JP2004023475A - Portable alarm device and alarm management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable alarm device capable of automatically or manually transmitting information which is so useful for a user that it can be used as evidence, and to provide an alarm management system. <P>SOLUTION: The portable alarm device is incorporated into a cellular telephone to transmit an alarm signal by using a radio wave when emergency occurs and is provided with a voice recording means 11 for taking in and recording voice information; emergency sensing means 16 for sensing an emergency state; transmission requesting means 18 for outputting a transmission request according to a manual operation; voice recording control means 19 for continuing to record the voice information during a prescribed time period in the voice recording means at all times; and alarm transmission control means 19 for transmitting, as an alarm signal, information including at least past voice information recorded before sensing the emergency state or the transmission request, and an identification code assigned to its own station, when the means 16 senses the emergency state or when the means 18 outputs the transmission request. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a portable notification device and a notification management system used for crime prevention or the like.
[0002]
[Prior art]
In recent years, the importance of crime prevention has increased with the deterioration of social security. For this reason, portable notification devices for sending out a report as needed by an individual who is out of the office have been commercially available.
As a conventional representative portable notification device, a security buzzer is known. It is also conceivable to use a general mobile phone as a portable notification device and make a telephone call to the police or the like in an emergency. Further, a portable device that transmits detected position information by a wireless signal is also known.
[0003]
[Problems to be solved by the invention]
However, when using the security buzzer, there is a problem that it is useless unless a third party who can listen to the report exists near the site. In addition, there is a problem that it is difficult for the user to determine whether or not to operate the device and to determine when to operate the device when sales / recruitment accompanied by intimidation or intimidation or a quarrel has become dangerous. .
[0004]
Therefore, in reality, the security buzzer has been limited to use in situations where urgency or criminality is obvious, such as molestation.
Further, when an attacker attacks, there is a case where it is necessary to prove the fact later. Also, if an attacker enters into an unfavorable contract to avoid danger, the user may be required to prove the unfairness of the contract at a later date. However, a portable notification device such as a security buzzer is useless for such proof.
[0005]
On the other hand, when trying to make a report using a mobile phone, high security can be expected when the call is successful. However, there is a problem that an attacker can easily block a mobile phone report.
In addition, when making a report using a mobile phone, in the event of a dangerous situation due to increased sales / recruitment or quarrels involving intimidation or intimidation, the user judges whether or not to make a report and reports. There is also a problem that it is difficult to determine the timing.
[0006]
Therefore, in reality, use of a mobile phone for reporting is limited to use in situations where urgency or criminality is apparent, such as molestation.
Also, even if you try to make a report using a mobile phone, you cannot leave evidence if the call is not successful, so you can prove the fact that the attacker was attacked and attack to avoid danger Cannot be used to prove the impropriety of an improper contract entered into with an individual.
[0007]
On the other hand, when reporting using a portable device that transmits location information, the crime prevention effect is extremely high in a specific use situation. However, since only the location information is transmitted as a report, the effectiveness is actually low except for specific situations such as kidnapping and theft.
In addition, since only such location information is recorded in such a report, its use value as evidence is low. For example, trying to identify an attacker, proving that an attacker has been attacked, or proving unfair contracts with an attacker to avoid danger. If it does not help much.
[0008]
In addition, existing portable devices that transmit location information always transmit location information regardless of whether there is an abnormal situation. Therefore, it is not preferable from the viewpoint of effective use of communication band resources and privacy.
An object of the present invention is to provide a portable reporting device and a reporting management system that can automatically or manually report information that is convenient for a user who can be used for certification or the like.
[0009]
[Means for Solving the Problems]
Claim 1 is a portable notification device that is incorporated in a mobile phone and transmits a notification signal using radio waves when an abnormality occurs, and a voice recording unit that captures and records voice information and detects an abnormal situation. Abnormality detection means, transmission request means for outputting a transmission request according to a manual operation, voice recording control means for constantly recording voice information for a certain period of time in the voice recording means, and an abnormal situation detected by the abnormality detection means When the transmission request is output from the transmission request unit, the information including the past audio information recorded in the audio recording unit at least before that and the identification code assigned to the own station is reported. Message transmission control means for transmitting as a signal.
[0010]
According to the first aspect, since the voice information is always taken and recorded in the voice recording means, at any point in time, past voice information for a certain period up to the present is held in the voice recording means.
Then, when an abnormal situation is detected or a transmission request is output by a user's manual operation, information including past voice information recorded in the voice recording means and an identification code assigned to the own station is transmitted. It is transmitted as a notification signal.
[0011]
In other words, it is possible to transmit audio information indicating a past situation that occurred before a point in time when an abnormal situation was actually detected or a point in time when the user manually issued a transmission request.
Therefore, even if the abnormality detection means detects an abnormality at a certain time delay after the actual occurrence of the incident, or if the user issues a transmission request after a certain time delay, Voice information indicating the situation can be reported to a management center or the like.
[0012]
It is very important to accurately know the situation at the time of the incident, but if there is a delay in the detection of the abnormality detection means or a delay in the judgment and operation of the user, important information may be lost. However, the portable notification device according to the first aspect can notify the voice information indicating the situation at the time of the occurrence of the incident without being affected by the detection delay of the abnormality detection unit or the delay of the user's judgment and operation.
[0013]
In this way, by recording information obtained at the time of occurrence of an incident, it is possible to improve user convenience in post-processing. In other words, it is easy to identify the attacker and prove the fact of the attack, and it is possible to smoothly rescue a civil or criminal user and penalize the attacker.
Also, by making an attacker recognize the operation of the device, it is possible to suppress the will of attack and obtain a crime prevention effect. Furthermore, since the data of the accident occurrence situation can be obtained when an accident occurs by giving it to the worker at the construction site, it is also possible to identify the cause of the accident for convenience.
[0014]
Further, since the portable notification device according to the first aspect is configured integrally with the mobile phone, the main functions of the mobile notification device can be realized by using parts of the mobile phone. Thereby, the apparatus can be integrated without increasing the size and cost of the apparatus.
In addition, since the user does not need to carry the portable notification device and the mobile phone separately, the convenience is high, and the operator who provides the management service using the device can reduce the cost of deploying the own communication network. Services can be provided at low cost.
[0015]
According to a second aspect of the present invention, in the portable notification device according to the first aspect, an imaging unit for capturing an image is further provided, and the notification transmission control unit is configured to store information of the image captured by the imaging unit after the transmission of the notification signal is started. Is transmitted in the notification signal.
According to the second aspect, not only the audio data but also data of an image photographed after the start of transmission of the notification signal can be included in the notification signal and transmitted. For this reason, if the data of the transmitted image is acquired, it can be used to identify an attacker and prove the fact of the attack.
[0016]
Claim 3 is a portable notification device that is incorporated in a mobile phone and transmits a notification signal using radio waves when an abnormality occurs, wherein an imaging unit that captures an image and information of the image captured by the imaging unit are transmitted. Image holding means for holding for a certain period of time, image recording control means for continuously or periodically recording information of an image taken by the imaging means in the image holding means, and abnormality detection for detecting an abnormal situation Means, a transmission request means for outputting a transmission request according to a manual operation, and when an abnormal situation is detected by the abnormality detection means, or when a transmission request is output from the transmission request means, the image holding means Message transmission control means for transmitting information including image information including the held past image and an identification code assigned to the own station in the notification signal, and transmitting the information. .
[0017]
According to the third aspect of the present invention, the information of the image captured by the image capturing unit is continuously or periodically recorded in the image holding unit. Images can be acquired.
Then, when an abnormal situation is detected or a transmission request is output by a manual operation of the user, information including the past image information recorded in the image holding means and the identification code assigned to the own station is transmitted. It is transmitted as a notification signal.
[0018]
That is, it is possible to transmit image information indicating a past situation that occurred before a point in time when an abnormal situation was actually detected or a point in time when the user manually issued a transmission request.
Therefore, even if the abnormality detection means detects an abnormality at a certain time delay after the actual occurrence of the incident, or if the user issues a transmission request after a certain time delay, Image information indicating the situation can be reported to a management center or the like.
[0019]
It is very important to accurately know the situation at the time of the incident, but if there is a delay in the detection of the abnormality detection means or a delay in the judgment and operation of the user, important information may be lost. However, according to the portable notification device of the third aspect, the image information indicating the situation at the time of the occurrence of the incident can be reported without being affected by the detection delay of the abnormality detection unit or the delay of the user's judgment and operation.
[0020]
In this way, by recording information obtained at the time of occurrence of an incident, it is possible to improve user convenience in post-processing. In other words, it is easy to identify the attacker and prove the fact of the attack, and it is possible to smoothly rescue a civil or criminal user and penalize the attacker.
Also, by making an attacker recognize the operation of the device, it is possible to suppress the will of attack and obtain a crime prevention effect. Furthermore, since the data of the accident occurrence state can be obtained when an accident occurs by giving it to the worker at the construction site, it is also possible to conveniently identify the cause of the accident.
[0021]
In addition, since the portable notification device according to the third aspect is configured integrally with the mobile phone, the main functions of the mobile notification device can be realized using parts of the mobile phone. Thereby, the apparatus can be integrated without increasing the size and cost of the apparatus.
In addition, since the user does not need to carry the portable notification device and the mobile phone separately, the convenience is high, and the operator who provides the management service using the device can reduce the cost of deploying the own communication network. Services can be provided at low cost.
[0022]
According to a fourth aspect of the present invention, in the portable notification device according to the first or third aspect, based on the time information generating means for generating time information, and the transmission time of the notification signal based on the time information generated by the time information generating means. And a time processing means for transmitting the information acquisition time included in the notification signal.
According to the fourth aspect, since the notification signal transmitted by the portable notification device includes the transmission time of the notification signal or the acquisition time of the information, the reception time is not managed by the receiving center or the like. Also, the time can be grasped from the contents of the notification signal.
[0023]
According to a fifth aspect of the present invention, in the portable notification device according to the first or third aspect, a location information acquisition unit that acquires location information indicating a current location of the own station, and the location information acquired by the location information acquisition unit is transmitted for a predetermined period of time. A position information holding unit for holding, and a position record control unit for continuously or periodically recording the position information obtained by the position information holding unit in the position information holding unit; The means is characterized in that position information including a past position acquired before the start of transmission of the notification signal is included in the notification signal and transmitted.
[0024]
According to the fifth aspect, the position information obtained by the position information holding unit is continuously or continuously recorded in the position information holding unit. The information of the trajectory can be obtained.
That is, the notification signal transmitted by the portable notification device includes past position information acquired before the transmission of the notification signal. Therefore, even if the abnormality detection means detects an abnormality at a certain time delay after the actual occurrence of the incident, or if the user issues a transmission request after a certain time delay, Information indicating the position and the movement locus can be reported to a management center or the like.
[0025]
According to a sixth aspect of the present invention, in the portable notification device according to the first or third aspect, a time information generating unit configured to generate time information, a position information obtaining unit configured to obtain position information indicating a current position of the own station, A position information holding unit that holds the position information obtained by the information obtaining unit and the information of the obtaining time of the position information for a certain period of time; and information on the position information and the obtaining time obtained by the position information holding unit continuously or periodically. And a position record control unit that keeps recording the position information in the position information holding unit, and the notification transmission control unit includes: a position information including a past position obtained before the start of transmission of the notification signal; and an acquisition time of the position information. Is transmitted in the notification signal.
[0026]
According to claim 6, since the position information obtained by the position information holding means and the time of acquisition thereof are continuously or periodically recorded in the position information holding means, the user at any time before that time can be used. Position, movement locus, and information acquisition time can be grasped.
That is, the notification signal transmitted by the portable notification device includes the past position information acquired before the transmission of the notification signal and the acquisition time of the information. Therefore, even if the abnormality detection means detects an abnormality at a certain time delay after the actual occurrence of the incident, or if the user issues a transmission request after a certain time delay, Information indicating the position and the movement locus can be reported to the management center and the like together with the information acquisition time.
[0027]
According to a seventh aspect of the present invention, in the portable notification device according to the first or third aspect, the abnormality detecting means includes a position detecting means for detecting a current position of the own station, and position information registration for holding information on a predetermined position. Means, and position information comparing means for identifying the presence or absence of an abnormality based on a result of comparing the first position detected by the position detecting means with the second position held by the position information registering means. It is characterized by having.
[0028]
According to the seventh aspect, for example, when the portable notification device moves to a location other than the location registered in the location information registration unit, transmission of the notification signal can be automatically started. Therefore, even when the user cannot operate the transmission button or the like, the notification signal can be automatically transmitted.
In addition, even if this device transmits a notification signal due to malfunction, nothing happens unless the user uses the transmitted data, so serious consequences such as a false report to the police may occur. Will not wake up.
[0029]
According to a eighth aspect of the present invention, in the portable notification device according to the seventh aspect, each time the position detecting means acquires new position information, the acquired position information is automatically registered in the position information registering means. A means is further provided.
In claim 8, since the position information acquired by the position detecting means is automatically registered in the position information registering means, the user does not need to perform any special operation for registration.
[0030]
In this portable notification device, when the user moves to a new position that has not been performed before, the notification signal is reliably transmitted, so that a situation change occurs in which the user moves to a place different from the normal range of action. The record can be surely left.
According to a ninth aspect, in the portable notification device according to the first or third aspect, the abnormality detection unit detects a voice or vibration having an intensity equal to or higher than a specific threshold value or matches a predetermined fluctuation pattern. When voice or vibration is detected, it is regarded as abnormal.
[0031]
According to the ninth aspect, when a large vibration is applied to the portable notification device due to, for example, the occurrence of an incident, or when a loud sound such as a scream is generated, a notification signal is automatically transmitted upon detection thereof. You. Therefore, even in a situation where the user (victim) cannot afford to operate the transmission button or the like, for example, the user may drop the bag containing the portable notification device on the ground or make a loud voice. Thus, transmission of the notification signal can be automatically started.
[0032]
In addition, vibrations and voices that occur in the event of an incident often change in a unique variation pattern. Signal transmission can begin.
Further, a predetermined fluctuation pattern can be intentionally generated. For example, if three vibrations occurring at equal intervals are defined in a specific pattern, the user taps the portable notification device three times from above without removing the portable notification device and operating the button. The transmission of the notification signal can be started with a simple operation of.
[0033]
According to a tenth aspect of the present invention, in the portable notification device according to the first aspect, the notification transmission control unit sequentially records the past voice information recorded in the voice recording unit before the start of transmission of the notification signal in the order of going back in time. In addition to transmitting, the voice information captured after the start of the transmission of the notification signal is mixed and transmitted simultaneously.
For example, assuming that the transmission start time of the notification signal coincides with the incident occurrence time, information acquired at a time closer to the transmission start time of the notification signal has higher importance and value.
[0034]
On the other hand, after the portable notification device starts transmitting the notification signal, the transmission of the notification signal may be stopped due to the obstruction of the transmission by the attacker or the failure of the portable notification device due to the external force.
According to the tenth aspect, even when the transmission of the notification signal is stopped after the start of the transmission, the information is transmitted in the order of higher importance, so that the higher importance information can be reliably delivered to the management center or the like. it can.
[0035]
An eleventh aspect of the present invention is the portable notification device according to the second or third aspect, wherein the abnormality detection unit includes a reference image holding unit that holds information of a predetermined reference image, an image captured by the imaging unit, An image comparing means is provided for identifying the presence or absence of an abnormality based on the result of comparison with the reference image held by the reference image holding means.
[0036]
According to the eleventh aspect, the transmission of the notification signal can be automatically started when the image captured by the imaging unit is different from the held reference image.
For example, before going out, an image in the room is registered as a reference image, and when the user goes out with the portable notification device placed in the room, the image taken when the intruder enters the room changes and is referred to. Since it does not match the image, transmission of the notification signal is automatically started. Therefore, an image of the intruder can be transmitted as a notification signal, and the intruder can be identified from the notification signal.
[0037]
According to a twelfth aspect of the present invention, in the portable notification device according to the third aspect, the notification transmission control means sequentially transmits the past image information held in the image holding means before the start of transmission of the notification signal in the order of going back in time. It is characterized by transmitting.
For example, assuming that the transmission start time of the notification signal coincides with the incident occurrence time, information acquired at a time closer to the transmission start time of the notification signal has higher importance and value.
[0038]
On the other hand, after the portable notification device starts transmitting the notification signal, there is a possibility that the transmission of the notification signal may be stopped due to a disturbance of the transmission of the intruder or a failure of the portable notification device due to external force.
According to the twelfth aspect, even when the transmission of the notification signal is stopped after the start of the transmission, the information is transmitted in descending order of importance, so that the information having high importance can be reliably delivered to the management center or the like. it can.
[0039]
According to a thirteenth aspect, in the portable notification device according to the ninth aspect, vibration detection means for detecting vibration by measuring an electromotive force of a vibrator built in the mobile phone is further provided.
Mobile phones often have a built-in vibrator. When the vibrator receives external vibration, the internal weight vibrates and an electromotive force is generated in an electric motor that drives the weight.
[0040]
According to the thirteenth aspect, the vibration can be detected by measuring the electromotive force of the vibrator. Therefore, vibration can be detected without adding a vibration sensor particularly, which contributes to cost reduction and size reduction of the device.
According to a fourteenth aspect, in the portable notification device according to the first or third aspect, the notification transmission control means uses a telephone number assigned to a mobile phone as the identification code.
[0041]
A mobile phone has an identification code assigned to each device. It is possible to include this in the notification signal, but if the mobile phone is replaced, the identification code will also change.
In claim 14, since the telephone number is used for the identification code, it is not necessary to re-register the identification code even if the user replaces the mobile phone. In addition, there is an advantage that the mobile phone operator does not need to output identification code information that is not disclosed to the public.
[0042]
According to a fifteenth aspect, in a report management system including a portable notification device and a management center that receives a notification signal transmitted by radio waves from the portable notification device, the portable notification device is integrated with a mobile phone. Along with the portable notification device, a voice recording unit that captures and records voice information, an abnormality detection unit that detects an abnormal situation, a transmission request unit that outputs a transmission request according to a manual operation, Voice recording control means for continuously recording passing voice information in the voice recording means, and when an abnormal situation is detected by the abnormality detection means, or when a transmission request is output from the transmission request means, The information including the past voice information previously recorded in the voice recording means and the identification code assigned to the own station is transmitted to the management center as a report signal. Receiving control means for receiving a notification signal arriving from each portable notification device, and recording and holding information on a reception time together with reception data; Data output control means for extracting received data relating to the user from the received data holding means and providing the data in accordance with a request from the user of the type notification device.
[0043]
By using the report management system of claim 15, as in the case of claim 1, a report signal including voices and identification codes before and after the occurrence of an abnormality can be transferred from the portable report device to the management center. If the user requests the management center, the user can acquire the information held in the management center together with the data reception time.
[0044]
Therefore, when proving the fact that the attacker was attacked by the attacker, identifying the attacker, or proving the unjustity of the onerous contract signed by the attacker to avoid danger, The information obtained from the management center is useful.
In addition, since the data of the notification signal transmitted from the portable notification device can be stored in the security-controlled management center, the data cannot be falsified by a user or a third party. Therefore, the reliability of the information that can be obtained from the management center increases, and the value of the information increases.
[0045]
According to a sixteenth aspect of the present invention, in a report management system including a portable notification device and a management center that receives a notification signal transmitted by radio waves from the portable notification device, the portable notification device is integrally formed with a mobile phone. Along with the portable notification device, a voice recording unit that captures and records voice information, an abnormality detection unit that detects an abnormal situation, a transmission request unit that outputs a transmission request according to a manual operation, Voice recording control means for continuously recording passing voice information in the voice recording means, and when an abnormal situation is detected by the abnormality detection means, or when a transmission request is output from the transmission request means, The information including the past voice information previously recorded in the voice recording means and the identification code assigned to the own station is transmitted to the management center as a report signal. Message transmission control means for receiving the notification signal arriving from each portable notification device, and recording and holding the information of the reception time together with the reception data; and A reception data transmission unit for transmitting information including the reception data held in the reception data holding unit to a specific registered contact address is provided.
[0046]
By using the report management system of claim 16, it is possible to transfer a report signal including the sound and the identification code before and after the occurrence of the abnormality from the portable report device to the management center as in claim 1.
In addition, the management center can automatically report information including received data to a pre-registered contact based on the received report signal or manually by a monitor.
[0047]
Therefore, not only can it be used for post-processing of an incident that has occurred, it is also possible to stop the progress of the situation by contacting an appropriate partner (for example, police) when the incident occurs.
Further, the management center does not need to constantly monitor, but only needs to monitor when a notification signal is received due to the occurrence of an incident, so that more users can be monitored. It is superior to conventional monitoring systems in that it can be monitored independently of the user's location.
[0048]
BEST MODE FOR CARRYING OUT THE INVENTION
Various embodiments of the portable notification device and the notification management system of the present invention will be described below with reference to FIGS.
1 to 8 are block diagrams each showing a configuration example of a portable notification device. 9 to 11 are flowcharts each showing an example of an abnormality detection operation of the portable notification device. 12 to 14 are schematic diagrams illustrating an operation example of the portable notification device. 15 and 16 are perspective views showing an operation example of the portable notification device. FIG. 17 is a schematic diagram illustrating an operation example of the portable notification device. 18 and 19 are block diagrams illustrating a configuration example of the vibration detection sensor. FIG. 20 is a front view showing an example of the arrangement of the vibration detection sensors. FIG. 21 is a block diagram illustrating a configuration example of a portable notification device. FIG. 22 and FIG. 23 are block diagrams each showing an operation example of the notification management system.
[0049]
The voice recording means, the abnormality detecting means, the transmission requesting means, the voice recording control means and the notification transmission control means of the first embodiment are respectively provided in the memory 13, the vibration sensor 16, the button 18, the CPU (microprocessor) 19 and the CPU 19, respectively. Corresponding.
Further, the imaging means of claim 2 corresponds to, for example, the TV camera 210. Further, the imaging means, the image holding means, the image recording control means, the abnormality detection means, the transmission request means and the notification transmission control means of the third aspect are, for example, a TV camera 210, a memory 23, a CPU 29, a vibration sensor 26, a button 28, This corresponds to the CPU 29.
[0050]
The time information generating means and the time processing means in claim 4 correspond to, for example, the clock 43 and the CPU 42, respectively. The position information acquisition unit, the position information holding unit, and the position recording control unit in claim 5 correspond to, for example, a GPS (Global Positioning System) position detector 53, a memory 54, and a CPU 52, respectively.
The time information generating means, the position information obtaining means, the position information holding means and the position recording control means in claim 6 correspond to, for example, the clock 68, the receiving circuit 64, the recording memory 65 and the CPU 62, respectively. The position detecting means, the position information registering means, and the position information comparing means in claim 7 correspond to, for example, step 74, step 73, and step 75 (76), respectively.
[0051]
The position information registration control means of claim 8 corresponds to step 87 (88). The reference image holding unit and the image comparison unit in claim 11 correspond to, for example, the image memory 324 and the CPU 39, respectively. The vibration detecting means of claim 13 corresponds to, for example, an A / D (analog / digital) converter 162.
(First Embodiment)
As shown in FIG. 1, the portable notification device of this embodiment includes a microphone 11, an A / D converter 12, a memory 13, a transmission amplifier 14, an antenna 15, a vibration sensor 16, an A / D converter 17, and a button (switch) 18. And a CPU 19. Further, this portable notification device is configured integrally with a mobile phone.
[0052]
The voice uttered by a user or an attacker carrying the portable notification device is converted into an electric signal by the microphone 11 and converted into a digital signal by the A / D converter 12.
Audio data output from the A / D converter 12 is input to the memory 13 and the CPU 19. Under the control of the CPU 19, the memory 13 always stores the input audio data, and arranges the audio data in the storable area in order.
[0053]
Normally, the storable area on the memory 13 is finite, so when all the areas are full of audio data, the stored data is overwritten with new audio data in order from the area where the oldest audio data is recorded. I do.
Therefore, at any point in time, all the audio data captured from the point in time tx, which is a predetermined period (T) earlier, to the point in time, from the present, to the present ty are stored in the memory 13.
[0054]
The vibration sensor 16 is used for detecting an abnormality. An analog signal output from the vibration sensor 16 is converted into a digital signal by the A / D converter 17 and input to the CPU 19.
The CPU 19 constantly monitors the magnitude and fluctuation pattern of the amplitude of the audio data input from the A / D converter 12 and the vibration data input from the A / D converter 17, and automatically identifies the occurrence of an abnormality.
[0055]
For example, when a sound larger than a predetermined threshold is detected, a vibration larger than the threshold is detected, or a sound or vibration of a predetermined fluctuation pattern is detected, it is determined that an abnormality has occurred.
The button 18 is used to give a report transmission instruction by a manual operation of the user.
[0056]
The CPU 19 detects the occurrence of an abnormality from the audio data input from the A / D converter 12 or the vibration data input from the A / D converter 17 or detects the operation of the button 18 as follows. To start transmitting the notification signal.
[0057]
When transmitting the notification signal, the data of the identification code individually assigned to each device is transmitted first, and then the current voice data output from the A / D converter 12 and the current voice data stored in the memory 13 are stored. And the past voice data. In this case, the transmission data is modulated and amplified by the transmission amplifier 14 and transmitted from the antenna 15 as radio waves.
[0058]
Therefore, when an abnormality such as an incident occurs, the notification signal can be transmitted automatically or by operating the button 18 by the user. Further, the notification signal includes audio data recorded from a time T before the transmission start time, audio data captured after the transmission start time, and an identification code.
The identification code may be registered in the memory 13 or in a ROM or flash memory built in the CPU 19 in advance.
[0059]
Note that the memory 13 is not necessary when there is no need to transmit audio data before the transmission start time.
(Second embodiment)
As shown in FIG. 2, the portable notification device of this embodiment includes a microphone 11, an A / D converter 12, a memory 13, a transmission amplifier 14, an antenna 15, an A / D converter 17, a button 18, a CPU 19, and an analog input terminal 110. And a digital input terminal 111. Further, this portable notification device is configured integrally with a mobile phone.
[0060]
Further, a radiation sensor 112 and a heat sensor unit 113 can be connected to the versatile analog input terminal 110 and the versatile digital input terminal 111, respectively, as shown in FIG. 2, for example.
Further, depending on the application, for example, a living body measurement sensor such as a sphygmomanometer, an optical sensor, a gas sensor, a pressure sensor, a magnetic sensor, an ultrasonic sensor, a temperature sensor, or the like is connected to the analog input terminal 110 or the digital input terminal 111 for use. May be.
[0061]
In FIG. 2, elements corresponding to those in FIG. 1 are denoted by the same reference numerals. Detailed description of the same parts as those in the first embodiment will be omitted.
As in the first embodiment, the audio captured by the microphone 11 is converted into a digital signal by the A / D converter 12 and recorded in the memory 13.
The CPU 19 constantly monitors a signal input from the analog input terminal 110 or the digital input terminal 111, and checks a signal value, a magnitude of an amplitude, or a fluctuation pattern to identify the presence or absence of an abnormality.
[0062]
When the CPU 19 detects the occurrence of an abnormality or when a transmission start instruction is input from the button 18 by a user operation, the CPU 19 starts transmitting a notification signal.
The content of the notification signal to be transmitted is the same as in the first embodiment.
In this embodiment, since a sensor for detecting an abnormality can be externally provided to the analog input terminal 110 or the digital input terminal 111, the type of the sensor to be connected can be changed according to the application or purpose.
[0063]
For example, as shown in FIG. 2, the following effects can be obtained by carrying a portable communication device to which a radiation sensor 112 or a heat sensor unit 113 is connected to an employee working in a facility related to radioactive materials.
In other words, even if an accident occurs and the employee at the site dies, and the situation of the accident must be estimated, the work performed before the accident and the work performed before the accident occurred can be determined from the audio information recorded at the destination. It is possible to specify the instructor and the person who performs the work.
[0064]
(Third embodiment)
As shown in FIG. 3, the portable notification device of this embodiment includes a microphone 11, an A / D converter 12, a memory 13, a transmission amplifier 14, an antenna 15, a vibration sensor 16, an A / D converter 17, a button 18, a CPU 19, Data compressors 114 and 115 are provided. Further, this portable notification device is configured integrally with a mobile phone.
[0065]
In FIG. 3, elements corresponding to those in FIG. 1 are denoted by the same reference numerals. Detailed description of the same parts as those in the first embodiment will be omitted.
Data compressors 114 and 115 are added to the portable notification device of FIG. The data compressor 114 compresses audio data output from the A / D converter 12 and outputs the compressed data to the memory 13. Therefore, the audio data is stored in the memory 13 in a compressed state.
[0066]
The data compressor 115 compresses the compressed audio data output from the memory 13 to a higher level before transmission.
As in the first embodiment, when the CPU 19 detects an abnormal state or outputs a report transmission instruction by the button 18, transmission of the report signal is started.
The transmitted notification signal includes an identification code, past audio data recorded in the memory 13, and audio data taken in from the microphone 11 after the start of transmission. However, the audio data has been compressed by the data compressors 114 and 115.
[0067]
In this embodiment, the audio data is recorded in the memory 13 in a compressed state, so that the audio data for a longer time can be recorded in the memory 13. Further, since the compressed audio data is transmitted as the notification signal, the transmission of the audio data can be completed in a shorter time.
(Fourth embodiment)
As shown in FIG. 4, the portable notification device of this embodiment includes a microphone 21, an A / D converter 22, a memory 23, a transmission amplifier 24, an antenna 25, a vibration sensor 26, an A / D converter 27, a button 28, a CPU 29, A TV camera 210, an A / D converter 211, and data compressors 212 and 213 are provided. Further, this portable notification device is configured integrally with a mobile phone.
[0068]
As in the first embodiment, the voice uttered by a user or an attacker carrying the portable notification device is converted into an electric signal by the microphone 21 and converted into a digital signal by the A / D converter 22.
[0069]
The audio data output from the A / D converter 22 is input to the memory 23 and the CPU 29. Under the control of the CPU 29, the memory 23 always stores the input audio data, and arranges the audio data in the storable area in order.
Normally, the storable area on the memory 23 is finite, so when all the areas are full of audio data, the stored data is overwritten with new audio data in order from the area where the oldest audio data is recorded. I do.
[0070]
Therefore, at any time, the memory 23 stores all the audio data captured from the time tx to the current ty by a predetermined period (T) before the present.
The vibration sensor 26 is used for detecting an abnormality. An analog signal output from the vibration sensor 26 is converted into a digital signal by the A / D converter 27 and input to the CPU 29.
[0071]
The CPU 29 constantly monitors the magnitude and fluctuation pattern of the amplitude of the audio data input from the A / D converter 22 and the vibration data input from the A / D converter 27, and automatically identifies the occurrence of an abnormality.
For example, when a sound larger than a predetermined threshold is detected, a vibration larger than the threshold is detected, or a sound or vibration of a predetermined fluctuation pattern is detected, it is determined that an abnormality has occurred.
[0072]
The button 28 is used for giving a report transmission instruction by a user's manual operation.
The CPU 29 detects the occurrence of an abnormality from the audio data input from the A / D converter 22 or the vibration data input from the A / D converter 27, or detects the operation of the button 28 as follows. To start transmitting the notification signal.
[0073]
At the same time, the CPU 29 instructs the TV camera 210 to start shooting. A video signal captured by the TV camera 210 is converted into a digital signal by an A / D converter 211, compressed by a data compressor 212, and applied to the transmission amplifier 24.
The CPU 29 first sends identification code data as a notification signal, and then sends audio data output from the A / D converter 22. Further, the past audio data stored in the memory 23 is read out, compressed by the data compressor 213 and then applied to the transmission amplifier 24.
[0074]
The transmission amplifier 24 first transmits the identification code as the notification signal, then the video data output from the data compressor 212, the audio data captured after the transmission of the notification signal is started, and the data compression extracted from the memory 23. The audio data is mixed with the past audio data, modulated and amplified, and transmitted from the antenna 25 as radio waves.
Note that the data compressors 212 and 213 may be omitted.
[0075]
By using this portable notification device, past audio data recorded before the start of transmission, audio data captured after the start of transmission, image data captured after the start of transmission, and an identification code are transmitted as a notification signal. .
(Fifth embodiment)
As shown in FIG. 5, the portable notification device of this embodiment includes a microphone 31, an A / D converter 32, a memory 33, a transmission amplifier 34, an antenna 35, a vibration sensor 36, an A / D converter 37, a button 38, a CPU 39, A TV camera 310, an A / D converter 311, a data compressor 312, a data compressor 323, an image memory 324, a button 325 and a reference image memory 326 are provided. Further, this portable notification device is configured integrally with a mobile phone.
[0076]
As in the fourth embodiment, the voice uttered by a user or an attacker carrying the portable notification device is converted into an electric signal by the microphone 31 and converted into a digital signal by the A / D converter 32.
[0077]
The audio data output from the A / D converter 32 is input to the memory 33 and the CPU 39. Under the control of the CPU 39, the memory 33 always stores the input audio data, and arranges the audio data in the storable area in order.
Normally, the storable area on the memory 33 is finite, so when all areas are full of audio data, the stored data is overwritten with new audio data in order from the area where the oldest audio data is recorded. I do.
[0078]
Therefore, at any time, the memory 33 stores all audio data captured from the time tx to the current ty by a predetermined period (T) before the present.
The vibration sensor 36 is used for detecting an abnormality. An analog signal output from the vibration sensor 36 is converted into a digital signal by the A / D converter 37 and input to the CPU 39.
[0079]
The CPU 39 constantly monitors the magnitude and fluctuation pattern of the amplitude of the audio data input from the A / D converter 32 and the vibration data input from the A / D converter 37, and automatically identifies the occurrence of an abnormality.
For example, when a sound larger than a predetermined threshold is detected, a vibration larger than the threshold is detected, or a sound or vibration of a predetermined fluctuation pattern is detected, it is determined that an abnormality has occurred.
[0080]
The button 38 is used to give a report transmission instruction by a manual operation of the user.
On the other hand, the TV camera 310 is used to capture an image. A video signal captured by the TV camera 310 is converted into a digital signal by the A / D converter 311 and applied to the image memory 324 and the CPU 39.
[0081]
Normally, shooting by the TV camera 310 is performed continuously. The image data output from the A / D converter 311 is continuously or periodically recorded in the image memory 324. The image data is sequentially arranged in a storable area.
Usually, the storable area on the image memory 324 is finite, so when all the areas are full of image data, the stored data is replaced with new image data in order from the area where the oldest image data is recorded. Overwrite.
[0082]
Therefore, at any time, the image memory 324 stores image data captured from the time tx, which is a predetermined period (T) before the current time, to the current time ty.
The reference image memory 326 is provided for recording a reference image. The button 325 gives an instruction to the CPU 39 to record the taken image in the reference image memory 326 as a reference image.
[0083]
The CPU 39 detects the occurrence of an abnormality from the audio data input from the A / D converter 32 or the vibration data input from the A / D converter 37 or detects an operation of the button 38 as follows. To start transmitting the notification signal.
At the same time, the CPU 39 sends the past image data recorded in the image memory 324 to the data compressor 312 to compress the data, and gives an instruction to send the compressed image data to the transmission amplifier 34.
[0084]
In addition, the CPU 39 applies the identification code data, the current audio data captured from the microphone 31, and the image data currently captured by the TV camera 310 to the transmission amplifier 34.
Further, the CPU 39 reads out the past audio data stored in the memory 33, compresses the data with the data compressor 323, and then applies the data to the transmission amplifier 34.
[0085]
The transmission amplifier 34 first outputs the identification code as the notification signal, and then outputs the previously captured image data output from the data compressor 312 and the currently captured image data output from the A / D converter 311. And the current audio data output from the A / D converter 32 and the past audio data output from the data compressor 323 are mixed and output. These data are modulated, amplified, and transmitted from the antenna 35 as radio waves.
[0086]
Therefore, it is possible to transmit not only the sound and the image indicating the state after the start of the transmission but also the sound and the image indicating the state before the start of the transmission.
Note that the data compressors 312 and 313 may be omitted. Further, the memory 33, the image memory 324, and the reference image memory 326 can be arranged in different areas on a single memory.
[0087]
(Sixth embodiment)
The portable notification device of this embodiment includes a circuit 41 and a clock 43 as shown in FIG. The circuit 41 includes a CPU 42. This embodiment is a modification of the above-described first to fifth embodiments. As the configuration of the circuit 41, it is assumed that any one of FIGS. 1 to 5 is used. The CPU 42 corresponds to any one of the aforementioned CPU 19, CPU 29, and CPU 39.
[0088]
That is, in this embodiment, a clock 43 is added. The clock 43 is assumed to be a circuit that can acquire time information. Therefore, for example, a radio clock can be used as the clock 43.
In this embodiment, the CPU 42 uses the current time of the clock 43 to add transmission time information to the notification signal, and then transmits the notification signal.
[0089]
(Embodiment 6-1)
The portable notification device of this embodiment includes a circuit 51, a GPS position detector 53, and a memory 54 as shown in FIG. The circuit 51 includes a CPU 52.
This embodiment is a modification of the above-described first to sixth embodiments. As the configuration of the circuit 51, it is assumed that any one of FIGS. 1 to 6 is used. The CPU 42 corresponds to any one of the CPUs 19, 29, 39, and 42 described above.
[0090]
The GPS position detector 53 receives radio waves from a plurality of GPS satellites and measures the current position of the own station. Instead of using the GPS position detector 53, the position can be detected by using a function of a mobile phone or a PHS. For example, by specifying the base station of the mobile phone or PHS closest to the own station, the position of the base station can be approximately recognized as the position of the own station.
[0091]
In this embodiment, the CPU 52 acquires data of the current position from the GPS position detector 53 at regular intervals (constant cycle), and writes the acquired position data to the memory 54. The position data is arranged on the memory 54 in order.
However, since the capacity of the memory 54 is limited, the memory 54 becomes full when a predetermined amount of position data is written. In that case, data in the memory 54 is overwritten with new position data in order from the storage area where the oldest position data is recorded.
[0092]
Therefore, at any point in time, the position data captured from the point in time before the present by a predetermined period (T) to the present is accumulated in the memory 54.
At the start of transmitting the notification signal, the CPU 52 reads out the position data stored in the memory 54 and transmits it together with other data.
(Seventh embodiment)
The portable notification device of this embodiment includes a circuit 61, an antenna 63, a receiving circuit 64, a recording memory 65, a reference memory 66, and a switch 67 as shown in FIG. The circuit 61 includes a CPU 62 and a clock 68.
[0093]
This embodiment is a modification of the above-described fifth embodiment. The circuit 61 includes the circuit 41 and the clock 43 shown in FIG.
The receiving circuit 64 performs wireless communication with a base station closest to the mobile phone or the PHS via the antenna 63, and acquires its own position using a position providing service. Note that the position can be detected by using GPS.
[0094]
The recording memory 65 records the position data detected by the receiving circuit 64 and the time data obtained from the clock 68.
The reference memory 66 is used to store position data for comparison. The switch 67 is provided to specify a time interval for acquiring position data. That is, the CPU 62 controls the recording memory 65 periodically at regular intervals to store the position data, but can operate the switch 67 to change the storage interval of the position data.
[0095]
In the reference memory 66, position data of a predetermined position determined in advance is registered.
The CPU 62 controls the receiving circuit 64 at a cycle shorter than the storage interval of the position data to acquire the position data, and acquires time data at the time of acquiring the position data from the clock 68.
Next, the CPU 62 searches the reference memory 66 to identify whether or not a position corresponding (for example, coincident) with the position data acquired from the receiving circuit 64 is registered in the reference memory 66 as a specific position.
[0096]
When the position data acquired from the receiving circuit 64 is registered as a specific position in the reference memory 66, or when the position data is acquired in a recording cycle of the position data, the position data and the time data are Are recorded in the recording memory 65 in pairs.
If nothing happens as it is, the recording memory 65 will eventually become full of data, and thereafter the data will be overwritten in order from the oldest data. With this operation, the position data and the time data for a certain period are always recorded in the recording memory 65.
[0097]
When the transmission of the notification signal is started, the CPU 62 reads out the position data and the time data from the recording memory 65 and transmits them together with other data.
Therefore, the recording cycle of the position data can be arbitrarily changed using the switch 67. Further, for example, when the portable notification device enters a position recorded in the reference memory 66, the time can be recorded precisely regardless of the recording cycle.
[0098]
Further, when the recording cycle of the position data is not constant as in this portable notification device, it is difficult to specify the time corresponding to the position from the position data. Is transmitted, the position and the time can be easily associated with each other.
(Eighth embodiment)
A portable notification device of this embodiment will be described with reference to FIG. The portable notification device of this embodiment includes a means for detecting a position as shown in FIG. 7 or FIG. The basic configuration of the portable notification device is assumed to be the same as that of the above-described first to sixth embodiments.
[0099]
In the following description, the case where the portable notification device of FIG. 8 is controlled will be described.
In this embodiment, the control CPU 62 carries out the processing shown in FIG. 9 in order to identify whether or not an abnormality has occurred.
In step 73 of FIG. 9, the specific position data is registered in the reference memory 66.
[0100]
In the next step 74, new position data is acquired from the receiving circuit 64.
In the next step 75, it is determined whether or not the position data obtained in step 74 has already been registered in the reference memory 66. If it has been registered, the process returns to step 74, and if it has not been registered, the process proceeds to step 76.
In step 76, it is determined that an abnormality has occurred, and an abnormal state detection signal is transmitted.
[0101]
In this embodiment, when the user moves to a new position that is not registered in the reference memory 66, the occurrence of an abnormality is detected, and the transmission of the notification signal can be automatically started accordingly.
[0102]
When a wide range of area information is provided as position data as in a position information providing service of a mobile phone, for example, in the comparison between the position data in step 75, a simple match determination may be performed.
However, in the case where fine position coasting information is obtained, as in the case of GPS, for example, it is necessary to perform a process in which the distance between the two points in the comparison between the position data in step 75 is regarded as a match if the distance between the two points is within a certain value. is there.
[0103]
(Ninth embodiment)
The portable notification device of this embodiment will be described with reference to FIG. As shown in FIG. 8, the portable notification device of this embodiment includes a unit for detecting a position and a unit for acquiring time. The basic configuration of the portable notification device is assumed to be the same as that of the above-described first to sixth embodiments.
[0104]
In the following description, the case where the portable notification device of FIG. 8 is controlled will be described.
In this embodiment, the control CPU 62 performs the processing shown in FIG. 10 to identify whether or not an abnormality has occurred.
In step 83 of FIG. 10, the CPU 62 acquires new position data and current time data.
[0105]
In the next step 84, a search is made to determine whether or not the position data acquired in step 83 has already been registered in the recording memory 65. If it has not been registered yet, the process proceeds to step 85, and if it has already been registered, the process proceeds to step 89.
In step 85, it is determined that an abnormality has occurred, and an abnormal state detection signal is transmitted.
In the next step 86, it is determined whether or not the recording memory 65 is already full of data. If it is not full, go to step 87; if it is full, go to step 88.
[0106]
In step 87, the position data acquired in step 83 and the data of the acquisition time are registered as a pair in a new recording area on the recording memory 65.
In step 88, the position data acquired in step 83 and the data of the acquisition time are recorded as a pair in the recording memory 65. In this case, in the recording area on the recording memory 65, the data in the area where the oldest data is recorded is replaced with new data and overwritten.
[0107]
In step 89, of the contents of the area on the recording memory 65 where the matching data is recorded, only the time data forming the position data pair is replaced with the new data.
After any of steps 87, 88, and 89, the process returns to step 83, and this operation is repeated.
[0108]
In this embodiment, when the user moves to a position that has not been registered, an abnormality is detected, and thus the transmission of the notification signal can be automatically started. Further, registration and change of a new location are automatically processed, so that the user can omit operations of registration and change of the location.
(Tenth embodiment)
A portable notification device of this embodiment will be described with reference to FIG. The portable notification device of this embodiment includes, for example, a microphone 11 or a vibration sensor 16 as shown in FIG. The basic configuration of the portable notification device is assumed to be the same as that of the above-described first to sixth embodiments.
[0109]
In the following description, a case will be described assuming that the portable notification device of FIG. 1 is controlled.
In this embodiment, the sound taken in by the microphone 11 is converted into a digital signal by the A / D converter 12 and is periodically input to the CPU 19 at fixed time intervals. The signal of the vibration detected by the vibration sensor 16 is converted into a digital signal by the A / D converter 17 and is periodically input to the CPU 19 at a predetermined time interval.
[0110]
In this embodiment, the control CPU 19 executes the processing shown in FIG. 11 to identify the presence / absence of an abnormality. In the processing of FIG. 11, the presence / absence of an abnormality is identified based only on the detected vibration signal. However, the presence / absence of the abnormality can be identified by performing the same processing on the audio signal.
In step 96 of FIG. 11, the CPU 19 initializes a variable n used to record the number of occurrences to zero. This variable n is assigned to a register or a memory built in the CPU 19.
[0111]
In the next step 97, low-pass filter processing is performed on the vibration data output from the A / D converter 17. This removes high-frequency components and prevents malfunctions due to noise and the like.
Instead of the low-pass filter, a high-pass filter, a pan-degree pass filter, a normalizing filter, an adaptive filter, or the like may be used as needed, or a plurality of types of filters may be combined.
[0112]
In step 98, a small vibration component whose amplitude is equal to or less than a predetermined small threshold is removed from the input vibration data. As a result, it is possible to suppress occurrence of a malfunction due to a minute signal.
In step 99, the amplitude of the input vibration data is compared with a predetermined threshold (larger than the minute threshold in step 98).
[0113]
If the amplitude of the vibration data exceeds the threshold value in step 99, the process proceeds to step 910 and it is determined that an abnormality has occurred. Then, an abnormal situation detection signal is output, and the process returns to step 96.
If the amplitude of the vibration data is equal to or smaller than the threshold value in step 99, the flow advances to step 911 to check the value of the variable n. If the value of the variable n is 0, 1, or 2, the process proceeds to steps 912, 913, and 916, respectively.
[0114]
That is, when the value of the variable n is 0, the value of the variable n is changed to 1 in step 912, the current time is recorded as the first vibration occurrence time t1, and the process returns to step 97.
When the value of the variable n is 1 in step 911, the vibration generation interval V12 is obtained by subtracting the first vibration generation time t1 from the second vibration generation time t2 (current time) in step 913.
[0115]
Further, in the next step 914, it is determined whether or not the occurrence interval V12 is within a predetermined range. If the occurrence interval V12 is out of the range, the process returns to step 96. If the occurrence interval V12 is within the range, the value of the variable n is changed to 2 in step 915, the occurrence interval V12 is recorded, and the process returns to step 97.
When the value of the variable n is 2 in step 911, the vibration generation interval V23 is obtained by subtracting the second vibration generation time t2 from the third vibration generation time t3 (current time) in step 916.
[0116]
Further, in the next step 917, the vibration occurrence intervals V12 and V23 are compared. If the vibration occurrence intervals V12 and V23 are substantially equal, it is determined that an abnormality has occurred, an abnormal situation detection signal is output in step 918, and the process returns to step 96. Otherwise, return from step 917 to step 96.
Therefore, in this embodiment, when vibration of a certain intensity or more is applied, or when vibration is applied three times at equal intervals, occurrence of an abnormality can be detected and transmission of a notification signal can be automatically started. . Therefore, for example, even if the user does not operate the button 18, the transmission of the notification signal can be started only by hitting the mobile phone incorporating the mobile notification device three times.
[0117]
In this embodiment, three vibrations input at equal intervals are regarded as vibrations input in a specific pattern, that is, occurrence of an abnormality.
For example, if it is twice, there is a high probability that vibrations will continue to occur by chance, and there will be a large individual difference in the interval between the first and second taps. However, if it is three times, the probability of malfunction due to accidental vibration is small, and the interval between the first and second strikes and the interval between the second and third strikes are less individual differences, so it works more reliably. it can.
[0118]
However, various modifications can be considered for such a specific pattern. That is, it may be defined not only by the number of occurrences of vibration but also by any one of intensity, frequency, and statistical properties or a combination thereof.
(Eleventh embodiment)
The portable notification device of this embodiment will be described with reference to FIGS. In this embodiment, for example, it is assumed that a notification signal is transmitted using a portable notification device having the same configuration as that of the above-described third embodiment. However, the transmission order of the audio data has been changed as described below.
[0119]
In the following description, the case where the portable notification device shown in FIG. 3 is controlled will be described.
Also in this embodiment, the past voice data recorded in the memory 13 and the current voice data captured after the start of the transmission are transmitted as the notification signal. The audio data to be transmitted is compressed.
[0120]
Further, the past voice data and the current voice data captured after the start of the transmission are mixed and simultaneously transmitted as a notification signal.
In the operation example of FIG. 12, audio data D (1), D (2),..., D (n−2), D (n−1), D (N), D (n + 1), D (n + 2), D (n + 3), D (n + 4),... Are sequentially output. In this example, the transmission of the notification signal is started after the appearance of the audio data D (n).
[0121]
Therefore, at the start of transmission, the audio data D (1), D (2),..., D (n-2), D (n-1), D (n) are compressed, It is recorded on the memory 13.
In this embodiment, as shown in FIG. 12, in the transmission data modulated as the notification signal and output from the transmission amplifier 14, the identification code data is arranged first, and then the current voice data captured after the start of the transmission. Data D (n + 1), D (n + 2), D (n + 3),... And past audio data D (n), D (n−1), D (n−2),. Are alternately arranged and mixed for each unit data.
[0122]
Also, the current audio data D (n + 1), D (n + 2), D (n + 3),. ., D (n−1), D (n−2),... Recorded in the order of the transmission data in the direction going back in time Placed on top.
[0123]
When the transmission data is arranged in the order as shown in FIG. 12, for example, the operation as shown in FIG. 13 is realized.
In FIG. 13, it is assumed that the capture of audio data starts at time (recording time) ta1, and the transmission of the notification signal starts at time ta3. Further, in this example, it is assumed that the transmission of the notification signal is interrupted due to the occurrence of a disturbance or a failure when a certain time TA has elapsed from the start of the transmission.
[0124]
In the example of FIG. 13, the past audio data 1121 in the range of time ta2 to ta3 and the current audio data 1122 in the range of time ta3 to ta4 are transmitted before the transmission is interrupted. That is, it is possible to transmit all the audio data in the range from the time ta2 to the time ta4.
On the other hand, in the example of FIG. 14, it is assumed that the past audio data recorded in the memory 13 is transmitted from the beginning according to the recording order. In FIG. 14, it is assumed that the capture of audio data starts at time (recording time) tb1 and the transmission of the notification signal starts at time tb3. Furthermore, in this example, it is assumed that the transmission of the notification signal is interrupted due to the occurrence of a disturbance or a failure when a certain time TA has elapsed from the start of transmission.
[0125]
In the example of FIG. 14, the past audio data 1131 within the range of time tb1 to tb2 and the current audio data 1132 within the range of time tb3 to tb4 are transmitted before the transmission is interrupted. For this reason, the audio data in the range from time tb2 to time tb3 is lost.
However, the voice data within the range from time tb2 to time tb3 before the start of the transmission of the notification signal is very important. In the case where the past voice data is transmitted in the order of going back in time as shown in FIG. 12, even when the transmission is interrupted in the middle, the voice data in the time zone with high importance as shown in FIG. 13 can be reliably transmitted.
[0126]
(Twelfth embodiment)
In this embodiment, it is assumed that a portable notification device having the same configuration as that of FIG. 5 is used. That is, a video can be shot using the TV camera 310, and the shot image can be recorded as a reference image in the reference image memory 326 or the like.
[0127]
The operation of the portable notification device of this embodiment will be described on the assumption that the portable notification device of FIG. 5 is controlled. The detailed description of the same parts as those of the fifth embodiment will be omitted.
An image captured by the TV camera 310 is converted into digital data by an A / D converter 311 and input to the CPU 39. When the user operates the button 325, the CPU 39 records the image data captured at that time in the reference image memory 326 as a reference image.
[0128]
Thereafter, the CPU 39 constantly compares the image data to be photographed with the reference image recorded in the reference image memory 326. Then, when the two images to be compared match or when they no longer match, it is considered that an abnormality has occurred, and an abnormal situation detection signal is output. Thereby, the transmission of the above-mentioned notification signal is automatically started.
Here, as a condition used to determine the presence or absence of a match, for example, a difference between luminance values of two images, a sum of square differences, a maximum difference between luminance values, or a combination thereof may be used.
[0129]
In this embodiment, the portable notification device 126 can be used in an environment as shown in FIGS. 15 and 16, for example.
In the example of FIG. 15, the portable notification device 126 is placed indoors with the imaging surface facing the entrance door. In this state, when the user operates the button 325, the indoor image 127 showing the closed door is recorded on the portable notification device 126 as a reference image.
[0130]
After this, if no change occurs in the room, the input image is the same as the reference image (indoor image 127), so that no abnormal situation detection signal is output.
On the other hand, when an intruder appears as shown in FIG. 16, the input image 128 does not match the indoor image 127, and the portable notification device 126 outputs an abnormal situation detection signal. Therefore, transmission of the notification signal is automatically started.
[0131]
However, for example, in an environment in which an abnormal situation can be assumed in advance and an image of the situation can be registered as a reference image, control is performed so that transmission of a notification signal is started when the reference image and the input image match. Is also good.
(Thirteenth embodiment)
A portable notification device of this embodiment will be described with reference to FIG. In this embodiment, for example, it is assumed that a notification signal is transmitted using a portable notification device having a configuration similar to that of the above-described fifth embodiment.
[0132]
That is, as shown in FIG. 5, a case where a video can be photographed using the TV camera 310, and a portable reporting device that takes out previously photographed image data from the image memory 324 and transmits it in a report signal is transmitted. Is assumed. However, the transmission order of the image data has been changed as described below.
In the following description, the case where the portable notification device shown in FIG. 5 is controlled will be described.
[0133]
Also in this embodiment, the past image data recorded in the image memory 324 and the current image data captured after the start of the transmission are transmitted as the notification signal. The image data to be transmitted is subjected to data compression.
Further, the past image data and the current image data captured after the start of the transmission are mixed and transmitted at the same time as the notification signal.
[0134]
17, the image data D (1), D (2),..., D (n-2), D (n-1), D (N), D (n + 1), D (n + 2), D (n + 3), D (n + 4),... Are sequentially output. In this example, the transmission of the notification signal is started after the appearance of the image data D (n).
[0135]
Therefore, at the start of transmission, the image data D (1), D (2),..., D (n-2), D (n-1), and D (n) are compressed, It is recorded on the image memory 324.
In this embodiment, as shown in FIG. 17, in the transmission data modulated as the notification signal and output from the transmission amplifier 34, the data of the identification code is arranged first, and then the current image captured after the start of the transmission. Data D (n + 1), D (n + 2), D (n + 3),..., And past image data D (n), D (n−1), D (n−2), Are alternately arranged and mixed for each unit data.
[0136]
The current image data D (n + 1), D (n + 2), D (n + 3),... Fetched after the start of transmission are arranged on the transmission data in the order of fetching. . 324 recorded in the past 324 are transmitted in order in the direction going back in time, contrary to the order of recording. Placed on the data.
[0137]
When the transmission data is arranged in the order as shown in FIG. 17, the operation as shown in FIG. 13 is realized as in the case of the audio data transmitted in the eleventh embodiment. In other words, even if the transmission is interrupted, all image data (1121, 1122) photographed in the time period before and after the transmission is started is completed before the transmission is interrupted. Images in high time zones are not lost.
[0138]
(14th embodiment)
A specific example of a vibration detection sensor that can be used in the portable notification device of the present invention will be described with reference to FIGS.
In this embodiment, a vibration detection sensor is configured using a vibrator 161 incorporated in a mobile phone.
[0139]
As shown in FIG. 19, the vibrator 161 includes an eccentric weight 167 and an electric motor 166 for driving the weight.
When vibration 163 is applied to vibrator 161 from the outside, weight 167 mounted on vibrator 161 rotates, and electric motor 166 connected to weight 167 rotates. As a result, an electromotive force is generated in the electric motor 166.
[0140]
Therefore, as shown in FIG. 18, an analog input terminal of the A / D converter 162 is connected to the electrode of the electric motor 166 so that the electromotive force of the electric motor 166 can be measured.
Note that when vibration in the direction connecting the center of gravity of the weight 167 and the rotation axis is applied as in the vibration 164 shown in FIG. 19, or when vibration in the rotation axis direction is applied as in the vibration 165, these vibrations must be detected. Can not.
[0141]
However, when an abnormality occurs in a practical use environment, the vibration 163 always occurs, so that the abnormality can be detected without any problem. For example, when a mobile phone falls, it is rare that the mobile phone falls in either direction of the vibration 164 or 165 and continues to move only in the same direction after the fall. Since the operation is accompanied, a force in the rotation direction acts on the weight 167.
[0142]
Further, for example, as shown in FIG. 20, if the shaft 1631 of the vibrator is aligned with the long axis 1632 of the mobile phone, the weight 167 becomes easy to rotate in the direction 1633 in which the mobile phone rolls easily, so that more reliable vibration Detection becomes possible.
A vibration sensor configured using such a vibrator 161 tends to detect low-frequency vibration more strongly than a general vibration sensor. Therefore, if the signal detected from the vibrator 161 is used as it is, abnormal vibration may be erroneously detected even when the user holds the mobile phone by hand as usual. Therefore, in order to prevent such erroneous detection, the vibration data output from the A / D converter 162 is subjected to a filtering process (a low-pass filter or a band-pass filter) to remove unnecessary low-frequency components, and then the presence or absence of an abnormality is determined. It is desirable to identify
[0143]
(Fifteenth embodiment)
The portable notification device of this embodiment includes a circuit 171 and a telephone number recording memory 173 as shown in FIG. The circuit 171 is assumed to be the main part of the portable notification device shown in any of the above-described FIGS. The circuit 171 includes a CPU 172.
[0144]
Further, this portable notification device is configured integrally with a mobile phone. The telephone number recording memory 173 is configured by a flash memory, and holds information on its own telephone number registered in the integrated mobile phone in advance.
The portable notification device in FIG. 21 starts transmission of a notification signal upon detecting occurrence of an abnormality or upon detecting a transmission start instruction from a user, similarly to the above-described embodiments. In this embodiment, the telephone number of the own station stored in the telephone number recording memory 173 is used as the identification code added to the notification signal.
[0145]
By using the telephone number as the identification code, the user can be provided with the convenience of replacing the mobile phone without having to re-register the identification code. It is possible to provide security convenience without having to output the identification code information to the outside.
(Sixteenth embodiment)
A report management system of this embodiment will be described with reference to FIG. As the portable notification device 183 used in this embodiment, the portable notification device described in any of the above embodiments can be used.
[0146]
As shown in FIG. 22, when the user 182 having the portable notification device 183 is damaged by the attacker 181, the portable notification device 183 automatically or manually operates according to the above-described operation. A notification signal including such an identification code and voice data or image data is transmitted by radio waves.
This notification signal is received by the data management center 184. The data management center 184 accumulates information included in the received notification signal together with information on the reception time as record data 185, and manages the information by classifying the identification code.
[0147]
It is assumed that the security of the recorded data 185 is ensured in the data management center 184 so that data cannot be falsified by a third party including the user 182 as well as the attacker 181.
In the example of FIG. 22, it is assumed that the business company 186 provides the service of this system. Therefore, the user 182 who has encountered a case or the like issues a data submission request 187 to the business company 186 when the recorded data 185 as evidence becomes necessary after the case occurs.
[0148]
In this case, the business company 186 authenticates that the data submission request 187 is from the user 182, and then gives a data submission instruction 188 to the data management center 184.
When the data management center 184 is operated by the same business company 186, the user 182 may directly send the data submission request 189 to the data management center 184.
[0149]
The data management center 184 executes data submission 1810 by passing a copy of the record data 185.
If the attacker engages in antisocial business such as push-sell, hypnosis, or catch bars, and the user suffers the damage, it is highly likely that the user cannot start sending a notification signal during the incident . However, since the portable notification device 183 used in this embodiment stores the voice data and the image data before the transmission of the notification signal in the memory as described above, the transmission of the notification signal is performed even after the incident. Once started, information such as important voice data during the occurrence of an incident can be transmitted as a notification signal and left on the data management center 184 as recorded data 185.
[0150]
Further, since the data recorded in the data management center 184 is not likely to be altered by a third party including the user 182, for example, the user 182 alters the data into false data as in the case where the user owns the data. There is no danger of being used, and data with high utility value can be obtained as evidence.
Also, the data is passed to the user 182 only when the user 182 requests the submission of the data. Therefore, if the user 182 does not request data submission, nothing happens and there is no fear of malfunction or false notification, and the user 182 can use this system easily.
[0151]
The user 182 exchanges data submitted from the data management center 184 to prove the fact that the attacker 181 has been attacked, to identify the attacker 181, or to avoid danger from the attacker 181. This can be useful in cases such as proving the unfairness of an adverse contract.
In addition, since the portable notification device 183 can start transmission automatically or by a simple operation, the user 182 can easily record the recording data 185 without being noticed by the attacker 181. Also, by indicating to the attacker 181 that the user 182 is a user of this system, it is possible to defeat the will of the attack and prevent the progress of the incident.
[0152]
(Seventeenth embodiment)
A report management system of this embodiment will be described with reference to FIG. As the portable reporting device 193 used in this embodiment, the portable reporting device described in any of the above embodiments can be used.
As shown in FIG. 23, when the user 192 having the portable notification device 193 is damaged by the attacker 191, the portable notification device 193 automatically or manually operates according to the above-described operation. A notification signal including such an identification code and voice data or image data is transmitted by radio waves.
[0153]
This notification signal is received by the data management center 194. In the data management center 194, information included in the received notification signal is stored as recording data 195 together with information on the reception time, and is managed by being classified for each identification code.
The data management center 194 or the business company 196 holds information on the pre-registered report destination 198. When the notification signal is received, the data management center 194 can perform the reception notification / data provision operation 1910 to the corresponding report destination 198, and can also perform the reception notification / data provision 197 to the business company 196. .
[0154]
It is assumed that the security of the recorded data 195 is secured in the data management center 194 so that the data cannot be falsified by a third party including the user 192 as well as the attacker 191.
Upon receiving the notification signal from the portable notification device, the data management center 194 records the data and the reception time as record data 195, and notifies the business company 196 of the reception and the provision of the received data. (197) is performed. If the business company 196 determines that it is necessary to contact the provided data automatically or by analyzing the contents of the data, it notifies the registered destination 198 of the reception and provides the data. (199) is performed.
[0155]
In the case where the data management center 194 is operated by the business company 196 itself, it is determined that the data received at the data management center 194 needs to be contacted automatically or by analyzing the contents of the data. In this case, a notification of reception and provision of data (1910) may be made to the report destination 198 registered in advance.
In the case of using the system of this form, the occurrence of the case can be confirmed from the data received by the supervisor of the business company 196 or the data management center 194, and the situation can be reported to the report destination 198 registered in advance. It is possible to contact the appropriate person at the time of the incident, rather than for post-processing, and to stop the progress of the situation.
[0156]
Also, since there is no need to constantly monitor, it is only necessary to monitor from the start of reception, so that more users can be monitored and monitoring can be performed regardless of the user's location. Better than surveillance systems.
On the other hand, the report destination 198 can not only receive the notification of reception but also grasp the situation encountered by the user 192 over a period of time before and after the reception by data such as voice and image, so that the most appropriate measures can be easily taken. Can be highly convenient. The system of this embodiment may be configured to be combined with the system of the sixteenth embodiment.
[0157]
In addition, since the above-described portable notification devices are all integrated with the mobile phone, the mobile notification device can be configured by using the components of the mobile phone, and the weight and cost of the device can be reduced. Becomes possible.
In addition, the user does not need to carry the portable notification device and the mobile phone separately. A company that provides a management service using this device can reduce the cost of deploying its own communication network.
[0158]
【The invention's effect】
According to the first aspect of the present invention, it is possible to transmit audio data representing not only the situation after the start of transmission but also the situation before the start of transmission. While a simple recorder can destroy or steal a recording device from an attacker, the device of the present invention transmits important information, so if it is received and recorded in a secure place, the data will be destroyed Don't worry.
[0159]
Further, since the sound before the start of the transmission is also transmitted, the history of the transmission start situation can be recorded, and the sound data having high evidence ability can be obtained. In addition, even if the transmission operation cannot be performed during the occurrence of the incident, the voice data during the occurrence of the incident can be transmitted after the fact.
In addition, since the apparatus can start transmission automatically or by a simple operation of the user, there is an effect that transmission can be performed even in an emergency state in which the user has little room to operate the apparatus. Further, since whether or not the transmitted voice data is to be used is determined by a user's ex-post judgment, the user can operate the apparatus easily.
[0160]
According to the second aspect of the present invention, since the image data after the start of the transmission is also transmitted, information having a higher evidence ability can be obtained.
According to the third aspect of the present invention, not only after the start of the transmission but also the image data representing the situation before the start of the transmission can be transmitted, so that information having a higher evidence ability can be obtained.
[0161]
According to the fourth aspect of the present invention, the time data before and after the start of transmission is also transmitted, so that information having higher evidence ability can be obtained.
According to the fifth aspect of the present invention, since the position data before and after the start of the transmission is also transmitted, information having a higher evidence ability can be obtained.
According to the invention of claim 6, since the position data before and after the start of the transmission and the time data at the position are also transmitted, information having a higher evidence ability can be obtained.
[0162]
According to the seventh aspect of the present invention, the transmission can be automatically started when the user moves out of the range of the position assumed in advance, so that the utility value is high in a situation where a lost child or a kidnapping has occurred.
[0163]
In the invention of claim 8, since the position is automatically registered each time the user moves to a new position, the operation for registering the position can be omitted.
According to the ninth aspect, transmission can be automatically started based on input voice data or vibration data. Therefore, transmission can be started even when the user is not in a situation where manual operation for starting transmission is possible.
[0164]
According to the tenth aspect of the present invention, even when transmission is interrupted halfway due to interference or failure, voice data near the transmission start point with high importance is transmitted first, so that data with high importance is transmitted. Can be transmitted reliably.
According to the eleventh aspect, an abnormality can be automatically detected based on a captured image and transmission can be started. Therefore, transmission can be started even when the user is not in a situation where manual operation for starting transmission is possible.
[0165]
According to the twelfth aspect of the present invention, even when the transmission is interrupted halfway due to interference or a failure, the image data near the transmission start point of high importance is transmitted first, so that the data of high importance is transmitted. Can be transmitted reliably.
According to the thirteenth aspect, the vibration is detected by using the vibrator, so that the vibration detecting function can be added without increasing the weight and cost of the apparatus.
[0166]
In the invention of claim 14, since the telephone number of the mobile phone is used as the identification code, there is no need for the user to re-register the identification code even if the user replaces the mobile phone.
In addition, the mobile phone company can obtain the effect that the identification code information that is not disclosed to the public is not output to the outside.
According to the invention of claim 15, data transmitted from the portable notification device can be managed and provided to the user in a specific data center where security is managed, so that the utility value of the data can be enhanced.
[0167]
According to the invention of claim 16, since the notification of the occurrence of the reception and the reception data can be provided to the contact registered in advance automatically or based on the judgment of the data management center, not only post-processing of the case but also At the time of the incident, the appropriate person can be contacted, which has the effect of stopping the progress of the situation. In addition, since it is not necessary to constantly monitor, and only to monitor from the start of reception, more users can be monitored. Furthermore, monitoring can be performed regardless of the user's location.
[0168]
In any case, the portable notification device of the present invention can start signal transmission automatically or by a simple and quick operation of the user. As a result, the device can operate without being noticed by the attacker, and even if noticed, transmission can be started before being hindered. Also, by enabling automatic operation, transmission can be started even in a situation where the user cannot take action.
[0169]
Whether or not to use the data transmitted from the portable notification device can be selected by the user. Therefore, the user can send a signal easily and psychologically, and the user can start transmission without hesitation when an emergency can be expected. It is possible to solve difficult problems.
In addition, by recording information obtained at the time of occurrence of an incident, it is possible to improve user convenience in post-processing. That is, the identification of the attacker and the proof of the attack fact are facilitated, and the rescue of civil or criminal users and the penalties for the attacker can be smoothly performed. Also, by making an attacker recognize the operation of the device, it is possible to suppress the will of attack and obtain a crime prevention effect. Furthermore, since the data of the accident occurrence status can be obtained at the time of the accident occurrence by giving it to the worker at the construction site, it is possible to conveniently identify the cause of the accident.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 2 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 3 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 4 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 5 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 6 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 7 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 8 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 9 is a flowchart illustrating an example of an abnormality detection operation of the portable notification device.
FIG. 10 is a flowchart illustrating an example of an abnormality detection operation of the portable notification device.
FIG. 11 is a flowchart illustrating an example of an abnormality detection operation of the portable notification device.
FIG. 12 is a schematic diagram illustrating an operation example of the portable notification device.
FIG. 13 is a schematic diagram showing an operation example of the portable notification device.
FIG. 14 is a schematic diagram showing an operation example of the portable notification device.
FIG. 15 is a perspective view showing an operation example of the portable notification device.
FIG. 16 is a perspective view showing an operation example of the portable notification device.
FIG. 17 is a schematic view illustrating an operation example of the portable notification device.
FIG. 18 is a block diagram illustrating a configuration example of a vibration detection sensor.
FIG. 19 is a block diagram illustrating a configuration example of a vibration detection sensor.
FIG. 20 is a front view showing an example of the arrangement of a vibration detection sensor.
FIG. 21 is a block diagram illustrating a configuration example of a portable notification device.
FIG. 22 is a block diagram illustrating an operation example of the notification management system.
FIG. 23 is a block diagram showing an operation example of the report management system.
[Explanation of symbols]
11,21,31 microphone
12,22,32 A / D converter
13,23,33 memory
14, 24, 34 transmission amplifier
15, 25, 35 antenna
16,26,36 Vibration sensor
17,27,37 A / D converter
18, 28, 38 buttons
19, 29, 39 CPU
41 circuits
42 CPU
43 clock
51 circuits
52 CPU
53 GPS position detector
54 memory
61 circuits
62 CPU
63 antenna
64 receiving circuit
65 Recording memory
66 Reference memory
67 switch
68 clock
110 Analog input terminal
111 Digital input terminal
112 radiation sensor
113 Thermal sensor unit
114,115 Data compressor
116 data
126 Portable notification device
127 indoor image
128 input image
161 vibrator
162 A / D converter
163,164,165 vibration
166 Electric motor
167 weight
171 circuits
172 CPU
173 phone number record memory
181 Attacker
182 users
183 Portable notification device
184 Data Management Center
185 Recorded data
186 business company
187 Data submission request
188 Data submission instruction
189 Data submission request
191 Attacker
192 users
193 Portable notification device
194 Data Management Center
195 Recorded data
196 business company
197 Receipt notification and data provision
198 Report destination
199 Notification of reception and provision of data
210 TV camera
211 A / D converter
212,213 Data compressor
310 TV camera
311 A / D converter
312,323 Data compressor
324 image memory
325 button
326 Reference image memory
1121,1122,1131,1132 data
1631 Vibrator shaft
1632 Long axis of mobile phone
1633 Rolling direction

Claims (16)

A portable notification device that is incorporated in a mobile phone and transmits a notification signal using radio waves when an abnormality occurs,
Voice recording means for capturing and recording voice information;
Abnormality detection means for detecting an abnormal situation;
Transmission request means for outputting a transmission request according to a manual operation;
Voice recording control means for continuously recording voice information for a certain period in the voice recording means,
When an abnormal situation is detected by the abnormality detecting means, or when a transmission request is output from the transmission requesting means, at least the past voice information recorded in the voice recording means and at least the previous voice information are assigned to the own station. And a notification transmission control means for transmitting information including the identification code as a notification signal. The portable notification device according to claim 1,
In addition to further providing imaging means for capturing an image,
The portable notification device, wherein the notification transmission control unit transmits information of an image captured by the imaging unit in the notification signal after transmission of the notification signal is started. A portable notification device that is incorporated in a mobile phone and transmits a notification signal using radio waves when an abnormality occurs,
Imaging means for taking an image;
Image holding means for holding information of an image taken by the imaging means for a certain period,
Image recording control means that continuously or periodically records information of an image taken by the imaging means in the image holding means,
Abnormality detection means for detecting an abnormal situation;
Transmission request means for outputting a transmission request according to a manual operation;
When an abnormal situation is detected by the abnormality detection unit, or when a transmission request is output from the transmission request unit, the image information including the past image held in the image holding unit is assigned to the own station. And a report transmission control means for transmitting information including the obtained identification code in the report signal and transmitting the report signal. The portable notification device according to claim 1 or 3,
Time information generating means for generating time information;
And a time processing unit for transmitting a notification signal transmission time or information acquisition time in the notification signal based on the time information generated by the time information generation unit, and transmitting the notification signal. . The portable notification device according to claim 1 or 3,
Position information acquisition means for acquiring position information representing the current position of the own station,
Position information holding means for holding the position information acquired by the position information acquisition means for a certain period,
Continuously or periodically, further provided with position recording control means for continuing to record the position information obtained by the position information holding means in the position information holding means, and the report transmission control means, the transmission of the report signal A portable notification device, wherein position information including a past position acquired before the start is included in the notification signal and transmitted. The portable notification device according to claim 1 or 3,
Time information generating means for generating time information;
Position information acquisition means for acquiring position information representing the current position of the own station,
A position information holding unit that holds the position information obtained by the position information obtaining unit and information of the acquisition time of the position information for a certain period of time,
Continuously or periodically, further provided with a position record control unit that continues to record the position information and the acquisition time information obtained by the position information holding unit in the position information holding unit, the notification transmission control unit, A portable notification device, wherein position information including a past position acquired before the start of transmission of the notification signal and the acquisition time of the position information are included in the notification signal and transmitted. The portable notification device according to claim 1 or 3,
In the abnormality detection means,
Position detecting means for detecting the current position of the own station;
Position information registration means for holding information of a predetermined position,
Position information comparing means for identifying the presence or absence of an abnormality based on a result of comparing the first position detected by the position detecting means with the second position held by the position information registering means. Characteristic portable notification device. 8. The portable notification device according to claim 7, further comprising: a position information registration control unit that automatically registers the acquired position information in the position information registration unit each time the position detection unit acquires new position information. A portable notification device characterized by the above-mentioned. 4. The portable notification device according to claim 1, wherein the abnormality detection unit detects a voice or a vibration having an intensity equal to or higher than a specific threshold or detects a voice or a vibration that matches a predetermined fluctuation pattern. A portable notification device characterized by the fact that an abnormality is determined when the notification is made. The portable notification device according to claim 1,
The notification transmission control means transmits the past voice information recorded in the voice recording means before the start of transmission of the notification signal, sequentially transmits the past voice information in order of going back in time, and the voice information captured after the start of transmission of the notification signal. The portable notification device is characterized by mixing and transmitting simultaneously. In the portable notification device according to claim 2 or 3,
In the abnormality detection means,
Reference image holding means for holding information of a predetermined reference image,
An image comparing means for identifying whether or not an abnormality has occurred based on a result of comparing an image taken by the image pickup means with a reference image held by the reference image holding means; apparatus. 4. The portable notification device according to claim 3, wherein the notification transmission control means sequentially transmits past image information held in the image holding means in order of going back in time before starting transmission of the notification signal. Portable notification device. The portable notification device according to claim 9,
A portable notification device further comprising vibration detection means for detecting vibration by measuring an electromotive force of a vibrator incorporated in the mobile phone. 4. The portable notification device according to claim 1, wherein the notification transmission control means uses a telephone number assigned to a mobile phone as the identification code. In a report management system including a portable reporting device and a management center that receives a reporting signal transmitted by radio waves from the portable reporting device,
The portable reporting device is configured integrally with a mobile phone, and the portable reporting device includes:
Voice recording means for capturing and recording voice information;
Abnormality detection means for detecting an abnormal situation;
Transmission request means for outputting a transmission request according to a manual operation;
Voice recording control means for continuously recording voice information for a certain period in the voice recording means,
When an abnormal situation is detected by the abnormality detecting means, or when a transmission request is output from the transmission requesting means, at least the past voice information recorded in the voice recording means and at least the previous voice information are assigned to the own station. Message transmission control means for transmitting information including the identified identification code to the management center as a notification signal,
In the management center,
Reception data holding means for receiving a notification signal arriving from each portable notification device and recording and holding information of reception time together with reception data,
A report management system, comprising: data output control means for extracting received data relating to the user from the received data holding means and providing the data in response to a request from a user of the portable notification device. In a report management system including a portable reporting device and a management center that receives a reporting signal transmitted by radio waves from the portable reporting device,
The portable reporting device is configured integrally with a mobile phone, and the portable reporting device includes:
Voice recording means for capturing and recording voice information;
Abnormality detection means for detecting an abnormal situation;
Transmission request means for outputting a transmission request according to a manual operation;
Voice recording control means for continuously recording voice information for a certain period in the voice recording means,
When an abnormal situation is detected by the abnormality detecting means, or when a transmission request is output from the transmission requesting means, at least the past voice information recorded in the voice recording means and at least the previous voice information are assigned to the own station. Message transmission control means for transmitting information including the identified identification code to the management center as a notification signal,
In the management center,
Reception data holding means for receiving a notification signal arriving from each portable notification device and recording and holding information of reception time together with reception data,
A report management system comprising: a reception data transmitting unit that transmits information including reception data held in the reception data holding unit to a specific contact registered in advance.

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