JP2018061157A - Mobile collation system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile collation system which allows for detection of a normal mobile accurately in a wide range while reducing dark current.SOLUTION: Upon receiving a response radio wave replied from a normal mobile 3 by receiving a polling radio wave from other vehicle 2B, an own vehicle 2A changes the transmission period of the polling radio wave from a long transmission period f1 to a short transmission period f0, and transmits the polling radio wave with that short transmission period f0. The own vehicle 2A monitors whether or not a user possessing the normal mobile 3, registered in the own vehicle 2A, has entered a communication area by the polling radio wave from the own vehicle 2A. When entrance of the user into the communication area is detected, the own vehicle 2A actuates a welcome light function.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a portable device verification system that can detect a regular portable device registered in its own device.

  In Patent Document 1, a polling radio wave is transmitted from a vehicle to form a communication area around the vehicle, and when a user who has a regular portable device enters the communication area, the regular portable device returns a response radio wave, There is disclosed a welcome light function for turning on a vehicle light load when the vehicle receives the response radio wave and is a regular portable device registered in the own vehicle.

JP 2016-17367 A (paragraph [0035])

  In order to fully detect the approach of the user and to activate the welcome light function until the user reaches the vehicle, the polling radio wave transmission period is shortened or the polling radio wave transmission output is increased. However, the dark current of the vehicle increases.

  Also, if the polling radio wave transmission cycle is lengthened or the polling radio wave transmission output is reduced to reduce the dark current, the welcome light function will be activated when the user reaches the vehicle, and the convenience will be reduced. Will end up.

  The present invention has been made paying attention to such problems, and an object of the present invention is to provide a portable device verification system capable of detecting a regular portable device accurately and over a wide range while reducing dark current. There is to do.

  A portable device verification system that solves the above-mentioned problems is a portable device verification system that can detect a regular portable device registered in its own device, and that polling radio waves are transmitted from each of a plurality of devices at a first transmission cycle or a first transmission output. The legitimate mobile devices that are transmitted and registered in each device receive polling radio waves from any device and send back response radio waves, and each device responds from the legitimate mobile devices registered in its own device. The main point is that the polling radio wave is transmitted with a second transmission period shorter than the first transmission period or a second transmission output larger than the first transmission output.

  According to this configuration, each device transmits a polling radio wave with a long first transmission period or a small first transmission output until it receives a response radio wave from a regular portable device registered in its own device. The dark current per device can be reduced as compared with a configuration in which polling radio waves are continuously transmitted with a short second transmission cycle or a large second transmission output.

  In addition, when each device receives a response radio wave from a legitimate portable device registered in its own device, it transmits a polling radio wave with a short second transmission cycle or a large second transmission output. It is possible to detect regular mobile devices with high accuracy.

  Furthermore, on the premise that the response radio wave has a longer communication distance than the polling radio wave, the authorized mobile device that is outside the communication area due to the polling radio wave from its own device and within the communication area due to the polling radio wave from the other device is quickly Can be detected.

Therefore, it is possible to detect a regular portable device accurately and over a wide range while reducing the dark current.
About the said portable device collation system, when each device receives a response radio wave from a device other than a regular portable device registered in its own device, the device transmits a polling radio wave by the first transmission cycle or the first transmission output. It may be continued.

  According to this configuration, each device continues to transmit a polling radio wave with a long first transmission period or a small first transmission output unless a response radio wave is received from a regular portable device registered in the device itself. Therefore, dark current can be reduced in the entire system.

  With respect to the portable device verification system, each device receives a polling radio wave transmitted in the second transmission cycle or the second transmission output, and receives a response radio wave returned from a regular portable device registered in its own device. As a result, a welcome function that welcomes a user who possesses the regular portable device may be activated.

According to this configuration, since the welcome function is activated for a user who has entered the communication area by polling radio waves from the own device, security can be ensured.
About the said portable machine collation system, the said regular portable machine is good also as returning the said response electric wave only once per reception of the said polling electric wave.

According to this configuration, the response radio wave is prevented from being returned more than necessary upon receiving the polling radio wave, so that the current consumption of the authorized portable device can be reduced.
For the portable device verification system, the plurality of devices transmit a polling radio wave unique to each device, and the regular portable device receives a polling radio wave from any device and returns a response radio wave. When a polling radio wave is received from another device, the polling radio wave is received from the device other than the device that sent the previous polling radio wave. It is good also as replying.

  According to this configuration, when a user stays near a specific device, it is avoided that a response radio wave is returned every time a polling radio wave is received from the same device. Can be reduced.

  According to the present invention, it is possible to detect a regular portable device accurately and over a wide range while reducing dark current.

The conceptual diagram which shows the welcome light function by a portable device collation system. The conceptual diagram which shows the time when a user approaches from a distance. The conceptual diagram which shows the time when a user approaches the own vehicle periphery.

Hereinafter, an embodiment of a portable device verification system will be described.
As shown in FIG. 1, the portable device verification system 1 is a vehicle key that transmits a polling radio wave from a vehicle 2, which is an example of a device, forms a communication area around the vehicle 2, and enters the communication area. This is a system that can detect a regular portable device 3 registered in the vehicle 2 and eventually a user who has the regular portable device 3. As a polling radio wave from the vehicle 2, for example, an LF (low frequency) band radio wave is used.

  The vehicle 2 has a welcome light function for turning on a vehicle light load when detecting that a user who has a regular portable device 3 registered in the own vehicle has entered a communication area by polling radio waves from the own vehicle. When the user enters the communication area, the regular portable device 3 returns a response radio wave, and when the vehicle 2 receives the response radio wave and is the regular portable device 3 registered in the own vehicle, the welcome is received. The light function is activated. As a response radio wave from the regular portable device 3, for example, a radio wave in the UHF (ultrahigh frequency) band is used.

  Assuming that the welcome light function needs to be sufficiently activated before the user reaches the vehicle 2, the polling radio wave transmission period is selected and the welcome light function operation range is taken into consideration while considering the user's walking speed. Is set. By starting the welcome light function before the user enters the welcome light function operating range, the welcome light function is fully activated when the user actually enters the welcome light function operating range. The situation will be obtained.

  When the polling radio wave is transmitted from the vehicle 2 at the transmission cycle f0, the illustrated welcome light function operating range is obtained. On the other hand, when the polling radio wave is transmitted with a transmission period shorter than the transmission period f0, a wider welcome light function operating range than the illustrated welcome light function operating range is obtained. Will increase. On the other hand, when the polling radio wave is transmitted with a transmission period longer than the transmission period f0, only the welcome light function operating range narrower than the illustrated welcome light function operating range is obtained, and when the user reaches the vehicle 2 Convenience decreases, for example, the welcome light function is activated.

  Therefore, the transmission cycle f0 can detect that the user who has the regular portable device 3 registered in the own vehicle has approached the own vehicle, and the welcome light function until the user reaches the own vehicle. Is a sufficiently operable cycle.

  However, if the polling radio wave is always transmitted at the transmission period f0, it is preferable when the user is near the own vehicle, but the dark current of the own vehicle increases more than necessary when the user is not near the own vehicle. In the example, the device was devised to eliminate it.

  As shown in FIG. 2, in addition to the host vehicle 2 </ b> A, polling radio waves are also transmitted from other vehicles 2 </ b> B to 2 </ b> D to form communication areas around the respective vehicles 2 </ b> A to 2 </ b> D. In a parking lot or the like, the other vehicles 2B to 2D are parked adjacent to the host vehicle 2A. Each of the vehicles 2A to 2D transmits a polling radio wave with a transmission cycle f1 that is sufficiently longer than the transmission cycle f0 to form a communication area around each vehicle.

  And the case where the user who has the regular portable machine 3 registered into the own vehicle 2A approaches toward the own vehicle 2A from the other vehicle 2D farthest from the own vehicle 2A is assumed. In this case, the polling radio wave from the other vehicle 2D is first received and a response radio wave is returned from the regular portable device 3, but the response radio wave from the regular portable device 3 does not reach the host vehicle 2A at this stage.

  As shown in FIG. 3, when the user approaches the own vehicle 2A and enters the communication area by the polling radio wave from the other vehicle 2B adjacent to the own vehicle 2A, the user receives the polling radio wave from the other vehicle 2B. A response radio wave is returned from the authorized portable device 3. When this response radio wave reaches the host vehicle 2A, the host vehicle 2A notices that the user who has the authorized portable device 3 registered in the host vehicle 2A is approaching the vicinity of the host vehicle 2A. . The reason for this is that the response radio wave of the UHF band radio wave has a longer communication distance than the polling radio wave of the LF band radio wave, so even if it is outside the communication area by the polling radio wave from the own vehicle 2A, the adjacent other vehicle 2B This is because if the regular portable device 3 is in the communication area by the polling radio wave from the vehicle, the response radio wave from the regular portable device 3 reaches the host vehicle 2A.

  When the own vehicle 2A receives the response radio wave from the regular portable device 3 registered in the own vehicle 2A, the own vehicle 2A changes the polling radio wave transmission cycle from the long transmission cycle f1 to the short transmission cycle f0, and the short transmission cycle f0. Send polling radio waves. In addition, when the user approaches the own vehicle 2A, the other vehicles 2B to 2D also receive the response radio wave from the regular portable device 3 registered in the own vehicle 2A. Since it is a radio wave from a device other than the portable device registered in the host vehicle (in this case, 2B to 2D), the polling radio wave is continuously transmitted with a long transmission cycle f1 ignoring.

  Whether or not the own vehicle 2A transmits a polling radio wave with a short transmission period f0 and a user who has the authorized portable device 3 registered in the own vehicle 2A enters the communication area by the polling radio wave from the own vehicle 2A. To monitor. When the host vehicle 2A detects that the user has entered the communication area, the host vehicle 2A activates the welcome light function. The long transmission cycle f1 corresponds to the first transmission cycle, and the short transmission cycle f0 corresponds to the second transmission cycle.

As described above, according to the present embodiment, the following operational effects can be achieved.
(1) Taking the own vehicle 2A among the vehicles 2 as an example, the own vehicle 2A is polling radio waves with a long transmission period f1 until it receives a response radio wave from the regular portable device 3 registered in the own vehicle 2A. Therefore, the dark current per vehicle can be reduced as compared with the configuration in which polling radio waves are continuously transmitted with a short transmission cycle f0.

  (2) Similarly, when the own vehicle 2A receives a response radio wave from the regular portable device 3 registered in the own vehicle 2A, the own vehicle 2A emits a polling radio wave with a short transmission period f0. Therefore, the regular portable device registered in the own vehicle 2A 3 can be detected with high accuracy.

  (3) On the premise that the response radio wave has a longer communication distance than the polling radio wave, the mobile phone is outside the communication area due to the polling radio wave from the own vehicle 2A and within the communication area due to the polling radio wave from the other vehicle 2B. The machine 3 can be detected quickly.

(4) According to the above (1) to (3), the regular portable device 3 can be accurately detected in a wide range while reducing the dark current.
(5) Since each vehicle 2 continues to emit polling radio waves with a long transmission cycle f1 unless it receives response radio waves from a regular portable device registered in its own vehicle, dark current can be reduced throughout the system.

(6) Since the welcome light function is activated for a user who has entered the communication area by polling radio waves from the own vehicle, security can be ensured.
In addition, the said embodiment can also be changed and actualized as follows.

  A configuration may be adopted in which the regular portable device 3 returns a response radio wave once per reception of a polling radio wave. According to this configuration, the response radio wave is prevented from being returned more than necessary upon receiving the polling radio wave, and thus the current consumption of the regular portable device 3 can be reduced. However, a configuration in which the regular portable device 3 continues to output response radio waves may be adopted so that the regular portable device 3 can be easily detected by the vehicle 2. Alternatively, the regular portable device 3 may employ a configuration in which the response radio wave is stopped by a predetermined number of times or a time limit.

  If each vehicle 2 adopts a configuration that transmits a polling radio wave unique to its own vehicle, the following can be realized. That is, when the regular portable device 3 receives a polling radio wave from any vehicle 2 after receiving a polling radio wave from any vehicle 2 and returns a response radio wave, the polling radio wave is the previous polling radio wave. On the condition that it is a polling radio wave from a vehicle 2 different from the vehicle 2 that has transmitted the radio wave, it receives the polling radio wave and returns a response radio wave. According to this configuration, when a user stays near a specific vehicle 2 (for example, another vehicle 2C), it is avoided that a response radio wave is returned every time a polling radio wave is received from the same vehicle. The current consumption of the regular portable device 3 can be reduced.

  In addition, if the number of times or time of continuous reception of polling radio waves from the same vehicle or the continuous reception time reaches a specified value, the response radio wave output is stopped and polling radio waves from another vehicle are received. In such a case, the response radio wave output may be restarted.

  The same format or communication method may be used for polling communication with a long transmission cycle f1 performed when the user is not nearby and polling communication with a short transmission cycle f0 performed when it is detected that the user is approaching. However, different formats or communication methods may be used.

  Instead of transmitting a polling radio wave with a long transmission cycle f1 (first transmission cycle), a polling radio wave is transmitted with a small transmission output (first transmission output) and a short transmission cycle f0 (second transmission cycle) Instead of transmitting the polling radio wave, a configuration may be adopted in which the polling radio wave is transmitted with a transmission output (second transmission output) larger than the first transmission output.

  -Assuming that security is ensured, welcome the vehicle 2A at the timing of receiving the response radio wave returned from the regular portable device 3 in response to the polling radio wave from the other vehicle 2B with the aid of FIG. A configuration for starting the operation of the light function may be adopted.

  The welcome function that welcomes a user who has a regular portable device 3 is not limited to the welcome light function. You may employ | adopt the structure which act | operates the welcome position adjustment function which aligns a seat, a mirror, or a handle | steering_wheel etc. in the adjustment position which the user preset, and greets a user. In this case, the welcome position adjusting function operating range is set by selecting the polling radio wave transmission period or transmission output.

  The device is not limited to the vehicle 2. You may apply this invention to the portable device collation system 1 which can detect the regular portable device 3 registered into the door etc. of the building. Suitable for situations where the entrance door of the other room is installed adjacent to the entrance door of the own room, such as an apartment or a condominium, etc. It is.

  DESCRIPTION OF SYMBOLS 1 ... Portable machine collation system, 2 ... Vehicle (equipment), 2A ... Own vehicle, 2B-2D ... Other vehicle, 3 ... Regular portable machine.

Claims (5)

In a portable device verification system that can detect a regular portable device registered in its own device,
A polling radio wave is transmitted from each of a plurality of devices at the first transmission cycle or the first transmission output, and a regular portable device registered in each device receives a polling radio wave from any device and returns a response radio wave. And
Each device receives a response radio wave from a legitimate portable device registered in its own device, and receives a second transmission cycle shorter than the first transmission cycle or a second transmission output larger than the first transmission output. A portable device verification system characterized by transmitting polling radio waves with the output of. The respective devices continue to transmit polling radio waves by the first transmission cycle or the first transmission output when receiving a response radio wave from a device other than a regular portable device registered in the own device. Mobile device verification system. Each device receives a polling radio wave transmitted in the second transmission cycle or the second transmission output and receives a response radio wave returned from a regular portable device registered in its own device. The portable device verification system according to claim 1 or 2, wherein a welcome function for welcoming a user who has a regular portable device is activated. The portable device verification system according to any one of claims 1 to 3, wherein the regular portable device returns the response radio wave only once per reception of the polling radio wave. The plurality of devices transmit a polling radio wave unique to each device,
After receiving the polling radio wave from any device and returning the response radio wave after receiving the polling radio wave from any device, the legitimate portable device transmits the previous polling radio wave. The portable device verification system according to any one of claims 1 to 4, which receives a polling radio wave and returns a response radio wave on condition that the polling radio wave is from a device different from the device.

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