JP2008065439A - Anti-theft device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an anti-theft device which can prevent malfunctions as much as possible. <P>SOLUTION: The anti-theft device has a doppler sensor part 11 which detects approach/separation of a person to/from a vehicle in a prescribed monitoring area around a vehicle, and a plurality of modes are shifted step by step as follows according to a change of a signal level based on the output of the doppler sensor section 11. In a normal operation, a normal monitoring mode is set for continuously detecting approach/separation of a person in the monitoring area around a vehicle by the doppler sensor part 11. When an abnormality occurs in a signal level in the monitoring mode, it is shifted to a security mode. When an abnormality occurs in the signal level in the alarm mode in a prescribed time, it is shifted to a warning mode, and a suspicious person is warned by sound and light, and when there is no abnormality in the signal level in the prescribed time, it is shifted to the normal monitoring mode. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an antitheft device for a vehicle.

  2. Description of the Related Art Conventionally, a vehicle antitheft device using a human body detection sensor (area sensor) that detects the presence or absence of a person in a predetermined area is known. In such an anti-theft device, a person approaching the vehicle by a human body detection sensor, a person entering the vehicle, etc. are monitored, and when the presence of a suspicious person is detected, an alarm sound is sounded, An alarm device that blinks the lamp, a notification device that notifies the vehicle owner by radio, and the like are activated to prevent the vehicle from being stolen.

  As the above-described human body detection sensor, for example, an infrared sensor, a microwave sensor, an ultrasonic sensor, or the like is used. According to such a human body detection sensor, not only a suspicious person but also a person who simply passes around the vehicle may be detected. And when a person other than a suspicious person is detected by the human body detection sensor, the alarm device may be erroneously activated.

  However, when a person other than a suspicious person is detected by the human body detection sensor, if the alarm device is activated and the alarm sound is sounded at a loud volume or the lamp flashes, the surroundings will be disturbed. Become. Therefore, in the anti-theft device, when a person other than a suspicious person is detected by the human body detection sensor, it is necessary not to activate an alarm device or the like. That is, it is necessary to prevent the anti-theft device from malfunctioning only when a suspicious person is detected by the human body detection sensor, by operating an alarm device or the like.

  In addition, when a suspicious person is detected by the human body detection sensor, it is determined whether the suspicious operation has a low possibility of vehicle theft or a high possibility of vehicle theft. Etc. are desirable.

Patent Document 1 proposes a theft alarm device that combines consideration for the surrounding residents and the effectiveness of theft prevention. Specifically, various anti-theft detection sensors attached to each part of the vehicle body, sound generating means for outputting an alarm sound, and outputting an alarm sound from the sound generating means based on detection signals from the various detection sensors A burglar alarm device comprising an alarm sound output control means for causing the alarm sound output control means to output a volume of an alarm sound output from the sound generation means according to the input status of detection signals from various detection sensors. It is shown to change the tone.
Japanese Patent Laid-Open No. 2001-247013

  The present invention has been made in view of the above-described problems of the prior art, and prevents malfunctions as much as possible by operating an alarm device or the like only when a suspicious person is detected by a human body detection sensor. An object of the present invention is to provide an antitheft device that can be used.

  In the present invention, means for solving the above-described problems are configured as follows. That is, the present invention includes a human body detection sensor that detects the approaching / leaving of a person to / from a vehicle within a predetermined monitoring area around the vehicle, and a plurality of modes are staged according to changes in the signal level based on the output of the human body detection sensor. The anti-theft device to be automatically transferred is normally in a normal monitoring mode in which a human body detection sensor continuously detects the approach / separation of people in the monitoring area around the vehicle, and the signal level has changed. In this case, when the signal level is changed within the predetermined time in the warning mode, the warning mode is changed to the threatening mode, and the threatening action for the suspicious person by sound and light is performed. When there is no change in the signal level within a predetermined time, the mode is shifted to the normal monitoring mode.

  In the antitheft device having the above-described configuration, the normal monitoring mode is normally set, and it is determined whether or not there is a change in the signal level based on the output of the human body detection sensor. In this determination, whether or not there is a possibility that a person approaching the vehicle may perform a suspicious action is determined based on whether or not there is an abnormality in the signal level. If there is no change in the signal level, actions such as threats and alarms are not performed. That is, operations such as intimidation and warning are not performed on persons other than suspicious persons such as persons who simply pass around the vehicle. In this way, in the anti-theft device, a person approaching the vehicle is distinguished from a person who is not a suspicious person and a person who may perform a suspicious operation, thereby preventing a malfunction.

  If there is a change in the signal level in the normal monitoring mode, the mode is shifted to the warning mode, and it is determined whether or not there is a further change in the signal level in the warning mode. In this determination, it is determined whether or not a person approaching the vehicle has performed a suspicious action based on whether or not there is an abnormality in the signal level. If there is no change in the signal level, the mode is shifted to the normal monitoring mode so that operations such as threats and alarms are not performed. On the other hand, if there is a change in the signal level in the alert mode, the mode is shifted to the threat mode and a threat action is performed. Thus, in the anti-theft device, when a suspicious operation is performed in the vicinity of the vehicle and in the vicinity of the vehicle, a threatening operation for the suspicious person is performed for the first time. By performing such a threatening operation, if there is a person who is performing a suspicious operation, the suspicious operation is stopped and the person is left away from the vicinity of the vehicle. As described above, in the anti-theft device, malfunction is prevented by determining whether or not a person who may perform a suspicious operation actually performed a suspicious operation.

  Here, in the normal monitoring mode, it may be determined that the signal level has changed when there is a sudden attenuation of the signal level. As an example of a case where there is a sudden attenuation of the signal level, there is a case where the waveform when the signal level increases and the waveform when the signal level decreases are asymmetric.

  Further, in the alert mode, no action is performed on the suspicious person by sound or light. Thus, the alert mode is a mode for determining whether or not a person who may approach the vehicle and perform a suspicious operation actually performs a suspicious operation. In addition, malfunctions are prevented by not performing actions such as sound and light threats and warnings on suspicious persons.

  In the alert mode, it may be determined that the signal level has changed when the signal level exceeds a predetermined threshold.

  Also, in the anti-theft device of the present invention, when there is a change in the signal level within a predetermined time in the threatening mode, the alarm notification mode is entered and an alarm operation is performed for a suspicious person by sound and light. Thus, when there is no change in the signal level within a predetermined time, the mode is shifted to the normal monitoring mode.

  In the antitheft device configured as described above, in the threatening mode, it is determined whether or not there is a further change in the signal level. In this determination, it is determined whether or not there is a high possibility that the vehicle is stolen due to suspicious operation based on whether or not there is a change in the signal level. If there is no change in the signal level, alarms and notifications are not performed. That is, even if a suspicious operation is performed, an operation such as an alarm or a report is not performed if the possibility of theft of the vehicle is low. On the other hand, if there is a change in the signal level in the threatening mode, the alarm notification mode is entered and an alarm operation is performed. In this way, in the anti-theft device, when a suspicious operation with a high possibility of theft of the vehicle is performed, an alarm operation is performed to stop the suspicious operation and leave the vehicle from the periphery. I have to. As described above, in the anti-theft device, when a suspicious operation is performed, it is determined whether the vehicle is highly likely to be stolen, thereby preventing malfunction.

  Here, when shifting to the alarm notification mode, in addition to the alarm operation, a notification operation to the owner of the vehicle may be performed. This notifies the vehicle owner that a suspicious operation is being performed around the vehicle. Such a notification operation allows the owner of the vehicle to know that a suspicious person has been detected around the vehicle and that the suspicious person has performed a suspicious action.

  In the threatening mode, it may be determined that the signal level has changed when the signal level exceeds a predetermined threshold. This threshold value is set to a level value higher than the threshold value in the above-described alert mode.

  According to the present invention, a person approaching the vehicle can be distinguished from a person who is not a suspicious person and a person who may perform a suspicious operation, and malfunction can be prevented. In addition, it is possible to determine whether or not a person who may approach the vehicle and perform a suspicious operation actually performs a suspicious operation, thereby preventing a malfunction.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention. In addition, the following embodiment is an example which actualized this invention, Comprising: The thing of the character which limits the technical scope of this invention is not.

  First, the overall configuration of a vehicle antitheft device (hereinafter simply referred to as “theft prevention device”) will be described with reference to FIG.

  As shown in FIG. 1, the anti-theft device 10 includes a Doppler sensor unit 11, an amplifier 12, a signal phase difference identification unit 13, a narrow / wide area detection unit 14, a signal processing unit 15, a data storage unit 16, a threatening device 17, An alarm device 18 and a notification device 19 are provided.

  The Doppler sensor unit 11 is provided as a human body detection sensor that detects the presence or absence of a person in a predetermined monitoring area around the vehicle. In this example, the Doppler sensor unit 11 is configured as a dual Doppler sensor. Specifically, it is configured to detect the presence or absence of a person in a predetermined monitoring area using two signals whose phases are different by 90 degrees. Then, according to the Doppler sensor unit 11 configured as a dual Doppler sensor, it is possible to detect any person or object moving within a predetermined monitoring area around the vehicle, and to detect the approach / separation thereof. Is possible. Therefore, such a Doppler sensor unit 11 detects a person or an object approaching / separating from the vehicle separately from a stationary person or object.

  The two sensor signals output from the Doppler sensor unit 11 and having a phase difference of 90 degrees are reflected by a person approaching / leaving the vehicle and received by the Doppler sensor unit 11. The sensor signal received by the Doppler sensor unit 11 is amplified by the amplifier 12, and then sent to the signal phase difference identification unit 13 and the narrow / wide area detection unit 14, respectively.

  The signal phase difference identification unit 13 generates a signal based on the phase difference between the two sensor signals received by the Doppler sensor unit 11, specifically, a signal as shown in FIGS. The signal is output to the signal processing unit 15. 3 to 6 show the change over time of the signal level (voltage value in FIGS. 3 to 6) of the signal generated based on the phase difference between the two sensor signals received by the Doppler sensor unit 11. Show.

  The signal processing unit 15 performs various processes in the anti-theft device 10 based on the signal sent from the signal phase difference identifying unit 13. Details of various processes in the antitheft device 10 by the signal processing unit 15 will be described later. The signal processing unit 15 is provided with an internal timer. The data storage unit 16 stores a threshold of a signal level that is a reference when the anti-theft device 10 is switched to a mode. The narrow area / wide area detector 14 assigns two signals to the narrow area and the wide area, and simultaneously monitors two monitoring areas, a monitoring area near the vehicle and a monitoring area farther than that. It is possible.

  The threatening device 17 performs a threatening operation against a suspicious person by sound and light, and examples thereof include a horn that emits a threatening sound and an LED illuminator. The alarm device 18 performs an alarm operation for a suspicious person by sound and light, and examples thereof include a horn that emits an alarm sound and an LED illuminator. Here, the alarm volume of the alarm device 18 is set larger than the threat volume of the threat device 17. The threatening device 17 and the warning device 18 may be used in combination. In this case, the alarm volume at the time of the alarm operation is set larger than the threatening volume at the time of the threatening operation. The notification device 19 performs a notification operation to the owner of the vehicle, and can communicate with a communication device possessed by the owner. The notification operation is performed by, for example, a low-power radio, a mobile phone, or the like, and reports that a suspicious operation is being performed around the vehicle by voice, light, display on a display, or the like.

  Next, various modes and mode transitions in the antitheft device 10 will be described with reference to FIGS. The antitheft device 10 has a normal monitoring mode, a warning mode, a threatening mode, and an alarm notification mode. The mode transition is performed by the signal processing unit 15 based on the sensor signal received by the Doppler sensor unit 11.

  The normal monitoring mode is a mode for continuously detecting the approach / separation of a person in a monitoring area around the vehicle and monitoring a change in the signal level of the signal sent to the signal processing unit 15. Then, when there is a change in the signal level of the signal sent to the signal processing unit 15, the normal monitoring mode is shifted to the warning mode.

  3 and 4, when a person approaches the vehicle in the monitoring area around the vehicle and then moves away from the vehicle, that is, when a person simply passes around the vehicle, as shown in FIG. The signal level of the signal sent to the signal processing unit 15 changes. Specifically, when a person approaches, the peak value of the signal level gradually increases, and conversely, when the person moves away, the peak value of the signal level gradually decreases. Then, the peak value waveform of the signal level (the waveform connecting the peak values) changes smoothly (slowly).

  On the other hand, when a person approaches the vehicle in the monitoring area around the vehicle and then stops near the vehicle without moving away from the vehicle, the signal sent to the signal processing unit 15 as shown in FIG. The signal level changes. Specifically, when a person approaches, the peak value of the signal level gradually increases, and the peak value waveform of the signal level changes smoothly.However, when the person stops thereafter, the peak value of the signal level rapidly increases. Attenuating, the peak value waveform of the signal level changes rapidly.

  When there is no sudden change in the peak value waveform of the signal level in the normal monitoring mode, it is determined that there is no change in the signal level of the signal sent to the signal processing unit 15, and the normal monitoring mode is continued. . Here, as an example of the case where there is no sudden change in the peak value waveform of the signal level, a case as shown in FIG. That is, the peak value waveform when the peak value of the signal level increases and the peak value waveform when the peak value of the signal level decreases are substantially symmetric.

  On the other hand, if there is a sudden change in the peak value waveform of the signal level, it is determined that there is an abnormality in the signal level of the signal sent to the signal processing unit 15, and the mode is shifted to the alert mode. Here, as an example of the case where there is a sudden change in the peak value waveform of the signal level, there is a case as shown in FIG. That is, the peak value waveform when the peak value of the signal level is increased and the peak value waveform when the peak value of the signal level is decreased are not symmetrical but asymmetrical.

  The alert mode is a mode for monitoring a change in the signal level of the signal sent to the signal processing unit 15 for a predetermined time after shifting from the normal monitoring mode. In the alert mode, the signal processing unit 15 compares the peak value of the signal level with a predetermined threshold value (intimidation voltage determination value Va). When the peak value of the signal level of the signal sent to the signal processing unit 15 exceeds a predetermined threshold before the predetermined time elapses after shifting from the normal monitoring mode, the warning mode is shifted to the threatening mode. On the other hand, when the predetermined time has passed without the peak value of the signal level of the signal sent to the signal processing unit 15 exceeding the predetermined threshold value, the mode shifts from the warning mode to the normal monitoring mode.

  More specifically, when a person approaching the vehicle performs a suspicious operation such as looking into the vehicle, the signal level of the signal sent to the signal processing unit 15 changes as shown in FIG. At the time ta, the peak value of the signal level exceeds the threat voltage discrimination value. As described above, in the warning mode, the vehicle approaches the vehicle when the peak value of the signal level exceeds the threatening voltage discriminating value Va that is a predetermined threshold before the predetermined time T1 elapses after the shift to the warning mode. It is determined that a person is performing a suspicious action, and the mode is changed to a threatening mode. Here, the predetermined time T <b> 1 and the threatening voltage determination value Va are stored in the data storage unit 16. On the other hand, if the predetermined time T1 has passed without exceeding the threatening voltage determination value Va after the peak value of the signal level has shifted to the warning mode, it is determined that no suspicious operation has been performed and normal monitoring is performed. Transition to mode.

  The threatening mode is a mode in which when a suspicious operation with a low possibility of theft of the vehicle is performed, the threatening device 17 is operated to perform a threatening operation against the suspicious person with a threatening sound and light. Even in the threatening mode, a change in the signal level of the signal sent to the signal processing unit 15 is monitored. In the threat mode, the signal processing unit 15 compares the peak value of the signal level with predetermined threshold values (the threat voltage determination value Va and the alarm voltage determination value Vb).

  Specifically, when the mode is changed from the warning mode to the threatening mode, the threatening device 17 is activated, and a threatening operation for the suspicious person is performed by the threatening sound and light. By such a threatening action, the suspicious action is stopped and the vehicle is left away. The threatening operation is performed every time the peak value of the signal level exceeds the threatening voltage determination value Va described above.

  However, the suspicious action is not stopped in spite of such a threatening action, or the suspicious action is temporarily stopped by the threatening action, but before the predetermined time elapses after the last threatening action is performed, When a suspicious operation such as breaking a window glass of a vehicle is performed, the signal level changes as shown in FIG. 5, and the peak value of the signal level exceeds the alarm voltage determination value Vb at time tb. Thus, in the threat mode, if the peak value of the signal level exceeds the warning voltage determination value Vb that is a predetermined threshold before the predetermined time T2 has elapsed since the last threat action was performed, the vehicle It is determined that the approaching person continues to perform the suspicious operation, and the alarm notification mode is entered. Here, the predetermined time T2 and the alarm voltage determination value Vb are stored in the data storage unit 16. The alarm voltage determination value Vb is set to a value higher than the above-described threatening voltage determination value Va. When a suspicious operation is performed, it is determined whether there is a high possibility of theft of the vehicle due to the suspicious operation. The peak value of the signal level of the signal sent to the signal processing unit 15 is an alarm voltage determination. The determination is made based on whether or not the value Vb is exceeded.

  On the other hand, when the suspicious operation is stopped by the threatening operation as described above, the signal level changes as shown in FIG. As described above, in the threatening mode, when the predetermined time T2 has passed without the peak value of the signal level exceeding the threatening voltage determination value Va after the last threatening operation is performed, it is suspicious due to the threatening operation. It is determined that the operation has been stopped, and the mode is shifted to the normal monitoring mode. In FIG. 6, the threatening mode is canceled at time tc and the mode is shifted to the normal monitoring mode.

  In the alarm notification mode, when a suspicious operation with a high possibility of theft of the vehicle is performed, the alarm device 18 is activated to perform an alarm operation for the suspicious person with an alarm sound and light, and a notification device 19 Is a mode in which the notification operation to the vehicle owner is performed by radio or the like. Even in the alarm notification mode, a change in the signal level of the signal sent to the signal processing unit 15 is monitored. In the alarm notification mode, the signal processor 15 compares the peak value of the signal level with the alarm voltage determination value Vb.

  More specifically, when the mode is changed from the threatening mode to the alarm notification mode, the alarm device 18 is activated, and an alarm operation for the suspicious person is performed by an alarm sound and light. By such an alarm operation, the suspicious operation is stopped and the vehicle is left away. The alarm operation is performed every time the peak value of the signal level exceeds the alarm voltage determination value Vb described above. That is, unless the suspicious operation is stopped, the alarm operation is repeatedly performed on the suspicious person.

  Further, when the mode is changed from the threatening mode to the alarm notification mode, the notification device 19 is activated to notify the vehicle owner that a suspicious operation is being performed around the vehicle. Such a notification operation allows the owner of the vehicle to know that a suspicious person has been detected around the vehicle and that the suspicious person has performed a suspicious action. Note that the reporting operation need only be performed once when the threat mode is switched to the alarm reporting mode, and therefore need not be performed every time the peak value of the signal level exceeds the alarm voltage determination value Vb.

  On the other hand, when the predetermined time T3 has elapsed since the last alarm operation was performed and the peak value of the signal level did not exceed the alarm voltage determination value Vb, it is determined that the suspicious operation was stopped by the alarm operation. Shift to normal monitoring mode. Here, the predetermined time T3 is stored in the data storage unit 16.

  Next, the operation of the antitheft device 10 will be described with reference to the flowchart of FIG. In the anti-theft device 10, two sensor signals are received by the Doppler sensor unit 11, a signal based on the phase difference between the two received sensor signals is generated by the signal phase difference identifying unit 13, and the generated signal is The signal is input to the signal processing unit 15. The signal processing unit 15 performs the following processing based on the input signal.

  First, the antitheft device 10 is in the normal monitoring mode in the initial state (step S11), and the change in the signal level of the signal input to the signal processing unit 15 is continuously monitored. At this time, the signal processing unit 15 determines whether or not there is a change in the signal level of the input signal (step S12). In this determination, if there is a person approaching the vehicle, it is determined whether the person simply passes around the vehicle or stops near the vehicle. In other words, here, if an operation such as stopping in the vicinity of the vehicle is performed before the suspicious operation is performed, the operation appears as a change in the signal level. Therefore, such a change in the signal level is detected. . In this manner, whether or not there is a possibility that a person approaching the vehicle may perform a suspicious operation is determined based on whether or not there is an abnormality in the signal level.

  When there is no sudden change in the peak value waveform of the signal level of the input signal, for example, when there is no change in the signal level of the input signal as shown in FIG. The normal monitoring mode is continued, assuming that the person who has done this is not a suspicious person. On the other hand, when there is a sudden change in the peak value waveform in the signal level of the input signal, for example, when there is a change in the signal level of the input signal as shown in the waveform of FIG. Since there is a possibility that the person who has done this may perform a suspicious action, the mode is shifted to the alert mode (step S13).

  In the alert mode, the signal processing unit 15 determines whether or not the peak value of the signal level of the signal input within the predetermined time T1 has exceeded the threat voltage determination value Va after shifting from the normal monitoring mode ( Steps S14 and S15). In this determination, if there is a person who stops in the vicinity of the vehicle, it is determined whether or not the person has performed a suspicious action. That is, here, when a suspicious operation is performed in the vicinity of the vehicle, the operation appears as an increase in the peak value of the signal level. Therefore, such a change in the signal level is detected. In this way, it is determined whether or not a person approaching the vehicle has performed a suspicious operation based on whether or not the peak value of the signal level exceeds the threatening voltage determination value Va.

  Then, if the predetermined time T1 has passed without exceeding the threat voltage discrimination value Va after the peak value of the signal level has shifted to the warning mode, the warning mode is canceled because the suspicious operation is not performed. The process proceeds to the normal monitoring mode in step S11. On the other hand, if the peak value of the signal level exceeds the threatening voltage discriminating value Va before the lapse of the predetermined time T1 after the transition to the warning mode, it is determined that a suspicious operation is being performed, and the transition is made to the threatening mode (step). S16).

  When shifting from the warning mode to the threatening mode, the signal processing unit 15 operates the threatening device 17 to perform a threatening action against the suspicious person by the threatening sound and light (step S17). By performing such a threatening operation, if there is a person who is performing a suspicious operation, the suspicious operation is stopped and the vehicle is left away.

  In the threatening mode, the signal processing unit 15 determines whether or not the peak value of the signal level of the signal input within the predetermined time T2 exceeds the threatening voltage determination value Va or the alarm voltage determination value Vb (step S18). , S19, S20). Specifically, in step S19, it is determined whether or not the peak value of the signal level of the signal input to the signal processing unit 15 exceeds the threat voltage determination value Va within a predetermined time T2 after the threat action is performed. ing. In the subsequent step S20, if the peak value of the signal level exceeds the threat voltage determination value Va in step S19, it is further determined whether or not the alarm voltage determination value Vb is exceeded. In these determinations, it is determined whether or not a suspicious operation is stopped by a threatening operation. Further, when the suspicious operation is continued without stopping, it is determined whether or not the vehicle is likely to be stolen. As described above, whether or not the vehicle is likely to be stolen by suspicious operation is determined based on whether or not the peak value of the signal level exceeds the alarm voltage determination value Vb.

  Then, when the peak value of the signal level of the signal input to the signal processing unit 15 exceeds both the threatening voltage determination value Va and the alarm voltage determination value Vb, it continues without stopping the suspicious operation, As the vehicle is highly likely to be stolen, the mode is shifted to the alarm notification mode (step S21). On the other hand, when the peak value of the signal level exceeds the threatening voltage determination value Va but does not exceed the warning voltage determination value Vb, the vehicle is stolen although the suspicious operation is continued without stopping. As the possibility is low, the alarm notification mode is not shifted to, but the process shifts to step S17 to perform the threatening operation again. As described above, the threatening operation is repeatedly performed every time the peak value of the signal level exceeds the threatening voltage determination value Va. Note that the threatening volume may be gradually increased every time the threatening operation is continuously performed a predetermined number of times.

  On the other hand, when the predetermined time T2 has passed without the peak value of the signal level of the signal input to the signal processing unit 15 exceeding the threat voltage determination value Va since the last threat action, the threat action is performed. Therefore, the threatening mode is canceled and the process proceeds to the normal monitoring mode in step S11.

  When shifting from the threatening mode to the alarm notification mode, the signal processing unit 15 operates the notification device 19 to perform a notification operation to the owner of the vehicle by wireless or the like, and also operates the alarm device 18 to generate an alarm sound. A warning operation for a suspicious person is performed by light (steps S22 and S23). By performing such notification operation and alarm operation, the vehicle owner is informed that a suspicious person is detected around the vehicle, and that the suspicious person is performing a suspicious operation. For the person who is moving, the suspicious movement is stopped and the person who leaves the vehicle is left.

  In the alarm notification mode, the signal processing unit 15 determines whether or not the peak value of the signal level of the signal input within the predetermined time T3 exceeds the alarm voltage determination value Vb (steps S24 and S25). In this determination, it is determined whether or not the suspicious operation is stopped by the alarm operation.

  When the peak value of the signal level of the signal input to the signal processing unit 15 exceeds the alarm voltage determination value Vb, the suspicious operation is not stopped and the vehicle is likely to be stolen. As a thing, it transfers to step S23 and performs alarm operation again. Thus, the alarm operation is performed every time the peak value of the signal level exceeds the alarm voltage determination value Vb. That is, unless the suspicious operation is stopped, the alarm operation for the suspicious person is repeatedly performed. Note that the alarm volume may be gradually increased every time the alarm operation is continuously performed a predetermined number of times.

  On the other hand, when the predetermined time T3 has passed without the peak value of the signal level of the signal input to the signal processing unit 15 exceeding the alarm voltage determination value Vb since the last threatening operation was performed, Since the suspicious operation is stopped, the alarm notification mode is canceled and the process proceeds to the normal monitoring mode in step S11.

  As described above, in the anti-theft device 10, based on the signal input to the signal processing unit 15, that is, based on the sensor signal detected by the Doppler sensor unit 11, the normal monitoring mode, the alert mode, the threat mode, The mode transition between alarm notification modes is performed in stages.

  First, in the normal monitoring mode, it is determined whether or not there is an abnormality in the signal level of the signal input to the signal processing unit 15. Here, whether or not there is a possibility that a person approaching the vehicle may perform a suspicious action is determined based on whether or not there is an abnormality in the signal level. At this time, if the signal level of the signal input to the signal processing unit 15 is not changed, the threatening device 17, the alarm device 18, and the notification device 19 are not operated. That is, when a person other than a suspicious person such as a person who simply passes around the vehicle approaches, the intimidation device 17, the alarm device 18, and the notification device 19 are prevented from being erroneously activated. As described above, in the anti-theft device 10, a person approaching the vehicle can be distinguished from a person who is not a suspicious person and a person who may perform a suspicious action, and a person who is not a suspicious person approaches. Even if this is the case, the threatening device 17, the alarm device 18, and the reporting device 19 will not operate by mistake.

  Next, in the alert mode, it is determined whether or not there is a further change in the signal level of the signal input to the signal processing unit 15 (whether or not the threat voltage determination value Va has been exceeded). Here, it is determined whether or not a person approaching the vehicle has performed a suspicious operation based on whether or not the peak value of the signal level exceeds the threatening voltage determination value Va. In this alert mode, if there is no further change in the signal level of the signal input to the signal processor 15, the threatening device 17, the alerting device 18, and the reporting device 19 are not operated. For example, when a person approaching the vehicle is not performing a suspicious action, such as a person who is just standing in the vicinity of the vehicle, the threatening device 17, the alarm device 18, and the reporting device 19 are prevented from being erroneously activated. ing. Thus, in the anti-theft device 10, it is possible to determine whether or not a person who is likely to perform a suspicious operation has actually performed a suspicious operation. 17, the alarm device 18 and the notification device 19 do not operate by mistake.

  On the other hand, if there is a further change in the signal level of the signal input to the signal processing unit 15, the alarm device 18 and the notification device 19 are not immediately activated, and the intimidation mode is entered and only the threat device 17 is activated. I am doing so. That is, when a suspicious operation is performed near the vehicle and in the vicinity of the vehicle, only the threatening device 17 is operated for the first time to perform a threatening operation on the suspicious person.

  Next, in the threatening mode, it is determined whether or not there is a further change in the signal level of the signal input to the signal processing unit 15 (whether or not the alarm voltage determination value Vb has been exceeded). Here, whether the vehicle is highly likely to be stolen due to suspicious operation is determined based on whether the peak value of the signal level exceeds the alarm voltage determination value Vb. In this threat mode, the alarm device 18 and the notification device 19 are not operated unless the signal level of the signal input to the signal processing unit 15 is further changed. For example, even if a suspicious operation is performed such as just looking into the vehicle, the alarm device 18 and the notification device 19 are not immediately activated if the possibility of the vehicle being stolen is low. I have to. On the other hand, if the signal level of the signal input to the signal processing unit 15 is further changed, the alarm notification mode is entered and the alarm device 18 and the notification device 19 are immediately activated. For example, when a suspicious operation with a high possibility of theft of the vehicle is performed, such as breaking a window glass of the vehicle, the alarm device 18 and the notification device 19 are activated immediately. As described above, in the anti-theft device 10, when a suspicious operation is performed, it is possible to determine whether or not the vehicle is highly likely to be stolen. Even if the suspicious operation is performed, If the possibility of theft is low, the alarm device 18 and the notification device 19 are prevented from being operated by mistake.

It is a block diagram showing one embodiment of an antitheft device to which the present invention is applied. It is a flowchart which shows operation | movement of an antitheft device. It is a figure which shows an example of a waveform when there is no change in the signal level of the signal sent to the signal processing part. It is a figure which shows an example of a waveform in case the signal level of the signal sent to the signal processing part has an abnormality. It is a figure which shows an example of the mode transfer of warning mode-> threatening mode-> alarm notification mode in an antitheft device. It is a figure which shows an example of the mode transfer in warning mode-> threatening mode-> normal monitoring mode in an antitheft device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Antitheft device 11 Doppler sensor part 13 Signal phase difference identification part 15 Signal processing part 16 Data storage part 17 Threatening device 18 Alarm device 19 Notification device

Claims (7)

A theft that includes a human body detection sensor that detects the approaching / leaving of a person to / from a vehicle in a predetermined monitoring area around the vehicle, and in which a plurality of modes are shifted in stages according to changes in signal level based on the output of the human body detection sensor In the prevention device,
At normal times, it is a normal monitoring mode that continuously detects the approach / separation of people in the monitoring area around the vehicle by the human body detection sensor, and when there is a change in the signal level, it shifts to a warning mode,
If there is a change in the signal level within a predetermined time in the warning mode, the mode is switched to the threatening mode and the threatening action against the suspicious person by sound and light is performed.
An anti-theft device characterized in that when there is no change in signal level within a predetermined time, the mode is shifted to a normal monitoring mode.   2. The antitheft device according to claim 1, wherein in the normal monitoring mode, when the signal level is rapidly attenuated, it is determined that the signal level has changed.   The antitheft device according to claim 1 or 2, wherein no action is performed on a suspicious person by sound or light in the alert mode.   The antitheft device according to any one of claims 1 to 3, wherein in the alert mode, when the signal level exceeds a predetermined threshold, it is determined that the signal level has changed. When there is a change in the signal level within a predetermined time in the threatening mode, the alarm notification mode is performed, and an alarm operation for a suspicious person by sound and light is performed.
The antitheft device according to any one of claims 1 to 4, wherein when there is no change in the signal level within a predetermined time, the mode is shifted to a normal monitoring mode.   6. The anti-theft device according to claim 5, wherein when the mode is shifted to the alarm notification mode, a notification operation to the vehicle owner is performed in addition to the alarm operation.   The antitheft device according to claim 5 or 6, wherein in the threatening mode, when the signal level exceeds a predetermined threshold, it is determined that the signal level has changed.

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