KR100379005B1 - Numeral and figures creation method using finger mark sensor - Google Patents

Abstract

The present invention relates to a method of generating a number and a character code using a fingerprint input sensor, and is a continuous application of a method and apparatus for generating a number code using a fingerprint input sensor (application number 10-2000-23524). The pre-application has a problem in that it is difficult to assign a plurality of character codes due to the size limitation of the fingerprint sensor when trying to input characters other than numbers.

Therefore, the present invention for solving the above problems is to obtain the average value of the gray scale and the number of the fingerprint pixels of the fingerprint input to the fingerprint input sensor, and if the gray scale average value is larger than the reference value, the average coordinate of the fingerprint is stored in the memory and displayed on the LCD screen, After that, if the average value of the gradation value of the fingerprint input through the fingerprint input sensor is smaller than the reference value or the number of the fingerprint pixels is larger than the reference value, it is determined as a switching signal and the character recognition routine is performed based on the average coordinates of the stored fingerprints until then. The present invention relates to a number and character code generation method using a fingerprint input sensor capable of generating numbers or letters.

Description

Numeric and figures creation method using finger mark sensor}

The present invention is a continuing application of Application No. 10-2000-23524. The present invention relates to a method of inputting numbers and characters in a digital mobile device or a system with limited keys. More specifically, the method includes obtaining a gray scale average value and a number of fingerprint pixels inputted to a fingerprint input sensor, and when the gray scale average value is larger than a reference value, The average coordinates are stored in the memory and displayed on the LCD screen, and if the average value of the gradation of the fingerprint input through the fingerprint input sensor is smaller than the reference value or the number of fingerprint pixels is larger than the reference value, the stored fingerprint is judged as a switching signal. The present invention relates to a method of generating a number and a character code using a fingerprint input sensor capable of generating a number or a character by performing a character recognition routine on the basis of the average coordinates.

In general, the conventional keyboard method using Arabic numerals or the number input method using a few keys shows excellent performance in input speed.

Particularly, even in the case of a portable phone, a number is input using 12 keys, but there is a problem that it is difficult to reduce the volume.

In addition, a method of directly installing a two-dimensional digitizer under the liquid crystal display has a limitation in efficiently entering numbers when the size of the liquid crystal display is small.

Accordingly, the present applicant who intends to solve the above problem has already filed a patent No. 10-2000-23524.

However, the prior art has a problem that it is difficult to input a number of other characters, for example, Korean or a, b, etc., in addition to the numeric code because the area of the fingerprint input sensor is small.

Therefore, the present invention was devised to solve the above-described problems. The gray scale average value and the number of the fingerprint pixels of the fingerprint inputted to the fingerprint input sensor are obtained. When the gray scale average value is larger than the reference value, the average coordinate of the fingerprint is stored in the memory. If the average value of the gradation of the fingerprint input through the fingerprint input sensor is smaller than the reference value, it is judged as a switching signal and the character recognition routine is executed based on the average coordinates of the stored fingerprint until then. An object of the present invention is to provide a method of generating a number and a character code using a fingerprint input sensor capable of generating a character.

The present invention for achieving the above object,

A first step of inputting a fingerprint image;

A second step of preprocessing the fingerprint image input in the first step;

A third step of obtaining a gray scale average value of the fingerprint preprocessed in the second step or the number of fingerprint pixels;

A fourth step of determining whether a fingerprint image is input using a gray scale average value of the fingerprint obtained in the third step; In the configuration, including,

A fifth process of calculating a position average value (Xi, Yi) of the input fingerprint and storing it in a memory in Pi = (Gi, Xi, Yi) format when the fingerprint is input in the fourth process;

A sixth process of outputting Pi = (Gi, Xi, Yi) information in the fifth process to the LCD;

In step 4, when the gray scale mean value of the fingerprint is smaller than the initial value, a seventh step of calling a character recognition routine and passing Pi = (Gi, Xi, Yi) and

An eighth step of outputting the character code recognized in the seventh step to the LCD; Characterized in that proceeds.

Further, as a means for judging whether the switching signal is input, the process of comparing whether the number of pixels of the fingerprint is larger than the reference value in the fourth process is further configured. If the number of pixels of the fingerprint is not larger than the reference value, the fifth process is executed. And accumulates and stores the input information Pi in the memory 8 if the number of pixels of the fingerprint is greater than the reference value, and recognizes that the switching signal has occurred and then switches to the seventh process. ,

In the digitizer mode, when storing the information P of the fingerprint in the memory 8 in the fifth process, only the newly input information P is stored in the memory 8 and the newly stored information Pi in the memory 8. The position corresponding to) may be output as a dot or an arrow on the liquid crystal display.

1 is a block diagram showing a number code generator using a conventional fingerprint input sensor.

2 is a view illustrating a fingerprint input to a fingerprint input sensor according to the present invention;

3 is a view for explaining the generation of the switching signal of the fingerprint input sensor according to the present invention.

4 is a flow chart showing a control process of the present invention.

5 is a flow chart showing another embodiment of the present invention.

6 is a flow chart in the digitizer mode of the present invention.

<Description of the symbols for the main parts of the drawings>

1: fingerprint input sensor 2: analog-to-digital converter

3: image memory 4: input / output interface

5: console 6: microprocessor

7: program memory 8: working memory

9: font ROM 10: liquid crystal display

1a: optics 1b: fingerprint input range

1c: fingerprint

The present invention is configured as follows. The basic apparatus of the present invention can be configured if the performance is equal to or higher than the apparatus of the previously filed No. 10-2000-23524. Referring to the configuration and operation of the present invention in detail.

First, when power is applied to the fingerprint input sensor, the fingerprint located in the fingerprint input sensor optical unit 1a is read and sent to the A / D converter 2. The A / D converter 2 converts an analog signal into digital and records a fingerprint image in the image memory 3. The microprocessor 6 places the fingerprint pixel in the work memory 8 via the input / output interface 4 that the fingerprint image is recorded in the image memory 3. The microprocessor 6 classifies the fingerprint image information located in the work memory 8 separately only the pixels higher than or equal to the reference value based on the gray level value initially set. Thereafter, the microprocessor 6 obtains the gray scale average value and the number of pixels of the fingerprint image located in the work memory 8 and stores the same in the work memory 8. The microprocessor 6 then compares whether the gradation average value stored in the work memory 8 is larger than the initial setting value. If the gradation average value is larger than the initial setting value, the microprocessor 8 determines the average of the fingerprint image. Find the location. The formula for calculating the average position is as follows. The data type stored in the working memory 8 is stored in the form of Pi = (Gi, Xi, Yi), where Pi is the entire fingerprint image, Gi is the gray scale mean value, Xi is the average position on the horizontal axis, and Yi is the vertical axis. Average location of,)

The calculation method is Gi = (G1 + G2 ... Gn) / n

Xi = (X1 + X2 ...... Xn) / n

Yi = (Y1 + Y2 .... Yn) / n (where n is the number of pixels)

Here, the fingerprint information Pi is stored in the work memory 8 as a pair of the average position of the fingerprint image and the gradation average value. The fingerprint information Pi is output as a dot at the corresponding position of the LCD 10. The output method depends on the characteristics of the driving driver of the LCD. Subsequently, if the gray scale average value after preprocessing is smaller than the initial setting value, the microprocessor 6 calls the character recognition routine and passes the stored fingerprint movement information. When the matching character code is found and returned in the character recognition routine, the microprocessor 6 outputs the returned character code to the LCD 10. The present invention is characterized in that the fingerprint is displayed as the data consisting of the gray scale average value and the average position of the fingerprint pixel, and the gray scale average value and the number of pixels are used as the delimiter. As shown in Fig. 2, when the fingerprint is moved without removing the fingerprint, the fingerprint is repeatedly read to obtain the average coordinate and the gray scale average value and stored in the working memory. When the switching signal occurs, the character recognition program is called and stored in the working memory. Passes the trace data of the fingerprint. The character recognition process is a conventional technique, and a general method may be used, and in particular, a program for performing pixel unit recognition may be used. You can also use automata.

As shown in the flowchart [Fig. 5], when the fingerprint is input in the fourth step as a means for determining whether the switching signal is input, the microprocessor 6 compares whether the number of pixels of the fingerprint is larger than the reference value, and compares the pixels of the fingerprint as a result of the comparison. If the number of times is not greater than the reference value, a fifth process is performed to accumulate and store information Pi input in the memory 8. If the number of pixels of the fingerprint is greater than the reference value, the switching signal is After recognizing that it has occurred, it can be configured to switch to the character recognition routine of the seventh step. The reference value of the number of pixels may be set to be used as an initial value or may be configured to input an initial value according to the characteristics of the sensor. In particular, considering that 1.2-1.4 times more pixels are input when the fingerprint is pressed, it is determined that the switching signal is generated when the number of fingerprint pixels is 130% or more than the initial setting value. However, considering the sensitivity of the sensor, it is better to adjust it properly.

In addition, in the digitizer mode, when the information P about the fingerprint is stored in the memory 8 in the fifth process, only the newly input information P is stored in the memory 8, and the information newly stored in the memory 8. The position corresponding to (P) is outputted as a dot or an arrow on the liquid crystal display so that the position of the fingerprint is continuously changed, and when a point is displayed in a desired zone, a digitizer for calling a predetermined program for each zone can be configured. In particular, when the number of pixels increases based on the number of pixels using two switching signals of the digitizer, that is, a separate program is executed by dividing into a case where a fingerprint is pressed and a case where a gradation average value is small. ] Describes the digitizer mode. Digitizer mode is to configure the program list corresponding to the average position of the fingerprint to configure PROG1, PROG2 .. and to execute the program separately by placing the coordinate area to which the average position of the fingerprint belongs. In particular, the switching method may be configured such that the program is executed by distinguishing when the gray scale average value is smaller than the initial value and when the number of pixels is larger than the initial value.

As described in detail above, in the present invention, when the gray scale average value of the fingerprint input to the fingerprint input sensor is larger than the reference value, the line corresponding to the position is displayed on the liquid crystal display while the fingerprint stores the coordinates of the fingerprint input sensor. When the number of pixels of the fingerprint inputted through is larger than the reference value or the gradation average value is smaller than the reference value, the fingerprint input sensor is used to determine the switching signal and generate a number or a character using the stored coordinates of the fingerprint. It can be expected to provide a number and character code generation method. In addition, as a switching method, it is possible to provide a method that can be used as a switching signal in both a case of releasing and pressing a finger. In addition, a digitizing method using a fingerprint input sensor is provided to enable digitizing with a finger in a narrow space.

Although the invention has been described in detail only with respect to the specific examples described, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

Claims (3)

A first step of inputting a fingerprint image; A second step of preprocessing the fingerprint image input in the first step; A third step of obtaining a gray scale average value of the fingerprint preprocessed in the second step or the number of fingerprint pixels; A fourth step of determining whether a fingerprint image is input using a gray scale average value of the fingerprint obtained in the third step; In the configuration, including, A fifth process of calculating a position average value (Xi, Yi) of the input fingerprint and storing it in a memory in Pi = (Gi, Xi, Yi) format when the fingerprint is input in the fourth process; A sixth process of outputting Pi = (Gi, Xi, Yi) information in the fifth process to the LCD; In step 4, when the gray scale mean value of the fingerprint is smaller than the initial value, a seventh step of calling a character recognition routine and passing Pi = (Gi, Xi, Yi) and An eighth step of outputting the character code recognized in the seventh step to the LCD; Number and character code generation method using a fingerprint input sensor, characterized in that proceeding to. The method of claim 1, further comprising: comparing whether the number of pixels of the fingerprint is greater than the reference value in the fourth step as means for determining whether the switching signal is input or not; By performing step 5, information about the input fingerprint Pi is accumulated and stored in the memory 8, and if the number of pixels of the comparison result fingerprint is larger than the reference value, it is recognized that the switching signal has occurred, and then the process proceeds to step 7 Number and character code generation method using a fingerprint input sensor, characterized in that for switching. The memory device of claim 1, wherein in the digitizer mode, only the newly input information P is stored in the memory 8 when the information P is stored in the memory 8 in the fifth process. Method for generating a number and a character code using a fingerprint input sensor comprising a digitizing method characterized in that the position corresponding to the newly stored information (Pi) is output as a point or an arrow on the liquid crystal display.