WO2020129360A1 - Système de confirmation de position de stationnement - Google Patents

Système de confirmation de position de stationnement Download PDF

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Publication number
WO2020129360A1
WO2020129360A1 PCT/JP2019/039437 JP2019039437W WO2020129360A1 WO 2020129360 A1 WO2020129360 A1 WO 2020129360A1 JP 2019039437 W JP2019039437 W JP 2019039437W WO 2020129360 A1 WO2020129360 A1 WO 2020129360A1
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WIPO (PCT)
Prior art keywords
communication
vehicle
authentication
communication device
authentication device
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PCT/JP2019/039437
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English (en)
Japanese (ja)
Inventor
雄一 稲波
将宏 荒川
健司 鳴海
Original Assignee
株式会社東海理化電機製作所
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Application filed by 株式会社東海理化電機製作所 filed Critical 株式会社東海理化電機製作所
Publication of WO2020129360A1 publication Critical patent/WO2020129360A1/fr

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C21/00Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
    • G01C21/26Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 specially adapted for navigation in a road network
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/005Traffic control systems for road vehicles including pedestrian guidance indicator
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/01Detecting movement of traffic to be counted or controlled
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/14Traffic control systems for road vehicles indicating individual free spaces in parking areas

Definitions

  • the present invention relates to a parking position confirmation system that confirms the position of a vehicle parked in a parking lot facility.
  • An object of the present invention is to provide a parking position confirmation system capable of notifying a user of a parking position of a vehicle with a simple configuration.
  • a parking position confirmation system is provided so as to divide a parking lot facility into a plurality of areas, a communication device that performs wireless communication with a communication device related to a user, and whether or not the vehicle is parked. And a detecting unit that detects the user, and each of the communication devices can identify the user or the vehicle when the vehicle is parked in a corresponding one of the plurality of areas corresponding to the communication device. Identification information is acquired by the wireless communication with the communication device, and position information of the area where the vehicle is parked is linked to the identification information and output.
  • the parking position confirmation system of the present invention enables the user to be notified of the parking position of a vehicle with a simple configuration.
  • the block diagram which shows the structure of a parking position confirmation system.
  • the figure which shows the communication machine arrange
  • Explanatory drawing which shows the procedure of a car finder function.
  • the vehicle 1 is equipped with an electronic key system 4 that permits wireless ID verification with the electronic key 2 to permit or execute the operation of the vehicle-mounted device 3.
  • the electronic key system 4 is a key operation-free system that executes ID verification (smart verification) by narrow-range wireless communication triggered by communication from the vehicle 1.
  • the vehicle-mounted device 3 is, for example, a door lock device or an engine.
  • the electronic key system 4 includes a system device 5 that operates the electronic key system 4 in the vehicle 1.
  • An electronic key ID and a key unique key used in smart verification are registered in the electronic key 2 and the system device 5.
  • the electronic key 2 and the system device 5 perform smart collation by bidirectional communication in which radio waves are transmitted and received to perform communication.
  • the smart collation executes, for example, electronic key ID collation for confirming whether the electronic key ID is correct, challenge response authentication using a key unique key, or the like.
  • Radio waves in the LF (Low Frequency) band are used for transmitting radio waves from the system unit 5 to the electronic key 2
  • radio waves in the UHF (Ultra High Frequency) band are used for transmitting radio waves from the electronic key 2 to the system unit 5. It is used.
  • the system device 5 and the in-vehicle device 3 are connected via a communication line 6 in the vehicle.
  • the communication line 6 is composed of, for example, CAN (Controller Area Network) or LIN (Local Interconnect Network).
  • the system device 5 executes smart communication (outdoor smart communication) with the electronic key 2 located outdoors, if the smart verification (outdoor smart verification) performed at this time is established, locking/unlocking of the vehicle door is performed. Permit or execute. As a result, if the vehicle exterior door handle is touch-operated, the vehicle door is unlocked, and if the lock button of the vehicle exterior door handle is operated, the vehicle door is locked. Further, when the system device 5 executes smart communication (indoor smart communication) with the electronic key 2 located indoors, if the smart verification (indoor smart verification) performed at this time is established, the system power supply Allow transition operations. As a result, the engine starts when the engine switch on the driver's seat is pushed while the brake pedal is being depressed.
  • the vehicle 1 has a wireless authentication function (terminal key system 8) that issues key information Dk to the mobile terminal 7 owned by each user and enables the vehicle 1 to be operated by the mobile terminal 7.
  • the mobile terminal 7 is, for example, a high-performance mobile phone (smartphone).
  • the mobile terminal 7 is capable of Internet communication and short-range wireless communication.
  • the short-range wireless communication is preferably, for example, Bluetooth (registered trademark) communication.
  • the mobile terminal 7 is provided with a user interface application (not shown) that manages the operation of the terminal key system 8 in the mobile terminal 7.
  • the user interface application is provided in the mobile terminal 7 by being downloaded from the server 14, for example.
  • the user interface application executes various processes such as personal authentication when acquiring the key information Dk, locking/unlocking operation of the vehicle door, and starting operation of the engine of the vehicle 1.
  • the terminal key system 8 includes an authentication device 10 that communicates with the mobile terminal 7 and performs authentication using the key information Dk.
  • the authentication device 10 is provided in the vehicle 1.
  • the authentication device 10 is an example of a communication device associated with a user. In the terminal key system 8, establishment of authentication using the key information Dk performed via communication between the mobile terminal 7 and the authentication device 10 is a condition of whether or not the vehicle 1 can be operated.
  • the authentication device 10 includes a controller 11 that controls the operation of the authentication device 10 and a short-range wireless module 12 that performs short-range wireless communication between the authentication device 10 and another device. Further, the authentication device 10 includes a memory 13 in which data can be written and rewritten.
  • the authentication device 10 is connected to the system device 5 via a communication line 6.
  • the authentication device 10 has a one-to-one relationship with the vehicle 1 by associating the authentication device ID registered with itself with the vehicle body ID (vehicle body number) of the vehicle 1, for example.
  • the terminal key system 8 registers, for example, the encrypted key information Dk from the outside (in this example, the server 14) in the mobile terminal 7 via Internet communication.
  • the key information Dk of this example is an encryption obtained by encrypting a plaintext such as a “terminal ID” and a “user authentication key” using a specific encryption key of the authentication device 10 with a predetermined encryption formula (encryption algorithm). It consists of sentences.
  • the terminal ID is unique ID information of the mobile terminal 7.
  • the user authentication key is a type of encryption key used for encrypted communication between the mobile terminal 7 and the authentication device 10 when the operation of the vehicle 1 is executed by the mobile terminal 7, for example.
  • the mobile terminal 7 performs personal authentication through Internet communication with the server 14.
  • the personal authentication is, for example, an authentication for confirming a user ID and a password given when registering the use of the terminal key system 8.
  • the authentication device 10 includes a key information authentication unit 15 that authenticates whether the key information Dk registered in the mobile terminal 7 is correct.
  • the key information authentication unit 15 of this example is provided in the controller 11.
  • the key information authentication unit 15 acquires the key information Dk from the mobile terminal 7 through short-range wireless communication and authenticates the key information Dk.
  • the key information Dk is decrypted using the unique encryption key of the authentication device 10, and whether or not this decryption is successful. To confirm.
  • the key information authentication unit 15 can acquire information such as the “terminal ID” and the “user authentication key” included in the key information Dk.
  • the mobile terminal 7 can operate the vehicle 1. Further, when the authentication of the key information Dk is established, the authentication device 10 notifies the mobile terminal 7 of the user authentication key acquired in this authentication through the near field communication. As a result, the user authentication key is used for the encrypted communication between the mobile terminal 7 and the authentication device 10.
  • the mobile terminal 7 is provided with an operation request button (display button on the screen).
  • the operation request button When the operation request button is operated, the mobile terminal 7 transmits an operation request signal corresponding to the button to the authentication device 10 via short-range wireless communication.
  • the operation request button is, for example, an unlock request button operated when unlocking the vehicle door, a lock request button operated when locking the vehicle door, and an engine start request operated when allowing the vehicle 1 to start the engine. There are buttons, etc.
  • the operation request signal is a signal including a command corresponding to the operated operation request button.
  • the operation request signal is transmitted after being encrypted by the user authentication key, for example.
  • the authentication device 10 When the authentication device 10 receives the operation request signal from the mobile terminal 7 when the authentication of the key information Dk of the mobile terminal 7 is established, the authentication device 10 operates the vehicle 1 through the system device 5 based on the operation request signal. For example, when the authentication device 10 receives the door unlocking operation request signal, the authentication device 10 outputs a door unlocking request to the system device 5 to unlock the vehicle door. When the authentication device 10 receives the engine start operation request signal, the authentication device 10 outputs an engine start permission request to the system device 5. Therefore, when the engine switch in the driver's seat is pushed while the brake pedal is being depressed, the engine starts.
  • a parking location confirmation system 21 is provided in the parking lot facility 20 that provides a parking space for the vehicle 1.
  • the parking lot facility 20 is, for example, an hourly multilevel parking lot provided in a commercial facility or the like.
  • the parking position confirmation system 21 of this example uses the above-described authentication device 10 (communication function of the authentication device 10) to store the parking position of the vehicle 1 parked in the parking lot facility 20 and provide it to the user. It has a finder function.
  • the communication function of the authentication device 10 of this example is a Bluetooth communication function.
  • the parking space is divided into a plurality of areas 22 (only one is shown in FIG. 2).
  • a communication device 23 is provided in each of the plurality of areas 22.
  • the communication device 23 includes a short-range wireless communication unit 24 that executes short-range wireless communication in the communication device 23 (see FIG. 1).
  • the communication device 23 performs near field communication (for example, Bluetooth communication) with the authentication device 10 located in the area 22 of the communication device 23.
  • the position information of the area 22 of the own device is registered in each communication device 23.
  • the parking position confirmation system 21 includes a master communication device 25 that controls the communication device 23.
  • the master communication device 25 of this example is provided in a gate device 26 that the vehicle 1 passes through when entering and leaving.
  • the master communication device 25 includes, in the master communication device 25, a short-range wireless communication unit 27 that performs short-range wireless communication and an internet communication unit 28 that performs internet communication (see FIG. 1 ).
  • the master communication device 25 is connected to each communication device 23 via a wireless communication network formed by the communication devices 23 performing short-distance wireless communication with each other.
  • An example of a wireless communication network is a mesh network.
  • the communication device 23 near the master communication device 25 transmits the radio wave from the other communication device 23 to the master communication device 25.
  • the radio wave transmitted from the master communication device 25 is transferred between the communication devices 23 and reaches the destination communication device 23.
  • the master communication device 25 is directly or indirectly connected to all the communication devices 23 by the wireless communication network and controls the communication devices 23. Further, the master communication device 25 is connected to the server 14 via Internet communication.
  • the master communication device 25 is provided with an entry/exit management unit 29 that manages entry/exit of a vehicle to/from the parking lot facility 20.
  • the entrance/exit management unit 29 manages the entrance/exit of the vehicle 1 by performing authentication via the short-distance wireless communication with the mobile terminal 7 that has reserved the use of the parking lot facility 20, for example.
  • Reservation for use of the parking lot facility 20 is made using the user interface application of the mobile terminal 7, for example.
  • the mobile terminal 7 makes a use reservation with the server 14 through Internet communication.
  • the use reservation the member ID given at the time of use registration of the parking position confirmation system 21, the parking lot facility 20 to be used, the parking reservation time (parking start time, parking time zone) and the like are input.
  • the server 14 transmits the reservation information Dr to the mobile terminal 7.
  • the reservation information Dr is preferably unique ID information to which a different value is added each time parking is performed, for example.
  • the mobile terminal 7 receives the reservation information Dr, the mobile terminal 7 writes and stores the reservation information Dr in the memory (not shown) of the mobile terminal 7. Further, when the use reservation is completed, the server 14 notifies (contacts) the master communication device 25 of the parking lot facility 20 reserved for parking with the member ID of the user who reserved the parking.
  • the mobile terminal 7 transmits the member ID and the authentication device ID to the master communication device 25 via short-range wireless communication. At this time, the mobile terminal 7 acquires the authentication device ID from the authentication device 10 through short-range wireless communication, and notifies the master communication device 25 of this authentication device ID. The reason that the master communication device 25 is notified of the member ID and the authentication device ID is to identify the set of the user and the vehicle 1.
  • the entrance/exit management unit 29 receives the member ID from the mobile terminal 7, the entrance/exit management unit 29 checks whether or not the member ID has been contacted from the server 14 to the master communication device 25 to confirm whether or not the member is a reserved member. When the confirmation at the time of entry is obtained, the entry/exit management unit 29 opens the gate bar of the gate device 26, and entry of the vehicle 1 is permitted. As a result, the user does not have to perform an operation in front of the gate device 26 at the time of entry, which enables a smooth entry.
  • the mobile terminal 7 executes the communication for acquiring the authentication device ID from the authentication device 10, the mobile terminal 7 transmits the reservation information Dr registered in itself to the authentication device 10 through the short-range wireless communication. Upon receiving the reservation information Dr from the mobile terminal 7, the authentication device 10 writes the reservation information Dr in the memory 13 and stores it.
  • the parking position confirmation system 21 includes a detection unit 31 that detects whether or not the vehicle 1 is parked.
  • the detection unit 31 of this example is provided in the authentication device 10.
  • the detection unit 31 monitors the state of the vehicle 1 and detects that the vehicle 1 is parked when a predetermined condition is satisfied.
  • the predetermined conditions include, for example, stopping the engine, shifting the shift range to the parking position, zero vehicle speed for a certain period of time, locking the door lock, moving the mobile terminal 7 out of the communication range with the authentication device 10, or any of these.
  • the authentication device 10 is provided with a communication control unit 32 that controls communication with the communication device 23.
  • the communication control unit 32 starts short-range wireless communication between the authentication device 10 and the communication device 23 when the detection unit 31 detects that the vehicle 1 is parked.
  • the communication control unit 32 establishes a communication connection with the communication device 23 when the detection unit 31 detects that the vehicle 1 is parked.
  • the parking position confirmation system 21 includes a processing unit 30 that performs a process of detecting the position (area 22) of the vehicle 1 in the parking lot facility 20.
  • the processing unit 30 of this example is provided in the master communication device 25.
  • the processing unit 30 detects the area 22 in which the vehicle 1 is located by monitoring the communication between the communication device 23 and the authentication device 10. For example, when the communication connection between the communication device 23 and the authentication device 10 is established, the processing unit 30 outputs the position information of the area 22 in which the communication device 23 is located and the identification information of the authentication device 10 from the communication device 23. get.
  • the processing unit 30 detects that the vehicle 1 is located in the area 22 indicated by the position information based on the position information and the identification information. Further, the processing unit 30 transmits the detected position of the vehicle 1 to the server 14 via internet communication.
  • the identification information may be, for example, a vehicle body ID, an authentication device ID, a terminal ID, a reservation date and time (or reservation information Dr), a member ID, a user ID, or any combination thereof.
  • the authentication device ID is transmitted from the mobile terminal 7 to the master communication device 25 at the time of the above-described authentication upon entry.
  • the master communication device 25 stores the authentication device ID in association with the member ID used in the authentication upon entry.
  • the operation and effect of the car finder function of the parking position confirmation system 21 (processing unit 30) will be described with reference to FIG.
  • the vehicle ID is already entered in the parking lot facility 20 after the member ID (or the reservation information Dr is acceptable) has been confirmed at the time of entering the parking lot facility 20.
  • the master communication device 25 acquires the member ID from the mobile terminal 7 and the authentication device ID of the authentication device 10 via the mobile terminal 7 when entering the vehicle.
  • step S101 the detection unit 31 detects whether the vehicle 1 is parked when the vehicle 1 enters the parking lot facility 20.
  • the detection unit 31 detects that the vehicle 1 is parked, for example, when the engine of the vehicle 1 transits from the activated state to the stopped state.
  • the authentication device 10 detects that the vehicle 1 is parked, the authentication device 10 proceeds to step S102.
  • step S102 the communication control unit 32 starts communication connection with the communication device 23.
  • the communication control unit 32 transmits an advertising packet around the vehicle 1.
  • the advertising packet is transmitted by, for example, BLE (Bluetooth Low Energy) communication.
  • the advertising packet is repeatedly transmitted regularly or irregularly until the communication connection with the communication device 23 is established.
  • the communication device 23 Upon receiving the advertising packet, the communication device 23 transmits a response to the advertising packet. Then, a series of communication connection processes linked to the advertising packet is executed.
  • the authentication device 10 and the communication device 23 automatically establish a communication connection when device authentication (for example, address authentication) is established in the process of communication connection.
  • step S103 the authentication device 10 transmits the authentication device ID of the authentication device 10 to the communication device 23. Further, in the present example, the authentication device 10 transmits the reservation information Dr registered in the memory 13 to the communication device 23. That is, in this example, the communication device 23 acquires the authentication device ID and the reservation information Dr from the authentication device 10 as identification information.
  • step S104 the communication device 23 outputs the position information of the area 22 in which the communication device 23 is located in association with the identification information received from the authentication device 10. For example, when the communication device 23 receives the authentication device ID from the authentication device 10, the communication device 23 confirms the member ID forming a pair with the authentication device ID. In this way, the communication device 23 of this example can obtain, as the identification information, the authentication device ID and the reservation information Dr as well as the member ID derived from the authentication device ID. Then, the communication device 23 transmits this identification information and the position information of the area 22 in which the communication device 23 is located to the master communication device 25 via the wireless communication network. Upon receiving the position information and the identification information, the processing unit 30 obtains the parking position information indicating in which area 22 of the parking lot facility 20 the vehicle 1 is parked, based on the position information and the identification information.
  • step S105 the processing unit 30 transmits the parking position information of the vehicle 1 to the server 14.
  • the server 14 stores the received parking position information in an area accessible via internet communication. Thereby, for example, if the user operates the mobile terminal 7 to provide the parking position and accesses the server 14, the parking position information of the vehicle 1 can be viewed.
  • the operation of providing the parking position includes, for example, displaying the parking position providing button associated with the reservation information Dr and the member ID on the screen of the mobile terminal 7 and tapping the button.
  • the mobile terminal 7 transmits a browsing request associated with the reservation information Dr and the member ID to the network.
  • the server 14 determines the position information of the user's parked vehicle based on the reservation information Dr and the member ID in the browsing request, and notifies the mobile terminal 7 of this. Therefore, the parking position information can be provided to the user.
  • the parking position confirmation system is provided in a plurality so as to divide the parking lot facility 20 into the plurality of areas 22, and wirelessly communicates with the authentication device 10 provided in the vehicle 1 in which the user is riding.
  • the communication device 23 that executes the operation and the detection unit 31 that detects whether or not the vehicle 1 is parked are provided.
  • each communication device 23 acquires identification information (for example, an authentication device ID) that can identify the user or the vehicle 1 from the authentication device 10 when the vehicle 1 is parked in the area 22 of the communication device 23, and then the area 22 is acquired.
  • the position information of is associated with the identification information acquired from the authentication device 10 and output, and is provided to the user.
  • the parking position of the vehicle 1 can be provided to the user by using the communication function of the authentication device 10. Therefore, even if the user forgets the parking position, the vehicle 1 can be easily found. Therefore, it is possible to notify the user of the parking position of the vehicle with a simple configuration.
  • the authentication device 10 provided in the vehicle 1 is used as a communication device for confirming the parking position. According to this configuration, since the positional relationship between the vehicle 1 and the authentication device 10 does not change, it is easy to detect the parking position.
  • the format of short-range wireless communication between the authentication apparatus 10 and the communication device 23 and the format of short-range wireless communication between the authentication apparatus 10 and the mobile terminal 7 are the same.
  • the existing communication format of the authentication device 10 can be used for checking the parking position, which is advantageous for a simple configuration. If the short-range wireless communication is BLE communication, a general-purpose device can be used as the communication device 23.
  • the detection unit 31 is provided in the vehicle 1. Further, the authentication device 10 is configured to start short-range wireless communication with the communication device 23 when the detection unit 31 detects that the vehicle 1 is parked. According to this configuration, since the authentication device 10 and the communication device 23 are connected for communication only when the vehicle 1 is parked, there is no need for communication connection when not parked. Therefore, it is possible to suppress an increase in power consumption required for communication connection processing. Moreover, since the detection unit 31 is provided in the vehicle 1, it is easy to detect the parking of the vehicle 1.
  • the present embodiment can be modified and implemented as follows.
  • the present embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
  • -Entrance to the parking lot facility 20 is not limited to the mode of making a reservation for use, and may be admitted without reservation.
  • the entrance code is transmitted from the entrance/exit management unit 29 to the authentication device 10 and the mobile terminal 7 at the time of entrance, and the entrance code may be used as identification information. That is, the identification information is not limited to the one registered in advance in each device, but may be the one provided when the parking lot facility 20 is entered.
  • the entrance/exit management unit 29 may be provided in the master communication device 25, the communication device 23, or the server 14.
  • the master communication device 25 communicates with the authentication device 10
  • the member ID and the reservation information Dr may be transmitted to the server 14 and the server 14 may perform authentication.
  • the exit method from the parking lot facility 20 and the payment method of the usage fee of the parking lot facility 20 are not particularly limited.
  • the information included in the reservation information Dr is not particularly limited to the unique ID information described in the above embodiment, and may include a reservation date and time, a reservation code, an ID unique to the parking lot facility 20, and the like.
  • the communication for authentication at the time of admission may be encrypted.
  • the reservation information Dr and the member ID may be encrypted with the encryption key of the master communication device 25 and transmitted, and the reservation information Dr and the member ID may be acquired by decrypting them.
  • the entrance/exit management unit 29 may not be provided. That is, the parking lot facility 20 does not have to manage entrance/exit using the communication function of the authentication device 10, and can use an existing entrance/exit management device.
  • the authentication device 10 may send the advertising packet, or the communication device 23 may send the advertising packet.
  • the communication control unit 32 may be provided in the communication device 23 or the master communication device 25.
  • the communication control unit 32 may also cause the communication device 23 to transmit an advertising packet to start the communication connection between the communication device 23 and the authentication device 10 when the detection unit 31 detects that there is parking. Good. That is, the communication control unit 32 may start short-range wireless communication between the authentication device 10 and the communication device 23 when the detection unit 31 detects that the vehicle 1 is parked.
  • the reception strength may be used as a trigger for communication connection.
  • the communication unit 23 may be provided with the detection unit 31, and the presence of parking may be detected when the reception intensity of the advertising packet from the authentication device 10 does not change at a predetermined threshold value or more. Then, when the presence of parking is detected, the communication connection between the communication device 23 and the authentication device 10 may be performed.
  • the communication control unit 32 may not be provided.
  • the authentication device 10 may perform short-distance wireless communication with the closest communication device 23 regardless of whether or not the vehicle is parked. Then, when the detection unit 31 detects the presence of parking, the communication device 23, which is performing the short-range wireless communication by the authentication device 10, may output the position information.
  • the terminal key system 8 and the parking position confirmation system 21 may use different servers 14. Further, in the parking position confirmation system 21, the server 14 to be used may be different between the reservation of the parking lot facility 20 and the car finder function.
  • the master communication device 25 may be one of the communication devices 23.
  • the communication device 23 may be provided in the gate device 26 and the master communication device 25 may be provided in the area 22 of the parking space.
  • -One master communication device 25 may be provided, two may be provided, and three or more may be provided. -The number and arrangement of the communication devices 23 are not particularly limited. Further, a plurality of communication devices 23 may be provided for one area 22, or there may be an area 22 where the communication device 23 is not provided. Furthermore, the plurality of areas 22 may be constructed by the number of communication devices 23 that is smaller than the total number of areas 22.
  • the size of the area 22 in which the communication device 23 is provided can be changed according to the specifications.
  • the area 22 may be a space for one vehicle.
  • the wireless communication network is not limited to the mesh network, and may be a ring type, a star type, a tree type, or a combination thereof, and various network topologies can be applied.
  • -At least a part of the communication devices 23 and between the communication devices 23 and the master communication device 25 is not limited to be connected wirelessly, and may be connected by wire.
  • -Parking position information does not need to be transmitted to the server 14.
  • it may be stored in an area in the master communication device 25 that is accessible via Internet communication. That is, it may be output to a communication network for internet communication.
  • the processing unit 30 may be provided in the authentication device 10, the server 14, or the mobile terminal 7. It suffices if the parking position can be determined based on the position information output from the communication device 23.
  • the identification information may be a vehicle body ID, an authentication device ID, a terminal ID, a reservation date/time, a member ID, a user ID, reservation information Dr, or a combination thereof, or other information. In short, it suffices if the parking position information can be provided to a specific user by using the identification information.
  • the method of providing the parking position is not limited to the embodiment.
  • the mobile terminal 7 may be notified.
  • the communication device 23 may receive the terminal ID from the authentication device 10 and directly transmit the position information to the mobile terminal 7 having the terminal ID.
  • the transmission of the position information from the communication device 23 to the mobile terminal 7 may be performed using short-range wireless communication, wireless communication network, Internet communication, and a combination thereof.
  • the user ID of the terminal key system 8 and the member ID of the parking position confirmation system 21 may be the same or different.
  • Outputting the position information in association with the identification information means outputting the position information and the identification information together, and outputting the position information to the master communication device 25 or the specific authentication device 10 or the mobile terminal 7 based on the identification information. Including doing.
  • the predetermined conditions for the detection unit 31 to detect that the vehicle 1 is parked are: engine stop, shift range shift to "parking position", zero vehicle speed for a certain period of time, door lock, mobile terminal 7 It may be moved out of the communication range with the authentication device 10 or a combination thereof.
  • the detecting unit 31 may be provided in the authentication device 10, may be provided separately from the authentication device 10 in the vehicle 1, may be provided in the parking lot facility 20, or may be provided in the mobile terminal 7. May be
  • the installation location of the authentication device 10 on the vehicle 1 is not particularly limited. -The authentication device 10 may be configured to be attached to the vehicle 1 afterwards, or may be incorporated in advance.
  • the authentication device 10 may be integrated with the system device 5, and these may be one unit component.
  • the authentication device 10 and the system device 5 may be connected by wire or wirelessly.
  • the communication between the authentication device 10 and the system device 5 may be LF-UHF bidirectional communication. Further, even in a mode in which the system device 5 performs ID verification and operation of the vehicle 1 when the authentication device 10 transmits a radio wave including an authentication device ID and a command for causing the vehicle 1 to operate. Good. Further, a combination of these may be used.
  • the communication device related to the user may be the authentication device 10 or the mobile terminal 7.
  • -Near field communication is not limited to Bluetooth communication, but can be changed to another communication method.
  • it may be Wi-Fi (registered trademark) or ZigBee (registered trademark).
  • the key information Dk may be a one-time key, a temporary key, or a permanent key.
  • the information included in the key information Dk can be changed to modes other than the embodiment.
  • the information included in the reservation information Dr can be changed to modes other than the embodiment.
  • the mobile terminal 7 is not limited to a high-performance mobile phone and can be changed to various terminals.
  • the terminal key system 8 can be changed to a mode other than the embodiment.
  • the electronic key system 4 is not limited to the key operation free system, and may be changed to a system having another system configuration.
  • the parking lot facility 20 may be a hourly parking lot, a monthly parking lot, or a fixed contract parking lot.
  • the corresponding one of the plurality of communication devices obtains identification information capable of identifying the user or the vehicle via wireless communication with a communication device associated with the user; and
  • a method for confirming a parking position comprising: outputting the position information of the area in which the vehicle is parked in association with the identification information by a corresponding one of a plurality of communication devices.

Abstract

La présente invention concerne un système de confirmation de position de stationnement (21) comprenant : des communicateurs (23) qui sont disposés en pluralité de manière à diviser une installation de stationnement (20) en une pluralité de zones, et exécuter une communication sans fil avec un dispositif de communication (10) associé à un utilisateur ; et un détecteur (31) qui détecte si un véhicule (1) est stationné. Lorsque le véhicule (1) est stationné dans une zone de la pluralité de zones correspondant aux communicateurs (23), des informations d'identification qui peuvent identifier l'utilisateur ou le véhicule sont acquises par le communicateur désigné (23) par l'intermédiaire d'une communication sans fil avec le dispositif de communication (10), et le communicateur désigné (23) délivre les informations de position de la zone dans laquelle le véhicule est stationné, liée aux informations d'identification.
PCT/JP2019/039437 2018-12-21 2019-10-07 Système de confirmation de position de stationnement WO2020129360A1 (fr)

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JP2018239444A JP2020101976A (ja) 2018-12-21 2018-12-21 駐車位置確認システム
JP2018-239444 2018-12-21

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WO2020129360A1 true WO2020129360A1 (fr) 2020-06-25

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005316771A (ja) * 2004-04-28 2005-11-10 Mitsubishi Electric Corp 車両及び駐車場管理システム及び車両駐車位置特定方法
JP2007080081A (ja) * 2005-09-15 2007-03-29 Denso Corp 駐車位置通知システム、駐車位置通知システム用の管理者側装置および車両側装置
JP2015203200A (ja) * 2014-04-11 2015-11-16 株式会社東海理化電機製作所 携帯端末キーシステム

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2005316771A (ja) * 2004-04-28 2005-11-10 Mitsubishi Electric Corp 車両及び駐車場管理システム及び車両駐車位置特定方法
JP2007080081A (ja) * 2005-09-15 2007-03-29 Denso Corp 駐車位置通知システム、駐車位置通知システム用の管理者側装置および車両側装置
JP2015203200A (ja) * 2014-04-11 2015-11-16 株式会社東海理化電機製作所 携帯端末キーシステム

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