint authentication function. Mobile terminal. 2. The reading area is a light guide plate fitted in a slit, and the reading unit receives a light from the light guide plate and a light source for irradiating a fingerprint through the light guide plate.
The mobile terminal with a fingerprint authentication function according to claim 1, further comprising a three-dimensional image sensor. 3. A fingerprint area is exposed to a reading area smaller than the predetermined area in order to read the uneven shape of the predetermined fingerprint area of a human finger, and the finger is moved from one end of the fingerprint area to the other end. A fingerprint reading method comprising: causing a reading unit to sequentially read the uneven shape of the fingerprint area while comparing the read fingerprint information with pre-registered fingerprint information.