JPH1113319A - Keyless entry system and generating method of password code - Google Patents

Abstract

PROBLEM TO BE SOLVED: To change a password code easily in a keyless entry system. SOLUTION: In the keyless entry system, in which a password code is transmitted and collated to a remote control receiver 100 from a remote control transmitter 200 and remote control is conducted, the remote control receiver 100 receives one of FM multiple broadcast, television multiple broadcast and digital broadcast, and has a memory 5 for a reception-side password code, in which a password code for collation is written, and a data control circuit 4 changing the password code for collation written in the memory 5 for the password code as a password code by selecting a part of digital-data obtained from a received signal. The remote control transmitter 200 receives the altered password code from the remote control receiver 100, and has a memory 25 for a transmission-side password code, in which the received altered password code is written.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a keyless entry system capable of remotely opening and closing a door of an automobile or a garage and a method for generating a security code therefor, and more particularly to a system capable of changing a security code used in the keyless entry system. And a method for generating a personal identification code.

[0002]

2. Description of the Related Art In a conventional keyless entry system, a remote control receiver is mounted on a door of a car or a garage.
The remote control transmitter transmits a password to the remote control receiver to open and close the door. A password is written in the memory of the remote control receiver and the remote control transmitter. There are two types of security codes used: a "fixed code" that cannot be changed once it is written, and a "rolling code" in which the security code constantly changes over time.

[0003]

However, in the conventional keyless entry system, there is a problem that the code cannot be set by the user because the manufacturer determines the password at the time of shipment. SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a keyless entry system capable of instantly and easily changing a personal identification code by a user, and having high security, and a method of generating the personal identification code.

[0004]

According to the present invention, there is provided a keyless entry system for transmitting a security code from a remote control transmitter to a remote control receiver, collating the password, and performing a remote operation. The remote control receiver receives one of FM multiplex broadcasting, television multiplex broadcasting, and digital broadcasting, and a memory for a receiving side security code in which a security code for verification is written, and digital data obtained from the received signal. A data control circuit for selecting a part of the security code and changing a security code for verification written in the security code memory as a security code;
The remote control transmitter receives a changed password from the remote control receiver, and includes a memory for a transmission-side password in which the received changed password is written. By this means, the user can change the security code instantly and easily, and a security code with high security can be obtained.

[0005]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings, with reference to an example of a keyless entry system used for opening and closing a door of an automobile. FIG. 1 is a view for explaining an example in which a password code stored in a password code memory of a remote control receiver in a keyless entry system according to the present invention is changed using an FM receiver. The remote control receiver 100 of the keyless entry system shown in FIG. 1 is configured to store a part of the received data in a memory and use it as a secret code when arbitrary digital data such as FM multiplex broadcast is received by a radio tuner. More specifically, the remote control receiver 100 includes an antenna 2 for converting radio waves into an electric signal, and a digital (FM) multiplex broadcast from a radio station 1 via the antenna 2.
It is also used as an FM receiver including an FM receiver 3 for receiving and demodulating a data signal. In the remote control receiver 100, F
A data control circuit 4 is provided downstream of the M receiver 3, and a password memory 5 is provided downstream of the data control circuit 4.

[0006] When the user turns on the password code setting button, the data control circuit 4 inputs a password code setting command and issues a reception command and a data transfer command to the FM receiver 3.
On the other hand, the FM receiver 3 receives the FM multiplex broadcast for a certain period,
Digital data, for example, 011000 100101
10 to 110, and arbitrarily select a part of the digital data via the data control circuit 4 (underlined) and send it to the PIN code memory 5, and arbitrarily select digital data, for example, 10010110. Write. The FM multi-transmission broadcast receiver may be a device that receives a television broadcast or a digital broadcast (OFDM). Thus, the password of the password code memory 5 is changed. The digital data changed in this way is used as a password in a keyless entry system. For this reason, it is possible to easily create a password code from existing media such as radio and television.

FIG. 2 is a view for explaining an example in which the security code stored in the security code memory of the remote control receiver in the keyless entry system according to the present invention is changed using a mobile phone, a pager or the like. is there. The remote control receiver 100 of the keyless entry system shown in FIG. 1 is configured to store a part of the received data in a memory when receiving digital data depending on a user such as a mobile phone or a pager, and to provide a password. Specifically, the remote control receiver 100 of the keyless entry system receives digital data from an antenna 12 that converts radio waves into an electric signal and a data transmitter 11 such as a mobile phone or a pager via the antenna 12. Data receiver 1 for demodulation
3 is provided. Further, the remote control receiver 100 is provided with a data control circuit 14 at the subsequent stage of the data receiver 13 and a security code memory 15 at the subsequent stage.

When the user turns on the password setting button while the data transmitter 11 such as a mobile phone or a pager is transmitting data, the data control circuit 14 inputs a password setting command to the data receiver 13. A receive command and a data transfer command are issued. On the other hand, the data receiver 13 receives the digital data transmitted for a certain period, demodulates the digital data into, for example, 0 100101101 , and arbitrarily selects a part of the digital data via the data control circuit 14. (Underlined part) and sends it to the security code memory 15 to arbitrarily select digital data, for example, 10010
Write 110. Thus, the personal identification code in the personal identification code memory 15 is changed. The digital data changed in this way is used as a password in a keyless entry system. For this reason, it is possible to easily create a personal identification code from a personal communication terminal such as a mobile phone or a pager.

Next, a modification of the embodiment shown in FIGS. 1 and 2 will be described. FIG. 3 is a view for explaining a modification of the embodiment shown in FIGS. 1 and 2 as a representative of a modification of the embodiment shown in FIG. As shown in FIG.
And a data control circuit 14 are provided with a scramble circuit 16. The data control circuit 14 allows the user to turn on the security code setting button during data transmission with a mobile phone or a pager.
When N is set, a password setting command is input, and a receiving command and a data transfer command are issued to the data receiver 13.

On the other hand, the data receiver 13 receives and demodulates the digital data transmitted for a certain period, demodulates the digital data into, for example, 0 100101101 , and outputs one of the digital data via the data control circuit 14. A part, for example, 10010110 is arbitrarily selected (underlined part), and the digital data is encrypted by the scramble circuit 16 and sent to the secret code memory 15 for writing.

In this way, by adding a simple circuit,
It is possible to encrypt and increase confidentiality. FIG. 4 shows FIG.
It is a figure explaining the modification of. As shown in the figure, the arrangement of the scramble circuit 16 and the data control circuit 14 shown in FIG.

In this way, it is possible to increase the variety of the configuration, and it is possible to obtain the same operation and effect as described above. FIG. 5 is a modification of FIG.
FIG. 4 is a diagram illustrating an example in which a password stored in a password code memory is changed using a remote control receiver. The keyless entry system shown in this figure is an extension of FIG. 1, and changes the password of the remote control transmitter 200 by bidirectional communication between the remote control receiver 100 and the remote control transmitter 200. Specifically, as shown in the figure, first, the remote control receiver 100 is provided with an FM transmitter 6 for transmitting digital data from the data control circuit 4 via the antenna 2. further,
Remote control transmitter 2 for transmitting and receiving with remote control receiver 100
00 is the antenna 21 and the FM connected to the antenna 21
Receiver 22, FM transmitter 23, and FM receiver 22 and F
A data control circuit 24 is provided downstream of the M transmitter 23, and a password memory 25 is provided downstream of the data control circuit 24.

Data control circuit 2 of remote control transmitter 200
When the user issues an instruction to rewrite the personal identification code to the remote controller 3, an instruction signal is transmitted from the remote control transmitter 200 to the remote control receiver 100 via the FM transmitter 22 and the antenna 21. In the remote control receiver 100, antenna 2, FM
When the data control circuit 4 receives the command signal via the receiver 3, the digital data received from the radio station 1 via the antenna 2 and the FM receiver 3 is selected as described in FIG. The security code memory 5 is partially changed. Thereafter, the data control circuit 4 stores the password code memory 5
Read the changed password from the FM transmitter 6,
The signal is transmitted to the remote control transmitter 200 via the antenna 2. In the remote control transmitter 200, the digital data transmitted from the remote control receiver 100 via the antenna 21 and the FM receiver 22 is received, and the data control circuit 24 rewrites the security code memory 25 with the received digital data. Do.

Next, when a normal transmission command is issued from the user to the data control circuit 24 of the remote control transmitter 200, the rewritten password is read out from the password memory 25 by the data control circuit 24, and the FM transmitter is read. 23, transmitted to the remote control receiver 100 via the antenna 21. When the remote control receiver 100 receives the personal identification code via the antenna 2 and the FM receiver 3, the data control circuit 4 collates the personal identification code read from the personal identification code memory 5 with the received personal identification code. Data control circuit 4
Determines that they match in the collation,
A control signal is sent to an actuator (not shown) that opens and closes the door.

In this way, the user can change the password at the touch of a button. FIG. 6 is a modified example of FIG. 2 and is a diagram for explaining an example in which the password stored in the password memory of the remote control transmitter is changed using the remote control receiver 100. The keyless entry system shown in this figure is an extension of FIG. 2, in which the password of the remote control transmitter 200 is changed by bidirectional communication between the remote control receiver 100 and the remote control transmitter 200. Specifically, the data transmitter 11 is a mobile phone,
Pager, etc. As shown in the figure, first, a remote control receiver 100 transmits a digital data from a data control circuit 14 via an antenna 12 to a data transmitter 16.
Is provided. Further, a remote control transmitter 200 that performs transmission and reception with the remote control receiver 100 includes an antenna 31, a data receiver 32 connected to the antenna 31, and a data transmitter 3.
3, a data control circuit 34 at a stage subsequent to the data receiver 32 and the FM transmitter 33, and a password memory 35 at a stage subsequent to the data control circuit 34.

Data control circuit 3 of remote control transmitter 200
When a user issues an instruction to rewrite the personal identification code in step 4, a command signal is transmitted from the remote control transmitter 200 to the remote control receiver 100 via the data transmitter 33 and the antenna 21. In the remote control receiver 100, the antenna 12,
When the data control circuit 14 receives the command signal via the data receiver 13, as described with reference to FIG. 2, it selects the digital data received from the digital transmitter 11 via the antenna 12 and the data receiver 13. The security code memory 15 is rewritten by the part that has been set. Thereafter, the data control circuit 14 reads the changed password from the password code memory 15 and transmits the password through the data transmitter 17 and the antenna 12 to the remote controller transmitter 200. The remote control transmitter 200 transmits the digital data transmitted from the remote control receiver 100 via the antenna 21 and the FM receiver 22.
Upon receiving the data, the data control circuit 23 rewrites the personal identification code memory 24 with the received digital data.

Next, when a normal transmission command is issued from the user to the data control circuit 24 of the remote control transmitter 200, the data control circuit 24 reads out the rewritten password from the password memory 24, and the FM transmitter 22, transmitted to the remote control receiver 100 via the antenna 21. When the remote control receiver 100 receives the personal identification code via the antenna 12 and the data receiver 13, the data control circuit 14 compares the personal identification code read from the personal identification code memory 15 with the received personal identification code. If the data control circuit 14 determines that they match, it sends a control signal to the next operation, that is, an actuator (not shown) that opens and closes the door.

Thus, the user can change the password at the touch of a button. FIG. 7 is a diagram illustrating a modification of FIG. The keyless entry system shown in this figure is an extension of FIG.
And a pager serving as the data transmitter 11. Specifically, as shown in this figure, instead of the data transmitter 11 of FIG.
Pager transceiver 11-1 connected to pager 2 and pager memory 11 connected to pager transceiver 11-2
-2 is provided. An electronic message is stored in the pager memory 11-2.
As a result, a part of the electronic message is rewritten as the personal identification code in the personal identification code memory 15.

Thus, the user can change the password at the touch of a button. FIG. 8 is a diagram illustrating a modification of FIG. The keyless entry system shown in this figure is an extension of FIG. 5, and more specifically, the FM receiver 3 and the data control circuit 4 in the remote control receiver 100.
Is provided between the FM receiver 22 and the data control circuit 24 in the remote control transmitter 200.
And a descrambling circuit 26 is provided.

When the password is changed, a part of the received data is arbitrarily selected and rewritten by the scramble circuit 7 in the password memory 5 of the remote control receiver 100. In the security code memory 25 of the remote control transmitter 200, the encrypted security code from the remote control receiver 100 is decrypted by the descrambling circuit 26 and changed.

At the time of remote control, the personal identification code is transmitted from the personal identification code memory 25 of the remote control transmitter 200 to the remote control receiver 100, and the personal identification code encrypted by the scramble circuit 7 is transmitted from the personal identification code memory 5 by the data control part 4. Checked against PIN code. In this way, the user can change the password at the touch of a button and can increase the confidentiality.

FIG. 9 is a diagram for explaining a modification of FIG.
As shown in the figure, the arrangement of the scramble circuit 7 and the data control circuit 4 in the remote control receiver 100 shown in FIG.
A scramble circuit 7 is provided after the data control circuit 4. Further, the arrangement of the descrambling circuit 26 and the data control circuit 24 is changed by the remote control transmitter 200, and the descrambling circuit 26 is provided at the subsequent stage of the data control circuit 24.

In this way, it is possible to increase the variety of the configuration, and it is possible to obtain the same operation and effect as described above. FIG. 10 is a diagram illustrating a modification of FIG. The keyless entry system shown in this figure is an extension of FIG. 6, and specifically, a scramble circuit 16 is provided between the data receiver 13 and the data control circuit 14 in the remote control receiver 100, Between the data receiver 32 and the data control circuit 34 in the device 200.
A scramble circuit 36 is provided.

When the password is changed, a part of the received data is arbitrarily selected and rewritten in the password memory 15 of the remote control receiver 100 by the scramble circuit 17. Remote control transmitter 200
Of the remote control receiver 100
From the descramble circuit 3
6, the data is decrypted and rewritten.

At the time of remote control, the personal identification code is transmitted from the personal identification code memory 35 of the remote control transmitter 200 to the remote control receiver 100, and the personal identification code encrypted by the scramble circuit 16 is transmitted from the personal identification code memory 15 by the data control unit 14. Checked against PIN code. In this way, the user can change the password at the touch of a button and can increase the confidentiality.

FIG. 11 is a view for explaining a modification of FIG. As shown in the figure, the remote control receiver 10 shown in FIG.
The arrangement of the scramble circuit 16 and the data control circuit 14 is changed by 0, and the scramble circuit 16 is provided at the subsequent stage of the data control circuit 14. Further, the arrangement of the descrambling circuit 36 and the data control circuit 34 is changed by the remote control transmitter 200, and the descrambling circuit 36 is provided at the subsequent stage of the data control circuit 34.

In this way, it is possible to increase the variety of the configuration, and it is possible to obtain the same operation and effect as described above. FIG. 12 is a diagram illustrating a modification of FIG. The keyless entry system shown in this figure is an extension of FIG. 7, and specifically, a scramble circuit 16 is provided between the data receiver 13 and the data control circuit 14 in the remote control receiver 100, and the remote control transmission Between the data receiver 32 and the data control circuit 34 in the device 200.
A scramble circuit 36 is provided.

When the password is changed, a part of the received data is arbitrarily selected and rewritten by the scramble circuit 16 in the password memory 15 of the remote control receiver 100. Remote control transmitter 200
Of the remote control receiver 100
From the descramble circuit 3
6, the data is decrypted and rewritten.

At the time of remote control, the personal identification code is transmitted from the personal identification code memory 35 of the remote control transmitter 200 to the remote control receiver 100, and the personal identification code encrypted by the scramble circuit 16 is transmitted from the personal identification code memory 15 by the data control unit 14. Checked against PIN code. In this way, the user can change the password at the touch of a button and can increase the confidentiality.

FIG. 13 is a view for explaining a modification of FIG. As shown in this figure, the remote control receiver 10 shown in FIG.
The arrangement of the scramble circuit 16 and the data control circuit 14 is changed by 0, and the scramble circuit 16 is provided at the subsequent stage of the data control circuit 14. Further, the arrangement of the descrambling circuit 36 and the data control circuit 34 is changed by the remote control transmitter 200, and the descrambling circuit 36 is provided at the subsequent stage of the data control circuit 34.

In this way, it is possible to increase the variety of the configuration, and it is possible to obtain the same operation and effect as described above.

[0032]

As described above, according to the present invention, a part of digital data obtained from a received signal is selected and changed as a security code, so that the user can use the security code instantly and A security code that can be easily changed and has high security can be obtained.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an example in which a password code stored in a password code memory of a remote control receiver in a keyless entry system according to the present invention is changed using an FM receiver.

FIG. 2 is a diagram illustrating an example in which a security code stored in a security code memory of a remote control receiver in a keyless entry system according to the present invention is changed using a mobile phone or the like.

FIG. 3 is a diagram illustrating a modification of the embodiment shown in FIGS. 1 and 2 as a representative of a modification of the embodiment shown in FIG. 2;

FIG. 4 is a diagram illustrating a modification of FIG. 3;

FIG. 5 is a modified example of FIG. 1 and is a diagram for explaining an example in which a password stored in a password memory of a remote control transmitter 200 is changed using a remote control receiver 100.

FIG. 6 is a modification example of FIG. 2, in which a change of a security code stored in a security code memory of a remote control transmitter is performed.
FIG. 3 is a diagram for explaining an example of performing using a remote control receiver.

FIG. 7 is a diagram illustrating a modification of FIG. 6;

FIG. 8 is a diagram illustrating a modification of FIG. 5;

FIG. 9 is a diagram illustrating a modification of FIG. 8;

FIG. 10 is a diagram illustrating a modification of FIG. 6;

FIG. 11 is a diagram illustrating a modification of FIG. 10;

FIG. 12 is a diagram illustrating a modification of FIG. 7;

FIG. 13 is a diagram illustrating a modification of FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Radio station 2, 12, 21, 31 ... Antenna 3, 22 ... FM receiver 4, 24, 34 ... Data control circuit 5, 25, 35 ... Security code memory 6, 23 ... FM transmitter 7, 16 ... Scramble circuit 26, 36 ... descramble circuit 13, 32 ... data receiver 17, 33 ... data transmitter 100 ... remote control receiver 200 ... remote control transmitter

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI H04L 9/00 673E

Claims (9)

[Claims] 1. A keyless entry system for transmitting a security code from a remote control transmitter to a remote control receiver and performing remote control by collation, wherein the remote control receiver is one of FM multiplex broadcasting, television multiplex broadcasting, and digital broadcasting. A method of generating a security code for a keyless entry system, comprising receiving one of the data, selecting a part of the digital data obtained from the received signal, and using the selected digital data as the security code. 2. A keyless entry system for transmitting a security code from a remote control transmitter to a remote control receiver, collating the code, and performing remote control, wherein the remote control receiver is a digital signal transmitted from one of a mobile phone and a pager. A method for generating a security code for a keyless entry system, comprising: receiving data; selecting a part of the received digital data; and using the selected digital data as the security code. 3. The security code according to claim 1, wherein the security code is formed by digital data obtained by encrypting received digital data and selecting a part of the encrypted digital data. 2. A method for generating a password for a keyless entry system according to item 1. 4. The security code of the keyless entry system according to claim 1, wherein the security code is formed by digital data obtained by encrypting a part of the received digital data into selected digital data. How it occurs. 5. A keyless entry system for transmitting a security code from a remote control transmitter to a remote control receiver and performing remote control by collating the remote control code, wherein the remote control receiver is one of an FM multiplex broadcast, a television multiplex broadcast, and a digital broadcast. Receiving one and storing a password code for the receiving side in which a password for verification is written, and selecting a part of digital data obtained from the received signal and writing it as a password in the memory for the code. A data control circuit for changing a security code for verification, wherein the remote control transmitter receives a changed security code from the remote control receiver, and a transmission security code on which the received changed security code is written. Keyless entry system characterized by comprising a memory for use. 6. A keyless entry system for transmitting a security code from a remote control transmitter to a remote control receiver, collating the code, and performing a remote operation, wherein the remote control receiver is a digital signal transmitted from one of a mobile phone and a pager.・ Receiver PIN code memory in which data is received and a PIN code for verification is written, and a part of the received digital data is selected and used as a PIN code for verification written in the PIN code memory A data control circuit for changing a personal identification code of the remote control transmitter; the remote control transmitter receives a changed personal identification code from the remote control receiver, and includes a memory for a transmission-side personal identification code in which the received changed personal identification code is written. Keyless entry system characterized by the following. 7. A keyless entry system for transmitting a personal identification code from a remote control transmitter to a remote control receiver, collating and performing remote control, wherein the remote control receiver is transmitted and received by a pager transceiver and the pager transceiver. A pager memory for storing an electronic message, a memory for a receiving side security code in which a security code for verification is written, and a part of digital data of the electronic message stored in the pager memory for selecting the security code as a security code. A data control circuit for changing a security code for collation written in a code memory; wherein the remote control transmitter receives the changed security code from the remote control receiver, and the received changed security code is written therein. It is equipped with a memory for the transmission side security code. Over-less entry system. 8. The remote control receiver further includes a scramble circuit, and the data control circuit selects a part of the digital data encrypted by the scramble circuit and generates a collation code as a code. The remote control transmitter is further provided with a descrambling circuit, and the changed secret code received from the remote control receiver is decrypted by the descramble circuit and written into the transmission side secret code memory; The secret code written in the memory for the transmitting-side secret code is encrypted and collated by the scramble circuit at the time of transmission to the remote receiver, and is collated. The described keyless entry system. 9. The remote control receiver further includes a scramble circuit, and a part of the digital data received by the digital control circuit is encrypted by the scramble circuit and encrypted as a secret code. The remote control transmitter further includes a descrambling circuit, and the changed secret code received from the remote control receiver is decrypted by the descramble circuit and stored in the memory for the transmission side secret code. The secret code written and written into the memory for the secret code on the transmitting side is encrypted and collated by the scramble circuit at the time of transmission to the remote receiver, and is collated. Keyless entry system according to one.