JP2004293148A - Locking system and its unlocking method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To secure security by preventing eavesdropping of a hacker while reducing cost. <P>SOLUTION: A server is a portable radio terminal 102 connected by radio transmission to a network 101, and is a locking system for locking a door of a building 105, and is positioned in the building, and is connected by a cable to the network, and requires input of an identification number to access from the portable radio terminal, and permits the access of the portable radio terminal on the basis of authentication of the inputted identification number. This locking system has a generating/ holding part 109 for generating and holding one time password by permission of the access of the server, a holding part 104 for holding the one time password generated by the generating/holding part 109, and informed to the portable radio terminal via the network, an infrared port 103 for transmitting the one time password of the holding part 104 by an infrared ray, and an infrared door lock 107 for unlocking the door of the building by authenticating the identification number by comparing the one time password received by the infrared ray via the infrared port from the portable radio terminal with the one time password of the holding part 104. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a locking system using infrared communication and Bluetooth communication. In particular, the present invention relates to an unlocking method that prevents unauthorized access and enables cost reduction.
[0002]
[Prior art]
A conventional door lock opening / closing system using infrared communication (for example, see Patent Document 1) will be described below.
FIG. 15 is a block diagram showing a conventional door lock opening / closing system. As shown in the figure, when a door lock opening / closing button provided on the portable information communication terminal is pressed, a signal for starting the door lock opening / closing process is sent to the CPU to perform an execution signal transmission process.
[0003]
By the execution signal transmission processing, the door lock opening / closing program in the ROM is moved to the work area of the RAM, and the door lock opening / closing program reading processing for executing the program is performed.
The door lock opening / closing program reads key data in the key data area in the RAM in order, and performs key data transmission processing for sequentially transmitting n types of transmission data to the transmission / reception unit.
[0004]
The key data is stored as “0” and “1” like the storage data.
The transmission / reception unit that has received the key data transmits data for emitting infrared rays only when the stored data is 1 to the door lock opening / closing device.
The transmission process of the key data continues while the button dedicated to opening and closing the door lock is kept pressed.
[0005]
The execution signal confirmation process determines whether or not the door lock opening / closing button is pressed. If there is an execution signal, the key data transmission process is continued. If there is no execution signal, the process ends.
However, in the above-described related art, it is necessary to prepare a door lock opening / closing button in the portable information communication terminal, and there is a problem that the cost is high.
[0006]
In addition, the elimination of the button dedicated to opening and closing the door lock significantly reduces security.
Next, in the conventional keyless entry system, Bluetooth is installed in the portable wireless remote controller and the in-vehicle control unit, and further, one or more in-vehicle line repeaters equipped with Bluetooth are provided. A plurality of independent Bluetooth lines are formed directly with the in-vehicle control unit and via the in-vehicle line repeater, and each time a line to be used is used, the Bluetooth line is changed and the portable wireless remote controller and the in-vehicle control are changed. Since the command line and the response signal are transmitted and received between the unit and the line, the line being used can be hardly intercepted by hackers, and even if the line is intercepted, the line is changed immediately, so the technical data such as the command signal and the response signal Are all stolen. (For example, see Patent Document 2).
[0007]
However, in the above-mentioned prior art, since a plurality of Bluetooth lines independent of each other are formed via an in-vehicle line repeater, there is a problem that the cost of the keyless entry system is increased.
In addition, eliminating a plurality of Bluetooth lines significantly reduces security.
[0008]
[Patent Document 1]
JP-A-2000-129978 (paragraphs 0018 and 0019, FIGS. 1 and 4)
[Patent Document 2]
JP-A-2002-276221 (paragraphs 0014 to 0017, FIG. 2)
[0009]
[Problems to be solved by the invention]
Accordingly, the present invention has been made in view of the above problems, and provides a locking system and a method for unlocking the lock system, which can reduce costs and can secure security by being hardly intercepted by hackers.
[0010]
[Means for Solving the Problems]
The present invention provides a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network, in order to solve the above-mentioned problem, wherein the locking system is located in the building and connected to the communication network by wire. A request for input of a personal identification number for access from a portable wireless terminal, and a server permitting access to the portable wireless terminal based on authentication of the entered personal identification number, and a one time password generated by permitting access to the server A 1 time password generation / holding unit for holding and holding, and a 1 time password holding unit holding the 1 time password generated by the 1 time password generation / holding unit and notified to the portable wireless terminal via the communication network. Is held in the 1 time password holding unit. An infrared port for transmitting 1 time password by infrared communication is compared with 1 time password received by infrared communication from the portable wireless terminal via the infrared port and 1 time password held in the 1 time password holding unit. And an infrared door lock for performing authentication and unlocking the door of the building.
[0011]
By this means, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided, so that a general-purpose infrared communication system can be provided while preventing unauthorized access to a locking system using infrared communication. Use can reduce costs.
Further, the power of the infrared door lock is turned on when permitting access to the portable wireless terminal by the server.
[0012]
By this means, the power of the infrared door lock is turned on after the access is permitted, so that unauthorized access by a third party can be avoided.
Furthermore, the present invention relates to a locking system for locking a door of a building by a portable wireless terminal wirelessly connected to a communication network, wherein the portable wireless terminal is located in the building, connected to the communication network by wire, and accessed from the portable wireless terminal. And a server that permits access to the portable wireless terminal based on authentication of the entered password, and a one-time password that generates and holds one time password by permitting access of the server. An occurrence / holding unit, a 1 time password holding unit that holds the 1 time password generated by the 1 time password generation / holding unit and notified to the portable wireless terminal via the communication network, and the 1 time password holding Time pa held in the part a Bluetooth port for transmitting a "sword" by Bluetooth communication, a "1 time password" received by the Bluetooth communication from the portable wireless terminal via the Bluetooth port, and a "1 time password" held in the "1 time password" holding unit, and a "1 time password" held in the "time password" holding unit. And a Bluetooth door lock for authenticating and unlocking the door of the building.
[0013]
By this means, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided, so that a general-purpose Bluetooth communication system can be implemented while preventing unauthorized access to a locking system using Bluetooth communication. Use can reduce costs.
Further, the present invention relates to a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network. An infrared port for transmitting a one-time password for unlocking the door, and a request for input of the personal identification number of the portable wireless terminal for infrared communication of access from the infrared port, and authentication of the input personal identification number. Access to the portable wireless terminal based on the information, receiving a one-time password from the permitted portable wireless terminal through the infrared port via infrared communication, authenticating the received one-time password, and authenticating the received one-time password. 1 door by unlocking the infrared door lock and unlocking the infrared door lock a 1 time password generating / holding unit for generating and holding a me password, comparing the held 1 time password with the 1 time password received from the infrared door lock, and authenticating the infrared door lock; The 1 time password generated by the 1 time password generation / holding unit is held by the infrared door lock via the infrared port through the infrared port to the 1 time password notified to the portable wireless terminal, and the door of the building is opened. A lock system comprising: a 1-time password holding unit for causing the infrared port to transmit a 1-time password held when a lock is requested.
[0014]
By this means, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided, so that a general-purpose infrared communication system can be provided while preventing unauthorized access to a locking system using infrared communication. Use can reduce costs.
In this case, since no communication network is used, communication costs can be reduced. Further, the present invention is also applicable to unlocking of a vehicle lock.
[0015]
Further, the present invention provides a locking system for locking a door of a building with a mobile wireless terminal wirelessly connected to a communication network, wherein the mobile communication terminal is located within the mobile wireless terminal and performs access transmission by Bluetooth communication, Requesting the input of the personal identification number of the portable wireless terminal for a Bluetooth port for transmitting a one-time password requesting the unlocking of the door and the Bluetooth communication for access from the Bluetooth port, and for authenticating the entered personal identification number. Access to the portable wireless terminal based on the received time, receives 1 time password by Bluetooth communication from the portable wireless terminal that has permitted the access via the Bluetooth port, authenticates the received 1 time password, and authenticates the received 1 time password. Opening of The Bluetooth door lock that performs the above, generates and holds one time password by permitting access to the Bluetooth door lock, compares the held one time password with the one time password received from the Bluetooth door lock, and compares the one time password with the Bluetooth. A 1 time password generation / holding unit for authenticating the door lock and a notification of the 1 time password generated by the 1 time password generation / holding unit from the Bluetooth door lock to the portable wireless terminal via the Bluetooth port. Holding the obtained one time password, and transmitting the held one time password when requesting the unlocking of the door of the building. Providing a locking system, characterized in that it comprises a 1 time password holder for causing the Bluetooth port.
[0016]
By this means, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided, so that a general-purpose Bluetooth communication system can be implemented while preventing unauthorized access to a locking system using Bluetooth communication. Use can reduce costs.
In this case, since no communication network is used, communication costs can be reduced. Further, the present invention is also applicable to unlocking of a vehicle lock.
[0017]
Further, the present invention relates to a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network. An infrared port for transmitting a one-time password for unlocking the door, and a request for input of the personal identification number of the portable wireless terminal for infrared communication of access from the infrared port, and authentication of the input personal identification number. Access to the portable wireless terminal based on the information, receiving a one-time password from the permitted portable wireless terminal through the infrared port via infrared communication, authenticating the received one-time password, and authenticating the received one-time password. An infrared door lock that unlocks and a wired connection to a communication network located inside the building A server for requesting input of a personal identification number for access from the mobile wireless terminal and permitting access to the mobile wireless terminal based on authentication of the input personal identification number; and access to the infrared door lock or the server. 1 time password generation and holding unit for generating and holding 1 time password with the permission of, and comparing the held 1 time password with the 1 time password received from the infrared door lock to authenticate the infrared door lock. And the 1 time password generated by the 1 time password generating / holding unit, holding the 1 time password notified to the portable wireless terminal from the infrared door lock via the infrared port, and holding the 1 time password, Opening the door Providing a locking system, characterized in that it comprises a 1 time password holder for causing the transmission of 1 time password held from the infrared port when seeking.
[0018]
By this means, the portable wireless terminal can obtain 1 time password from the building by infrared communication directly through the communication network or directly without through the communication network.
Further, the present invention provides a locking system for locking a door of a building with a mobile wireless terminal wirelessly connected to a communication network, wherein the mobile communication terminal is located within the mobile wireless terminal and performs access transmission by Bluetooth communication, Requesting the input of the personal identification number of the portable wireless terminal for a Bluetooth port for transmitting a one-time password requesting the unlocking of the door and the Bluetooth communication for access from the Bluetooth port, and for authenticating the entered personal identification number. Access to the portable wireless terminal based on the received time, receives 1 time password by Bluetooth communication from the portable wireless terminal that has permitted the access via the Bluetooth port, authenticates the received 1 time password, and authenticates the received 1 time password. Opening of And a Bluetooth door lock that is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and performs authentication based on authentication of the entered password. A server that permits access by a wireless terminal, and generates and holds one time password by the Bluetooth door lock or the server access permission, and receives the one time password received from the held one time password and the Bluetooth door lock. The one-time password generation / holding unit for authenticating the Bluetooth door lock by comparing the one-time password generation / holding unit with the one-time password generated by the one-time password generation / holding unit. The 1-time password notified to the portable wireless terminal from the third door lock via the Bluetooth port is held, and the transmission of the 1-time password held when requesting the unlocking of the building door is transmitted from the Bluetooth port. A lock system comprising: a one-time password holding unit for performing the locking.
[0019]
By this means, depending on the selection, Bluetooth communication is performed directly via a communication network or without using a communication network.
You will be able to obtain a time password.
Further, the present invention relates to a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network. An infrared port for transmitting a one-time password for unlocking the door, and a transmission for accessing by the Bluetooth communication located in the portable wireless terminal and for unlocking the door of the building. A Bluetooth port for transmitting, and a request for input of a password for access from the portable wireless terminal which is located in the building and connected to a communication network by wire, and based on authentication of the inputted password, A server that permits access to the wireless terminal, and one time p. a one-time password generation / holding unit that generates and holds a ssword; and a one-time password that holds the one-time password generated by the one-time password generation / holding unit and notified to the portable wireless terminal via the communication network. The holding unit compares the 1 time password received by the infrared communication from the portable wireless terminal via the infrared port with the 1 time password held in the 1 time password holding unit, and authenticates by comparing the 1 time password with the 1 time password held in the 1 time password holding unit. An infrared door lock for unlocking is provided.
[0020]
By this means, it is possible for one portable wireless terminal to open a door of a building having a different communication method via a communication network by selecting the portable wireless terminal.
Further, the present invention relates to a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network. An infrared port for transmitting a one-time password for unlocking the door, and a transmission for accessing by the Bluetooth communication located in the portable wireless terminal and for unlocking the door of the building. A Bluetooth port for transmitting, and a request for input of a password for access from the portable wireless terminal which is located in the building and connected to a communication network by wire, and based on authentication of the inputted password, A server that permits access to the wireless terminal, and one time p. a one-time password generation / holding unit that generates and holds a ssword; and a one-time password that holds the one-time password generated by the one-time password generation / holding unit and notified to the portable wireless terminal via the communication network. Opening the door of the building by comparing the 1 time password received in the Bluetooth communication from the portable wireless terminal via the Bluetooth port with the holding unit and the 1 time password held in the 1 time password holding unit, and authenticating. There is provided a locking system including a Bluetooth door lock for locking.
[0021]
By this means, it is possible for one portable wireless terminal to open a door of a building having a different communication method via a communication network by selecting the portable wireless terminal.
Further, the present invention relates to a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network. An infrared port for transmitting a one-time password for unlocking the door, and a transmission for accessing by the Bluetooth communication located in the portable wireless terminal and for unlocking the door of the building. A request is made for input of a password of the portable wireless terminal for a Bluetooth port for transmission and infrared communication for access from the infrared port, and access of the portable wireless terminal is permitted based on authentication of the entered password. By infrared communication from the portable wireless terminal that has permitted access through the infrared port. An infrared door lock that receives 1 time password, authenticates the received 1 time password to unlock the door of the building, and generates and holds 1 time password by permitting access to the infrared door lock. The one-time password is generated by the one-time password generating / holding unit for comparing the one-time password received from the infrared door lock with the one-time password received from the infrared door lock to authenticate the infrared door lock, and the one-time password generating / holding unit. The one-time password is held by the infrared door lock via the infrared port through the infrared port to the one-time password notified to the portable wireless terminal, and the one-time password held when the door of the building is requested to be unlocked. A locking system comprising: a one-time password holding unit for transmitting an password from the infrared port.
[0022]
By this means, it is possible for one portable wireless terminal to open the door of a building having a different communication method directly by selecting the portable wireless terminal without passing through the communication network 101.
Further, the present invention relates to a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network. An infrared port for transmitting a one-time password for unlocking the door, and a transmission for accessing by the Bluetooth communication located in the portable wireless terminal and for unlocking the door of the building. Requesting input of a password of the portable wireless terminal with respect to a Bluetooth port for transmission and Bluetooth communication for access from the Bluetooth port, and permitting access of the portable wireless terminal based on authentication of the entered password. , From the portable wireless terminal that has granted access to the Blue One time password is received via Bluetooth communication via the Bluetooth port, the received one time password is authenticated, and the door of the building is unlocked by unlocking the door of the building. One time password is granted by permitting access to the Bluetooth door lock. A 1 time password generating / holding unit for comparing the held 1 time password with the 1 time password received from the Bluetooth door lock to authenticate the Bluetooth door lock, and the 1 time The 1 time password generated by the password generation / holding unit is transferred from the Bluetooth door lock through the Bluetooth port, A 1 time password holding unit for holding the 1 time password notified to the portable wireless terminal and transmitting the held 1 time password from the Bluetooth port when requesting unlocking of the building door. A locking system is provided.
[0023]
By this means, it is possible for one portable wireless terminal to open the door of a building having a different communication method directly by selecting the portable wireless terminal without passing through the communication network 101.
Furthermore, the present invention provides an unlocking method of a locking system for locking a door of a building with a portable wireless terminal wirelessly connected to a communication network, wherein the server is located in the building and connected to the communication network by wire. The step of accessing from the portable wireless terminal, the step of requesting the portable wireless terminal to input a password from the server for the access, and the step of requesting input of the password from the portable wireless terminal in response to the request. A step of permitting the portable wireless terminal to access the server based on the authentication, a step of generating and holding a one-time password in the building when the access of the server is permitted, and a step of generating the one-time password. A step of notifying the portable wireless terminal via the communication network, the notified one time pa holding a word in the mobile wireless terminal, transmitting the held one time password by infrared communication from the mobile wireless terminal, and receiving one time password received by infrared communication from the mobile wireless terminal and the inside of the building. And unlocking the door of the building by comparing and authenticating with the one time password held in the lock system.
[0024]
By this means, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided, so that a general-purpose infrared communication system can be provided while preventing unauthorized access to a locking system using infrared communication. Use can reduce costs.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a schematic configuration of a locking system according to the present invention. As shown in the figure, a portable wireless terminal 102 is wirelessly connected to a communication network 101, and a server 106 in a building 105 is connected by wire.
[0026]
The portable wireless terminal 102 is provided with an infrared port (port) 103, and the infrared port 103 performs infrared communication.
The one-time password holding unit 104 is connected to the infrared port 103, and the one-time password holding unit 104 holds the one-time password notified from the server 106 in the building 105.
[0027]
Here, 1 time password is a password that can be used only once.
Next, the server 106 provided in the building 105 and connected to the communication network 101 is a computer that provides services such as communication control.
[0028]
Further, an infrared door lock 107 is provided in the building 105, and the infrared door lock 107 locks and unlocks doors, windows, and the like (hereinafter, represented by doors) of the building 105 by infrared communication. When unlocking, in particular, the user inputs a one-time password from the portable wireless terminal 102, performs authentication, and unlocks.
The infrared door lock 107 is provided with an interface unit 108. The interface unit 108 turns on and off the power of the infrared door lock 107, is connected to the server 106, and is a signal from the server 106 for turning on and off the power of the infrared door lock 107. Enter
[0029]
The infrared door lock 107 is connected to a one-time password generating / holding unit 109, and the one-time password generating / holding unit 109 generates a one-time password and holds the generated one-time password.
When the mobile wireless terminal 102 accesses the server 106 in the building 105, the server 106 generates a one-time password in the one-time-password generation / holding unit 109 and notifies the mobile terminal 102 of the generated one-time password. .
[0030]
The portable wireless terminal 102 holds the 1 time password notified from the server 106 in the 1 time password holding unit 104.
FIG. 2 is a flowchart illustrating an operation example of causing the portable wireless terminal 102 in FIG. 1 to obtain a password.
As shown in the figure, in step S201, the portable wireless terminal 102 accesses the server 106 in the building 105. Examples of the access method include a direct input in a web format and a method using a tone by voice guidance.
[0031]
In step S202, the server 106 requests the input of a personal identification number, and the portable wireless terminal 102 inputs the personal identification number to the server 106 in response to the request.
In step S203, the server 106 authenticates the personal identification number of the portable wireless terminal 102. If the password is incorrect and authentication cannot be performed, the process is terminated.
[0032]
In step S204, when the access is permitted by the authentication, the server 106 causes the one interface unit 108 to turn on the power of the infrared door lock 107. Since the power of the infrared door lock 107 is turned on after the access is permitted, unauthorized access by a third party can be avoided.
In step S <b> 205, the server 106 causes the one-time password generation / hold unit 109 to generate and hold a one-time password.
[0033]
In step S206, the server 106 notifies the portable wireless terminal 102 of the one time password from the one time password generation / holding unit 109.
In step S207, the portable wireless terminal 102 holds the notified one-time password in the one-time password holding unit 104, and the above-described authentication is completed at this stage.
[0034]
In this way, the portable wireless terminal 102 obtains 1 time password from the server 106 in the building 105.
FIG. 3 is a flowchart illustrating an operation example of unlocking the lock by the portable wireless terminal 102 in FIG.
In step S211, when it comes to the front of the infrared door lock 107 in the building 105, infrared communication is performed between the infrared port 103 of the portable wireless terminal 102 and the infrared door lock 107 in the building 105.
[0035]
In step S212, it is determined whether or not the power of the infrared door lock 107 in the building 105 is turned on. If the power is off, the process of the portable wireless terminal 102 ends.
In step S213, when the infrared door lock 107 is ON, the infrared door lock 107 in the building 105 inputs the password held from the one-time password holding unit 104 of the portable wireless terminal 102 via the infrared port 103. I do.
[0036]
In step S214, the infrared door lock 107 compares the password input from the infrared port 103 with the password held in the one-time password generation / holding unit 109 to perform authentication.
In step S215, when the authentication is permitted, the infrared door lock 107 is unlocked and the process is terminated.
In step S216, if the password is incorrect in the authentication, the password is not permitted and the unlocking is rejected.
[0037]
In step S217, the security company and the police are notified. Further, a notification is sent to the portable wireless terminal 102 via the server 105.
Therefore, according to the present invention, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided. The cost can be reduced by using the infrared communication system.
[0038]
FIG. 4 is a block diagram showing a schematic configuration of a locking system according to a first modification of the present invention. As shown in FIG. 1, the portable wireless terminal 102 is provided with a Bluetooth port (port) 111 instead of the infrared port 103 as compared with FIG. 1, and the Bluetooth port performs Bluetooth communication.
In the building 105, a Bluetooth transmission / reception unit 112, a Bluetooth door lock 113, and a Bluetooth control unit 114 are provided instead of the infrared door lock 107 and the interface unit 108.
[0039]
The Bluetooth transmission / reception unit 112 performs Bluetooth communication with the Bluetooth port 111 of the portable wireless terminal 102.
The Bluetooth door lock 113 locks and unlocks the door of the building 105 by Bluetooth communication.
The Bluetooth control unit 114 is connected to the Bluetooth transmission / reception unit 112, the Bluetooth door lock 113, and the one-time password generation / hold unit 109, performs these controls, and is further connected to the server 106.
[0040]
An example of the operation of causing the portable wireless terminal 102 to obtain a password according to the present invention is the same as that of FIG.
FIG. 5 is a flowchart illustrating an operation example of unlocking the lock by the portable wireless terminal 102 in FIG.
In step S221, when the Bluetooth door lock 113 of the building 105 is reached, the Bluetooth communication is performed between the Bluetooth port 111 of the portable wireless terminal 102 and the Bluetooth transmission / reception unit 112 in the building 105.
[0041]
In step S222, the Bluetooth transmission / reception unit 112 in the building 105 inputs the password held from the one-time password holding unit 104 of the portable wireless terminal 102 via the Bluetooth port 111.
In step S223, the Bluetooth door lock 113 compares the password input from the Bluetooth port 111 with the password held in the one-time password generation / holding unit 109 to perform authentication.
[0042]
In step S224, if the authentication is permitted, the Bluetooth door lock 113 is unlocked and the process ends.
In step S225, if the password is incorrect in the authentication, the password is not permitted, and the unlocking is rejected.
In step S226, the security company and the police are notified. Further, a notification is sent to the portable wireless terminal 102 via the server 105.
[0043]
Therefore, according to the present invention, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided. Therefore, general-purpose access to a locking system using Bluetooth communication can be prevented while preventing unauthorized access. The cost can be reduced by using the Bluetooth communication system.
FIG. 6 is a block diagram showing a schematic configuration of a locking system according to a second modification of the present invention. As shown in this figure, compared to FIG. 1, the building 105 is not connected to the communication network 101, and therefore, the server 106 is not provided in the building 105, and the interface unit 108 for the server 106 is also provided. Absent.
[0044]
FIG. 7 is a flowchart illustrating an operation example of causing the portable wireless terminal 102 in FIG. 6 to obtain a password.
As shown in the figure, in step S231, infrared communication is performed between the infrared port 103 of the portable wireless terminal 102 and the infrared door lock 107 in the building 105.
In step S232, the infrared door lock 107 requests the infrared port 103 to input a password, and the infrared port 103 inputs the password to the infrared door lock 107 in response to the request.
[0045]
In step S233, the infrared door lock 107 authenticates the password of the portable wireless terminal 102. If the password is incorrect and authentication is not possible, the process ends.
In step S234, when the access is permitted by the authentication, the infrared door lock 107 causes the one-time password generation / holding unit 109 to generate and hold one time password.
[0046]
In step S235, the infrared door lock 107 in the building 105 notifies the infrared port 103 of the portable wireless terminal 102 of the one-time password from the one-time password generation / hold unit 109.
In step S236, the portable wireless terminal 102 holds the notified one time password in the one time password holding unit 104, and the authentication is completed at this stage.
[0047]
FIG. 8 is a flowchart illustrating an operation example of unlocking the lock by the portable wireless terminal 102 in FIG.
As shown in this figure, in step S241, when the infrared door lock 107 in the building 105 is reached, infrared communication is performed between the infrared port 103 of the portable wireless terminal 102 and the infrared door lock 107 in the building 105.
In step S <b> 242, the infrared door lock 107 in the building 105 inputs the password held from the one-time password holding unit 104 of the portable wireless terminal 102 via the infrared port 103.
[0048]
In step S243, the infrared door lock 107 compares the password input from the infrared port 103 with the password held in the one-time password generation / holding unit 109 to perform authentication.
In step S244, if the authentication is permitted, the infrared door lock 107 is unlocked and the process is terminated.
[0049]
In step S246, if the password is incorrect in the above authentication, the password is not permitted and the unlocking is rejected.
In step S247, the security company and the police are notified.
Therefore, according to the present invention, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided. The cost can be reduced by using the infrared communication system.
[0050]
In this case, since the communication does not pass through the communication network 101, the communication cost can be reduced. Further, the present invention is also applicable to unlocking of a vehicle lock.
FIG. 9 is a block diagram showing a schematic configuration of a locking system according to a third modification of the present invention. As shown in the figure, the building 105 is not connected to the communication network 101 as compared with FIG. 4, and therefore, the server 106 is not provided in the building 105.
[0051]
FIG. 10 is a flowchart illustrating an operation example of causing the portable wireless terminal 102 in FIG. 9 to obtain a password.
As shown in the figure, in step S251, connection is made between the Bluetooth port 111 of the portable wireless terminal 102 and the Bluetooth transmission / reception unit 112 in the building 105.
[0052]
In step S252, the Bluetooth transmission / reception unit 112 in the building 105 requests input of a personal identification number. In response to the request, the portable wireless terminal 102 inputs a personal identification number to the Bluetooth transmission / reception unit 112 from the Bluetooth port 111.
In step S253, the Bluetooth control unit 114 authenticates the personal identification number from the portable wireless terminal 102. If the password is incorrect and authentication is not possible, the process ends.
[0053]
In step S254, the Bluetooth control unit 114 causes the one-time password generation / hold unit 109 in the building 105 to generate and hold one time password.
In step S255, the Bluetooth transmission / reception unit 112 in the building 105 notifies the Bluetooth port 111 of the portable wireless terminal 102 of 1 time password.
[0054]
In step S256, the portable wireless terminal 102 holds the notified one time password in the one time password holding unit 104, and the authentication is completed at this stage.
In this way, the portable wireless terminal 102 obtains 1 time password from the building 105.
An operation example of unlocking the lock by the portable wireless terminal 102 is the same as that in FIG.
[0055]
Therefore, according to the present invention, the password for unlocking changes for each lock, and unauthorized access by a third party can be avoided. Therefore, general-purpose access to a locking system using Bluetooth communication can be prevented while preventing unauthorized access. The cost can be reduced by using the Bluetooth communication system.
In this case, since the communication does not pass through the communication network 101, the communication cost can be reduced. Further, the present invention is also applicable to unlocking of a vehicle lock.
[0056]
FIG. 11 shows a fourth modification of the present invention, and is a flowchart for explaining an operation example in which the portable wireless terminal 102 in FIG. 1 obtains a password.
When the portable wireless terminal 102 in FIG. 1 obtains the password, as shown in the figure, in step S261, it is determined whether or not the portable wireless terminal 102 has accessed the server 106 in the building 105. If the server 106 has been accessed, the process proceeds to step S263.
[0057]
If the server 106 has not been accessed in step S262, it is determined whether infrared communication has been performed between the infrared port 103 of the portable wireless terminal 102 and the infrared door lock 107 in the building 105. If infrared communication is not being performed, the process ends. If infrared communication has been performed, the process proceeds to step S264.
In step S263, the server 106 requests the input of a personal identification number, and the portable wireless terminal 102 inputs the personal identification number to the server 106 in response to the request.
[0058]
In step S264, the infrared door lock 107 requests the infrared port 103 to input a personal identification number, and the infrared port 103 inputs the personal identification number to the infrared door lock 107 in response to the request.
In step S265, the server 106 or the infrared door lock 107 authenticates the password of the portable wireless terminal 102. If the password is incorrect and authentication is not possible, the process ends.
[0059]
In step S266, when the access is permitted by the authentication, the one-time password generation / hold unit 109 generates and holds the one-time password.
In step S267, the building 105 notifies the portable wireless terminal 102 of one time password.
[0060]
In step S268, the portable wireless terminal 102 holds the notified one-time password in the one-time password holding unit 104, and the above-described authentication is completed at this stage.
In this way, the portable wireless terminal 102 may be able to obtain a one-time password from the building 105 by infrared communication directly via the communication network 101 or directly via the communication network 101, depending on the selection.
[0061]
FIG. 12 is a flowchart illustrating a fifth modification of the present invention, which is an example of the operation of causing the portable wireless terminal 102 in FIG. 4 to obtain a password.
When the portable wireless terminal 102 shown in FIG. 4 obtains the password, as shown in FIG. 4, in step S271, it is determined whether or not the portable wireless terminal 102 has accessed the server 106 in the building 105. If the server 106 has been accessed, the process proceeds to step S273.
[0062]
If the server 106 has not been accessed in step S272, it is determined whether a connection has been made between the Bluetooth port 111 of the portable wireless terminal 102 and the Bluetooth transmission / reception unit 112 in the building 105. If the connection has not been made, the process ends. If the connection has been made, the process proceeds to step S274.
[0063]
Steps S273 to S278 shown in this drawing are the same as steps S263 to S268 in FIG. 11, and therefore, description thereof will be omitted.
In this way, by selection, the portable wireless terminal 102 may be able to obtain a one-time password from the building 105 by the Bluetooth communication via the communication network 101 or directly without using the communication network 101.
[0064]
FIG. 13 is a block diagram showing a schematic configuration of a locking system according to a sixth modification of the present invention. As shown in the figure, the portable wireless terminal 102 is provided with an infrared port 103 and a Bluetooth port 111, and a server 106A and an infrared door lock are provided in a building 105A. 107, an interface unit 108, and a one-time password generation / holding unit 109A are provided. A server 106B, a Bluetooth transmission / reception unit 112, a Bluetooth door lock 113, a Bluetooth control unit 114, and a one-time password generation / holding unit 109B are provided in the building 105B. Provided.
[0065]
In this way, by selecting the portable wireless terminal 102, the doors of the buildings 105A and 105B can be unlocked via the communication network 101. That is, one portable wireless terminal 102 can unlock the doors of the buildings 105A and 105B having different communication methods.
FIG. 14 is a block diagram showing a schematic configuration of a locking system according to a seventh modification of the present invention. As shown in the drawing, the portable wireless terminal 102 is provided with an infrared port 103 and a Bluetooth port 111, and an infrared door lock 107, 1 A time password generating / holding unit 109A is provided, and a Bluetooth transmitting / receiving unit 112, a Bluetooth door lock 113, a Bluetooth control unit 114, and a one-time password generating / holding unit 109B are provided in the building 105B.
[0066]
In this way, by selecting the portable wireless terminal 102, the doors of the buildings 105A and 105B can be unlocked directly without passing through the communication network 101. That is, one portable wireless terminal 102 can unlock the doors of the buildings 105A and 105B having different communication methods.
[0067]
【The invention's effect】
As described above, according to the present invention, a server located in a building and connected to a communication network by wire is accessed from a portable wireless terminal, and a password is transmitted from the server to the portable wireless terminal for access. A request is made to input, and the mobile wireless terminal is permitted to access the server based on the authentication of the password input from the mobile wireless terminal in response to the request. When the server access is permitted, one time password is generated and held in the building Then, the generated 1 time password is notified to the portable wireless terminal via the communication network, the notified 1 time password is held in the portable wireless terminal, and the held 1 time password is transmitted from the portable wireless terminal by infrared communication. And a 1 time password received from the mobile wireless terminal by infrared communication. Authentication is performed by comparing with the one-time password held in the object, and the door of the building is unlocked. Therefore, the password for unlocking changes for each lock, thereby preventing unauthorized access by a third party. Therefore, the cost can be reduced by using a general-purpose infrared communication system while preventing unauthorized access to a locking system using infrared communication.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a locking system according to the present invention.
FIG. 2 is a flowchart illustrating an operation example of causing the portable wireless terminal 102 in FIG. 1 to obtain a password.
FIG. 3 is a flowchart illustrating an operation example of unlocking the lock by the portable wireless terminal 102 in FIG. 1;
FIG. 4 is a block diagram showing a schematic configuration of a locking system according to a first modified example of the present invention.
5 is a flowchart illustrating an operation example of unlocking the lock by the portable wireless terminal 102 in FIG.
FIG. 6 is a block diagram illustrating a schematic configuration of a locking system according to a second modified example of the present invention.
FIG. 7 is a flowchart illustrating an operation example of causing the portable wireless terminal 102 in FIG. 6 to obtain a password.
8 is a flowchart illustrating an operation example of unlocking the lock by the portable wireless terminal 102 in FIG.
FIG. 9 is a block diagram showing a schematic configuration of a locking system according to a third modification of the present invention.
FIG. 10 is a flowchart illustrating an operation example of causing the portable wireless terminal 102 in FIG. 9 to obtain a password.
FIG. 11 is a flowchart illustrating a fourth modification of the present invention, which illustrates an operation example in which the portable wireless terminal 102 in FIG. 1 obtains a password.
12 is a flowchart illustrating a fifth modification of the present invention, illustrating an operation example of causing the portable wireless terminal 102 in FIG. 4 to obtain a password.
FIG. 13 is a block diagram showing a schematic configuration of a locking system according to a sixth modification of the present invention.
FIG. 14 is a block diagram showing a schematic configuration of a locking system according to a seventh modified example of the present invention.
FIG. 15 is a block diagram showing a conventional door lock opening / closing system.
[Explanation of symbols]
101 Communication network
102: Portable wireless device
103… Infrared port
104 ... 1 time password holding unit
105, 105A, 105B ... building
106, 106A, 106B ... server
107 ... Infrared door lock
108 Interface unit
109, 109A, 109B ... 1 time password generation / holding unit
111 ... Bluetooth port
112: Bluetooth transmission / reception unit
113 ... Bluetooth door lock
114 ... Bluetooth control unit

Claims (12)

In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
It is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and permits access of the portable wireless terminal based on authentication of the entered password. Server and
A 1 time password generation / holding unit that generates and holds 1 time password with the access permission of the server;
A 1 time password holding unit that holds the 1 time password generated by the 1 time password generation / holding unit and notified to the portable wireless terminal via the communication network;
An infrared port for transmitting 1 time password held in the 1 time password holding unit by infrared communication,
The 1-time password received by the infrared communication from the portable wireless terminal via the infrared port is compared with the 1-time password held in the 1-time password holding unit, authenticated, and the door of the building is unlocked. A locking system comprising an infrared door lock. The locking system according to claim 1, wherein the server turns on the power of the infrared door lock when permitting access to the portable wireless terminal. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
It is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and permits access of the portable wireless terminal based on authentication of the entered password. Server and
A 1 time password generation / holding unit that generates and holds 1 time password with the access permission of the server;
A 1 time password holding unit that holds the 1 time password generated by the 1 time password generation / holding unit and notified to the portable wireless terminal via the communication network;
A Bluetooth port for transmitting the 1 time password held in the 1 time password holding unit by Bluetooth communication,
The 1-time password received by the Bluetooth communication from the portable wireless terminal via the Bluetooth port is compared with the 1-time password held in the 1-time password holding unit to authenticate and unlock the door of the building. A locking system, comprising: a Bluetooth door lock. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
An infrared port located in the portable wireless terminal, performing access transmission by infrared communication, and transmitting 1 time password for unlocking a door of the building;
A request for input of a password of the portable wireless terminal for infrared communication of access from the infrared port, permitting access of the portable wireless terminal based on authentication of the entered password, An infrared door lock for receiving 1 time password from the wireless terminal via the infrared port by infrared communication, authenticating the received 1 time password, and unlocking the building door;
Generating and holding one time password by permitting the access of the infrared door lock, comparing the held one time password with the one time password received from the infrared door lock, and authenticating the infrared door lock. 1 time password generation / holding unit;
The 1 time password generated by the 1 time password generation / holding unit is held by the infrared door lock via the infrared port through the infrared port to the 1 time password notified to the portable wireless terminal, and the 1 time password is held, and A locking system comprising: a 1-time password holding unit for transmitting the held 1-time password when requesting unlocking from the infrared port. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
A Bluetooth port that is located within the portable wireless terminal, performs access transmission by Bluetooth communication, and transmits 1 time password for unlocking the building door;
A request for input of a password of the portable wireless terminal is required for Bluetooth communication of access from the Bluetooth port, access of the portable wireless terminal is permitted based on authentication of the entered password, and A Bluetooth door lock that receives 1 time password by Bluetooth communication from the wireless terminal via the Bluetooth port, authenticates the received 1 time password, and unlocks the building door;
A method for generating and holding one time password by permitting access of the Bluetooth door lock, comparing the held one time password with the one time password received from the Bluetooth door lock, and authenticating the Bluetooth door lock. 1 time password generation / holding unit;
The 1 time password generated by the 1 time password generation / holding unit is held by the Bluetooth door lock via the Bluetooth port to the portable wireless terminal via the Bluetooth port, and the 1 time password is held, and the door of the building is held. A locking system comprising: a one-time-password holding unit that causes the held one-time password to be transmitted from the Bluetooth port when unlocking is requested. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
An infrared port located in the portable wireless terminal, performing access transmission by infrared communication, and transmitting 1 time password for unlocking a door of the building;
A request for input of a password of the portable wireless terminal for infrared communication of access from the infrared port, permitting access of the portable wireless terminal based on authentication of the entered password, An infrared door lock for receiving 1 time password from the wireless terminal via the infrared port by infrared communication, authenticating the received 1 time password, and unlocking the building door;
It is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and permits access of the portable wireless terminal based on authentication of the entered password. Server and
The infrared door lock or the server permits access to the server to generate and hold a one-time password, and compares the held one-time password with the one-time password received from the infrared door lock to authenticate the infrared door lock. A 1 time password generation / holding unit for causing
The 1 time password generated by the 1 time password generation / holding unit is held by the infrared door lock via the infrared port through the infrared port to the 1 time password notified to the portable wireless terminal, and the 1 time password is held, and A locking system comprising: a 1-time password holding unit for transmitting the held 1-time password when requesting unlocking from the infrared port. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
A Bluetooth port that is located within the portable wireless terminal, performs access transmission by Bluetooth communication, and transmits 1 time password for unlocking the building door;
A request for input of a password of the portable wireless terminal is required for Bluetooth communication of access from the Bluetooth port, access of the portable wireless terminal is permitted based on authentication of the entered password, and A Bluetooth door lock that receives 1 time password by Bluetooth communication from the wireless terminal via the Bluetooth port, authenticates the received 1 time password, and unlocks the building door;
It is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and permits access of the portable wireless terminal based on authentication of the entered password. Server and
Generates and holds one time password by permitting the Bluetooth door lock or the server access, compares the held one time password with the one time password received from the Bluetooth door lock, and authenticates to the Bluetooth door lock. A 1 time password generation / holding unit for causing
The 1 time password generated by the 1 time password generation / holding unit is held by the Bluetooth door lock via the Bluetooth port to the portable wireless terminal via the Bluetooth port, and the 1 time password is held, and the door of the building is held. A locking system comprising: a one-time-password holding unit that causes the held one-time password to be transmitted from the Bluetooth port when unlocking is requested. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
An infrared port located in the portable wireless terminal, performing access transmission by infrared communication, and transmitting 1 time password for unlocking a door of the building;
A Bluetooth port that is located within the portable wireless terminal, performs access transmission by Bluetooth communication, and transmits 1 time password for unlocking the building door;
It is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and permits access of the portable wireless terminal based on authentication of the entered password. Server and
A 1 time password generation / holding unit that generates and holds 1 time password with the access permission of the server;
A 1 time password holding unit that holds the 1 time password generated by the 1 time password generation / holding unit and notified to the portable wireless terminal via the communication network;
The 1-time password received by the infrared communication from the portable wireless terminal via the infrared port is compared with the 1-time password held in the 1-time password holding unit, authenticated, and the door of the building is unlocked. A locking system comprising an infrared door lock. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
An infrared port located in the portable wireless terminal, performing access transmission by infrared communication, and transmitting 1 time password for unlocking a door of the building;
A Bluetooth port that is located within the portable wireless terminal, performs access transmission by Bluetooth communication, and transmits 1 time password for unlocking the building door;
It is located in the building, is connected to a communication network by wire, requests input of a password for access from the portable wireless terminal, and permits access of the portable wireless terminal based on authentication of the entered password. Server and
A 1 time password generation / holding unit that generates and holds 1 time password with the access permission of the server;
A 1 time password holding unit that holds the 1 time password generated by the 1 time password generation / holding unit and notified to the portable wireless terminal via the communication network;
The 1-time password received by the Bluetooth communication from the portable wireless terminal via the Bluetooth port is compared with the 1-time password held in the 1-time password holding unit to authenticate and unlock the door of the building. A locking system, comprising: a Bluetooth door lock. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
An infrared port located in the portable wireless terminal, performing access transmission by infrared communication, and transmitting 1 time password for unlocking a door of the building;
A Bluetooth port that is located within the portable wireless terminal, performs access transmission by Bluetooth communication, and transmits 1 time password for unlocking the building door;
A request for input of a password of the portable wireless terminal for infrared communication of access from the infrared port, permitting access of the portable wireless terminal based on authentication of the entered password, An infrared door lock for receiving 1 time password from the wireless terminal via the infrared port by infrared communication, authenticating the received 1 time password, and unlocking the building door;
Generating and holding one time password by permitting the access of the infrared door lock, comparing the held one time password with the one time password received from the infrared door lock, and authenticating the infrared door lock. 1 time password generation / holding unit;
The 1 time password generated by the 1 time password generation / holding unit is held by the infrared door lock via the infrared port through the infrared port to the 1 time password notified to the portable wireless terminal, and the 1 time password is held, and A locking system comprising: a 1-time password holding unit for transmitting the held 1-time password when requesting unlocking from the infrared port. In a locking system for locking a building door with a mobile wireless terminal wirelessly connected to a communication network,
An infrared port located in the portable wireless terminal, performing access transmission by infrared communication, and transmitting 1 time password for unlocking a door of the building;
A Bluetooth port that is located within the portable wireless terminal, performs access transmission by Bluetooth communication, and transmits 1 time password for unlocking the building door;
A request for input of a password of the portable wireless terminal is required for Bluetooth communication of access from the Bluetooth port, access of the portable wireless terminal is permitted based on authentication of the entered password, and A Bluetooth door lock that receives 1 time password by Bluetooth communication from the wireless terminal via the Bluetooth port, authenticates the received 1 time password, and unlocks the building door;
A method for generating and holding one time password by permitting access of the Bluetooth door lock, comparing the held one time password with the one time password received from the Bluetooth door lock, and authenticating the Bluetooth door lock. 1 time password generation / holding unit;
The 1 time password generated by the 1 time password generation / holding unit is held by the Bluetooth door lock via the Bluetooth port to the portable wireless terminal via the Bluetooth port, and the 1 time password is held, and the door of the building is held. A locking system comprising: a one-time-password holding unit that causes the held one-time password to be transmitted from the Bluetooth port when unlocking is requested. In an unlocking method of a locking system for locking a building door with a portable wireless terminal wirelessly connected to a communication network,
Accessing the server located in the building and connected to the communication network by wire from the portable wireless terminal;
Requesting the portable wireless terminal to input a password from the server for the access,
Performing a permission to access the server from the portable wireless terminal based on authentication of a password input from the portable wireless terminal in response to the request,
Generating and maintaining a one time password in the building upon permitting access of the server;
Notifying the generated one time password to the portable wireless terminal via the communication network;
Holding the notified one time password in the portable wireless terminal;
Transmitting the held one time password from the portable wireless terminal by infrared communication;
Comparing the one time password received by the infrared communication from the portable wireless terminal with the one time password held in the building and authenticating the unlocked door of the building. How to unlock the locking system.

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