KR100652148B1 - Apparatus and method for compensating for fingerprint image quality in fingerprint acquisition apparatus - Google Patents

Abstract

The present invention relates to an apparatus and method for uniformly maintaining the image quality of a fingerprint image acquired by an image sensor in a fingerprint recognition device. More specifically, the present invention installs a sensor for detecting environmental factors affecting the image quality in the fingerprint acquisition unit and adjusts the brightness of the light source of the fingerprint acquisition device or adjusts the control value of the image sensor based on the signal output from the sensor. The present invention relates to a device and a method for compensating image quality of a fingerprint image output from an image sensor.

Fingerprint recognition, fingerprint image, image quality, environment, temperature, humidity, image sensor

Description

Apparatus and method for compensating for fingerprint image quality in fingerprint acquisition apparatus}

1 is an image diagram showing a fingerprint image that changes with humidity.

2 is a schematic diagram of two embodiments of a device according to the present invention;

3 is a flow chart of two embodiments of a method according to the present invention.

4 is a fingerprint image obtained by compensating for image quality according to the present invention;

The present invention relates to an apparatus and a method for compensating for the image quality of a fingerprint image acquired by an image sensor in a fingerprint recognition apparatus. More specifically, the present invention is to install a sensor for measuring the environmental factors affecting the image quality in the fingerprint acquisition unit and adjust the brightness of the light source of the fingerprint acquisition device based on the signal output from the sensor or control value of the image sensor The present invention relates to an apparatus and method for compensating for the image quality of a fingerprint image output from an image sensor.

Fingerprint recognition technology, which is one of biometric information authentication methods, is a technology that determines whether a person is a registered person by recognizing a fingerprint representing a unique characteristic difference for each person as an image processing method. In order to recognize the fingerprint of the person who needs authentication, the fingerprint is registered as data in advance, and the fingerprint is recognized according to the match by comparing the registered fingerprint with the feature data of the newly input fingerprint.

In order to reduce the false recognition rate of the fingerprint recognition device, it is important to develop sophisticated fingerprint authentication algorithms and hardware, but also a fingerprint acquisition device capable of acquiring a high quality fingerprint image from the subject is very important.

In general, a fingerprint acquisition device adopts a method of irradiating a light source to a bio fingerprint to read reflected or scattered light through a prism and a lens or directly with an image sensor. At this time, the fingerprint image is greatly affected by the adhesion state between the prism surface and the fingerprint. This close state is directly related to the environmental factor value (hereinafter, referred to as "environmental quantity").

For example, if the ambient humidity is too low and the fingerprint is dry, the fingers will not be in close contact with the surface of the prism, and there will be a small space between them, resulting in a decrease in the amount of light scattered or ridges without sharpening. Occurs (see Fig. 1 (a)). On the other hand, when the fingerprint is humid due to high ambient humidity, the bone between the ridge and the ridge is filled with moisture, so the amount of light scattered from the fingerprint is excessive, resulting in a problem in which the ridge and the ridge are photographed (FIG. 1 ( b)). This phenomenon is a problem that occurs very sensitively when acquiring a fingerprint image, and even the season is changing the image quality of the fingerprint image. Although only an example of humidity is shown above, the fingerprint image is also affected by temperature, especially by both humidity and temperature.

In order to uniformize the image quality of the fingerprint image, a technique for compensating image quality by manually adjusting the sensitivity of the image sensor has been developed. This allows to arbitrarily adjust the control value for controlling the image sensor to adjust the gain, brightness, contrast, etc. of the fingerprint image.

The present invention is designed to automatically maintain a constant image quality of a fingerprint image by improving a conventional manual image sensor control method, and installs a sensor for measuring an environmental quantity such as humidity or temperature in a fingerprint acquisition device. An object of the present invention is to provide a method and apparatus for controlling an image sensor in an optimal state based on the measured environmental quantity.

Another object of the present invention is to provide a method and apparatus for compensating image quality by measuring the environmental quantity and controlling the brightness of the light source irradiated to the image sensor according to the change of the environmental quantity.

The present invention is basically to compensate for the image quality of the fingerprint image output from the image sensor according to the amount of surrounding environment, such as humidity or temperature. The characteristics of the image sensor can be changed to compensate for image quality. As an image sensor used in a fingerprint acquisition device, an image sensor such as a CCD and a CMOS sensor are used. CMOS sensor is a device that can easily adjust the gain, brightness, contrast, etc. of the image by the control value. Of course, the sensitivity can be adjusted in the case of CCD. In addition, the image sensor can be easily adjusted by external control values (eg, bias voltage, current control, etc.). In addition, according to the present invention, in addition to controlling the characteristics of the image sensor, it is possible to compensate for the image quality of the fingerprint image by adjusting the brightness of the light source of the fingerprint acquisition device according to the amount of surrounding environment.

The technical spirit of the present invention will be described through specific embodiments. In the description of the embodiment, the environmental amount is concretely described by the humidity value, but the technical scope of the present invention is not limited only to the humidity. This will be described later.

As shown in Fig. 2A, the humidity sensor 20 is installed in the fingerprint acquisition unit of the fingerprint acquisition device. The signal output from the humidity sensor 20 is subjected to signal processing such as waveform shaping or AD conversion in the signal processing unit 30, and compared with the reference value in the comparison unit 40, and according to the comparison result signal, the image sensor controller 50. ) Adjusts the sensitivity of the image sensor 60. If a CMOS sensor is used as the image sensor 60, the control value can be controlled to automatically control gain, brightness, and contrast characteristics of the sensor. Control amount such as gain, brightness, contrast, etc. can be variously set by those skilled in the art according to the operating characteristics of the image sensor according to the change in humidity. Meanwhile, as another embodiment, as illustrated in FIG. 2B, the image quality of the fingerprint image acquired by the image sensor 60 is controlled by controlling the brightness of the light source 55 by the light source controller 50 ′. It is possible to compensate.

Sensor control values according to environmental factors may be applied by making control values into a lookup table as illustrated in Table 1 below, or may be processed continuously in real time. This can be easily carried out by those skilled in the art.

Reference value Humidity Gain brightness Contrast One over 90 5 20 5 2 More than 70% 7 15 7 3 50% or more 10 10 10 4 30% or more 12 7 15 5 over 10 15 5 20

The position of the humidity sensor 20 is preferably installed adjacent to the fingerprint acquisition unit. In FIG. 2, the humidity sensor 20 is installed on the surface of the prism 10 for more accurate measurement.

Repeatedly, in the above embodiment, the humidity sensor is exemplified as the environmental quantity measurement sensor, but other types of sensors may be used to achieve the object of the present invention. For example, if the characteristics of the change in image quality due to temperature change can be grasped, the temperature around the fingerprint acquisition unit may be measured using a temperature sensor, and the control value of the image sensor may be automatically controlled according to the temperature value.

On the other hand, by using both the humidity sensor and the temperature sensor, by combining the humidity and the temperature value it can be more smoothly to respond to changes in the environmental factors. For example, when humidity or temperature is high (eg, hot and humid rainy season) and when low temperature drying is detected using a humidity sensor and a temperature sensor, the image sensor is automatically controlled at this time to maximize the effect of the present invention. There will be. For reference, in the case of high temperature and high humidity, it is preferable to reduce the gain and brightness in the control value, and in contrast, in the case of low temperature drying, increasing the gain and brightness is preferable for acquiring a clear fingerprint image.

3 (a) and 3 (b) are flowcharts for explaining the method according to the present invention;

Measuring an environmental quantity from an environmental quantity (humidity or temperature or both) sensor installed in the vicinity of the fingerprint acquisition device [100],

Processing a signal output from the environmental measurement sensor (waveform shaping, AD conversion, etc.) [200],

Comparing the processed signal with a preset reference value [300],

Compensating the image quality of the fingerprint image obtained by the image sensor by changing the control value of the image sensor according to the comparison result [400]. Here, the present invention may be implemented as a step [400 '] of compensating for the image quality by changing the brightness of the light source according to the comparison result as shown in FIG. 3 (b).

Specific operation and modification of the method shown in FIG. 3 are in the same context as the operation of the apparatus of FIG.

According to the present invention, since the image quality of the fingerprint image acquired from the fingerprint image can be automatically compensated according to the amount of environment around the fingerprint acquisition unit at the time of fingerprint acquisition, it is possible to always generate a certain level of characteristic data from the fingerprint image. Therefore, the false recognition rate in fingerprint authentication can be reduced. For reference, FIG. 4 shows an example of a fingerprint image acquired with the image quality compensated using the fingerprint acquisition device to which the present invention is applied. Figure 4 (a) is an image after the fingerprint of Figure 1 (a) in a low temperature dry state is compensated according to the present invention, Figure 4 (b) is a fingerprint of Figure 1 (b) seen in a high temperature and humid state The image after it is compensated according to the invention.

Claims (10)

In the device for obtaining a fingerprint image by the image sensor, A sensor installed in the fingerprint acquisition device and measuring the amount of environment around the fingerprint acquisition unit; A signal processor for processing a signal output from the sensor; A comparator for outputting a comparison result signal by comparing the signal output from the signal processor with a currently set reference value; Including an image sensor control unit for changing the control value of the image sensor in accordance with the comparison result in the comparison unit, And a fingerprint image obtained by an image sensor whose control value is changed by the image sensor controller. In the device for obtaining a fingerprint image using a light source and an image sensor, A sensor installed in the fingerprint acquisition device and measuring the amount of environment around the fingerprint acquisition unit; A signal processor for processing a signal output from the sensor; A comparator for outputting a comparison result signal by comparing the signal output from the signal processor with a currently set reference value; Including a light source control unit for changing the brightness of the light source according to the comparison result in the comparison unit, Fingerprint image quality compensation device, characterized in that for acquiring a fingerprint image by using a light source whose brightness is changed by the light source control unit. The fingerprint image quality compensation device of claim 1 or 2, wherein the sensor is positioned on a prism surface of the fingerprint acquisition device. The apparatus of claim 1 or 2, wherein the environmental quantity measured by the sensor is one of humidity and temperature. The apparatus of claim 1 or 2, wherein the environmental quantity measured by the sensor is humidity and temperature. As a method of acquiring a fingerprint image using an image sensor, Measuring an environmental quantity from an environmental quantity measuring sensor installed around the fingerprint acquisition device; Processing a signal output from the environmental quantity measurement sensor; Comparing the processed signal with a currently set reference value; Changing a control value of the image sensor according to the comparison result; And acquiring a fingerprint image by the image sensor having the control value changed. As a method of acquiring a fingerprint image using a light source and an image sensor, Measuring an environmental quantity from an environmental quantity measuring sensor installed around the fingerprint acquisition device; Processing a signal output from the environmental quantity measurement sensor; Comparing the processed signal with a currently set reference value; Changing the brightness of the light source according to the comparison result; And acquiring a fingerprint image by using the light source whose brightness has been changed. The method of claim 6 or 7, wherein the sensor is installed on a prism surface of the fingerprint acquisition device. The method according to claim 6 or 7, wherein the environmental quantity measured by the sensor is one of humidity and temperature. The method of claim 6 or 7, wherein the environmental quantity measured by the sensor is humidity and temperature.

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