JPH0528312B2 - - Google Patents

Description

[Detailed Description of the Invention] [Summary] Displaying a variable generated by a variable generating means,
Authentication is performed by inputting a numerical value that satisfies this variable and a predetermined equation from the numerical input means, thereby preventing unauthorized authentication due to leakage of the password.

[Industrial application field]

The present invention relates to an authentication device for identifying the legitimacy of a user or the like based on whether numerical values input by the user or customer are correct, such as an authentication device used for unlocking an electric lock device.

[Conventional technology]

As a conventional authentication method using a PIN, a predetermined PIN is assigned to each individual.
In some devices, this password is input into the device, and the authenticity of the user is determined based on whether the password is correct or incorrect.

[Problem that the invention seeks to solve]

In conventional authentication methods that use a PIN number that is assigned as a fixed value, the PIN number itself serves as an absolute password, so if a third party other than the person in question learns the PIN number, had the disadvantage that it could be easily misused.

[Means to solve the problem]

In order to solve the above-mentioned problems, the present invention, as shown in the principle diagram of FIG. Display means D for displaying;
Numerical input means K for inputting numerical values by manual operation
and a calculation means E which performs calculation according to a preset calculation formula using the variable from the variable generation means and the numerical value from the numerical input means, and compares the calculation result by this calculation means with a predetermined eigenvalue. , and a comparison means C that generates an authentication output when these calculation results match the eigenvalue.

The variable generating means R may be a random number generator or a storage device that is read out cyclically over time, and the unique value may be stored in a rewritable storage device S.

[Effect]

When the device is started or the user starts operating, the variable value x generated at that time by the variable generating means R is displayed on the display means. This variable value x
are generated from a random number generator, or read out in a predetermined rotation order from a storage device storing a plurality of numerical values.

On the other hand, the user is provided with the specific value of the eigenvalue Z ₀ , for example 10, which is set and stored in the eigenvalue storage means S, and the calculation formula Z which is set and stored in the calculation means.
=f(x,y) specific formula, e.g. Z=x+
y is known in advance.

Therefore, the user selects a numerical value y such that the calculation result Z of the above calculation formula f(x, y) is equal to the eigenvalue 10 for the variable value x displayed on the display means D, in the above example, y=
10-x, and input this numerical value y from the numerical input means K.

The calculation means E substitutes the variable value x from the variable generation means R and the variable value y input by the user from the numerical input means K into each value of the calculation formula f(x, y). The calculation result Z is sent to the comparison means C.

This comparison means C compares the calculation result Z sent from the calculation means E with the eigenvalue Z ₀ stored in the eigenvalue storage means S, for example, and generates a matching output only when the two are equal. To give a concrete example using the above example, if variable 3 is displayed, 7
and, if variable 4 is displayed, 6 may be input from the numerical input means K, respectively.

If this matching output is generated, it is possible to identify whether the numerical value entered by the user is correct or not, in other words, that the user knows the fixed value and calculation formula, that is, the user is a valid user. be done.

As mentioned above, each time the identification operation is executed, the numerical value from the variable generating means R becomes a different numerical value depending on time, so a predetermined eigenvalue Z ₀ is given by the calculation formula Z=f(x,y). The value of the numerical value y that must be entered for this purpose will be different each time, and only authorized users who know both the correct calculation formula Z = f (x, y) and the correct eigenvalue Z ₀ at the same time will enter the correct answer. I can't.

In addition, as a specific formula for the above calculation formula Z = f (x, y), if it is a two-variable formula using x and y, formulas such as x × y, 2x + y, etc. can also be applied. However, in general, from the viewpoint of ease of calculation, it is preferable to employ a relatively simple formula such as Z=x+y as described above.

〔Example〕

Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is an external view of the password recognition device according to the present invention.
Figure 3 is a block showing its internal configuration.
1 is CPU, 2 is ROM, 3 is RAM, 4 is I/O
These interfaces constitute a known microcomputer system. 5 is 2
An input switch for the numerical value y consisting of two push buttons A and B, 6 a digital display that switches and displays the variable value x and the input numerical value y, 7 a housing housing these devices, and 8 the above-mentioned calculation. A keyboard is connected at least temporarily for inputting formulas, fixed values, etc., and 9 is an electric lock shown as an example that is operated according to the result of authentication by this authentication device.

In the above configuration, first, the calculation formula Z=f(x,y), the setting of the eigenvalue _Z0 , and the setting of the variable value x in the storage device will be explained with reference to the flowchart of FIG. In addition, when Z = x + y is used as a specific calculation formula, 7 is used as the eigenvalue Z ₀ , and the variable value x is set to be selected from x = 3, 2, 1, 6. Take for example.

When setting, as shown in FIG.
Connect. Then, by operating keys on the keyboard 8, the calculation formula Z=x+y is input (step 41), and is stored in the RAM 3 by the CPU 1. Next, the eigenvalue Z ₀ =7 that gives the solution to this calculation formula Z = x + y is input (step 42), and the RAM
It is stored within 3. Furthermore, the values x=3, 2, 1, and 6 taken by the variable value x of the calculation formula Z=x+y are input one after another (steps 43 and 44) and similarly stored in the RAM 3. Planned four variable values x = 3, 2,
When 1 and 6 are all input, the CPU 1 determines the rotation order for outputting these four numbers according to a predetermined method (step 46).
Now, to simplify the explanation, assuming that the output rank is given according to the input order, the variable value x
The output order is 3, 2, 1, 6,
These numerical values are repeatedly output in sequence as time passes.

Next, the authentication operation of the present invention will be explained with reference to the flowchart of FIG.

First, when push button switch A is pressed for authentication, the device is activated (step 51) and the digital display 6 shows the first rotation priority.
The variable value x=3 is displayed as shown in FIG. 2 (step 52).

The user enters the calculation formula Z=x+y and the eigenvalue Z ₀ =
7, so find the value y=4 that satisfies the above formula 3+y=7, press pushbutton switch B four times to input y=4 (step 53), then press pushbutton switch A to input the input value 4. Confirm (Step 54).

At this time, the display of the variable value x on the display 6 is ended, and the input value is displayed as 1, 2, ... each time push button switch B is pressed, or the input value is displayed by pressing push button switch A. value y
By using such a display method, a third party can display the display device 6.
Even if the user sees the numerical value displayed on the screen, it may be impossible to understand the meaning of the password input according to the present invention.

CPU1 uses input numerical value y=4 and variable value x
=3 to calculate the calculation formula x+y (step 55), compare the calculated value Z=7 with the eigenvalue Z ₀ =7 stored in RAM3 (step 56), and if they match, Generates matching output (step
57), no matching output is generated when there is a mismatch (step 58). In the case of the above example, the calculated value Z=7
and the eigenvalue Z ₀ =7 match, so a match signal is output from the I/O interface 4. For example, when the present invention is used as an unlocking device for an electric lock device, as shown in FIG. Then, the electric lock 9 is unlocked by this coincidence signal.

As described above, when the first authentication operation is completed and the push button switch A is pressed to perform the second activation, the digital display 6 shows the variable value x=2 of the second rotation rank. Is displayed.
Therefore, the second time, you must calculate a different value y from the first time using the formula Z=x+y, and enter 5 this time. In this way, each time the push button switch A is pressed to start up the apparatus, a different variable value x is displayed in the display window of the digital display 6 according to the rotation order. Therefore, even if someone else learns the value of the numerical value y input last time, the correct value will be a different numerical value y from the previous time in the next authentication operation, making it impossible to use it fraudulently.

In the above embodiment, the keyboard 8 is used to freely set all of the calculation formula Z = f (x, y), the eigenvalue Z ₀ , and the variable value x. You can fix the conditions and put them in the ROM, or only some of the conditions can be fixed.
It may be configured such that it is stored in ROM and other conditions are set freely. Furthermore, multiple variable values x may be ranked in advance as described above and displayed in rotation for each operation, or they may be displayed in a completely random manner in time using a random number generator or the like. You can also use numbers.

〔Effect of the invention〕

Since the present invention has the configuration and operation as described above, a different variable is displayed each time an authentication operation is performed, and a numerical value corresponding to this variable must be input. Therefore, it is impossible for anyone other than an authorized user who knows both the preset calculation formula and its unique value to enter the correct password value, and unauthorized use by a third party can be reliably prevented. Excellent effects can be achieved.

[Brief explanation of the drawing]

Fig. 1 is a block diagram for explaining the principle of the present invention, Fig. 2 is an external view of one embodiment of the invention, and Fig. 3 is a block diagram for explaining the principle of the present invention.
FIG. 4 is a block diagram showing the circuit configuration, FIG. 4 is a flowchart showing the procedure for setting identification conditions, and FIG. 5 is a flowchart showing the procedure for authentication operation. R is a variable generation means, K is a numerical value input means, E is a calculation means, C is a comparison means, D is a display means, and S is a storage device.

Claims (1)

[Scope of Claims] 1. Variable generation means for generating variables that change depending on time; Display means for displaying variables generated by the variable generation means; Numerical input means for inputting numerical values by manual operation. and a calculation means for performing calculation according to a preset calculation formula using the variable from the variable generation means and the numerical value from the numerical input means, and comparing the calculation result by the calculation means with a predetermined eigenvalue, An authentication device comprising: comparison means that generates an authentication output when these calculation results match the unique value. 2. The authentication device according to claim 1, wherein the variable generating means is a random number generator. 3. The authentication device according to claim 1, wherein the variable generation means is a storage device that reads variables cyclically each time an authentication process is performed. 4. The authentication device according to claims 1 to 3, wherein the unique value is stored in a rewritable storage device S.