CN105072598B - Method and device for realizing emergency rescue through wearable equipment - Google Patents

Abstract

The invention discloses a method and a device for realizing emergency rescue through wearable equipment, wherein a telephone function module is arranged in the wearable equipment, and the method comprises the following steps: the wearable device receives an emergency rescue triggering command; dialing a phone to at least one preset phone number; the first telephone number of the preset telephone number is the telephone number of the first-aid center; when the dialed telephone number is not answered by a person or can not be connected, dialing the next preset telephone number, and when all the preset telephone numbers are not answered by a person or can not be connected, circularly dialing the preset telephone number for a specified number of times; and after the call is dialed, sending the current position information to a server for the client to inquire the position information of the wearable equipment. According to the invention, the emergency telephone number is set in the preset telephone, so that a user of the wearable equipment can be rescued as soon as possible; and can send current position information to the server, conveniently find wearable equipment's user, make it obtain more timely rescue.

Description

Method and device for realizing emergency rescue through wearable equipment

Technical Field

The invention relates to the field of emergency rescue of wearable equipment, in particular to a method and a device for realizing emergency rescue through the wearable equipment.

Background

The emergency rescue of the wearable device generally shows that several set emergency telephone numbers are used for dialing in turn until one of the emergency telephone numbers can be accessed, but when no one is accessed, information is sent to all emergency contacts of the wearable device to inform the relevant information of a rescuer. The method has the following defects: when no one connects the call and checks and receives the short message, the rescue time is delayed.

Disclosure of Invention

The invention mainly aims to provide a method and a device for realizing emergency rescue through wearable equipment, which can reduce waste of emergency rescue time.

In order to achieve the above object, the present invention firstly proposes a method for implementing emergency rescue by a wearable device, where the wearable device has a built-in phone function module, and the method includes:

the wearable device receives an emergency rescue triggering command;

dialing a phone to at least one preset phone number; the last telephone number of the preset telephone numbers is the telephone number of the emergency center;

when the dialed telephone number is not answered by a person or can not be connected, dialing the next preset telephone number, and when all the preset telephone numbers are not answered by a person or can not be connected, circularly dialing the preset telephone number for a specified number of times;

and after the call is dialed, sending the current position information to a server for the client to inquire the position information of the wearable equipment.

Further, after the call is placed, the step of sending the current location information to the server for the client to inquire the location information of the wearable device includes:

the wearable device automatically sends current position information to the server at specified time intervals;

and sending a position request command to the server through the client to acquire the position information of the wearable device.

Further, the step of the wearable device automatically sending current location information to the server at specified intervals comprises:

acquiring first positioning information and/or second positioning information through indoor positioning and/or LBS positioning, and acquiring third positioning information through satellite positioning after specified time; when the third positioning information is acquired, stopping receiving indoor positioning to acquire the first positioning information, and when the third positioning information is failed to acquire the first positioning information and/or the second positioning information through indoor positioning and/or LBS positioning;

and sending the acquired first positioning information, second positioning information and/or third positioning information to the server.

Further, the step of obtaining the location information of the wearable device by sending a location request command to the server through the client includes:

displaying, by a client, a location of a wearable device on a map;

and calling the wearable device through a callback number of the wearable device arranged on the map.

Further, after the step of the wearable device receiving the emergency rescue trigger command, the method includes:

the wearable device sends out sound and/or light alarm signals, judges whether a command of canceling emergency treatment is received or not, and stops sending out the sound and/or light alarm signals and stopping dialing a preset telephone number and simultaneously stops sending position information to the server if the command of canceling emergency treatment is received.

The invention also provides a device for realizing emergency rescue through wearable equipment, wherein the wearable equipment is internally provided with a telephone function module and comprises:

the triggering unit is used for receiving an emergency rescue triggering command by the wearable equipment;

the dialing unit is used for dialing a telephone to at least one preset telephone number; the last telephone number of the preset telephone numbers is the telephone number of the emergency center;

the circulating dialing unit is used for dialing the next preset telephone number when the dialed telephone number is not answered by people or can not be connected, and circularly dialing the preset telephone number for a specified number of times when all the preset telephone numbers are not answered by people or can not be connected;

and the positioning sending unit is used for sending the current position information to the server for the client to inquire the position information of the wearable equipment after the call is dialed.

Further, the positioning transmission unit includes:

the timing sending subunit is used for automatically sending the current position information to the server by the wearable device at intervals of specified time;

and the acquisition subunit is used for sending a position request command to the server through the client to acquire the position information of the wearable device.

Further, the timing transmitting subunit includes:

the positioning information acquisition module is used for acquiring first positioning information and/or second positioning information through indoor positioning and/or LBS positioning, and acquiring third positioning information through satellite positioning after specified time; when the third positioning information is acquired, stopping receiving indoor positioning to acquire the first positioning information, and when the third positioning information is failed to acquire the first positioning information and/or the second positioning information through indoor positioning and/or LBS positioning;

and the automatic sending module is used for sending the acquired first positioning information, second positioning information and/or third positioning information to the server.

Further, the obtaining subunit includes:

the display module is used for displaying the position of the wearable device on a map through the client;

and the callback module is used for calling the wearable equipment through a callback number of the wearable equipment arranged on the map.

Further, the apparatus for realizing emergency rescue by wearable device further comprises:

and the alarm cancellation unit is used for sending out an acoustic and/or optical alarm signal by the wearable device, judging whether an emergency cancellation command is received, stopping sending out the acoustic and/or optical alarm signal and stopping dialing a preset telephone number if the emergency cancellation command is received, and stopping sending the position information to the server.

According to the method and the device for realizing emergency rescue through the wearable equipment, the emergency telephone number is arranged in the preset telephone, and when other telephones can not be connected or cannot be answered by anyone after circulating for specified times, the emergency telephone is automatically dialed, so that a user using the wearable equipment can be rescued as soon as possible; and can send current position information to the server, supply the customer end to conveniently obtain wearable equipment's user's position information, conveniently find wearable equipment's user, make it obtain more timely rescue.

Drawings

Fig. 1 is a flowchart of a method for implementing emergency rescue by a wearable device according to an embodiment of the present invention;

fig. 2 is a flowchart of an embodiment of the present invention after sending current location information to a server for a client to query location information of a wearable device;

fig. 3 is a flowchart of automatically sending current location information to a server by a wearable device at a specified time interval according to an embodiment of the present invention;

fig. 4 is a flowchart of acquiring location information of a wearable device through a location request command sent by a client to a server according to an embodiment of the present invention;

fig. 5 is a flowchart of a method for implementing emergency rescue by a wearable device according to an embodiment of the present invention;

fig. 6 is a block diagram illustrating an apparatus for emergency rescue by a wearable device according to an embodiment of the present invention;

FIG. 7 is a block diagram of a transmitting dialing unit according to an embodiment of the present invention;

FIG. 8 is a block diagram of a timing transmitting subunit according to an embodiment of the present invention;

FIG. 9 is a block diagram of an acquisition subunit according to an embodiment of the present invention;

fig. 10 is a block diagram illustrating an apparatus for implementing emergency rescue by a wearable device according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, an embodiment of the present invention provides a method for implementing emergency rescue through a wearable device, where a phone function module is built in the wearable device, and the method includes:

s1, the wearable device receives an emergency rescue trigger command;

s2, dialing a phone number to at least one preset phone number; the last telephone number of the preset telephone numbers is the telephone number of the emergency center;

s3, when the dialed telephone number is not answered by the user or can not be connected, dialing the next preset telephone number, and when all the preset telephone numbers are not answered by the user or can not be connected, circularly dialing the preset telephone number for a specified number of times;

and S4, after the call is dialed, sending the current position information to the server for the client to inquire the position information of the wearable device.

As described in step S1, the wearable device needs to receive a trigger command of emergency rescue in order for the wearable device to send an emergency rescue signal. The wearable device is an electronic device, and has functions of making a call, receiving a call, sending a short message, receiving a short message and/or positioning, for example, wearable devices such as a smart watch and a smart ring. An SOS trigger button is generally provided on the wearable device to facilitate triggering of emergency rescue commands in an emergency.

As described in step S2, when the wearable device receives the trigger command of emergency rescue, the first thing is to dial a preset phone number to contact related people for rescue, the preset phone number is generally the phone numbers of multiple relatives of the user of the wearable device, and most importantly, the phone number of the emergency center is preset, and when the phone number of the relatives of the preset user of the wearable device is not answered or cannot be connected, the phone number of the emergency center, such as 120, is dialed, so that the user of the wearable device is rescued in time.

As described in step S3, when the preset phone number is dialed and is not answered or cannot be answered, the preset phone number is cyclically dialed, and the preset phone number is cyclically dialed for a plurality of times until someone answers the call. In a specific embodiment, the preset telephone number can be circularly dialed for 3 times, if no person is connected after the preset telephone number is circularly dialed for 3 times, the situation that the user cannot contact with the outside temporarily is indicated, and the user of the wearable device needs to save the self, so that the self-saving time of the user of the wearable device is delayed.

As described in step S4, the server is a bridge between the wearable device and the client, processes data sent by the wearable device and sends the processed data to the client, and processes an instruction sent by the client and sends the processed instruction to the wearable device; the client is an electronic device end provided with an APP corresponding to the wearable device, such as a mobile phone and a tablet computer. After the phone is connected, when the phone is hung up, the position information is uploaded, so that the user of the client side can know the movement track and the final position of the user of the wearable device. Whether to continue sending the position information to the server can be selected after the phone is hung up so as to save power energy consumption of the wearable device. The server stores the position information, then corrects the position information through a latitude and longitude inquiry provider and stores the position information, and then provides a detailed address and stores the corrected latitude and longitude information through an address back-check service provider for client inquiry and the like.

Referring to fig. 2, in this embodiment, after the step S4 of sending the current location information to the server for the client to query the location information of the wearable device after the call is dialed, the method includes the steps of:

s41, the wearable device automatically sends current position information to the server at intervals of specified time;

and S42, sending a position request command to the server through the client, and acquiring the position information of the wearable device.

As described in step S41, the wearable device sends the location information of the wearable device to the server at intervals, so that the movement track of the user of the wearable device is stored in the server, which is convenient for the client associated with the wearable device to query the movement track and the current location of the wearable device, and power of the wearable device can be saved, and the location information is generally set to be sent to the server once in 3 minutes.

As described in step S42, the client installed with the APP corresponding to the wearable device sends a request command for obtaining the location of the wearable device to the server, and the server will display the location information of the wearable device from the time when the server starts sending emergency rescue to the current time at the client, and the client will generally display an electronic map, and mark the moving track of the wearable device on the electronic map, which is convenient for the user of the client to quickly find the user of the wearable device.

In a specific embodiment, the user of the wearable device triggers an emergency rescue command, first dials a preset telephone number, and finally dials a 120 emergency call, so that the user of the wearable device gets a call with the emergency center to explain the situation and wait for the rescue of the emergency center, and the emergency center sends the user of the wearable device to a hospital for rescue; after the call is finished, the wearable device sends the position information to the server according to the specified interval; at this moment, the user of the client learns that the user of the wearable device sends emergency rescue through the APP, can call back, and can send a position request command to the service to acquire the position information of the user of the wearable device and the rescue signal sent by the user of the wearable device at which place, which place is at present, so as to find the user of the wearable device quickly.

Referring to fig. 3, in this embodiment, the step S41 of the wearable device automatically sending the current location information to the server at the interval of the specified time includes:

s411, acquiring first positioning information and/or second positioning information through indoor positioning and/or LBS (Location Based Service) positioning, and acquiring third positioning information through satellite positioning after appointed time; when the third positioning information is acquired, stopping receiving the indoor positioning to acquire the first positioning information, and when the third positioning information is failed to acquire, acquiring the indoor positioning and/or LBS positioning to acquire the first positioning information and/or the second positioning information;

and S412, sending the acquired first positioning information, second positioning information and/or third positioning information to the server.

As described in the above steps S411 and S412, the above satellite positioning may include GPS positioning, beidou positioning, and the like; indoor positioning includes WIFI positioning, bluetooth positioning, and the like. In this embodiment, the location information may be obtained in various manners, such as satellite positioning, indoor positioning, and/or LBS positioning, and may be comprehensively processed through various positioning, so as to obtain more accurate location information. Generally, indoor positioning and/or LBS positioning is started to quickly acquire basic position information, and then satellite positioning is started after 10 seconds, so that the acquired position information is more accurate. In the embodiment, after the satellite positioning is successful, only the satellite positioning information is uploaded, so that the network data transmission pressure can be reduced, the uploading speed is higher, the data processing time of the background server is also reduced, and the LBS positioning is not closed because the data uploading needs to be carried out through GPRS; similarly, when the satellite positioning fails, the satellite positioning information is invalid, and only useful LBS positioning, WIFI positioning and the like are uploaded, so that the positioning information cannot be interrupted.

Referring to fig. 4, in this embodiment, the step S42 of obtaining the location information of the wearable device through the location request command sent by the client to the server includes:

s421, displaying the position of the wearable device on a map through a client;

and S422, calling the wearable device through the callback number of the wearable device set on the map.

As described in the above steps S221 and S222, the server may send the phone number information with the wearable device and the location information to the client, and display the phone number information and the location information together on the electronic map, and the callback number of the wearable device is a float button, and can be clicked to make a call, so that the client can conveniently make a call to the wearable device.

Referring to fig. 5, in this embodiment, after the step S1 of the wearable device receiving the emergency rescue trigger command, the method includes:

and S1', the wearable device sends out an acoustic and/or optical alarm signal and judges whether a command of canceling the first aid is received, and if the command of canceling the first aid is received, the emission of the acoustic and/or optical alarm signal and the dialing of the preset telephone number are stopped, and the sending of the position information to the server is stopped.

As described in step S1', when the wearable device receives the emergency rescue triggering command, the wearable device sends an audible and/or visual alarm signal to remind the nearby people to help, and also remind the user whether the command triggers the emergency rescue by mistake. If there is a rescue or the emergency rescue is erroneously triggered, a command to cancel the rescue may be issued, thus stopping the subsequent steps S2, S3, S4, etc.

According to the method for realizing emergency rescue through the wearable equipment, the preset telephone is provided with the emergency telephone number, and when other telephones cannot be connected or cannot be answered by anyone for specified times in a circulating manner, the emergency telephone is automatically dialed, so that a user using the wearable equipment can be rescued as soon as possible; and can send current position information to the server, supply the customer end to conveniently obtain wearable equipment's user's position information, conveniently find wearable equipment's user, make it obtain more timely rescue.

Referring to fig. 6, an embodiment of the present invention further provides an apparatus for implementing emergency rescue by using a wearable device, where the wearable device includes a phone function module, and the apparatus includes:

the triggering unit 10 is used for the wearable device to receive an emergency rescue triggering command;

a sending and dialing unit 20, configured to dial a call to at least one preset telephone number; the last telephone number of the preset telephone numbers is the telephone number of the emergency center;

a circulating dialing unit 30, configured to dial a next preset telephone number when the dialed telephone number is not answered or cannot be connected, and circularly dial the preset telephone number for a specified number of times when all the preset telephone numbers are not answered or cannot be connected;

and the positioning sending unit 40 is used for sending the current position information to the server for the client to inquire the position information of the wearable device after the call is dialed.

As with the trigger unit 10, the wearable device needs to receive a trigger command for emergency assistance in order for the wearable device to issue an emergency assistance signal. The wearable device is an electronic device, and has functions of making a call, receiving a call, sending a short message, receiving a short message and/or positioning, for example, wearable devices such as a smart watch and a smart ring. An SOS trigger button is generally provided on the wearable device to facilitate triggering of emergency rescue commands in an emergency.

As the dialing unit 20 mentioned above, when the wearable device receives a trigger command of emergency rescue, the first thing is to dial a preset phone number to contact related personnel for rescue, the preset phone number is generally the phone numbers of multiple relatives of the user of the wearable device, and most importantly, the phone number of the emergency center is preset, and when the phone number of the relatives of the user of the preset wearable device is not answered or cannot be connected, the phone number of the emergency center, such as 120, can be dialed, so that the user of the wearable device can be rescued in time.

As mentioned above, the circular dialing unit 30 can cyclically dial the preset telephone number when the preset telephone number is dialed and no one answers or the preset telephone number cannot be accessed, and the preset telephone number is generally cyclically dialed for a plurality of times until a person accesses the telephone. In a specific embodiment, the preset telephone number can be circularly dialed for 3 times, if no person is connected after the preset telephone number is circularly dialed for 3 times, the situation that the user cannot contact with the outside temporarily is indicated, and the user of the wearable device needs to save the self, so that the self-saving time of the user of the wearable device is delayed.

As the positioning and transmitting unit 40, the server is a bridge between the wearable device and the client, processes data transmitted by the wearable device and transmits the processed data to the client, and processes an instruction transmitted by the client and transmits the processed instruction to the wearable device; the client is an electronic device end provided with an APP corresponding to the wearable device, such as a mobile phone and a tablet computer. After the phone is connected, when the phone is hung up, the position information is uploaded, so that the user of the client side can know the movement track and the final position of the user of the wearable device. Whether to continue sending the position information to the server can be selected after the phone is hung up so as to save power energy consumption of the wearable device. The server stores the position information, then corrects the position information through a latitude and longitude inquiry provider and stores the position information, and then provides a detailed address and stores the corrected latitude and longitude information through an address back-check service provider for client inquiry and the like.

Referring to fig. 7, the positioning transmitting unit 40 includes:

a timing sending subunit 41, configured to automatically send, to the server, current location information at a specified time interval by the wearable device;

and an obtaining subunit 42, configured to send a location request command to the server through the client, and obtain location information of the wearable device.

As mentioned above, the timing transmitting subunit 41 enables the wearable device to transmit the location information of the wearable device to the server at intervals, so that the movement track of the user of the wearable device is stored in the server, which is convenient for the client associated with the wearable device to query the movement track and the current location, and can save the power of the wearable device, and is generally set to transmit the location information to the server once in 3 minutes.

As described above, the obtaining subunit 42 sends the location request command for obtaining the wearable device to the server by the client installed with the APP corresponding to the wearable device, the server will display the location information of the wearable device from the beginning of sending the emergency rescue to the current time at the client, the client will generally display an electronic map, the moving track of the wearable device is marked on the electronic map, and the user of the client can conveniently find the user of the wearable device quickly.

In a specific embodiment, the user of the wearable device triggers an emergency rescue command, first dials a preset telephone number, and finally dials a 120 emergency call, so that the user of the wearable device gets a call with the emergency center to explain the situation and wait for the rescue of the emergency center, and the emergency center sends the user of the wearable device to a hospital for rescue; after the call is finished, the wearable device sends the position information to the server according to the specified interval; at this moment, the user of the client learns that the user of the wearable device sends emergency rescue through the APP, can call back, and can send a position request command to the service to acquire the position information of the user of the wearable device and the rescue signal sent by the user of the wearable device at which place, which place is at present, so as to find the user of the wearable device quickly.

Referring to fig. 8, the timing transmission subunit 41 includes:

a positioning information obtaining module 411, configured to obtain first positioning information and/or second positioning information through indoor positioning and/or LBS positioning, and obtain third positioning information through satellite positioning after a specified time; when the third positioning information is acquired, stopping receiving the indoor positioning to acquire the first positioning information, and when the third positioning information is failed to acquire, acquiring the indoor positioning and/or LBS positioning to acquire the first positioning information and/or the second positioning information;

an automatic sending module 412, configured to send the obtained first positioning information, second positioning information, and/or third positioning information to the server.

As the positioning information obtaining module 411 and the automatic sending module 412, the satellite positioning may include GPS positioning, beidou positioning, and the like; indoor positioning includes WIFI positioning, bluetooth positioning, and the like. In this embodiment, the location information may be obtained in various manners, such as satellite positioning, indoor positioning, and/or LBS positioning, and may be comprehensively processed through various positioning, so as to obtain more accurate location information. Generally, indoor positioning and/or LBS positioning is started to quickly acquire basic position information, and then satellite positioning is started after 10 seconds, so that the acquired position information is more accurate. In the embodiment, after the satellite positioning is successful, only the satellite positioning information is uploaded, so that the network data transmission pressure can be reduced, the uploading speed is higher, the data processing time of the background server is also reduced, and the LBS positioning is not closed because the data uploading needs to be carried out through GPRS; similarly, when the satellite positioning fails, the satellite positioning information is invalid, and only useful LBS positioning, WIFI positioning and the like are uploaded, so that the positioning information cannot be interrupted.

Referring to fig. 9, the acquiring subunit 42 includes:

a display module 421, configured to display, by the client, a location of the wearable device on a map;

and the callback module 422 is used for calling the wearable device through a callback number of the wearable device set on the map.

Like above-mentioned display module 421 and callback module 422, the server can be with the phone number information that has wearable equipment and positional information one-pass sending for the client, shows on the electronic map with wearable equipment's positional information together, and wearable equipment's callback number is a buoy button, clicks and can dial the phone, makes things convenient for the client to dial the phone to wearable equipment.

Referring to fig. 10, the apparatus for implementing emergency rescue by wearable device further includes:

and an alarm cancellation unit 10' for sending an acoustic and/or optical alarm signal by the wearable device, judging whether a command for cancelling emergency treatment is received, and if the command for cancelling emergency treatment is received, stopping sending the acoustic and/or optical alarm signal and stopping dialing a preset telephone number and stopping sending the position information to the server. When the wearable device receives the emergency rescue triggering command, the wearable device sends out sound and/or light alarm signals to remind people nearby to help, and also remind a user whether the emergency rescue triggering command is mistakenly triggered. If people rescue or the emergency rescue is triggered by mistake, a command of cancelling the emergency rescue can be sent out, so that the subsequent steps of calling, sending position information and the like are stopped to be triggered.

According to the device for realizing emergency rescue through the wearable equipment, the preset telephone is provided with the emergency telephone number, and when other telephones cannot be connected or cannot be answered by anyone for specified times in a circulating manner, the emergency telephone is automatically dialed, so that a user using the wearable equipment can be rescued as soon as possible; and can send current position information to the server, supply the customer end to conveniently obtain wearable equipment's user's position information, conveniently find wearable equipment's user, make it obtain more timely rescue.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. A method for realizing emergency rescue through a wearable device, wherein a telephone function module is arranged in the wearable device, and the method comprises the following steps:

the wearable device receives an emergency rescue triggering command;

dialing a phone to at least one preset phone number; the last telephone number of the preset telephone numbers is the telephone number of the emergency center;

when the dialed telephone number is not answered by a person or can not be connected, dialing the next preset telephone number, and when all the preset telephone numbers are not answered by a person or can not be connected, circularly dialing the preset telephone number for a specified number of times;

after the call is dialed, sending the current position information to a server for the client to inquire the position information of the wearable device;

after the dialing is finished, the step of sending the current position information to a server for a client to inquire the position information of the wearable device comprises the following steps:

the wearable device automatically sends current position information to the server at specified time intervals;

sending a position request command to a server through a client to acquire position information of the wearable device;

the step of automatically sending the current position information to the server by the wearable device at the interval of the designated time comprises the following steps:

acquiring first positioning information and/or second positioning information through indoor positioning and/or LBS positioning, and acquiring third positioning information through satellite positioning after specified time; when the third positioning information is acquired, stopping receiving indoor positioning to acquire the first positioning information, and when the third positioning information is failed to acquire the first positioning information and/or the second positioning information through indoor positioning and/or LBS positioning;

sending the acquired first positioning information, second positioning information and/or third positioning information to the server;

after the dialing is finished, the step of sending the current position information to the server for the client to inquire the position information of the wearable device comprises the following steps:

the server saves the current position;

inquiring suppliers through longitude and latitude to correct the deviation and then storing;

and providing a detailed address and storing corrected longitude and latitude information through an address back-check service provider for a client to inquire.

2. The method for realizing emergency rescue by the wearable device according to claim 1, wherein the step of obtaining the location information of the wearable device through the location request command sent by the client to the server comprises:

displaying, by a client, a location of a wearable device on a map;

and calling the wearable device through a callback number of the wearable device arranged on the map.

3. The method for realizing emergency rescue by wearable device according to claim 1, wherein the step of the wearable device receiving emergency rescue trigger command is followed by:

the wearable device sends out sound and/or light alarm signals, judges whether a command of canceling emergency treatment is received or not, and stops sending out the sound and/or light alarm signals and stopping dialing a preset telephone number and simultaneously stops sending position information to the server if the command of canceling emergency treatment is received.

4. An apparatus for realizing emergency rescue through a wearable device, wherein a telephone function module is arranged in the wearable device, and the apparatus comprises:

the triggering unit is used for receiving an emergency rescue triggering command by the wearable equipment;

the dialing unit is used for dialing a telephone to at least one preset telephone number; the last telephone number of the preset telephone numbers is the telephone number of the emergency center;

the circulating dialing unit is used for dialing the next preset telephone number when the dialed telephone number is not answered by people or can not be connected, and circularly dialing the preset telephone number for a specified number of times when all the preset telephone numbers are not answered by people or can not be connected;

the positioning sending unit is used for sending the current position information to the server for the client to inquire the position information of the wearable equipment after the call making is finished; after the dialing is finished, the step of sending the current position information to the server for the client to inquire the position information of the wearable device comprises the following steps: the server saves the current position; inquiring suppliers through longitude and latitude to correct the deviation and then storing; providing a detailed address and storing corrected longitude and latitude information through an address back-check service provider for a client to inquire;

the positioning transmission unit includes:

the timing sending subunit is used for automatically sending the current position information to the server by the wearable device at intervals of specified time;

the acquisition subunit is used for sending a position request command to the server through the client and acquiring the position information of the wearable device;

the timing transmitting subunit comprises:

the positioning information acquisition module is used for acquiring first positioning information and/or second positioning information through indoor positioning and/or LBS positioning, and acquiring third positioning information through satellite positioning after specified time; when the third positioning information is acquired, stopping receiving indoor positioning to acquire the first positioning information, and when the third positioning information is failed to acquire the first positioning information and/or the second positioning information through indoor positioning and/or LBS positioning;

and the automatic sending module is used for sending the acquired first positioning information, second positioning information and/or third positioning information to the server.

5. An apparatus for emergency rescue by wearable device according to claim 4, characterized in that the obtaining subunit comprises:

the display module is used for displaying the position of the wearable device on a map through the client;

and the callback module is used for calling the wearable equipment through a callback number of the wearable equipment arranged on the map.

6. An apparatus for emergency rescue by wearable device as claimed in claim 4, further comprising:

and the alarm cancellation unit is used for sending out an acoustic and/or optical alarm signal by the wearable device, judging whether an emergency cancellation command is received, stopping sending out the acoustic and/or optical alarm signal and stopping dialing a preset telephone number if the emergency cancellation command is received, and stopping sending the position information to the server.

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