JP7332509B2 - Connection threshold adjustment device and connection threshold adjustment method - Google Patents

Description

The present invention relates to a connection threshold adjusting device and a connection threshold adjusting method for adjusting a connection threshold of a terminal.

2. Description of the Related Art Conventionally, a parking lot system that manages entry and exit of vehicles in hourly parking lots is well known (see Patent Literature 1, etc.). The parking lot system of Patent Document 1 does not issue a parking ticket, but reads a card held by a user with a card reader at an entrance gate, takes in a user ID, and combines the user ID and the user's vehicle ID. By managing in association with each other, it is possible to distinguish the user leaving the parking lot, and to settle the usage fee of the parking lot.

Japanese Patent No. 6305103

By the way, for example, a technique for opening a gate bar for entry/exit by communicating a terminal such as a high-performance mobile phone possessed by a user with a wireless authentication device at a parking lot gate is being studied. However, terminals currently have different reception signal strengths of radio waves depending on the model, manufacturer, surrounding environment, and the like. Therefore, the communication area formed between the terminal and the wireless authentication device differs depending on the model and manufacturer of the terminal, or the parking lot.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a connection threshold adjusting device and a connection threshold adjusting method that enable switching of short-range wireless communication between a terminal and a wireless authentication device to communication connection as desired by the user.

A connection threshold adjustment device that solves the above-mentioned problem causes a user's terminal to communicate with a wireless authentication device provided in a facility or article shared by a plurality of people by short-range wireless communication, is operated, a determination unit that determines the reception state of radio waves of the short-range wireless communication, and the short-range wireless communication is connected even though the terminal is receiving radio waves from the wireless authentication device and an adjustment unit that adjusts a connection threshold of radio waves in the terminal when the determination unit determines that the terminal does not transition to the state.

A connection threshold adjustment method for solving the above problem is to communicate a user's terminal with a wireless authentication device provided in a facility or article shared by a plurality of people by short-range wireless communication. is operated, the determination unit determines the reception state of the radio wave of the near field communication, and despite the fact that the terminal receives the radio wave from the wireless authentication device, The adjustment unit adjusts a connection threshold of radio waves in the terminal when the determination unit determines that the short-range wireless communication does not transition to a connected state.

According to the present invention, short-range wireless communication between a terminal and a wireless authentication device can be switched to communication connection as desired by the user.

1 is a configuration diagram of a connection threshold adjustment device according to an embodiment; FIG. The schematic diagram which shows the outline of a parking lot gate. A sequence chart showing the procedure for entering a parking lot. Schematic diagram of user operation when changing the connection threshold. FIG. 5 is an explanatory diagram showing an example of adjustment of connection thresholds; A sequence chart showing the procedure for leaving the parking lot.

An embodiment of a connection threshold adjustment device and a connection threshold adjustment method will be described below with reference to FIGS. 1 to 6. FIG.
As shown in FIG. 1, a parking lot 3, which is an example of a facility 1 or an article 2 shared by a plurality of users, is provided with a management system 6 for managing the use of the parking lot 3. As shown in FIG. The management system 6 of this example is a parking lot system 7 that executes entry/exit of a vehicle 4 (see FIG. 2 and the like) to/from the parking lot 3 through a terminal 5 of a user who gets into the vehicle 4 . The parking lot system 7 of this example opens and closes the parking lot gate 8 through short-range wireless communication between the terminal 5 of the user who gets into the vehicle 4 and the parking lot gate 8 installed in the parking lot 3 . to control. The terminal 5 is preferably, for example, a terminal having a telephone function, a so-called high-performance mobile phone.

The terminal 5 includes a terminal control unit 10 that controls the operation of the terminal 5, an input unit 11 that is used when performing an input operation on the terminal 5, a display unit 12 that includes a display or the like, a memory 13 that can store data, It includes a network communication unit 14 that communicates with the outside through network communication, and a short-range wireless module 15 that performs short-range wireless communication. The terminal 5 performs network communication with the network communication section 17 of the server 16 via the network communication section 14 . The network communication is preferably Internet communication, for example.

The short-range wireless communication is preferably short-range wireless communication or personal area network communication. The short-range wireless communication in this example uses Bluetooth (registered trademark) communication as personal area network communication. Bluetooth communication is preferably BLE (Bluetooth Low Energy). Terminal 5 performs network communication with server 16 via network communication unit 14 . Terminal 5 performs short-range wireless communication with parking lot gate 8 via short-range wireless module 15 .

An application 18 necessary for operating the management system 6 (parking system 7) with the terminal 5 is registered in the memory 13 of the terminal 5. FIG. The application 18 is acquired from the server 16 through network communication, for example, and written and stored in the memory 13 .

The management system 6 includes a usage management unit 20 that manages usage of the parking lot 3 by users through network communication with the terminals 5 . The usage manager 20 is provided in the server 16 . The usage management unit 20 performs user registration, which imposes registration work on the first user who uses the management system 6, and management of entering/leaving of the vehicle 4 to/from the parking lot 3, and the like. In the user registration, for example, in addition to personal information such as the user's name and address, the settlement method of the usage fee (credit card, electronic money payment, etc.) is also registered. In the management of entering and exiting the vehicle 4 with respect to the parking lot 3, for example, monitoring of which user entered the vehicle 4 in which parking lot 3 and when, and receiving a request from the user to leave the parked vehicle 4 are executed. be.

The parking lot gate 8 includes an entrance gate 23 through which the vehicle enters the parking lot 3 and an exit gate 24 through which the vehicle leaves the parking lot 3.例文帳に追加The entrance gate 23 includes a gate control unit 25 as a system control unit 32 that controls gate operation, and a wireless authentication device 27 that performs authentication through short-range wireless communication with the terminal 5 (the entrance gate 23 side is referred to as a "first wireless and a gate bar 28 provided at the entrance of the parking lot 3 . The first wireless authentication device 27a includes an authentication unit 29 that performs authentication through short-range wireless communication with the terminal 5 when entering the warehouse, and a short-range wireless antenna that transmits and receives radio waves conforming to short-range wireless communication from the terminal 5 near the entrance. (hereinafter referred to as antenna 30). The gate control unit 25 and the authentication unit 29 may be connected by wire or wirelessly.

When the vehicle 4 is parked, the authentication unit 29 authenticates the terminal 5 via the antenna 30 with the terminal 5 of the user who gets into the vehicle 4 . Authentication performed at the time of entering the warehouse includes authentication of the key information Dk (first key information Dk1 for entering the warehouse) given from the server 16 to the terminal 5 through network communication, short-range wireless (Bluetooth communication) pairing, and first key information. It is preferable that the authentication includes at least one of confirmation of correctness of encrypted communication using another predetermined encryption key associated with Dk1. The first key information Dk1 is preferably a one-time key that is permitted to be used only once or for a certain period of time, and is delivered to the terminal 5 through a predetermined procedure before warehousing. The authentication unit 29 permits or executes the gate opening operation of the entrance gate 23 when authentication with the terminal 5 is established through short-range wireless communication.

As with the entrance gate 23 , the exit gate 24 includes a gate control unit 33 as a system control unit 32 , a wireless authentication device 27 (the exit gate 24 side is referred to as a “second wireless authentication device 27 b ”), and a gate bar 36 . Prepare. The second wireless authentication device 27b includes an authentication unit 37 and a short-range wireless antenna (hereinafter referred to as an antenna 38), like the first wireless authentication device 27a on the entrance gate 23 side. The antenna 38 transmits and receives radio waves conforming to short-range wireless communication from the terminal 5 near the exit. The gate control unit 33 and the authentication unit 37 may be connected by wire or wirelessly.

When the vehicle 4 leaves the garage, the authentication unit 37 authenticates the terminal 5 via the antenna 38 with the terminal 5 of the user who gets into the vehicle 4 . The authentication executed when leaving the garage includes authentication of key information Dk (second key information Dk2 for leaving the garage) given from the server 16 to the terminal 5 through network communication, short-range wireless (Bluetooth communication) pairing, and second key information. It is preferable that the authentication includes at least one of correctness confirmation of encrypted communication using another predetermined encryption key associated with Dk2. The second key information Dk2 is preferably a one-time key that is permitted to be used only once or for a certain period of time, and is delivered to the terminal 5 through a predetermined procedure when leaving the garage. The second key information Dk2 for leaving the warehouse is preferably a key different from that for entering. The authentication unit 37 permits or executes the gate opening operation of the exit gate 24 when authentication with the terminal 5 is established through short-range wireless communication.

The management system 6 includes a settlement unit 42 that calculates and settles the usage fee of the parking lot 3 when leaving the parking lot. The settlement section 42 is provided in the server 16 . The terminal 5 opens and closes the gate bar 28 of the entrance gate 23 at the time of warehousing, and then transmits warehousing information Sa for notifying the warehousing to the parking lot 3 to the server 16 through network communication. Based on the warehousing information Sa received from the terminal 5 , the settlement unit 42 registers the use start time of the user who uses the parking lot 3 .

Further, when the settlement unit 42 receives a settlement request Sb from the terminal 5 through network communication to the effect that the user desires settlement (departure from the garage), the settlement unit 42 executes charge settlement processing. Note that the payment request Sb may be any information as long as it is information that can determine the intention of the user to leave the garage. When the settlement request Sb is received from the terminal 5, the settlement unit 42 confirms the time when the user of the terminal 5 who transmitted the settlement request Sb started using the parking lot 3 from the parking information Sa of the same user, and starts using the parking lot 3. The usage fee of the parking lot 3 is calculated from the elapsed time from the time to the usage end time. The settlement unit 42 displays the usage fee on the display unit 12 of the terminal 5, and makes the user settle the usage fee. It should be noted that the usage fee may be settled with either a credit card or electronic money.

As shown in FIG. 2, the entrance gate 23 and the exit gate 24 are arranged near each other when the entrance and exit of the parking lot 3 are arranged side by side. In this case, the gate control section 25 of the entrance gate 23 and the gate control section 33 of the exit gate 24 may be directly connected by a cable or the like. Further, a structure may be adopted in which one pair of the gate control section 25 (33) and the wireless authentication device 27 are shared by both the entrance gate 23 and the exit gate 24 .

In this example, the exit gate 24 is provided with a settlement machine 43 so that the usage fee can be settled in cash. As described above, when the balance of the credit card, prepaid card, or the like is insufficient when paying the usage fee at the terminal 5 , the usage fee is settled by inserting cash into the settlement machine 43 . The antenna 38 of the second wireless authentication device 27 b of the exit gate 24 is arranged on the upper surface of the fare adjustment machine 43 of the exit gate 24 .

The antennas 30 and 38 of the wireless authentication device 27 (first wireless authentication device 27a, second wireless authentication device 27b) transmit radio waves (radio waves for short-range wireless communication) having specified directivity. Moreover, having a specified directivity includes that the half-value angle α of the radio wave is within a specified range. In this way, the antennas 30 and 38 generate a communication area E of radio waves for short-range wireless communication by pencil beams focused in a specific direction.

As shown in FIG. 1, when the user uses the parking lot 3, the management system 6 adjusts the connection threshold value Rk of the terminal 5 when short-range wireless communication between the terminal 5 and the wireless authentication device 27 does not transition to communication connection. It has a function (connection threshold adjuster 46). Here, when executing short-range wireless communication, the terminal 5 and the wireless authentication device 27 enter a connected state when the received signal strength indicator (RSSI) of the radio wave received by the terminal 5 is greater than or equal to the connection threshold value Rk. Transition. Therefore, when it is confirmed that the short-range wireless communication between the terminal 5 and the wireless authentication device 27 cannot shift to the connected state, the connection threshold adjustment function of this example temporarily lowers the connection threshold Rk of the terminal 5, It allows wireless communication to transition to a communication connection.

The connection threshold adjustment device 46 includes a determination unit 47 that determines the reception state of radio waves when the terminal 5 and the wireless authentication device 27 perform short-range wireless communication. The determination unit 47 is provided in the terminal 5 (terminal control unit 10). The determination unit 47 determines the reception state of radio waves for short-range wireless communication when operating the parking lot 3 (parking gate 8) by allowing the user's terminal 5 to communicate with the wireless authentication device 27 by short-range wireless communication. If the received signal strength when receiving advertisements repeatedly transmitted from the wireless authentication device 27 continues to be lower than the reference connection threshold Rk0 that is normally used, the determination unit 47 determines that the connection threshold Rk should be changed. judge. The reference connection threshold Rk0 is preferably, for example, an initial value.

The connection threshold adjustment device 46 includes an adjustment unit 48 that adjusts the connection threshold Rk of radio waves of the terminal 5 based on the determination result of the determination unit 47 . If the determination unit 47 determines that the short-range wireless communication does not transition to the connected state even though the terminal 5 receives the radio wave from the wireless authentication device 27, the adjustment unit 48 adjusts the radio wave in the terminal 5. to adjust the connection threshold Rk of . The adjustment unit 48 in this example switches the connection threshold Rk to "Rk1", which is a fixed value lower than the original initial "Rk0", as adjustment of the connection threshold Rk. When the short-range wireless communication that has changed to the connected state after changing the connection threshold Rk is disconnected, the adjusting unit 48 restores the connection threshold Rk to the original reference state (initial value “Rk0”).

Next, the action of the connection threshold adjustment device 46 of this embodiment will be described with reference to FIGS. 3 to 6. FIG.
[Entering parking lot 3]
FIG. 3 shows a procedure for entering the vehicle 4 into the parking lot 3. As shown in FIG. As shown in the figure, at step 101, the first wireless authentication device 27a of the entrance gate 23 periodically and repeatedly transmits Advertise, which notifies information related to the communication of the device itself, when the parking lot 3 is open. Advertise is a type of radio wave for the first wireless authentication device 27a to notify the surroundings of its existence.

In step 102, when the user who wants to use the parking lot 3 executes the activation operation of the application 18 of the parking system 7 on his terminal 5, this terminal 5 launches the application 18 registered in its own memory 13. to start.

In step 103, when the terminal 5 executes the reservation process for using the parking lot, the terminal 5 sends a key information request requesting delivery of the key information Dk (first key information Dk1 for parking) required for parking. Send to server 16 through network communication. In the reservation process, for example, the user inputs necessary items such as the parking lot 3 that the user wishes to use and the start time of using the parking lot 3 to the terminal 5 . When the reservation input is completed, the terminal 5 transmits to the server 16 via network communication various items input in this reservation operation, that is, a key information request including the reservation information. When the server 16 receives the key information request from the terminal 5, the server 16 confirms the reservation information included in the key information request and accepts the parking lot reservation from the user.

In step 104, upon receiving the key information request from the terminal 5, the usage management unit 20 of the server 16 generates key information Dk (first key information Dk1 for warehousing) based on this key information request, 1. The key information Dk1 is transmitted to the terminal 5 through network communication. The first key information Dk1 includes the period of use of the first key information Dk1 (allowable storage time), a unique terminal ID of the terminal 5, a predetermined session key used for short-range wireless communication, and the like. is preferred.

In step 105 , when the terminal 5 receives the key information Dk (first key information Dk1 ) from the server 16 , it stores this first key information Dk1 in the memory 13 . As a result, it is possible to transition to establishment of authentication through short-range wireless communication between the terminal 5 in which the first key information Dk1 is registered and the authentication unit 29 of the entrance gate 23, and the entrance gate 23 is opened to enter the venue. can enter.

Here, since the first wireless authentication device 27a continues to transmit advertisements intermittently, the terminal 5 measures the received signal strength each time it receives these advertisements. Then, the terminal 5 obtains a moving average of these received signal strengths, and compares this moving average value with the connection threshold value Rk. In the case of this example, the terminal 5 compares the moving average value of the received signal strength with "Rk0", which is the initial value of the connection threshold Rk. When the moving average value of the received signal strength is equal to or greater than the connection threshold value Rk0, the terminal 5 executes the next status (scan processing in this example) in short-range wireless communication. On the other hand, when the moving average value of the received signal strength is less than the connection threshold Rk0, the terminal 5 waits as it is.

By the way, the determination unit 47 of this example monitors whether or not a state in which the moving average value of the received signal strength at the time of advertisement reception does not exceed the connection threshold value Rk0 continues for a certain period of time. If the moving average value of the received signal strength does not exceed the connection threshold value Rk0 for a certain period of time, the determination unit 47 determines that the connection threshold value Rk should be switched from the initial value "Rk0" to a lower value. In this manner, the determination unit 47 determines that the connection threshold Rk should be changed when the received signal strength when the advertisement is received continues to be lower than the reference connection threshold Rk0 that is normally used.

As shown in FIG. 4 , when determining that the connection threshold value Rk should be changed, the determination unit 47 displays a connection threshold value adjustment screen 50 on the display unit 12 of the terminal 5 . The connection threshold adjustment screen 50 displays operation buttons 51 that are operated when changing the connection threshold Rk. The operation button 51 is a connection threshold change button. When the user wants to change the connection threshold value Rk, the user taps (touches) the operation button 51 displayed on the display unit 12 of the terminal 5 . When detecting that the operation button 51 has been operated on the screen of the terminal 5 , the determination unit 47 outputs a threshold change request to the adjustment unit 48 to temporarily lower the connection threshold Rk. When the threshold change request is input from the determination unit 47, the adjustment unit 48 uses this as a trigger to temporarily lower the connection threshold Rk to "Rk1", which is lower than the initial value.

FIG. 5 illustrates an example of adjusting the connection threshold Rk. As shown in the figure, when the connection threshold Rk is the normal "Rk0", the moving average value of the received signal strength does not exceed the connection threshold Rk0. , the moving average value of the received signal strength exceeds the connection threshold value Rk1. As a result, the terminal 5 determines that it has approached the first wireless authentication device 27a, and can perform short-range wireless communication with the first wireless authentication device 27a after Advertise is received.

As shown in FIG. 3, in step 106, the terminal 5 performs scanning processing with the first wireless authentication device 27a when the received signal strength is equal to or greater than the connection threshold value Rk. The scanning process is a process in which the terminal 5 requests the first wireless authentication device 27a to provide and acquires further various types of information related to short-range wireless communication. Then, when the scanning process is completed, the terminal 5 transmits a connection request requesting transition to the connection state of short-range wireless communication to the first wireless authentication device 27a by short-range wireless communication.

In step 107, when the first wireless authentication device 27a receives the connection request transmitted from the terminal 5, it transmits the response to the terminal 5 by short-range wireless communication.
In step 108, when the terminal 5 and the first wireless authentication device 27a can confirm the pairing through the exchange of the connection request and the response notification, the terminal 5 and the first wireless authentication device 27a shift to a communication connection state, that is, a state in which Bluetooth communication (BLE communication) is connected. .

In step 109, the terminal 5 and the authentication unit 29 perform authentication of the key information Dk (first key information Dk1 for warehousing) registered in the memory 13 of the terminal 5 after the communication connection is established. If it can be decoded correctly, the authentication is established. When the first key information Dk1 is correctly decrypted, various information (a command permitting entry, a terminal ID, a predetermined session key, etc.) included in the first key information Dk1 can be acquired.

In step 110, when the terminal 5 and the first radio authentication device 27a are authenticated by the first key information Dk1, both the terminal 5 and the first radio authentication device 27a recognize that the authentication is successful, and enter an authentication completion state. The authentication completed state means a state in which both the terminal 5 and the first wireless authentication device 27a know the common session key and terminal ID.

In step 111, the entrance gate 23 opens the gate bar 28 of the entrance gate 23 when the terminal 5 and the first wireless authentication device 27a shift to the authentication completion state. Thereby, the vehicle 4 can enter the parking lot 3 .

In step 112 , after recognizing the completion of warehousing, the terminal 5 transmits the warehousing information Sa related to the user who has entered the vehicle to the server 16 through the network. The warehousing information Sa is preferably information that can specify, for example, which user entered which parking lot at what time.

[Departure from parking lot 3]
FIG. 6 shows a procedure for leaving the vehicle 4 from the parking lot 3. As shown in FIG. Note that steps 201 and 202 in the figure are the same as steps 101 and 102, so steps 203 and onward will be described.

In step 203 , when the user performs an adjustment operation for the usage fee of the parking lot 3 at the terminal 5 , the terminal 5 accepts this adjustment operation. The settlement operation is preferably, for example, an operation of displaying a settlement screen on the display unit 12 of the terminal 5 and selecting a settlement execution button or the like on the settlement screen.

In step 204 , when the settlement execution button is operated on the settlement screen of the terminal 5 , the terminal 5 transmits the settlement request Sb to the server 16 over the network. The settlement request Sb preferably includes various information such as a command requesting the start of settlement, a user ID, and a password.

In step 205 , when the settlement request Sb is received from the terminal 5 , the settlement section 42 executes settlement processing for obtaining the charge required for using the parking lot 3 . In the case of this example, the settlement unit 42 first confirms the warehousing history of the user identified from the settlement request Sb, and grasps the utilization start time (warehouse entry time) of the user who wishes to leave the warehouse. Then, the settlement unit 42 calculates the usage time of the parking lot 3 from the usage start time (parking time), and calculates the usage fee from the usage time.

In step 206, the settlement unit 42 notifies the terminal 5 of the usage fee calculated by the settlement process through network communication. As a result, the usage fee for the parking lot 3 is displayed on the display unit 12 of the terminal 5, and the user can confirm the amount of money required for using the parking lot 3.

In step 207 , the settlement unit 42 executes settlement of the usage fee when the payment operation is executed on the terminal 5 . In the case of this example, when the settlement unit 42 detects that a payment operation has been performed on the terminal 5, the charge is settled from the user's credit card, electronic money, or the like. After confirming that the payment of the usage fee has been completed, the settlement unit 42 preferably displays the completion of payment on the display unit 12 of the terminal 5 .

Steps 208 to 210 differ from Steps 103 to 105 in that the server 16 generates the second key information Dk2 for delivery as the key information Dk and registers it in the terminal 5. . Steps 211 to 215 are different from steps 106 to 111 in that the communication partner of the terminal 5 is the second wireless authentication device 27b at the exit gate 24 . Therefore, description of these will be omitted.

In step 216, the exit gate 24 opens the gate bar 36 of the exit gate 24 when the terminal 5 and the second wireless authentication device 27b shift to the authentication completion state. Thereby, the vehicle 4 can leave the parking lot 3 .

In step 217 , after recognizing the completion of delivery, the terminal 5 transmits the delivery information Sc to the server 16 over the network. The exit information Sc preferably includes information that can identify the user who exited from the parking lot 3 .

According to the connection threshold adjustment device 46 of the above embodiment, the following effects can be obtained.
(1) The connection threshold adjustment device 46 includes a determination section 47 and an adjustment section 48 . When the user's terminal 5 is caused to communicate with the wireless authentication device 27 provided in the parking lot 3 shared by a plurality of people by short-range wireless communication to operate the parking lot 3, the determination unit 47 determines whether the short-range Determines the reception state of radio waves for wireless communication. When the determining unit 47 determines that the short-range wireless communication does not transition to the connected state even though the terminal 5 is receiving the radio wave from the wireless authentication device 27, the adjustment unit 48 to adjust the connection threshold Rk of .

According to the configuration of this example, when the terminal 5 performs short-range wireless communication with the wireless authentication device 27, if the short-range wireless communication cannot transition to a communication connection state, the radio wave connection threshold Rk in the terminal 5 is adjusted. be. Therefore, when the terminal 5 approaches the wireless authentication device 27 and enters the communication area E of the wireless authentication device 27, it is possible to take a state in which the radio wave at the time of reception is equal to or higher than the connection threshold value Rk. Communication is transitioned to a state of communication connection. Therefore, short-range wireless communication between the terminal 5 and the wireless authentication device 27 can be shifted to communication connection as the user intends.

(2) Since it is possible to adjust the environment so that short-range wireless communication (BLE communication) can be easily connected temporarily, it contributes to ensuring convenience.
(3) The determining unit 47 changes the connection threshold Rk0 if the received signal strength when receiving the advertisement repeatedly transmitted from the wireless authentication device 27 continues to be lower than the reference connection threshold Rk0 that is normally used. Judge that it should. In this case, the advertisement repeatedly transmitted from the wireless authentication device 27 can be used to easily determine the reception state of radio waves.

(4) When the determination unit 47 determines that the connection threshold value Rk should be changed, the adjustment unit 48 displays the operation button 51 to be operated when changing the connection threshold value Rk on the display unit 12 of the terminal 5. Then, when the operation button 51 is operated, the connection threshold value Rk is changed. In this case, since the user's operation is imposed to change the connection threshold value Rk of the terminal 5, the connection threshold value Rk of the terminal 5 is not changed to another value without the user's intention.

(5) The adjustment unit 48 sets the connection threshold Rk1 to the original standard state (connection threshold Rk0). Therefore, when the connection threshold Rk is changed, the connection threshold Rk can be automatically restored at the timing when the short-range wireless communication is disconnected.

(6) The wireless authentication device 27 is installed in the parking lot 3 as the facility 1 . A system control unit 32 that controls the operation of the parking lot 3 operates a gate (parking lot gate 8 ) provided in the parking lot 3 through short-range wireless communication between the terminal 5 and the wireless authentication device 27 . In this case, when the terminal 5 operates the gate of the parking lot 3 (parking lot gate 8), the wireless authentication device 27 provided in the parking lot 3 and the terminal 5 should be communicated in a stable prescribed communication area E. becomes possible. Therefore, it is advantageous to realize the gate operation according to the user's intention.

(7) The gate (parking lot gate 8) is the entrance gate 23 of the parking lot 3; The system control unit 32 operates the entrance gate 23 through short-range wireless communication between the terminal 5 and the first wireless authentication device 27a. In this case, when entering the parking lot 3, the terminal 5 can establish a stable communication area E for radio waves from the first wireless authentication device 27a. Therefore, it is possible to enter the parking lot 3 smoothly.

(8) The gate (parking lot gate 8) is the exit gate 24 of the parking lot 3; The system control unit 32 operates the exit gate 24 through short-range wireless communication between the terminal 5 and the second wireless authentication device 27b when the payment of the usage fee for the parking lot 3 is completed at the terminal 5. In this case, when leaving the parking lot 3, the terminal 5 can establish a stable communication area E for radio waves from the second wireless authentication device 27b. Therefore, it is possible to leave the parking lot 3 smoothly.

In addition, this embodiment can be changed and implemented as follows. This embodiment and the following modified examples can be implemented in combination with each other within a technically consistent range.
[Regarding the wireless authentication device 27 provided in the facility 1 or the article 2]
・The antenna 30 of the first radio authentication device 27a and the antenna 38 of the second radio authentication device 27b are not limited to antennas having directivity (pencil beam) in a specific direction, and may be antennas having no directivity in a specific direction. good.

- The size of the communication area E, the direction of radio wave directivity, and the like may differ between the first wireless authentication device 27a and the second wireless authentication device 27b.
The short-range wireless communication performed by the wireless authentication device 27 is not limited to Bluetooth communication, and may be wireless LAN, Wi-Fi (registered trademark), or the like.

- Short-range wireless communication is not limited to personal area network communication such as Bluetooth communication, and may be short-range wireless communication. Short-range wireless communication includes, for example, NFC (Near Field Communication) and RF-ID (Radio Frequency IDentification).

[Regarding key information Dk]
- The key information Dk is not limited to a one-time key (one-time password), and various keys can be applied.

- The key information Dk may be a key of a different encryption type for entering and leaving.
- The key information Dk is not limited to being delivered from the server 16 to the terminal 5, and may be delivered to the terminal 5 from a location other than the server 16, such as being given from another terminal 5, for example.

[Determination of received signal strength and connection threshold Rk]
- A determination method may be used in which the number of advertisements received by the terminal 5 is counted, and when the number reaches a specified value, a moving average value is calculated and compared with the connection threshold value Rk.

- Only one advertisement may be used for the radio wave for which the received signal strength is measured.
- The radio wave whose received signal strength is measured is not limited to advertisement, and may be a scan response transmitted from the wireless authentication device 27 .

Collecting a plurality of received signal strengths, and when the number of received signal strengths equal to or greater than the initial connection threshold value Rk0 used as a reference but less than the connection threshold value Rk0 is equal to or greater than a specified number, the connection threshold value Rk0 is set. It may be determined that adjustment should be made.

[Determination Unit 47 and Determination of Radio Wave Reception State]
The process of comparing the received signal strength and the connection threshold Rk may be repeated, and if the number of times the received signal strength falls below the connection threshold Rk exceeds a certain number of times, it may be determined that the connection threshold Rk should be adjusted. .

The radio wave used for determining the radio wave reception state is not limited to the advertisement transmitted from the wireless authentication device 27, and any radio wave transmitted from the wireless authentication device 27 may be used.

- The determination of the radio wave reception state is not limited to the method of obtaining the moving average value of the received signal strength, and may be changed to another method such as determination using a weighted average value, for example.
- The determination unit 47 is not limited to being provided in the terminal 5, and may be provided in another location.

[Adjustment Unit 48 and Adjustment of Connection Threshold Rk]
- The adjustment of the connection threshold Rk is not limited to lowering the reference value (connection threshold Rk0) by a constant value every time, but the value to be lowered may be appropriately changed according to the radio wave reception state. Thus, the adjustment value (lowering value) of the connection threshold value Rk is not limited to a constant value, and may be a variable value.

- The adjustment of the connection threshold value Rk is not limited to one-step adjustment. For example, if the communication cannot shift to the connected state even by lowering the level by one level, the process may be reduced by another level and the series of processes may be repeated until the communication shifts to the connected state.

- When imposing a user operation to perform adjustment of the connection threshold value Rk, this operation is not limited to the operation using the terminal 5 . For example, it may be changed to another method such as recognizing a user's adjustment execution instruction by voice recognition.

- When the connection threshold value Rk is adjusted, the adjusted threshold value may be stored, and the threshold value may be automatically changed to the stored threshold value the next time short-range wireless communication is performed.
- The adjustment unit 48 is not limited to being provided in the terminal 5, and may be provided in other locations.

[Regarding the operation button 51]
The operation button 51 is not limited to the screen touch operation type, and a button displayed on the screen may be selected and specified using the operation unit of the terminal 5 .

- The operation button 51 may automatically disappear from the screen after a certain period of time has elapsed.
[others]
- Determination of the reception state and adjustment of the connection threshold value Rk are not limited to being performed at both entrances and exits, but may be performed at only one of the entrances and exits.

- If the parameters to be used when exiting the parking lot are also included at the time of reservation, payment may be made before the gate. Alternatively, the toll may be automatically withdrawn when passing through the gate.
・Payment is not limited to pre-payment, but may be payment before the gate, or payment after communication has started.

- The terminal 5 may communicate with the server 16 via the parking lot gate 8 instead of directly communicating with the server 16 if, for example, the parking lot gate 8 is provided with a network communication unit.
- The operation target of the terminal 5 is not limited to the parking lot gate 8, and may be any device or device that can be operated using the terminal 5 as a key.

The system control unit 32 is not limited to the gate control unit 33, and may be, for example, the gate control unit 25 as long as it controls the operation of the management system 6.
- The connection threshold adjustment device 46 is not limited to being provided in the terminal 5, and may be provided in other locations.

- The vehicle is not limited to the vehicle 4, and may be a mobile body on which the user rides, such as a two-wheeled vehicle.
- The facilities 1 and the goods 2 are not limited to the parking lot 3, and may be changed to other common goods or services.

- The management system 6 is not limited to the parking lot system 7, and may be any system whose operation is controlled by the terminal 5.

DESCRIPTION OF SYMBOLS 1... Facility, 2... Goods, 3... Parking lot, 4... Vehicle, 5... Terminal, 8... Gate (parking lot gate), 12... Display part, 23... Entrance gate, 24... Exit gate, 27... Wireless authentication device , 27a... first wireless authentication device, 27b... second wireless authentication device, 32... system control unit, 47... determination unit, 48... adjustment unit, 51... operation button, Rk... connection threshold.

Claims (8)

When a user's terminal is made to communicate with a wireless authentication device provided in a facility or article shared by multiple people by short-range wireless communication to operate the facility or the article, the short-range wireless communication a determination unit that determines the reception state of radio waves;
If the determining unit determines that the short-range wireless communication does not transition to a connected state even though the terminal is receiving radio waves from the wireless authentication device, a radio wave connection threshold in the terminal is set. A connection threshold adjuster comprising an adjuster for adjusting. The determination unit determines that the connection threshold should be changed if the received signal strength when receiving the advertisement repeatedly transmitted from the wireless authentication device continues to be lower than the connection threshold that is a reference that is normally used. 2. The connection threshold adjuster of claim 1 for determining. When the determination unit determines that the connection threshold should be changed, the adjustment unit displays, on the display unit of the terminal, an operation button to be operated when changing the connection threshold, and the operation button is displayed on the display unit of the terminal. 3. The connection threshold adjustment device according to claim 1, wherein the connection threshold is changed when is operated. 4. The adjustment unit restores the connection threshold to the original reference state when the short-range wireless communication that has transitioned to a connected state after changing the connection threshold is disconnected. 10. The connection threshold adjustment device according to claim 1. The wireless authentication device is provided in a parking lot as the facility,
5. Any one of claims 1 to 4, wherein the system control unit for controlling operation of the parking lot operates a gate provided in the parking lot through short-range wireless communication between the terminal and the wireless authentication device. 1. A connection threshold adjustment device according to claim 1. The gate is an entrance gate of the parking lot,
6. The connection threshold adjustment device according to claim 5, wherein said system control unit operates said entrance gate through short-range wireless communication between said terminal and said wireless authentication device. The gate is an exit gate of the parking lot,
7. The system control unit activates the exit gate through short-range wireless communication between the terminal and the wireless authentication device when payment of the parking lot usage fee is completed at the terminal. 10. The connection threshold adjustment device according to claim 1. When a user's terminal is made to communicate with a wireless authentication device provided in a facility or article shared by multiple people by short-range wireless communication to operate the facility or the article, the short-range wireless communication Determining the reception state of radio waves by a determination unit;
If the determining unit determines that the short-range wireless communication does not transition to a connected state even though the terminal is receiving radio waves from the wireless authentication device, a radio wave connection threshold in the terminal is set. performing the adjusting by an adjuster.