JP2000224334A - Crisis notice system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To allow many people to get the opportunity of utilizing an emergency notice by transmitting the emergency notice to the telephone terminals of an existing stationary telephone network or an existing mobile communication network. SOLUTION: A physical condition monitor section 119 collects and stores physical condition data from a physical condition state measurement sensor section 118 and discriminates whether or not an emergency message is to be transmitted to a destination. A GLONASS signal transmission control section 124 requests acquisiton of current position information to a GLONASS and a GLONASS signal reception control section 125 receives the current position information. A digital transmission data synthesis section 126 synthesizes an emergency message, transmission destination data, the current position information data and the physical condition data, and the synthesized data are transferred to a competent relay station exchange. The competent relay station exchange side translates the current position information data into a specific address data, processes the specific address data into voice data together with the physical condition data, synthesizes the voice data with the emergency message again and returns the resultant message to the competent relay exchange. The competent relay station exchange transmits the emergency message after being resynthesized with the voice data to a transmission destination.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a crisis notification system and, more particularly, to a crisis approaching or falling into a crisis due to an unexpected incident, accident, or sudden illness. In other words, the present invention relates to a crisis notification system in a situation where the crisis cannot be escaped without relying on other powers.

[0002]

2. Description of the Related Art In modern society, we have enjoyed the benefits of civilization, an invention that has opened up a new social life, but on the other hand, we cannot keep up with software and mental aspects. It is true that they have more opportunities to encounter unexpected cases and accidents. In addition, advances in medical technology have realized an aging society, and solitary elderly people are rapidly increasing.

[0003] Therefore, in these days, there is an increasing number of opportunities for a person to escape from a crisis state without the help of others, when a crisis approaches or falls into a crisis in his or her body. However, even in such fields, many precursor technologies are found.

[0004] Japanese Patent Application Laid-Open No. Hei 6-253042 discloses a technology that can be easily installed without special knowledge in a house for a solitary elderly person or a physically handicapped person, or in a store such as a convenience store.
An inexpensive "wireless security automatic notification system" is disclosed. That is, when the wireless automatic reporting device receives a security signal transmitted from the wireless transmitter provided in each of the above-described locations, a preset report destination is automatically called through the telephone line, and the stored message content is transmitted to the report destination. Report to.

Japanese Patent Application Laid-Open No. 7-59739 discloses a method for reporting a physical abnormality promptly even if the user cannot use his hand or loses consciousness. Machine "is disclosed. That is, the measuring device attached to the upper arm, the wrist, or the like of the human body measures the pulse and the blood pressure, and outputs a physical abnormality signal when the measured value exceeds the set range. When this signal is input, the wireless device emits an alarm sound and wirelessly reports a physical abnormality. The wireless device includes a cancel switch for stopping an alarm sound and a notification of a physical abnormality.

[0006] Japanese Patent Application Laid-Open No. 8-89483 discloses that if there is an abnormality in the body based on information from a sensor for detecting physiological information indicating the health condition of an individual such as body temperature, blood pressure, heart rate and the like. When a judgment is made, a "rescue requesting device" is disclosed in which a notification of a rescue request is sent to a desired contact to confirm with a carrier whether or not to cancel the notification.

[0007] Japanese Patent Application Laid-Open No. Hei 10-155749 discloses a life sensor that can be worn on a human body, which detects the pulse, movement, sound,
When receiving the transmission of the physiological information such as the body temperature, the life controller installed on the premises, when it is determined that the state is abnormal based on this information, notifies the monitoring center or the portable receiver for the paging of the caregiver “human health”. A state monitoring and reporting system "is disclosed.

Further, Japanese Patent Application Laid-Open No. H10-56522 is considered in view of the fact that a communication device using a transceiver as in the conventional emergency call system has a narrow communicable range and cannot notify an emergency position by map information. The "mobile phone emergency call system" is disclosed. In this system, the mobile phone is provided with a means for locating the current position by GPS, adding an emergency contact telephone number stored in advance to the positioning information, and transmitting the information to a base station exchange. And a facsimile signal transmitting means for transmitting the extracted map information to the emergency contact telephone number as a facsimile signal by extracting corresponding map information from the positioning information.

[0009]

However, the first problem of the above-mentioned prior art is that the method of expressing a mobile communication device that has a narrow communication utilization range or has transmitted an emergency call has been described.
It is limited to visuals on a map. Therefore, there is no problem if a display means using a map is provided, but it is not possible to communicate with telephone terminals and facsimile terminals of the fixed telephone network which is widely used in the world, and many people have an opportunity to use this system. It will hinder you.

[0010] The second problem is that a GPS (Global Positioning System:
Although it is based on position information from the Global Positioning System (GPS), GPS was originally built to measure the position of military vehicles, battleships, aircraft, etc. In addition, an error in SA (Selective Availability) that intentionally degrades the positioning accuracy for private users is included.

Therefore, an object of the present invention is to provide an emergency message transmission position information based on a GLO having higher position detection accuracy than GPS.
NASS (Global Orbiting Navigation Satellite Sys
tem: global satellite navigation system), translates the acquired location information into specific addresses, and converts the address data into voice to media, which makes it widely and widely used for fixed telephone networks and mobile phones. It is an object of the present invention to provide an emergency notification system that enables an emergency call by voice to a telephone or the like. When using GLONASS, 10 in the horizontal direction
From 0m to 60m, and vertically from 140m to 75m
Can be improved.

[0012]

According to a first aspect of the present invention, there is provided a crisis notification system which senses a change in a person's physical condition, and registers a physical condition and an emergency message at that point in time via GLONASS. It is characterized by automatically making a voice call to a contact.

An emergency notification system according to a second aspect of the present invention includes: an emergency message storage unit for storing an emergency message; an emergency message destination storage unit for storing an emergency message destination; A physical condition monitoring sensor unit that is in close contact with the human body in order to collect and accumulate data from the sensor unit to determine whether to transmit the emergency message to the destination, and an emergency message An emergency message transmission function block comprising an emergency message transmission control unit for managing operation control at the time of transmission, and a GLONASS signal transmission control for issuing a current position information acquisition request to a GLONASS satellite in order to specify a current point at which an emergency message is transmitted. And GLONASS
A current position specifying function block including a GLONASS signal reception control unit for receiving current position information from a satellite, a GLONASS transmission / reception branching unit for decomposing a radio signal for the GLONASS satellite into a transmission signal and a reception signal, and the emergency message storage unit Voice message stored in the emergency message transmission destination storage unit, the current position information data acquired by the GLONASS signal reception control unit, and the physical condition data acquired by the physical condition monitoring unit , An emergency message transfer function block for transferring the combined data to the responsible exchange, an in-network emergency message storage unit for storing the transferred message, and a current message from the stored message. An emergency message extractor for extracting position information data and the physical condition data; As a specific address information retrieval unit for translating the specific address data extracted current location information data,
A media conversion unit for converting the specific address data into voice along with the physical condition data, and an emergency message re-synthesis unit for re-synthesizing the vocalized data with the emergency message in the stored message and returning it to the responsible relay exchange Wherein the responsible relay station exchange transmits the recombined emergency message to the transmission destination stored in the network emergency message storage unit via a telephone network.

[0014] Further, the mobile phone terminal of the present invention further comprises a conventional mobile phone, the emergency message transmission function block,
The present point specifying function block and the data synthesizing function block are added.

According to the present invention, the performance of specifying a transmission position is improved by obtaining emergency message transmission position information by GLONASS having higher position detection accuracy than GPS.

Further, the emergency message sending position information is GL.
After being obtained as text data by ONASS,
It translates to a specific address, and converts the text data of the address into audio to media. This function is used to send a GLONA message from the corresponding emergency message to the relay exchange of the mobile communication network.
This is realized by having an emergency message extracting unit that extracts location information by SS, a specific address information searching unit, and a media converting unit that converts text data of an address into voice data and retransmits it to a mobile communication network. Things.

Further, when an active operation cannot be performed due to a sudden incident, accident, or sudden onset of illness, or in a situation where there is no human being who seeks rescue, an emergency is detected by detecting a sudden change in physical condition. The function of transmitting a message includes a physical condition measuring sensor unit for sensing a physical condition (blood pressure, pulse, body temperature) on the body, a physical condition monitoring unit for monitoring the physical condition and making a decision to transmit, and a physical condition monitoring unit. This is realized by having an emergency message transmission control unit that controls connection of a communication line to actually transmit an emergency message to the mobile communication network based on the determination.

According to the present invention, in order to acquire the emergency message transmission location information from GLONASS,
Since information having no SA error unique to S can be obtained, the position detection accuracy is improved, and the possibility of being able to leave the crisis state quickly is increased.

Further, the location information of the emergency message transmission is stored in the GL.
After being obtained as text data by ONASS,
By having a function of translating to a specific address and converting the text data of the address into a voice, the emergency message can be transmitted by voice to a widely used fixed telephone network, a mobile phone, or the like. As a result, the side receiving the emergency message can be handled by the existing communication terminal, and more people can use the crisis notification system and the emergency notification system.

[0020]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram of a portable telephone terminal in the crisis notification system of the present invention.

This portable telephone terminal is a mobile communication network shown in FIG. 2 and a G having an air interface with GLONASS.
It comprises a LONASS antenna unit 101 and a telephone antenna unit 102 having an air interface with a mobile communication network.

In communication with a mobile communication network, a radio signal is decomposed into a transmission signal and a reception signal by a transmission / reception branching unit 103.

Regarding the signal received from the mobile communication network,
The signal is demodulated by the demodulation unit 104 to the original signal frequency, and
05, and the audio data is received by the received audio control unit 107.
The control signal is sent to the reception signal control unit 106.

The receiving voice control unit 107 converts voice data into voice and transmits it to the receiving unit 108. The reception signal from the reception signal control unit 106 is sent to the transmission / reception control unit 114, and notifies the user that there is an incoming call through the normal call transmission / reception unit 115.

On the other hand, regarding transmission to a mobile communication network,
A line connection request is sent from the normal call transmission / reception unit 115 to the transmission / reception control unit 114. The destination phone number is dialing part 1.
Input at 16. The voice input from the transmitting unit 113 is sampled by the transmission voice control unit 112, transmitted to the encoding unit 110, and converted into a digital signal. The transmission control signal from the transmission / reception control unit 114 is the transmission control signal unit 11
1 and digitized by the encoding unit 110 together with the sampled audio data. Modulation section 109
Superimposes a digital signal on a predetermined carrier, and transmits the signal to a mobile communication network via a transmission / reception branching unit 103 and a telephone antenna unit 102.

The mobile phone terminal according to the present invention has an emergency message storage unit 122 for storing an emergency message and an emergency message for storing a destination telephone number or a mail address of the emergency message, in addition to the functional blocks of the conventional mobile phone. A transmission destination address storage unit 121, a physical condition measuring sensor unit 118 that closely adheres to the body and measures blood pressure, pulse, and body temperature, and collects and accumulates data from the physical condition measuring sensor unit 118 and transmits an emergency message. The system includes a physical condition monitoring unit 119 for determining whether or not the emergency message is transmitted, an emergency message manual transmission unit 120 for transmitting an emergency message by a user's own hand, and an emergency message transmission control unit 117 for managing operation control when the emergency message is transmitted.

Further, in addition to these emergency message transmission function blocks, a GLONASS signal transmission control unit 124 which issues a current position information acquisition request to the GLONASS satellite 127 in order to specify the current point where the emergency message is transmitted, a GLONASS satellite GLONASS signal reception control unit 125 for receiving the current position information from G.127, GL
GLONASS transmission / reception branching unit 123 for decomposing a wireless signal for ONASS into a transmission signal and a reception signal, and GLONASS
An SS antenna unit 101 is provided.

In response to a request from the emergency message transmission control section 117, the transmitted emergency message is composed of voice data stored in the emergency message storage section 122,
The destination address data stored in the emergency message destination address storage unit 121, the position information data acquired by the GLONASS signal reception control unit 125, and the physical condition monitoring unit 1
A digital transmission data synthesizing unit 126 is provided for synthesizing the position information data other than the voice, the destination address data, and the physical condition data.

During communication with GLONASS, a frequency selection unit (not shown) uses a GLONASS transmission / reception division unit 1
23 is realized.

The emergency message sent to the mobile communication network is sent to the network and the destination shown in FIG.

In FIG. 2, the emergency message is transmitted to the existing base station antenna 128, base station 129 and relay station 130.
After that, the system user is transferred to the responsible relay exchange 131 which collectively manages the system users.

The relay station exchange 131 has a network emergency message storage unit 132 for selecting and temporarily storing the transferred emergency message and a destination address data from the emergency message stored in the network emergency message storage unit 132. An emergency message extraction unit 133 for extracting location information data and physical condition data; a specific address information search unit 134 for translating the location information data into a specific address (address, building name, common name, etc.); Media conversion unit 1 that converts data and physical condition data from specific address information search unit 134 into voice
35, the emergency message held in the network emergency message storage unit 132, the voiced specific address data and the physical condition data, are synthesized again as voice, and
And an emergency message resynthesis unit 136 for returning to 1.

The urgent message which has been completely converted in this way is based on the transmission destination address which is already stored in the network emergency message storage unit 132 and registered in advance by the user in the emergency message transmission destination address storage unit 121. Via the fixed telephone network 137, the telephone terminal 138 of the destination address
Sent after the link with is established. Alternatively, it is transmitted after a link with a mobile terminal 139 such as a mobile phone terminal is established via the mobile communication network 142 as it is.

In the media conversion unit 135, transmission to the facsimile terminal 140 or personal computer 141 in the form of e-mail is performed according to the user's request.
Media conversion to achieve transmission to

Next, the operation of the embodiment of the present invention having the above configuration will be described.

FIGS. 3 and 4 are flowcharts showing the operation of the present crisis notification system. FIG. 3 is a front part (steps S201 to S211), and FIG.
212 to S222).

First, the transmission section 113 registers an emergency message in the emergency message storage section 122 (S step 201 in FIG. 3). At this time, the emergency message transmission control unit 117 confirms the presence or absence of the emergency message registration.

Thereafter, the emergency message transmission destination address is registered from the dial unit 116 to the emergency message transmission address storage unit 121 (S202). At this time,
The emergency message transmission control unit 117 confirms whether or not an emergency message transmission destination address is registered.

The emergency message transmission control section 117 receives an emergency message transmission request from the physical condition monitoring section 119 or the emergency message manual transmission section 120 (S20).
3) The presence of the emergency message and the destination address of the emergency message performed in the registration phase of steps S201 and S202 are confirmed. If the existence is not confirmed, the process returns to the state of waiting for registration of the emergency message (S204).

On the other hand, if the presence of the emergency message is confirmed (S204), the emergency message transmission control unit 117
A transmission position data acquisition request is sent to the GLONASS signal transmission control unit 124 (S205).

The GLONASS signal transmission control unit 124
The position data is collected from the GLONASS, and the collected data is stored in the digital signal data synthesis unit 126 via the GLONASS signal reception control unit 125. If the position data cannot be collected, a transmission position data acquisition request (S205)
(S206).

On the other hand, when the position data has been acquired, the emergency message transmission control unit 117 sends a physical condition data acquisition request to the physical condition monitoring unit 119 (S207).

The physical condition monitoring section 119 collects data such as blood pressure, pulse, and body temperature at the time of the acquisition request from the physical condition measuring sensor section 118, and converts the collected data to the digital signal data synthesizing section 1.
26, but returns to the state of the physical condition data acquisition request (S207) if the physical condition data cannot be collected (S20).
8).

After completing the above information acquisition, the emergency message transmission control unit 117 sends a request for synthesizing the emergency message transmission destination address, the physical condition data, and the position data to the digital signal data synthesizing unit 126 (S209).

After completion of the combining, a request for establishing a link with the corresponding relay station is first made in order to transmit an emergency message to the destination address (S210). If the link is not established, this operation is performed until the link is established (S21).
1).

After the link is established, the emergency message transmission control section 117 requests the digital transmission data synthesis section 126 and the transmission voice control section 112 to transmit an emergency message and collected data (step S212 in FIG. 4).

In the mobile switching center 131, the transmitted emergency message and the collected data are temporarily stored (S213) and sent to the emergency message extractor 133.

The emergency message extractor 133 extracts position data (S214), physical condition data (S215) and destination address data (S
216).

The extracted position data is translated into actual address information by the specific address information search unit 134 (S21).
7). The translated address and physical condition data are converted into voice by the media conversion unit 135 (S218).

The converted address data and physical condition data are synthesized as they are by the emergency message resynthesis unit 136 (S219).

The responsible switching center exchange 131 performs this combining (S
219) After confirmation, already extracted and held (S216)
Call the final destination terminal based on the destination address (S
220). If there is a response, the combined (S219) emergency message is transmitted (S222). If there is no response, the terminal returns to the call state of the final destination terminal (S220) and repeats the call until a response is made (S221).

The present invention described above can be applied to conventional portable telephone terminals and mobile communication networks.

That is, in the functional block of FIG.
Telephone antenna unit 102, transmission / reception division unit 103, demodulation unit 1
04, a decoding unit 105, a reception voice control unit 107, a reception signal control unit 106, a reception unit 108, a modulation unit 109, a normal call transmission / reception unit 115, a transmission / reception control unit 114, a dial unit 116, a transmission unit 113, The transmission voice control unit 112, the encoding unit 110, and the transmission control signal unit 111 are functional blocks of a conventional mobile phone terminal.

An emergency message storage unit 122 for storing an emergency message and an emergency message destination address storage unit 121 for storing a destination telephone number or a mail address of the emergency message are also included in the conventional mobile phone. This can be achieved by securing the memo function for the emergency message independently.

The present invention can be realized by adding the following three functional block groups to these conventional functions.

The first is to bring the blood pressure, pulse,
A physical condition measuring sensor unit 118 for measuring body temperature, and a physical condition monitoring unit 1 for collecting and accumulating data from the physical condition measuring sensor unit 118 and determining whether or not to transmit an emergency message.
19, an emergency message manual transmission unit 120 for transmitting an emergency message by a user's own hand, and an emergency message transmission control unit 11 for managing operation control when an emergency message is transmitted.
7 is a group of emergency message transmission function blocks.

The second is to identify the current location where the GLONASS emergency message was sent,
G that issues a current position information acquisition request to SS satellite 127
The lonass signal transmission control unit 124 and the glonass
GLONAS receiving current position information from satellite 127
S signal reception control section 125, GLONASS transmission / reception branching section 123 for decomposing a wireless signal for GLONASS into a transmission signal / reception signal, and a frequency for changing a frequency to be selected depending on whether the communication is GLONASS communication or communication with a mobile communication network. This is a current position specifying function block including a selection unit and a GLONASS transmission / reception branching unit 123.

Third, the destination address data stored in the emergency message destination address storage unit 121, the position information data acquired by the GLONASS signal reception control unit 125, and the physical condition acquired by the physical condition monitoring unit 119. This is a data synthesizing function including a digital transmission data synthesizing unit 126 that synthesizes data with text data.

Further, the mobile communication network side in FIG. 2 includes an in-network emergency message storage unit 132 for selecting and holding the transferred emergency message in the exchange 131 of the existing relay station,
An emergency message extracting unit 133 for extracting destination address data, position information data, and physical condition data, which are text data, from the emergency message (voice + text data) held in the network emergency message storage unit 132; A specific address information search unit 134 that translates a specific address (a street address, a building name, a common name, etc.) based on the information, and a media conversion unit that converts the data and physical condition data of the specific address information search unit 134 into voice. 135, the emergency message stored in the network emergency message storage unit 132, the voiced specific address data and the physical condition data, are again synthesized as voice, and returned to the responsible relay exchange 131. Transmission to facsimile terminal 140 or personal computer 14 in the form of e-mail
1 can also be realized).

An example of the operation of the crisis notification system having such a configuration will be described with reference to the flowcharts of FIGS. 5, 6, and 7. FIG. 5 shows the preceding part (steps S301 to S310), and FIG. 6 shows the middle part (step S3).
11 to S318), and FIG. 7 shows a subsequent stage (steps S319 to S318).
S328).

First, in a state of being used as a normal mobile phone (step S301 in FIG. 5), the transmitting section 11
From 3, the emergency message "Emergency occurrence, urgent rescue request (example)" is recorded (S302). This emergency message is stored in the emergency message storage unit 122 (S
303).

Thereafter, the dialing section 116 sends the destination address "03-
1234-5678 (example) "(S304).
This transmission destination address is stored in the emergency message transmission destination address storage unit 121 (S305).

The transmission of this emergency message is based on the fact that the physical condition monitoring unit 119 monitors the physical condition data measured at any time by the physical condition measuring sensor unit 118 worn on the body, and indicates that the body has fallen into a dangerous state. Is detected (S306),
Alternatively, only when a manual transmission operation has been performed on the emergency message manual transmission section 120 (S307), the emergency message is transmitted to the emergency message transmission control section 117 (S308). A state where the mobile phone can be continuously used as a normal mobile phone is maintained (S301).

After receiving the emergency message transmission request (S 308), the emergency message transmission control section 117 specifies the location where the transmission operation has been performed, in order to specify the location where the transmission operation was performed, the transmission position data acquisition request 30.
9 to the GLONASS signal transmission control unit 124 (S3
09).

The GLONASS signal transmission control unit 124
Latitude as position data from GLONASS satellite 127,
Longitude, height, azimuth (north latitude XX degrees YY minute ZZ seconds, east longitude xx
Degrees yy minutes zz seconds, sea level Hm, azimuth R degrees) and collect GL
The data is converted into text data and stored in the digital signal data synthesis unit 126 via the ONASS signal reception control unit 125 (S311 in FIG. 6). If location data is not available,
It returns to the state of the transmission position data acquisition request (S309) (S
310).

After obtaining the position data, the emergency message transmission control section 117 sends a physical condition data obtaining request (S312) to the physical condition monitoring section 119.

The physical condition monitoring unit 119 includes a blood pressure, a pulse, a body temperature (a systolic blood pressure HH, a diastolic blood pressure LL, a pulse rate P, a body temperature TT degree t, a fluctuation amount AA, BB, CC), and the collected data is converted into text data and stored in the digital signal data synthesizing unit 126 (S314). If the physical condition data cannot be collected, the state returns to the state of the physical condition data acquisition request (S312) (S312).
313).

After the completion of the acquisition of these two pieces of information, the transmission destination address converted into text data, the physical condition data and the position data are synthesized by the digital signal data synthesizing section 126 in order to construct an emergency message to be transmitted (S315).

After the completion of the combining, in order to transmit an emergency message to the transmission destination address, first, the responsible relay exchange 1
A request to establish a link with S.31 is made (S316). If the link is not established, this operation is repeated until the link is established (S317).

After the link is established, the emergency message transmission control unit 117 sends a signal to the digital transmission data synthesis unit 126
Text data (“03-12”) composed of the combined position data, destination address, and physical condition data (S315)
34-5678 "+" north latitude XX degrees YY minutes ZZ seconds, east longitude x
x degrees yy minutes zz seconds, sea level Hm, azimuth R degrees "+" systolic blood pressure HH, diastolic blood pressure LL, pulse rate P, body temperature TT degree t, fluctuation amounts AA, BB, CC ") to the established communication link. Send out.

Further, the control unit 112 causes the transmission / reception control unit 112 to transmit the emergency message ("emergency occurred, please rescue immediately") stored in the emergency message storage unit 122 to the established communication link (S318).

On the mobile switching center 131 side, the transmitted emergency message and the collected data 318 are received and held (S319 in FIG. 7), and sent to the emergency message extraction unit 133.

The emergency message extractor 133 extracts position data (S320), physical condition data (S321) and destination address data (S320) from the held data.
322).

The extracted position data (north latitude XX degrees YY minutes ZZ seconds, east longitude xx degrees yy minutes zz seconds, sea level Hm, azimuth R
Degree) (S320), the actual address information (Minato-ku, Tokyo ... OO building 5F) in the specific address information search unit 134
Etc.) (S323).

The translated address (S320) and physical condition data (S321) are converted into voice by the media conversion unit 135 (S324).

The address data and the physical condition data converted into the voice are sent to the emergency message re-synthesis unit 136 to indicate that an emergency has occurred.
Please rescue urgently, your current location is Minato-ku, Tokyo. . . . . . ○
○ Building 5F, current condition is systolic HH, diastolic L
L, pulse rate P, and body temperature TT degree t ”(S325).

The switching center exchange 131 has a synthetic voice (S
325) After confirmation, the final destination terminal is called based on the destination address (“03-1234-5678”) (S322) already extracted and held (S326).

If there is a response, the combined emergency message (S325) is transmitted (S327). If there is no response, the process returns to the state of calling the final destination terminal (S326) and repeats until a response is made (S328).

In the above description, if a plurality of emergency message destinations are set and the emergency message is transmitted to each set destination in a round-robin manner, the transmission rate of the emergency message is increased, It will be possible to assist in a quick departure from the condition.

[0081]

According to the present invention, the emergency message transmission location information is clarified by GLONASS, then translated into a specific address, and the address is converted into voice, so that the widely used fixed telephone network and portable telephone are used. By realizing an emergency call to a telephone or the like, an opportunity for many people to use a crisis notification and an emergency call is provided.

Further, the trigger for sending an emergency message is abrupt even when active operations cannot be performed due to sudden incidents, accidents, or sudden onset of illness, or in situations where no one is seeking rescue nearby. By sensing a change in physical condition, an emergency message can be transmitted by the above-described crisis notification method using GLONASS, and it is possible to quickly and more reliably leave the crisis state.

[Brief description of the drawings]

FIG. 1 is a block diagram of a mobile phone terminal in a crisis notification system using a GLONASS satellite of the present invention.

FIG. 2 is a block diagram of a network and a transmission destination in the crisis notification system using the GLONASS satellite of the present invention.

FIG. 3 is a flowchart of an embodiment of a crisis notification system using GLONASS sanitation according to the present invention.

FIG. 4 is a flowchart of one embodiment of the crisis notification system using GLONASS sanitation of the present invention, following FIG. 3;

FIG. 5 is a flowchart of another embodiment of the crisis notification system using GLONASS hygiene of the present invention.

FIG. 6 is a flowchart of another embodiment of the crisis notification system using GLONASS hygiene of the present invention, following FIG. 5;

FIG. 7 is a flowchart of another embodiment of the crisis notification system using GLONASS hygiene of the present invention, following FIG. 6;

[Explanation of symbols]

 101 GLONASS antenna section 102 Telephone antenna section 103 Transmit / receive branching section 104 Demodulation section 105 Decoding section 106 Received signal control section 107 Received voice control section 108 Receive section 109 Modulation section 110 Encoding section 111 Transmitted signal control section 112 Transmitted voice Control unit 113 Transmitting unit 114 Sending / receiving unit 115 Normal call originating / receiving unit 116 Dial unit 117 Emergency message transmission control unit 118 Physical condition measurement sensor unit 119 Physical condition monitoring unit 120 Manual urgent message transmission unit 121 Emergency message transmission destination address storage Unit 122 Emergency message storage unit 123 GLONASS transmission / reception demultiplexing unit 124 GLONASS signal transmission control unit 125 GLONASS signal reception control unit 126 Digital transmission data synthesis unit 127 GLONASS satellite 128 Base station antenna 129 Base station 130 Relay station 131 Jurisdiction relay exchange 132 Network Emergency message storage unit 133 emergency message extraction unit 134 concrete address information search unit 135 Deer conversion unit 136 emergency message resynthesis unit 137 fixed telephone network 138 telephone terminal 139 the mobile terminal 140 facsimile terminal 141 personal computer 142 mobile phone network

Claims (7)

[Claims] 1. Sensing a physical condition change of a person, and transmitting a physical condition and an emergency message at that time through GLONASS.
A crisis notification system that automatically sends a voice call to an emergency message contact registered in advance. 2. An emergency message storage unit for storing an emergency message, an emergency message destination storage unit for storing a destination of an emergency message, and a physical condition measurement in close contact with a human body for sensing a change in the physical condition of a person. A sensor unit, a physical condition monitoring unit that collects and accumulates data from the sensor unit to determine whether to transmit the emergency message to the destination, and an emergency message transmission control that manages operation control when the emergency message is transmitted And an emergency message transmission function block consisting of an
A GLONASS signal transmission control unit that issues a current position information acquisition request to the lonass satellite, a GLONASS signal reception control unit that receives the current position information from the GLONASS satellite, and decomposes a radio signal for the GLONASS satellite into a transmission signal and a reception signal. A current position specifying function block including a GLONASS transmission / reception branching unit; a voice message stored in the emergency message storage unit; a destination data stored in the emergency message destination storage unit; and the GLONASS signal reception control. A data synthesizing function block for synthesizing the current position information data obtained by the unit and the physical condition data obtained by the physical condition monitoring unit; an emergency message transfer function block for transferring the synthesized data to the responsible relay exchange; Emergency message storage unit for storing messages An emergency message extraction unit for extracting current location information data and the physical condition data from the stored messages, a specific address information search unit for translating the extracted current location information data into specific address data, A media conversion unit for converting the address data together with the physical condition data, and an emergency message re-synthesis unit for re-synthesizing the vocalized data with the emergency message in the stored message and returning the re-synthesized data to the responsible exchange. The emergency notification system, wherein the jurisdiction relay station exchange transmits the re-combined emergency message to the transmission destination stored in the network emergency message storage unit via a telephone network. 3. The crisis notification system according to claim 1, wherein a function of manually transmitting the emergency message is added. 4. The crisis notification according to claim 1, wherein the telephone network is a mobile telephone network for transmitting the emergency message to another mobile telephone terminal. system. 5. The telephone network according to claim 1, wherein the telephone network is a fixed telephone network for transmitting the emergency message to a telephone terminal, a facsimile terminal, or a personal computer. Emergency notification system. 6. A conventional mobile phone, wherein said emergency message transmission function block, said current location specifying function block, and said data synthesis function block are added. A mobile phone terminal used in the crisis notification system according to any one of the above. 7. The emergency message storage unit and the emergency message transmission destination storage unit are configured by independently securing a memo function included in a conventional mobile phone for an emergency message. The mobile phone terminal according to claim 6.