JP2004341714A - Password authentication device and password authentication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a password authentication device and a password authentication method, capable of selectively allowing each function in the device, allowing provision of a minimum function even if forgetting an input password to be inputted, and capable of preventing others from easily releasing security. <P>SOLUTION: A CPU 11 decides whether each character code of the input password PW coincides with a reference password or not. The CPU 11 detects a coincidence state showing a degree of the coincidence between the input password PW and the reference password. The CPU 11 prescribes a function made to be usable according to the detected coincidence state. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a password authentication device and a password authentication method, and more particularly, to a password authentication device and a password authentication method suitably provided in a mobile phone, a navigation system, a hands-free device, and the like.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, for example, an authentication device that allows the function of the device when an operator inputs an input password from an input key has been put into practical use. Further, it is determined whether or not at least one of the physical characteristics of the operator, for example, a fingerprint, a voiceprint, and an iris, matches data registered in advance, and if they match, the function of the apparatus is permitted to be used. An authentication device has also been put to practical use (Patent Document 1).
[0003]
A technique has been put to practical use in which a telephone number of a mobile phone that permits locking and unlocking of an electronic lock and a valid password are stored in a memory of an electronic lock system in association with each other (Patent Document 2). That is, when there is an incoming call, the electronic lock system determines whether or not the caller's telephone number matches the telephone number stored in the memory, and determines whether the caller's telephone operates the dial button. It is determined whether or not the input password transmitted as a signal matches the valid password stored in the memory in association with the telephone number of the caller. When the telephone number and the input password match, for example, the electronic lock is released (Patent Document 2).
[0004]
In a password authentication device used for various devices such as a hands-free system, for example, an input password input by a dedicated operation switch is compared with a valid password stored in a memory, and the input password and the valid password are compared. If they match, all functions are enabled.
[0005]
[Patent Document 1]
JP 2002-47840 A
[Patent Document 2]
JP-A-2000-2029
[0006]
[Problems to be solved by the invention]
In the prior arts described in Patent Literatures 1 and 2, when registered data such as a valid password matches an input password and security is released, all functions of the terminal device can be used. For example, while the owner is away from the terminal device, there is a possibility that the terminal device may be operated by another person, and the personal data of the owner may be undesirably viewed by another person or a mobile phone without permission. Such a function that generates a fee may be used, and a large amount of charges may be forced later. Further, if the legitimate password is complicated, the owner himself / herself forgets the input password corresponding to the legitimate password, cannot release the security, and cannot use the terminal device.
[0007]
Even in a terminal device such as a hands-free device, an occupant other than the owner of the connected mobile phone may operate the terminal device. In other words, once the valid password matches the input password and the security of the terminal device is once released, all functions of the terminal device can be used, so that the same problem as described above occurs. As described above, in the related art, there is a trade-off between increasing the confidentiality of the function of the apparatus as necessary and simplifying the operability for allowing the function of the apparatus to be usable.
[0008]
Therefore, an object of the present invention is to allow each function in the apparatus to be selectively permitted, to provide a minimum function even if an input password to be input is forgotten, and to make it easy for others to provide security. An object of the present invention is to provide a password authentication device and a password authentication method that can prevent the password from being canceled.
[0009]
[Means for Solving the Problems]
The present invention according to claim 1 is a password authentication apparatus that compares an input word input by an input unit with a reference word stored in a storage unit, and enables a predetermined function based on a result of the comparison.
A matching state detecting means for detecting a matching state indicating a degree of matching between the input word and the reference word,
A password defining device for defining a function that can be used in accordance with the matching state detected by the matching state detecting means.
[0010]
According to the present invention, the matching state detecting means detects a matching state indicating the degree of matching between the input word input by the input means and the reference word stored in the storage means. The function defining unit defines a function that can be used according to the matching state detected by the matching state detecting unit. In this way, the functions that can be used are defined in accordance with the matching state between the input word and the reference word, so that each function can be selectively and operably permitted, and the operability is simplified. Can be Also, it is possible to prevent another person from easily releasing the security.
[0011]
According to a second aspect of the present invention, the matching state detecting means includes:
The input character string of the input word and the matching state of the reference character string of the reference word, and the matching state of the character type of the input character string corresponding to the character type of the predetermined arrangement order in the reference character string is detected. The matching state between the input word and the reference word is detected based on the number of characters in the matching arrangement order.
[0012]
According to the present invention, the matching state detecting means detects a matching state of the character type of the input character string corresponding to the character type of the reference character string in the predetermined order. The matching state detecting means detects a matching state between the input word and the reference word based on the number of characters in the matching arrangement order. As described above, the matching state detecting means detects whether or not the character type of the input character string continuously matches the character type of the reference character string, and also detects the number of consecutively matching characters. This makes it possible to selectively allow each function. Conversely, if the character type of the input character string does not continuously match the character type of the reference character string, it becomes impossible to selectively allow each function.
[0013]
According to a third aspect of the present invention, the matching state detecting means includes:
When the input character string of the input word includes at least one character type that does not match the character type of the reference word in a predetermined arrangement order, it is detected that the input word does not match the reference word.
[0014]
According to the present invention, even if a part of the character sequence in the predetermined arrangement order of the reference word matches the input character string of the input word, it is detected that the input word does not match the reference word. In other words, if the input character string of the input word does not completely match the reference character string of the reference word, it is detected that the input word does not match the reference word.
[0015]
According to a fourth aspect of the present invention, the matching state detecting means includes a matching position detecting means for detecting a matching position of an input word corresponding to a reference word,
The function defining means defines a function corresponding to the matching position detected by the matching position detecting means as a usable function.
[0016]
According to the present invention, the matching position detecting means detects a matching position of the input word corresponding to the reference word. The function defining means defines a function corresponding to the matching position detected by the matching position detecting means as a usable function. As described above, according to the present invention, it is possible to selectively allow the function corresponding to the matching position.
[0017]
According to a fifth aspect of the present invention, the function defining means includes:
When the matching position includes at least one character type that does not match the character type of the predetermined input word, the function corresponding to the matching position is defined as unavailable.
[0018]
According to the present invention, when at least one of the matching positions includes a character type that does not match the character type of the predetermined input word, the function corresponding to the matching position is determined to be unusable. In other words, if the character type of the input word and the character type of the reference word do not completely match at a certain matching position, the function corresponding to the matching position is determined to be unusable.
[0019]
According to a sixth aspect of the present invention, the coincidence position detecting means comprises:
Detecting a match position for each block of the input word corresponding to each of the reference words of the plurality of blocks,
The function defining means defines a function corresponding to a matching position for each block detected by the matching position detecting means as a usable function.
[0020]
According to the present invention, the matching position detecting means detects a matching position for each block of the input word corresponding to each of the reference words of the plurality of blocks. The function defining means defines a function corresponding to the matching position for each block detected by the matching position detecting means as a usable function. In this manner, a plurality of functions can be selectively and operably permitted for each block.
[0021]
For example, when a reference word of one block is composed of a reference word of a plurality of digits and an input word corresponding to the reference word of at least a plurality of blocks is input by the plurality of digits, all functions corresponding to the plurality of blocks are permitted to be used. can do. When an input word corresponding to the reference word for one block is input and an input word corresponding to the reference word for another block is erroneously input, the function corresponding to the erroneously input block is disabled, Only a function corresponding to a correctly input block can be permitted to be used.
[0022]
According to a seventh aspect of the present invention, the display means displays an input display digit that exceeds the number of characters of the reference character string or that is larger than the number of input characters to be input.
[0023]
According to the present invention, the display means displays the input display digit, and the input display digit exceeds the number of characters of the reference character string or is larger than the number of input characters to be input. This can confuse others who do not know the reference word about the number of input characters to be input. That is, it is possible to make others who do not know the reference word think that it is necessary to input the number of input characters only for the input display digits. Therefore, the security of the present password authentication device can be enhanced with a simple configuration.
[0024]
The present invention described in claim 8 is characterized in that the display means displays input display digits that are smaller than the number of characters of the reference character string or smaller than the number of input characters to be input.
[0025]
According to the present invention, the display means displays an input display digit, and the input display digit is smaller than the number of characters of the reference character string or smaller than the number of input characters to be input. This can confuse others who do not know the reference word about the number of input characters to be input. That is, it is possible to make others who do not know the reference word think that it is necessary to input the number of input characters only for the input display digits. Therefore, the security of the present password authentication device can be enhanced with a simple configuration.
[0026]
According to a ninth aspect of the present invention, the matching state detecting means detects whether or not any of the input display digits has an input character string corresponding to a character type in a predetermined arrangement order in the reference character string. And
[0027]
According to the present invention, the matching state detecting means detects whether or not any of the input display digits includes an input character string corresponding to a character type in a predetermined arrangement order in the reference character string. As described above, if the input character string corresponding to the character type in the predetermined arrangement order regardless of the input digit is in any of the input display digits, the corresponding function can be permitted.
[0028]
The present invention according to claim 10 is a storage unit capable of storing a plurality of reference words for each operator, and compares a reference word stored in the storage unit with an input word input by the input unit, It is characterized by further including an operator determining means for determining an operator.
[0029]
According to the present invention, the operator determining means compares the plurality of reference words stored in the storage means for each operator with the input word input by the input means to determine the operator. Moreover, functions set for each operator can be allowed.
[0030]
The present invention according to claim 11, wherein the function defining means defines a minimum usable function when the matching state detecting means determines that the input word and the reference word do not match. I do.
[0031]
According to the present invention, even if the input word to be input is temporarily forgotten, the function defining means determines the minimum usable function when the matching state detecting means determines that the input word and the reference word do not match. Stipulate.
[0032]
According to a twelfth aspect of the present invention, there is provided a password authentication method for comparing an input word input by an input unit with a reference word stored in a storage unit, and enabling a predetermined function based on the comparison result.
A matching state detecting step of detecting a matching state indicating a degree of matching between the input word and the reference word,
And a function defining step of defining a function that can be used according to the matching state detected in the matching state detecting step.
[0033]
According to the present invention, in the matching state detecting step, a matching state indicating the degree of matching between the input word input by the input means and the reference word stored in the storage means is detected. Then, in a function defining step, a function to be used is defined according to the matching state detected in the matching state detecting step. In this way, since the functions that can be used are defined in particular in accordance with the matching state between the input word and the reference word, each function can be selectively permitted and the operability can be simplified. it can. Also, it is possible to prevent another person from easily releasing the security.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
FIG. 1 is a diagram showing a configuration of a hands-free system according to the first embodiment of the present invention. This embodiment shows an example in which the present invention is applied to, for example, a hands-free system. The hands-free system 1 includes an electronic device 5, a mobile phone 2 connected to the electronic device 5 via a connector 6, and a speaker 7 installed in a vehicle (not shown).
[0035]
The electronic device 5 includes a microphone 8, an audio processing unit 9, a memory 10, a central processing unit 11 (hereinafter, referred to as a CPU 11), a display 12, and an operation unit 13. The microphone 8 acquires the voice generated by the speaker. The voice processing unit 9 processes the voice signal from the mobile phone 2 and outputs a voice signal to be reproduced to the speaker 7. The signal is processed and output to the mobile phone 2. The configuration is not limited to this, and the microphone 8 may be provided outside the electronic device 5.
[0036]
The memory 10 includes a ROM (Read Only Memory) in which programs and data for controlling the operation of the audio processing unit 9 are stored, and a RAM (RAM: Random) for temporarily storing data in the middle of arithmetic processing. Access Memory). The CPU 11 controls the operation of the audio processing unit 9 and communicates data signals other than the audio signal by the mobile phone 2. The CPU 11 is electrically connected to the memory 10, and is electrically connected to the display 12 and the operation unit 13. It is connected to the. The display 12 employs, for example, a pressure-sensitive touch panel. The touch panel of the display 12 corresponds to an input unit.
[0037]
The mobile phone 2 is provided with a memory 3, and the mobile phone 2 is connected to an electronic device 5 via a connector 6. The memory 3 stores history information including, for example, telephone numbers. Such history information is stored in the memory 3 of the mobile phone 2 via a line network such as a telephone line. The history information is stored in the memory 3 when the operator operates the operation unit 13 or a key operation unit (not shown) of the mobile phone 2.
[0038]
The CPU 11 compares an input password PW, which will be described later, which is input through the touch panel of the display 12, with a reference password stored in the memory 10, and enables a predetermined function based on the comparison result. More specifically, the CPU 11 defines a function that can be used according to a matching state (described later) indicating the degree of matching between the input password PW and the reference password. That is, each function in the hands-free system 1 is selectively and operably permitted. The reference password is rewritably stored in the memory 10 by a predetermined operation. The memory 10 corresponds to a storage unit. The input password PW corresponds to an input word. The reference password corresponds to the reference word. The CPU 11 corresponds to a matching state detecting unit, a function defining unit, and a matching position detecting unit.
[0039]
FIG. 2 shows a display state of the display 12 for inputting the input password PW. (1) is a view showing the entire display screen of the display, and (2) is a display area when a 6-digit input password is input. FIG. 3C is a diagram of a display area when a 5-digit input password is input, and FIG. 4D is a diagram of a display area when a 4-digit input password is input. FIG. 3 is a flowchart showing the operation of the CPU that selectively permits use of each function of the hands-free system. This will be described with reference to FIG. This flow is executed based on a program stored in the memory in advance.
[0040]
When the operator turns on the on / off switch 13a of the operation unit 13, the flow starts (step aS), and the CPU 11 displays a password input screen as shown in FIG. On the password input screen of the display 12, for example, enter a password (that is, an input password). Are displayed, a display area 15 for displaying the input password PW, a numeric keypad 16 for inputting the input password PW, a correction key 17 for correcting the input password PW, and a cursor key. 18 and an execution key 19 for determining the entered input password PW are displayed.
[0041]
The ten keys 16, the correction key 17, the cursor key 18, and the execution key 19 are realized by the above-mentioned touch panel. In the present embodiment, the execution key 19 is displayed in order to determine the input password PW, but the present invention is not necessarily limited to this. For example, if the operator inputs the input password PW using the numeric keypad 16 and then a non-input state in which no input operation of the numeric keypad 16 and the correction key 17 is performed for a predetermined time has elapsed, the CPU 11 resets the input password PW input. In some cases, the form is determined. In this case, the execution key 19 can be omitted. Note that if the operator inputs the input password PW and the operator operates the execution key 19 before the non-input state elapses a predetermined time, the input password PW is determined by the operation of the operator.
[0042]
In the display area 15 for displaying the input password PW that has been input, it is possible to display an input display frame having more digits than the reference password. Therefore, it is possible to make a third party who does not know the reference password think that it is necessary to input the number of characters of the password only in the digits of the display area 15, and it is possible to confuse the number of digits of the reference password.
[0043]
In step a1 after step aS, the CPU 11 determines whether or not the input password PW has been input and determined. If it is determined in step a1 that the input password PW has been input and determined, the process proceeds to step a2. In step a2, the CPU 11 determines whether or not the character string of the input password PW composed of the input and determined, that is, the determined character types 14, matches the preset reference password. In step a2, if the CPU 11 determines that the input password PW including the character type 14 of all digits matches the reference password, in other words, the matching rate is seven-sevenths, the process proceeds to step a3 and the hands-free operation is performed. All the functions of the system 1 are permitted to be used, and the flow shifts to step aE to end this flow.
[0044]
If the CPU 11 determines in step a1 that the input password PW has not been input and determined, the process returns to step a1 to continue the flow. All the functions of the hands-free system 1 include, for example, a function in which an operator refers to a telephone number stored in the memory 3, a function in which the operator refers to a received mail stored in the memory 3, and a function stored in the memory 3. Includes a function for the operator to refer to outgoing mail and other functions.
[0045]
When the CPU 11 determines in step a2 that the input password PW does not match the reference password, the process proceeds to step a4. In step a4, the character string of the input password PW input and determined as shown in FIG. 2 (2) matches the character string of the first to sixth digit reference passwords, in other words, the matching rate is lower. When the CPU 11 determines that it is six-sevenths, the process proceeds to step a5.
[0046]
In step a5, the CPU 11 permits the function of referring to the telephone number stored in the memory 3, the received mail, and the transmitted mail, for example, and terminates the flow. In FIG. 3, the function of referring to the telephone number by the operator is displayed as "function A", the function of referring to the received mail by the operator is displayed as "function B", and the function of referring to the transmission mail by the operator. Is displayed as “function C”. Regarding the functions permitted here, the order of security is determined in advance by the user, and the functions permitted to be used are selected based on the matching rate of the input password PW and this order. For example, if the matching rate is low, use of a function with low security is permitted, and if the input password PW substantially matches the reference password, use of a function with high security is permitted. Functions other than the permitted functions and the minimum required functions are not allowed to be used by the CPU 11 and thus cannot be used.
[0047]
If the CPU 11 determines in step a4 that the character string of the input password PW does not match the character string of the first to sixth digit reference passwords, the process proceeds to step a6. In step a6, the CPU 11 determines whether or not the character string of the input password PW input and determined as shown in FIG. 2 (3) matches the character string of the first to fifth digit reference passwords. . If it is determined in step a6 that the character string of the input and determined input password PW matches the first to fifth digit reference passwords, in other words, the matching rate is five sevenths, The process proceeds to a7.
[0048]
In step a7, the CPU 11 allows the use of the function of referring to the telephone number and the received mail stored in the memory 3, for example, and ends the present flow. In other words, of all the functions described above, for example, the use of the function of referring to the outgoing mail stored in the memory 3 by the operator is not allowed. If the CPU 11 determines in step a6 that the input and determined input password PW does not match the character string of the first to fifth digit reference passwords, the process proceeds to step a8.
[0049]
In step a8, as shown in FIG. 2D, the CPU 11 converts the character string of the input password PW composed of the input and determined character types 14 into the reference character string of the first to fourth digit reference passwords. It is determined whether or not they match. In step a8, the character string of the input and determined input password PW matches the reference character string of the first to fourth digit reference passwords, in other words, the match rate is four-sevenths. When the CPU 11 determines, the process proceeds to step a9. In step a9, the CPU 11 allows the operator to use the function of referring to the telephone number stored in the memory 3, for example, and ends the flow. In other words, of all the functions described above, it is not allowed to use, for example, a function in which the operator refers to the received mail and the transmitted mail stored in the memory 3.
[0050]
In step a8, when the CPU 11 determines that the character string of the input and determined input password PW does not match the character string of the first to fourth digit reference password, the process proceeds to step a10. In step a10, the CPU 11 displays a password re-input screen (not shown) on the display 12. Thereafter, the flow returns to step a1 to continue this flow.
[0051]
According to the hands-free system of the first embodiment described above, the input password PW is input and determined by using, for example, the touch panel of the display 12. The CPU 11 determines whether or not the character string of the input password PW composed of the input and determined character types 14 matches a preset reference password. Further, the CPU 11 detects a matching state indicating the degree of matching between the input and determined input password PW and the reference password, that is, the various matching rates described above. Then, the CPU 11 defines a function that can be used according to the detected matching state.
[0052]
In this way, since the functions that can be used are defined in accordance with the matching state between the input password PW and the reference password, each function can be selectively and operably permitted, and the operability can be improved. It can be simplified. In other words, the functions that can be used can be selectively limited, and the operability for limiting the functions can be simplified. For example, when a person other than the owner of the present hands-free system uses the hands-free system, a function of viewing personal data of the owner can be disallowed.
[0053]
In addition, even if the owner forgets part of the input password that should be entered unexpectedly (that is, the reference password), a function that corresponds to at least a part of the memorized reference password that is part of the memorized reference password Can be used. Also, even when letting others use the hands-free system 1, teaching only a part of the reference password can prevent a function that the user does not want to use from being used.
[0054]
In addition, since the input display frame having the number of digits of the reference password, that is, the number of digits larger than the number of characters of the character string is displayed on the display 12, a person who does not know the reference password can display the input display frame with the digits of the input display frame. It can be assumed that it is necessary to input the input password PW by the number, and it is possible to prevent the input password PW from completely matching the reference password. In the present embodiment, the number of digits of the input display frame to be displayed is set to a number larger than the number of digits of the reference password. However, an input display frame of less than the number of digits of the reference password may be displayed. Also in this case, a person who does not know the reference password can be made to think that it is necessary to input the input password PW by the number of digits of the displayed input display frame, and the input password PW and the reference password are completely matched. Can be prevented. The number of digits of the input display frame to be displayed may be the same as the number of digits of the reference password.
[0055]
[Second embodiment]
FIG. 4 is a diagram for explaining a relationship between a code block including a plurality of characters and a function assigned to each code block. FIG. 5 is a flowchart showing the operation of the CPU that permits the function assigned to each code block to be usable. This will be described with reference to FIG. However, the same components as those of the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted. This flow is executed based on a program stored in the memory 10 in advance.
[0056]
In the hands-free system of the second embodiment, in particular, the CPU 11 detects a matching position for each code block of the input password PW corresponding to the reference password of the plurality of code blocks, and determines a matching position for each detected code block. Define the corresponding functions as usable functions. Among the reference passwords of a plurality of code blocks, each of the code blocks is composed of one or more characters.
[0057]
Specifically, as shown in FIG. 4A, the first reference password “1234” of the first code block including the character type 14 of the four digits (the first to fourth digits) of the front row and the rear row 4 The second reference password “5678” of the second code block including the character type 14 of the digit (fifth to eighth digits) is stored in the memory 10 in advance in a rewritable manner. That is, in the present embodiment, the reference password includes the first and second reference passwords.
[0058]
As shown in FIG. 4 (2), if the first input password PW1 entered and determined in the first to fourth digits of the input display frame matches the above-described first reference password “1234”, , Allows the function E of the hands-free system 1 to be usable. However, since the second input password PW2 entered and determined in the fifth to eighth digits of the input display frame does not match the aforementioned second reference password “5678”, the function F of the hands-free system 1 is Becomes unusable.
[0059]
Conversely, as shown in FIG. 4C, if the second input password PW2 entered and determined from the fifth digit to the eighth digit of the input display frame matches the second reference password “5678” , Allows the function F of the hands-free system 1 to be usable. However, since the first input password PW1 entered and determined in the first to fourth digits of the input display frame does not match the first reference password “1234”, the function E of the hands-free system 1 cannot be used. It becomes possible.
[0060]
When the operator turns on the on / off switch 13a of the operation unit 13, this flow starts (step bS), and the CPU 11 displays a password input screen on the display 12. After step bS, in step b1, it is determined whether or not the input password PW including the multi-digit character type 14 has been input and determined. If it is determined in step b1 that the input password PW has been input and determined, the process proceeds to step b2. In step b2, the CPU 11 determines whether or not the character string of the input and determined, that is, the determined input password PW matches the preset reference password.
[0061]
If it is determined in step b2 that the input password PW including the character type of the first to eighth digits matches the first and second reference passwords, the process proceeds to step b3, where all functions of the hands-free system 1 are performed. This flow is terminated by permitting the use of (step bE). If the CPU 11 determines in step b1 that the input password PW has not been input and determined, the process returns to step b1 to continue the flow.
[0062]
If the CPU 11 determines in step b2 that the input password PW including the first to eighth digit character types 14 does not match the first and second reference passwords, the process proceeds to step b4. In step b4, the CPU 11 determines whether or not the first input password PW1 including the first to fourth digit character types 14 matches the first reference password “1234” of the first code block. When the CPU 11 determines that the first input password PW1 matches the first reference password in step b4, the process proceeds to step b5.
[0063]
In step b5, the CPU 11 permits the function E of the hands-free system 1 to be usable. After that, the flow shifts to step bE to end this flow. If the CPU 11 determines in step b4 that the first input password PW1 including the first to fourth digit character types 14 does not match the first reference password, the process proceeds to step b6.
[0064]
In step b6, the CPU 11 determines whether or not the second input password PW2 including the fifth to eighth digit character types 14 matches the second reference password “5678”. When the CPU 11 determines that the second input password PW2 matches the second reference password in step b6, the process proceeds to step b7. In this step b7, the CPU 11 permits the function F of the hands-free system 1 to be usable. After that, the flow shifts to step bE to end this flow.
[0065]
If the CPU 11 determines in step b6 that the second input password PW2 including the character type 14 of the fifth to eighth digits does not match the second reference password, the process proceeds to step b8. In step b8, the CPU 11 displays a password re-input screen (not shown) on the display 12. Thereafter, the flow returns to step b1 to continue this flow.
[0066]
According to the hands-free system of the second embodiment described above, the CPU 11 detects the matching position of each of the code blocks of the input password corresponding to the reference password of the plurality of code blocks, and The function corresponding to the matching position is defined as a usable function. In this manner, a plurality of functions can be selectively and operably permitted for each code block.
[0067]
For example, when first and second input passwords PW1 and PW2 respectively corresponding to the first reference password of the first code block and the second reference password of the second code block are input and determined, the first and second code blocks are input to these first and second code blocks. All corresponding functions can be allowed to be used. Further, when the first input password PW1 corresponding to the first reference password of the first code block is input and determined, and the second input password PW2 corresponding to the second reference password of the second code block is incorrectly input and determined, The function corresponding to the erroneously input code block can be disabled, and only the function corresponding to the correctly input and determined code block can be permitted to be used.
[0068]
In other words, for an unnecessary function, it is not necessary to match the input password with the reference password of the code block corresponding to the function. Therefore, the operability when inputting and determining the input password PW can be simplified. Further, even if the operator forgets a part of the input password PW to be input, a part of functions corresponding to the code block can be used only by the memorized reference password in units of code blocks. Also, when letting another person use the hands-free system, if only the reference password of the code block corresponding to the function permitted to be used is taught, there is no possibility that another function is used.
[0069]
[Third Embodiment]
FIG. 6 is a diagram illustrating the positional relationship between the input password and the input display frame. However, the same components as those of the first and second embodiments are denoted by the same reference numerals, and detailed description thereof will be omitted. In the third embodiment of the present invention, assuming that the preset reference password is, for example, “1234”, even if the input digits of input password PW to be input and determined are different, FIG. As shown in (2) and (2), if the arrangement order of each character of the input password PW is “1”, “2”, “3”, and “4”, the input password PW determined to be input and determined matches the reference password. The CPU 11 makes the determination.
[0070]
As a result, the function corresponding to the predetermined reference password can be permitted to be used. Further, according to the present embodiment, for example, even if the character of the first digit is erroneously input, "1", "2", "3", "3" By re-entering and determining "4", the input password PW and the reference password can be matched. The input error refers to a state in which no character is input, and for example, the cursor key 18 leaves a “space” and advances to the next digit. In FIG. 6, the space is indicated by “*”.
[0071]
Therefore, even if there is an input error, the input password PW to be correctly input can be continuously input without correction using the correction key 17 and the cursor key 18 during input. As shown in FIG. 6C, if the order of the characters of the input password is “1,” “2,” “3,” or “7,” the input password PW does not match the reference password. As described above, when the input character string of the input password PW includes at least one character that does not match the character string in the predetermined order of the reference password, it is determined that the input password PW to be input and determined does not match the reference password. The CPU 11 makes the determination. In other words, when the character string of the input password PW does not completely match the character string of the reference password, the CPU 11 determines that the input password PW does not match the reference password.
[0072]
[Fourth Embodiment]
FIG. 7 is a diagram showing reference passwords corresponding to functions to be set for each operator. However, the same components as those of the first to third embodiments are denoted by the same reference numerals, and detailed description thereof will be omitted. In the fourth embodiment of the present invention, a plurality of reference passwords corresponding to functions to be set for each operator are rewritably stored in the memory 10. In particular, the CPU 11 compares a plurality of reference passwords that can be stored in the memory 10 for each operator with the input and determined input password PW to determine the operator. The CPU 11 corresponds to an operator determining unit.
[0073]
For example, as shown in FIG. 7A, a reference password “1234” unique to a certain operator U1 and a function corresponding to the reference password and usable by the operator U1 are stored in the memory 10. I have. In FIG. 7, the operator U1 is described as a user U1, and the operator U2 is described as a user U2. In this case, the operator U1 inputs and determines the input password PW corresponding to the known reference password unique to the operator U1, and the CPU 11 determines that the input password PW matches the reference password.
[0074]
As a result, the CPU 11 discriminates the operator and allows only the functions set for each operator to be usable. For example, as shown in FIG. 7A, the CPU 11 permits only the function A to be turned on, that is, usable. That is, the operator U1 can use the function A and cannot use the functions B and C.
[0075]
For example, as shown in FIG. 7B, a reference password “5678” unique to a certain operator U2 and a function corresponding to the reference password and usable by the operator U2 are stored in the memory 10. I have. In this case, the operator U2 inputs and determines the input password PW corresponding to the known reference password unique to the operator U2, and the CPU 11 determines that the input password PW matches the reference password.
[0076]
As a result, the CPU 11 discriminates the operator and allows only the functions set for each operator to be usable. For example, as shown in FIG. 7B, the CPU 11 allows only the function B to be turned on, that is, usable. That is, the operator U2 can use the function B and cannot use the functions A and C.
[0077]
As described above, the memory 10 stores a plurality of reference passwords corresponding to functions to be set for each operator, and allows each operator to enter the input password PW corresponding to the operator-specific reference password. By inputting and determining, the CPU 11 can allow the functions to be set for each operator to be usable.
[0078]
[Fifth Embodiment]
FIG. 8 is a flowchart illustrating the operation of the CPU that permits a function according to the matching rate. This will be described with reference to FIG. However, the same components as those of the first embodiment are denoted by the same reference numerals, and detailed description thereof will be omitted. This flow is executed based on a program stored in the memory 10 in advance. In the fifth embodiment of the present invention, especially when the match rate is 0, the CPU 11 allows only the minimum functions necessary for using the hands-free system 1 to be usable.
[0079]
When the operator turns on the on / off switch 13a of the operation unit 13, this flow starts (step cS), and the CPU 11 displays the above-described password input screen on the display 12. In step c1 after step cS, the CPU 11 determines whether or not the input password PW has been input and determined. If it is determined in step c1 that the input password PW has been input and determined, the process proceeds to step c2.
[0080]
In step c2, the CPU 11 determines whether the character string of the input and determined input password PW matches a preset reference password. In step c2, when the CPU 11 determines that the input password PW including all the digits of the characters matches the reference password, the CPU 11 shifts to step c3 to permit all the functions of the hands-free system to be used, and to execute step cE. To end the flow. When the CPU 11 determines in step c1 that the input password PW has not been input and determined, the process returns to step c1 to continue the flow.
[0081]
If the CPU 11 determines in step c2 that the input password PW does not match the reference password, the process proceeds to step c4. In step c4, when the CPU 11 determines that the character string of the input and determined input password PW matches the character string of the first to nth digits of the reference password, the process proceeds to step c5. N is an integer of 1 or more. In step c5, the CPU 11 allows only some of the functions of the hands-free system to be usable.
[0082]
In step c4, when the CPU 11 determines that the character string of the input password PW does not match the character string of the first to nth digits of the reference password, the process proceeds to step c6. In step c6, the CPU 11 permits only the minimum necessary functions to use the hands-free system and terminates the flow.
[0083]
As described above, even if the character string of the input password PW does not match the character string of the reference password, the CPU 11 can use only the minimum necessary functions for using the hands-free system (for example, permitting an incoming call). Tolerate. Therefore, even if the operator forgets the input password PW to be input, that is, the reference password, it is possible to use only the minimum functions necessary for using the hands-free system.
[0084]
As another embodiment of the present invention, for example, an input password operated in a predetermined order by combining a pedal and switches in a vehicle compartment can be adopted. By matching such an input password with a predetermined reference password, a predetermined function of the apparatus can be permitted to be used.
[0085]
In the third embodiment (see FIG. 6), for example, even if each character is arranged in a predetermined order via a space “*”, the input password and the reference password are determined by looking at the arrangement of characters other than the space “*”. It is also possible to adopt a configuration for determining whether or not they match. This embodiment shows an example in which the present invention is applied to a hands-free system, but is not necessarily limited to a hands-free system. For example, the present invention is applicable to a security device such as a door lock system, a fixed telephone, a facsimile device, and a personal computer. In addition, various partial changes may be made to the above-described embodiment without departing from the scope of the claims.
[0086]
【The invention's effect】
According to the first aspect of the present invention, since the functions that can be used are defined in accordance with the matching state between the input word and the reference word, each function can be selectively and operably permitted. In addition, the operability can be simplified. Also, it is possible to prevent another person from easily releasing the security.
[0087]
According to the second aspect of the present invention, the matching state detecting means detects whether or not the character type of the input character string continuously matches the character type of the reference character string, and determines the number of consecutively matching characters. Has been detected. This makes it possible to selectively allow each function. Conversely, if the character type of the input character string does not continuously match the character type of the reference character string, it becomes impossible to selectively allow each function.
[0088]
According to the third aspect of the present invention, even if a part of the character sequence in a predetermined order of the reference word matches the input character string of the input word, it is detected that the input word does not match the reference word. You. In other words, if the input character string of the input word does not completely match the reference character string of the reference word, it is detected that the input word does not match the reference word.
[0089]
According to the present invention, the matching position detecting means detects a matching position of the input word corresponding to the reference word. The function defining means defines a function corresponding to the matching position detected by the matching position detecting means as a usable function. As described above, according to the present invention, it is possible to selectively allow the function corresponding to the matching position.
[0090]
According to the fifth aspect of the present invention, when at least one of the matching positions includes a character type that does not match the character type of the predetermined input word, the function corresponding to the matching position is determined to be unusable. In other words, if the character type of the input word and the character type of the reference word do not completely match at a certain matching position, the function corresponding to the matching position is determined to be unusable.
[0091]
According to the present invention, the matching position detecting means detects a matching position for each block of the input word corresponding to each of the reference words of the plurality of blocks. The function defining means defines a function corresponding to the matching position for each block detected by the matching position detecting means as a usable function. In this manner, a plurality of functions can be selectively and operably permitted for each block. For example, when a reference word of one block is composed of a reference word of a plurality of digits and an input word corresponding to the reference word of at least a plurality of blocks is input by the plurality of digits, all functions corresponding to the plurality of blocks are permitted to be used. can do. When an input word corresponding to the reference word for one block is input and an input word corresponding to the reference word for another block is erroneously input, the function corresponding to the erroneously input block is disabled, Only a function corresponding to a correctly input block can be permitted to be used.
[0092]
According to the present invention, the display means displays the input display digit, which is larger than the number of characters of the reference character string or larger than the number of input characters to be input. This can confuse others who do not know the reference word about the number of input characters to be input. That is, it is possible to make others who do not know the reference word think that it is necessary to input the number of input characters only for the input display digits. Therefore, the security of the present password authentication device can be enhanced with a simple configuration.
[0093]
According to the present invention, the display means displays the input display digit, and the input display digit is smaller than the number of characters of the reference character string or smaller than the number of input characters to be input. . This can confuse others who do not know the reference word about the number of input characters to be input. That is, it is possible to make others who do not know the reference word think that it is necessary to input the number of input characters only for the input display digits. Therefore, the security of the present password authentication device can be enhanced with a simple configuration.
[0094]
According to the ninth aspect of the present invention, the matching state detecting means detects whether or not any of the input display digits has an input character string corresponding to a character type in a predetermined arrangement order in the reference character string. I have. As described above, if the input character string corresponding to the character type in the predetermined arrangement order regardless of the input digit is in any of the input display digits, the corresponding function can be permitted.
[0095]
According to the tenth aspect of the present invention, the operator determining means compares the plurality of reference words stored in the storage means for each operator with the input word input by the input means, and determines the operator. Determine. Moreover, functions set for each operator can be allowed.
[0096]
According to the eleventh aspect of the present invention, even if the input word to be input is temporarily forgotten, the function defining means is used at least when the matching state detecting means determines that the input word and the reference word do not match. Specify possible functions.
[0097]
According to the twelfth aspect of the present invention, in the matching state detecting step, a matching state indicating a degree of matching between the input word input by the input means and the reference word stored in the storage means is detected. Then, in a function defining step, a function to be used is defined according to the matching state detected in the matching state detecting step. In this way, since the functions that can be used are defined in particular in accordance with the matching state between the input word and the reference word, each function can be selectively permitted and the operability can be simplified. it can. Also, it is possible to prevent another person from easily releasing the security.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of a hands-free system according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a display state of a display for inputting an input password.
FIG. 3 is a flowchart illustrating an operation of a CPU that selectively permits use of each function of a hands-free system.
FIG. 4 is a diagram for explaining a relationship between a code block including a plurality of characters and functions assigned to each code block.
FIG. 5 is a flowchart illustrating an operation of a CPU that allows a function assigned to each code block to be used;
FIG. 6 is a diagram illustrating a positional relationship between an input password and an input display frame.
FIG. 7 is a diagram showing reference passwords corresponding to functions to be set for each operator.
FIG. 8 is a flowchart illustrating an operation of a CPU that permits a function according to a matching rate.
[Explanation of symbols]
1 Hands-free system
10 memory
11 CPU
12 Display
PW input password
14 Character code
15 Display area
PW1 First input password
PW2 Second input password

Claims (12)

In a password authentication device that compares an input word input by an input unit with a reference word stored in a storage unit and enables a function determined in advance based on the comparison result,
A matching state detecting means for detecting a matching state indicating a degree of matching between the input word and the reference word,
A password authentication apparatus, comprising: a function defining unit that defines a function that can be used according to the matching state detected by the matching state detecting unit. The matching state detecting means includes:
The input character string of the input word and the matching state of the reference character string of the reference word, and the matching state of the character type of the input character string corresponding to the character type of the predetermined arrangement order in the reference character string is detected. 2. The password authentication apparatus according to claim 1, wherein a matching state between the input word and the reference word is detected based on the number of characters in the matching arrangement order. The matching state detecting means includes:
3. The method according to claim 2, wherein when the input character string of the input word includes at least one character type that does not match the character type of the reference word in a predetermined arrangement order, it is detected that the input word does not match the reference word. Password authentication device. The matching state detecting means has a matching position detecting means for detecting a matching position of the input word corresponding to the reference word,
4. The password authentication device according to claim 2, wherein the function defining unit defines a function corresponding to the matching position detected by the matching position detecting unit as a usable function. The function defining means includes:
5. The password authentication apparatus according to claim 4, wherein when the matching position includes at least one character type that does not match the character type of the predetermined input word, the function corresponding to the matching position is defined as being unusable. The matching position detecting means includes:
Detecting a match position for each block of the input word corresponding to each of the reference words of the plurality of blocks,
6. The password authentication apparatus according to claim 5, wherein the function defining unit defines a function corresponding to a matching position for each block detected by the matching position detecting unit as a usable function. The password authentication device according to claim 2, wherein the display unit displays an input display digit that exceeds the number of characters of the reference character string or that is larger than the number of input characters to be input. 7. The password authentication device according to claim 2, wherein the display unit displays input display digits that are smaller than the number of characters of the reference character string or smaller than the number of input characters to be input. 8. The password authentication according to claim 7, wherein the matching state detecting means detects whether or not any of the input display digits includes an input character string corresponding to a character type in a predetermined arrangement order in the reference character string. apparatus. Storage means capable of storing a plurality of reference words for each operator; and operator determination means for comparing the reference word stored in the storage means with the input word input by the input means to determine an operator The password authentication device according to claim 1, further comprising: 2. The password authentication device according to claim 1, wherein the function defining unit defines a minimum usable function when the matching state detecting unit determines that the input word and the reference word do not match. . In a password authentication method in which an input word input by an input unit is compared with a reference word stored in a storage unit, a function determined in advance according to a result of the comparison can be used.
A matching state detecting step of detecting a matching state indicating a degree of matching between the input word and the reference word,
A function defining step of defining a function that can be used in accordance with the matching state detected in the matching state detecting step.

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