CN104394505A - Rescue method and device - Google Patents

Abstract

The invention discloses a rescue method and a device, belonging to the technical field of communication. The rescue method comprises the steps of confirming that a user using wearable equipment gets trapped; acquiring position information of the wearable equipment; and transmitting the position information to detection equipment at regular intervals, wherein the detection equipment is used for generating a rescue instruction with the position information. According to the rescue method, the position information of the wearable equipment is acquired after the user is confirmed being trapped, and the position information is transmitted to the detection equipment at regular intervals. As the position information of the trapped user can be acquired automatically and sent to the detection equipment after the user is trapped, rescuers using the detection equipment can rapidly confirm the position of the trapped user. Through adoption of the method, the position of the trapped person can be confirmed without wide-range detection, and the search and rescue efficiency is improved.

Description

Rescue mode and device

Technical field

The disclosure relates to communication technical field, particularly a kind of rescue mode and device.

Background technology

How timely in world wide, the natural calamities such as earthquake more and more frequently, flood, typhoon cause increasing injury to the mankind, and after disaster occurs carry out rescue to trapped personnel and become problem demanding prompt solution.At present, rescue personnel mainly adopts rescue dogs, life-detection instrument to determine the stranded position of trapped personnel, and searches and rescues trapped personnel with this.

Inventor is realizing in process of the present disclosure, finds that correlation technique at least exists following defect: when searching and rescuing trapped personnel with rescue dogs or life-detection instrument, and need to carry out on a large scale detecting the position could determining trapped personnel, search efficiency is lower.

Summary of the invention

Need to carry out on a large scale detecting the position could determining trapped personnel to solve in correlation technique, the problem that search efficiency is lower, the disclosure provides a kind of rescue mode and device.Described technical scheme is as follows:

According to the first aspect of disclosure embodiment, provide a kind of rescue mode, be applied in Wearable device, comprise:

Determine to use the user of described Wearable device to be in stranded state;

Obtain the positional information of described Wearable device;

Every predetermined time interval, described positional information is sent to detecting devices, described detecting devices is for generating the rescue instruction carrying described positional information.

Optionally, described method also comprises:

Read in the identify label prestored in described Wearable device, described identify label is sent to server, receive the identity information that described server sends, described identity information is that described server determines the user account corresponding with described identify label, read from described user account, or, read in the identity information prestored in described Wearable device;

Described identity information is sent to described detecting devices, and described identity information is used for the identity indicating described user to described detecting devices.

Optionally, described method also comprises:

Obtain the physiological status parameter of described user, described physiological status parameter is sent to described detecting devices, described physiological status parameter is used for the rescue priority indicating described user to described detecting devices.

Optionally, describedly determine to use the user of described Wearable device to be in stranded state, comprising:

Detect and whether receive help-asking mode open command, if receive described help-asking mode open command, then determine to use the user of described Wearable device to be in stranded state; Or,

Obtain the environmental parameter of environment residing for described Wearable device, when described environmental parameter meets stranded condition, determine to use the user of described Wearable device to be in stranded state.

Optionally, described method also comprises:

Receive the response message that described detecting devices sends, described response message is used to indicate described detecting devices and has received described positional information and described identity information;

Generate the first information according to described response message, described first information is used for notifying that described user waits for rescue.

Optionally, described method also comprises:

Receive the rescue information that described detecting devices sends, described rescue information is used to indicate to be rescued described user;

Generate the second information according to described rescue information, described second information is used for notifying that described user coordinates rescue.

According to the second aspect of disclosure embodiment, provide a kind of rescue mode, be applied in detecting devices, comprise:

Receive the positional information that Wearable device sends, described positional information be described Wearable device determine use the user of described Wearable device to be in stranded state after obtain and send;

Generate the rescue instruction carrying described positional information.

Optionally, described method also comprises:

Receive the identity information of the described user that described Wearable device sends;

The identity of described user is indicated according to described identity information.

Optionally, described method also comprises:

Receive the physiological status parameter of the described user that described Wearable device sends;

The rescue priority of described user is indicated according to described physiological status parameter.

Optionally, described method also comprises:

After receiving described positional information, send response message to described Wearable device, described Wearable device is used for generating the first information according to described response message, and described first information is used to indicate described user and waits for rescue.

Optionally, described method also comprises:

After receiving described positional information, rescue information is sent to described Wearable device, described rescue information generates when rescuing described user, described Wearable device is used for generating the second information according to described rescue information, and described second information is used to indicate described user and coordinates rescue.

According to the third aspect of disclosure embodiment, provide a kind of deliverance apparatus, be applied in Wearable device, comprise:

Determination module, is configured to determine to use the user of described Wearable device to be in stranded state;

Acquisition module, is configured to the positional information obtaining described Wearable device;

First sending module, the described positional information being configured to be got by described acquisition module every predetermined time interval sends to detecting devices, and described detecting devices is for generating the rescue instruction carrying described positional information.

Optionally, described device also comprises:

Read module, be configured to read in the identify label prestored in described Wearable device, described identify label is sent to server, receive the identity information that described server sends, described identity information is that described server determines the user account corresponding with described identify label, read from described user account, or, read in the identity information prestored in described Wearable device;

Second sending module, is configured to described identity information to send to described detecting devices, and described identity information is used for the identity indicating described user to described detecting devices.

Optionally, described device also comprises:

3rd sending module, is configured to the physiological status parameter obtaining described user, and described physiological status parameter is sent to described detecting devices, and described physiological status parameter is used for the rescue priority indicating described user to described detecting devices.

Optionally, described determination module, comprising:

First determines submodule, is configured to detect whether receive help-asking mode open command, if receive described help-asking mode open command, then determines to use the user of described Wearable device to be in stranded state; Or,

Second determines submodule, is configured to the environmental parameter obtaining environment residing for described Wearable device, when described environmental parameter meets stranded condition, determines to use the user of described Wearable device to be in stranded state.

Optionally, described device also comprises:

First receiver module, be configured to the response message receiving the transmission of described detecting devices, described response message is used to indicate described detecting devices and has received described positional information and described identity information;

First generation module, the described response message being configured to receive according to described first receiver module generates the first information, and described first information is used for notifying that described user waits for rescue.

Optionally, described device also comprises:

Second receiver module, be configured to the rescue information receiving the transmission of described detecting devices, described rescue information is used to indicate to be rescued described user;

Second generation module, the described rescue information being configured to receive according to described second receiver module generates the second information, and described second information is used for notifying that described user coordinates rescue.

According to the fourth aspect of disclosure embodiment, provide a kind of deliverance apparatus, be applied in detecting devices, comprise:

First receiver module, is configured to receive the positional information that Wearable device sends, described positional information be described Wearable device determine use the user of described Wearable device to be in stranded state after obtain and send;

Generation module, is configured to generate the rescue instruction carrying the described positional information that described first receiver module receives.

Optionally, described device also comprises:

Second receiver module, is configured to the identity information receiving the described user that described Wearable device sends;

First indicating module, the described identity information being configured to receive according to described second receiver module indicates the identity of described user.

Optionally, described device also comprises:

3rd receiver module, is configured to the physiological status parameter receiving the described user that described Wearable device sends;

Second indicating module, the described physiological status parameter being configured to receive according to described 3rd receiver module indicates the rescue priority of described user.

Optionally, described device also comprises:

First sending module, be configured to after receiving described positional information, send response message to described Wearable device, described Wearable device is used for generating the first information according to described response message, and described first information is used to indicate described user and waits for rescue.

Optionally, described device also comprises:

Second sending module, be configured to after receiving described positional information, rescue information is sent to described Wearable device, described rescue information generates when rescuing described user, described Wearable device is used for generating the second information according to described rescue information, and described second information is used to indicate described user and coordinates rescue.

According to the 5th aspect of disclosure embodiment, a kind of deliverance apparatus is provided, is applied in Wearable device, comprises:

Processor;

For storing the memory of described processor executable;

Wherein, described processor is configured to:

Determine to use the user of described Wearable device to be in stranded state;

Obtain the positional information of described Wearable device;

Every predetermined time interval, described positional information is sent to detecting devices, described detecting devices is for generating the rescue instruction carrying described positional information.

According to the 6th aspect of disclosure embodiment, a kind of deliverance apparatus is provided, is applied in detecting devices, comprises:

Processor;

For storing the memory of described processor executable;

Wherein, described processor is configured to:

Receive the positional information that Wearable device sends, described positional information be described Wearable device determine use the user of described Wearable device to be in stranded state after obtain and send;

Generate the rescue instruction carrying described positional information.

The technical scheme that embodiment of the present disclosure provides can comprise following beneficial effect:

By in the positional information determining the stranded rear acquisition Wearable device of user, every predetermined time interval, positional information is sent to detecting devices; Due to detecting devices can be sent in the positional information of the stranded user of the stranded rear active obtaining of user, make to use the rescue personnel of detecting devices can determine the position of stranded user fast, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

Should be understood that, it is only exemplary that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in specification and to form the part of this specification, shows and meets embodiment of the present disclosure, and is used from specification one and explains principle of the present disclosure.

Fig. 1 is the schematic diagram of the implementation environment involved by a kind of rescue mode according to exemplary partial embodiment;

Fig. 2 is the flow chart of a kind of rescue mode according to an exemplary embodiment;

Fig. 3 is the flow chart of a kind of rescue mode according to another exemplary embodiment;

Fig. 4 is the flow chart of a kind of rescue mode Gen Ju an exemplary embodiment again;

Fig. 5 is the block diagram of a kind of deliverance apparatus according to an exemplary embodiment;

Fig. 6 is the block diagram of a kind of deliverance apparatus according to another exemplary embodiment;

Fig. 7 is the block diagram of a kind of deliverance apparatus Gen Ju an exemplary embodiment again;

Fig. 8 is the block diagram according to going back a kind of deliverance apparatus shown in an exemplary embodiment;

Fig. 9 is the block diagram of a kind of device for rescuing according to an exemplary embodiment.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

Fig. 1 is the schematic diagram of the implementation environment involved by a kind of rescue mode according to exemplary partial embodiment, and as shown in Figure 1, this implementation environment can comprise Wearable device 120, detecting devices 140 and server 160.

Wearable device 120 can for gathering the electronic equipment of concurrent carry information, and this electronic equipment can be Intelligent bracelet, intelligent watch, intelligent glasses, intelligent waistband and intelligent ring etc.

Detecting devices 140 can for receiving the electronic equipment of information, and this electronic equipment can be smart mobile phone, panel computer, intelligent television, E-book reader, multimedia player, pocket computer on knee and desktop computer etc.

Wearable device 120, can be connected by wireless network between detecting devices 140 with server 160.

Server 160 can be can store and the server of lower photos and sending messages.Here said server 160 can be a station server, or the server cluster be made up of some station servers, or a cloud computing service center.

Fig. 2 is the flow chart of a kind of rescue mode according to an exemplary embodiment, and as shown in Figure 2, this rescue mode is applied in the Wearable device 120 in the implementation environment shown in Fig. 1, comprises the following steps.

In step 201, determine to use the user of Wearable device to be in stranded state.

In step 202., the positional information of Wearable device is obtained.

In step 203, every predetermined time interval, positional information is sent to detecting devices, detecting devices is for generating the rescue instruction carrying positional information.

In sum, the rescue mode provided in disclosure embodiment, by the positional information determining the stranded rear acquisition Wearable device of user, sends to detecting devices every predetermined time interval by positional information; Due to detecting devices can be sent in the positional information of the stranded user of the stranded rear active obtaining of user, make to use the rescue personnel of detecting devices can determine the position of stranded user fast, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

Fig. 3 is the flow chart of a kind of rescue mode according to another exemplary embodiment, and as shown in Figure 3, this rescue mode is applied in the detecting devices 140 in the implementation environment shown in Fig. 1, comprises the following steps.

In step 301, receive the positional information that Wearable device sends, positional information be Wearable device determine use the user of Wearable device to be in stranded state after obtain and send.

In step 302, the rescue instruction carrying positional information is generated.

In sum, the rescue mode provided in disclosure embodiment, by receiving the positional information that Wearable device sends, generates the rescue instruction carrying positional information; Owing to can determine the position of trapped personnel fast according to the positional information received, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

Fig. 4 is the flow chart of a kind of rescue mode Gen Ju an exemplary embodiment again, and as shown in Figure 4, this rescue mode is applied in the implementation environment shown in Fig. 1, comprises the following steps.

In step 401, Wearable device determines to use the user of this Wearable device to be in stranded state.

When Wearable device determines that user is in stranded state, Wearable device can open help-asking mode, and outwards sends relevant information, for outwardly crying for help.When Wearable device determines that user is in stranded state, can see following two kinds of implementations.

In one implementation, Wearable device detects whether receive help-asking mode open command, if receive help-asking mode open command, then determines to use the user of this Wearable device to be in stranded state.

Here help-asking mode open command can be that user produces when triggering a certain button in Wearable device, also can be that Wearable device receives phonetic order that user sends or gesture instruction produces.The present embodiment is not construed as limiting the concrete mode producing help-asking mode open command.

When after the help-asking mode open command that Wearable device receives for opening help-asking mode, Wearable device opens help-asking mode, and determines to use the user of this Wearable device to be in stranded state.

In another kind of implementation, Wearable device obtains the environmental parameter of environment residing for this Wearable device, when environmental parameter meets stranded condition, determines to use the user of this Wearable device to be in stranded state.

The environmental parameter that Wearable device obtains can be the intensity of illumination, atmospheric density etc. of current environment, the environmental parameter of acquisition and the environmental parameter threshold value preset can compare by Wearable device, thus judge current ambient conditions, and determine to use the user of this Wearable device whether to be in stranded state with this.

For example, threshold value can be preset to intensity of illumination and rarefaction of air degree, such as intensity of illumination threshold value is 0.5 lux, atmospheric density threshold value is 0.8 kilogram every cubic metre, when the current intensity of illumination of Wearable device acquisition is lower than 0.5 lux, when atmospheric density is lower than 0.8 kilogram every cubic metre, then determine to use environment residing for the user of this Wearable device for dark, the narrow and small and environment of relative closure, this user may be in stranded state.

Optionally, Wearable device, after acquisition current environment parameter, can also obtain the physiological status parameter of active user, determines whether user is in stranded state further by carrying out analysis to the physiological status parameter obtained.Such as, by the physiological status Parameter analysis obtained obtain the pulse of active user lower, breathe more weak, body temperature lower time, then determine that this user may be in stranded state.

In step 402, Wearable device obtains the positional information of this Wearable device.

Navigation system can be built-in with in Wearable device, when Wearable device determines to use the user of this Wearable device to be in stranded state, and after opening help-asking mode, Wearable device can obtain current positional information by built-in navigation system.

Optionally, Wearable device also can by obtaining current positional information with the navigation system in the electronic equipment of its binding.The present embodiment is not construed as limiting the concrete mode obtaining positional information.

In step 403, positional information is sent to detecting devices every predetermined time interval by Wearable device.

Wearable device can send according to predetermined time interval the positional information obtained, and such as outwards sends positional information every 5 minutes or 10 minutes.

Optionally, Wearable device, when predetermined time interval of being separated by outwards sends positional information, can also arrange the lasting transmission duration of location information.Wherein, the duration that transmission duration is less than predetermined time interval is continued.

For example, predetermined time interval is 5 minutes, and scheduled duration is 30 seconds, and Wearable device, after 5 minutes, repeatedly sent positional information incessantly in 30 seconds.The probability that positional information is received can be improved like this.

Usual Wearable device has unique device identification, and be which Wearable device sends in order to make the clear and definite positional information of detecting devices, Wearable device can also obtain device identification, and device identification is sent to detecting devices together with positional information.

In step 404, detecting devices receives the positional information that Wearable device sends.

Detecting devices in real time to the information of surrounding, can obtain the positional information that Wearable device sends.

In step 405, detecting devices generates the rescue instruction carrying positional information.

The positional information of acquisition, after the positional information getting Wearable device transmission, can be carried out storing and showing, point out rescue personnel to rescue with this by detecting devices.

In a kind of use scenes, after rescue personnel obtains the positional information of stranded user, response message can be sent to stranded user, pacify stranded user with this and notify that stranded user bears with rescue.Realization flow refers to following step 406 to 408.

In a step 406, detecting devices, after receiving positional information, sends response message to Wearable device.

Here response message is used to indicate the positional information that detecting devices has received Wearable device transmission.

Detecting devices is obtaining positional information and after being shown, can send the Wearable device transmission response message of this positional information from trend; Or carry out associative operation on the detection apparatus by rescue personnel, produce command adapted thereto and send response message to the Wearable device sending this positional information.

In step 407, Wearable device receives the response message that detecting devices sends.

Wearable device, after the response message receiving detecting devices transmission, stops outwards sending positional information, to save the electricity of Wearable device.

In a step 408, Wearable device generates the first information according to response message, and this first information is used for notifying that user waits for rescue.

Here the first information can be pointed out by the change of indicator light, and such as when not receiving response message, indicator light is for yellow, and after receiving response message, indicator light has become green; This first information also can be voice message, the prompting of instruction sound or text prompt etc.The present embodiment is not construed as limiting for the concrete form of the first information.

In a kind of use scenes, Wearable device, after receiving response message, can read the identity information of user, and identity information is sent to detecting devices, informs the identity of the stranded user of rescue personnel with this.Realization flow refers to following step 409 to 412.

In step 409, Wearable device reads in the identify label prestored in this Wearable device, identify label is sent to server, the identity information that reception server sends, identity information is that server determines the user account corresponding with identify label, read from user account, or, read in the identity information prestored in this Wearable device.

Here identity information can comprise the relevant information etc. of the name of user, identification card number, home address, household.

Can store the unique identify label of user in Wearable device, user can bind this identify label and user account in advance, and is stored in the server by binding relationship.Wearable device can find by server the user account bound with this identify label, and obtains the identity information of this user be stored in this user account by this user account.

Optionally, when the identity information of oneself is directly stored in Wearable device by user, Wearable device can directly obtain the identity information prestored.

In step 410, identity information is sent to detecting devices by Wearable device.

Wherein, identity information directly can be sent to detecting devices by Wearable device, or identity information can also be sent to detecting devices by Wearable device together with device identification.

In step 411, detecting devices receives the identity information of the user that Wearable device sends.

If detecting devices also receives the device identification that Wearable device sends, the positional information corresponding with this device identification can be read, the identity information received and corresponding positional information are carried out binding and storing, the information that Wearable device sends can be polymerized like this, facilitate the information that rescue personnel checks stranded user.

In step 412, detecting devices is according to the identity of identity information indicating user.

Detecting devices is after the identity information receiving the user that Wearable device sends, identity information can be shown, the identity information of the user that rescue personnel can be shown by detecting devices determines the name, home address etc. of this user, thus inform its family members user's the present situation, the effect of pacifying family members can be played like this.

It should be noted that, Wearable device read identity information and send to the step of detecting devices also can receive detecting devices send response message before, the present embodiment does not limit this.

In a kind of use scenes, Wearable device can also send the physiological status parameter of user to detecting devices, the health of this user is shown with this, rescue personnel can determine according to the health of user the user needing preferential rescue, can improve the probability of being rescued of stranded user with this.Realization flow refers to following step 413 to 415.

In step 413, Wearable device obtains the physiological status parameter of user, and physiological status parameter is sent to detecting devices.

Wearable device is receiving response message and after generating the first information, obtain the physiological status parameter of user, physiological status parameter here can comprise heart rate, body temperature, blood pressure etc.The physiological status parameter of acquisition, after obtaining relevant physiological status parameter, is sent to detecting devices by Wearable device.

Wherein, physiological status parameter directly can be sent to detecting devices by Wearable device, or physiological status parameter can also be sent to detecting devices by Wearable device together with device identification.

In step 414, detecting devices receives the physiological status parameter of the user that Wearable device sends.

If detecting devices also receives the device identification that Wearable device sends, the positional information corresponding with this device identification and identity information can be read, the physiological status parameter of the user received and corresponding positional information and identity information are carried out binding and storing, so that the information of rescue personnel to stranded user is checked.

In step 415, detecting devices is according to the rescue priority of physiological status parameter indicating user.

Detecting devices, after the physiological status parameter obtaining the user that Wearable device sends, is analyzed this physiological status parameter, determines the health of this user corresponding to physiological status parameter, judges whether this user needs to be rescued immediately with this.Such rescue personnel can rescue the stranded user that health is poor in time according to instruction, thus improves the rescue probability of success.

In a kind of use scenes, when rescue personnel determines the stranded position of user and implements rescue, rescue information can be sent to this user and point out, and allow this user coordinate rescue work, improve rescue efficiency with this.Realization flow refers to following step 416 to 418.

In step 416, detecting devices sends rescue information to Wearable device, generates when this rescue information is rescuing user.

When rescue personnel to determine the stranded position of user by positional information, rescue information can be sent by detecting devices to the Wearable device corresponding with this user.

In step 417, Wearable device receives the rescue information that detecting devices sends.

In step 418, Wearable device generates the second information according to rescue information, and this second information is used for notifying that user coordinates rescue.

Wearable device, after the rescue information obtaining detecting devices transmission, can generate the second information to notify that user coordinates rescue.

Here the second information can be pointed out by the change of indicator light, such as when not receiving rescue information, indicator light is green, after receiving rescue information, indicator light can glimmer, and points out user rescue personnel to rescue with this; This second information also can be voice message, the prompting of instruction sound or text prompt etc.The present embodiment is not construed as limiting for the concrete form of the second information.

In sum, the rescue mode provided in disclosure embodiment, obtain positional information by Wearable device and send to detecting devices, detecting devices is implemented rescue work according to positional information to rescue personnel and is pointed out; Due to detecting devices can be sent in the positional information of the stranded user of the stranded rear active obtaining of user, make to use the rescue personnel of detecting devices can determine the position of stranded user fast, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

The rescue mode provided in disclosure embodiment, obtain the physiological status parameter of user by Wearable device and send to detecting devices, detecting devices is according to the rescue priority of physiological status parameter indicating user; Due to the health of stranded user can be known, therefore solve owing to preferentially rescuing the good stranded user of health and delayed rescue stranded user in poor condition of health, causing stranded user in poor condition of health to be rescued the lower problem of probability; Reach and improve rescue specific aim, improve the effect of the rescue probability of success.

Following is disclosure device embodiment, may be used for performing disclosure embodiment of the method.For the details do not disclosed in disclosure device embodiment, please refer to disclosure embodiment of the method.

Fig. 5 is the block diagram of a kind of deliverance apparatus according to an exemplary embodiment, as shown in Figure 5, this deliverance apparatus is applied in the Wearable device 120 in implementation environment shown in Fig. 1, and this deliverance apparatus can include but not limited to: determination module 502, acquisition module 504 and the first sending module 506.

This determination module 502, is configured to determine to use the user of Wearable device to be in stranded state.

This acquisition module 504, is configured to the positional information obtaining Wearable device.

This first sending module 506, is configured to, every predetermined time interval, the positional information that acquisition module 504 gets is sent to detecting devices, and detecting devices is for generating the rescue instruction carrying positional information.

In sum, the deliverance apparatus provided in disclosure embodiment, by the positional information determining the stranded rear acquisition Wearable device of user, sends to detecting devices every predetermined time interval by positional information; Due to detecting devices can be sent in the positional information of the stranded user of the stranded rear active obtaining of user, make to use the rescue personnel of detecting devices can determine the position of stranded user fast, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

Fig. 6 is the block diagram of a kind of deliverance apparatus according to another exemplary embodiment, as shown in Figure 6, this deliverance apparatus is applied in the Wearable device 120 in implementation environment shown in Fig. 1, and this deliverance apparatus can include but not limited to: determination module 602, acquisition module 604 and the first sending module 606.

This determination module 602, is configured to determine to use the user of Wearable device to be in stranded state.

This acquisition module 604, is configured to the positional information obtaining Wearable device.

This first sending module 606, is configured to, every predetermined time interval, the positional information that acquisition module 604 gets is sent to detecting devices, and detecting devices is for generating the rescue instruction carrying positional information.

In a kind of possible embodiment, this deliverance apparatus also comprises: read module 608 and the second sending module 610.

This read module 608, be configured to read in the identify label prestored in Wearable device, identify label is sent to server, the identity information that reception server sends, identity information is that server determines the user account corresponding with identify label, read from user account, or, read in the identity information prestored in Wearable device.

This second sending module 610, is configured to identity information to send to detecting devices, and identity information is used for the identity to detecting devices indicating user.

In a kind of possible embodiment, this deliverance apparatus also comprises: the 3rd sending module 612.

3rd sending module 612, be configured to the physiological status parameter obtaining user, physiological status parameter is sent to detecting devices, physiological status parameter is used for the rescue priority to detecting devices indicating user.

In a kind of possible embodiment, this determination module 602 can comprise: first determines that submodule 602a or second determines submodule 602b.

This first determines submodule 602a, is configured to detect whether receive help-asking mode open command, if receive help-asking mode open command, then determines to use the user of Wearable device to be in stranded state.

This second determines submodule 602b, is configured to the environmental parameter obtaining environment residing for Wearable device, when environmental parameter meets stranded condition, determines to use the user of Wearable device to be in stranded state.

In a kind of possible embodiment, this deliverance apparatus also comprises: the first receiver module 614 and the first generation module 616.

This first receiver module 614, be configured to the response message receiving detecting devices transmission, response message is used to indicate detecting devices and receives positional information.

This first generation module 616, the response message being configured to receive according to the first receiver module 614 generates the first information, and the first information is used for notifying that user waits for rescue.

In a kind of possible embodiment, this deliverance apparatus also comprises: the second receiver module 618 and the second generation module 620.

This second receiver module 618, be configured to the rescue information receiving detecting devices transmission, rescue information is used to indicate to be rescued user.

This second generation module 620, the rescue information being configured to receive according to the second receiver module 618 generates the second information, and the second information is used for notifying that user coordinates rescue.

In sum, the deliverance apparatus provided in disclosure embodiment, by the positional information determining the stranded rear acquisition Wearable device of user, sends to detecting devices every predetermined time interval by positional information; Due to detecting devices can be sent in the positional information of the stranded user of the stranded rear active obtaining of user, make to use the rescue personnel of detecting devices can determine the position of stranded user fast, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

The deliverance apparatus provided in disclosure embodiment, by obtaining the physiological status parameter of user, sends to detecting devices by physiological status parameter, and physiological status parameter is used for the rescue priority to detecting devices indicating user; Due to user's physiological status parameter can be obtained and determine to rescue priority with this, therefore solve owing to preferentially rescuing the good stranded user of health and delayed rescue stranded user in poor condition of health, causing stranded user in poor condition of health to be rescued the lower problem of probability; Reach and improve rescue specific aim, improve the effect of the rescue probability of success.

Fig. 7 is the block diagram of a kind of deliverance apparatus Gen Ju an exemplary embodiment again, as shown in Figure 7, this deliverance apparatus is applied in the detecting devices 140 in implementation environment shown in Fig. 1, and this deliverance apparatus can include but not limited to: the first receiver module 702 and generation module 704.

This first receiver module 702, is configured to receive the positional information that Wearable device sends, positional information be Wearable device determine use the user of Wearable device to be in stranded state after obtain and send.

This generation module 704, is configured to generate the rescue instruction carrying the positional information that the first receiver module 702 receives.

In sum, the deliverance apparatus provided in disclosure embodiment, by receiving the positional information that Wearable device sends, generates the rescue instruction carrying positional information; Owing to can determine the position of trapped personnel fast according to the positional information received, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

Fig. 8 is the block diagram according to going back a kind of deliverance apparatus shown in an exemplary embodiment, as shown in Figure 8, this deliverance apparatus is applied in the detecting devices 140 in implementation environment shown in Fig. 1, and this deliverance apparatus can include but not limited to: the first receiver module 802 and generation module 804.

This first receiver module 802, is configured to receive the positional information that Wearable device sends, positional information be Wearable device determine use the user of Wearable device to be in stranded state after obtain and send.

This generation module 804, is configured to generate the rescue instruction carrying the positional information that the first receiver module 802 receives.

In a kind of possible embodiment, this deliverance apparatus also comprises: the second receiver module 806 and the first indicating module 808.

This second receiver module 806, is configured to the identity information receiving the user that Wearable device sends.

This first indicating module 808, is configured to the identity of the identity information indicating user received according to the second receiver module 806.

In a kind of possible embodiment, this deliverance apparatus also comprises: the 3rd receiver module 810 and the second indicating module 812.

3rd receiver module 810, is configured to the physiological status parameter receiving the user that Wearable device sends.

This second indicating module 812, is configured to the rescue priority of the physiological status parameter indicating user received according to the 3rd receiver module 810.

In a kind of possible embodiment, this deliverance apparatus also comprises: the first sending module 814.

This first sending module 814, is configured to after receiving positional information, sends response message to Wearable device, and Wearable device is used for generating the first information according to response message, and the first information is used to indicate user and waits for rescue.

In a kind of possible embodiment, this deliverance apparatus also comprises: the second sending module 816.

This second sending module 816, be configured to after receiving positional information, rescue information is sent to Wearable device, rescue information generates when rescuing user, Wearable device is used for generating the second information according to rescue information, and the second information is used to indicate user and coordinates rescue.

In sum, the deliverance apparatus provided in disclosure embodiment, by receiving the positional information that Wearable device sends, generates the rescue instruction carrying positional information; Owing to can determine the position of trapped personnel fast according to the positional information received, therefore solve and need to carry out on a large scale detecting the position could determining trapped personnel, the problem that search efficiency is lower; Reach the effect improving rescue efficiency.

The deliverance apparatus provided in disclosure embodiment, by receiving the physiological status parameter of the user that Wearable device sends, according to the rescue priority of physiological status parameter indicating user; Due to user's physiological status parameter can be received and indicate rescue priority with this, therefore solve owing to preferentially rescuing the good stranded user of health and delayed rescue stranded user in poor condition of health, causing stranded user in poor condition of health to be rescued the lower problem of probability; Reach and improve rescue specific aim, improve the effect of the rescue probability of success.

About the device in above-described embodiment, wherein the concrete mode of modules executable operations has been described in detail in about the embodiment of the method, will not elaborate explanation herein.

The disclosure one exemplary embodiment provides a kind of deliverance apparatus, is applied in Wearable device, can realize the rescue mode that the disclosure provides, and this deliverance apparatus comprises: processor, memory for storage of processor executable instruction;

Wherein, processor is configured to:

Determine to use the user of Wearable device to be in stranded state;

Obtain the positional information of Wearable device;

Every predetermined time interval, positional information is sent to detecting devices, detecting devices is for generating the rescue instruction carrying positional information.

Another exemplary embodiment of the disclosure provides a kind of deliverance apparatus, is applied in detecting devices, can realize the rescue mode that the disclosure provides, and this deliverance apparatus comprises: processor, memory for storage of processor executable instruction;

Wherein, processor is configured to:

Receive the positional information that Wearable device sends, positional information be Wearable device determine use the user of Wearable device to be in stranded state after obtain and send;

Generate the rescue instruction carrying positional information.

Fig. 9 is the block diagram of a kind of device for rescuing according to an exemplary embodiment.Such as, device 900 can be mobile phone, computer, digital broadcast terminal, messaging devices, game console, flat-panel devices, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 9, device 900 can comprise following one or more assembly: processing components 902, memory 904, power supply module 906, multimedia groupware 908, audio-frequency assembly 910, I/O (I/O) interface 912, sensor cluster 914, and communications component 916.

The integrated operation of the usual control device 900 of processing components 902, such as with display, call, data communication, camera operation and record operate the operation be associated.Processing components 902 can comprise one or more processor 918 to perform instruction, to complete all or part of step of above-mentioned method.In addition, processing components 902 can comprise one or more module, and what be convenient between processing components 902 and other assemblies is mutual.Such as, processing components 902 can comprise multi-media module, mutual with what facilitate between multimedia groupware 908 and processing components 902.

Memory 904 is configured to store various types of data to be supported in the operation of device 900.The example of these data comprises for any application program of operation on device 900 or the instruction of method, contact data, telephone book data, message, picture, video etc.Memory 904 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, disk or CD.

The various assemblies that power supply module 906 is device 900 provide electric power.Power supply module 906 can comprise power-supply management system, one or more power supply, and other and the assembly generating, manage and distribute electric power for device 900 and be associated.

Multimedia groupware 908 is included in the screen providing an output interface between device 900 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises one or more touch sensor with the gesture on sensing touch, slip and touch panel.Touch sensor can the border of not only sensing touch or sliding action, but also detects the duration relevant with touch or slide and pressure.In certain embodiments, multimedia groupware 908 comprises a front-facing camera and/or post-positioned pick-up head.When device 900 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 910 is configured to export and/or input audio signal.Such as, audio-frequency assembly 910 comprises a microphone (MIC), and when device 900 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The audio signal received can be stored in memory 904 further or be sent via communications component 916.In certain embodiments, audio-frequency assembly 910 also comprises a loud speaker, for output audio signal.

I/O interface 912 is for providing interface between processing components 902 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor cluster 914 comprises one or more transducer, for providing the state estimation of various aspects for device 900.Such as, sensor cluster 914 can detect the opening/closing state of device 900, the relative positioning of assembly, such as assembly is display and the keypad of device 900, the position of all right checkout gear 900 of sensor cluster 914 or device 900 1 assemblies changes, the presence or absence that user contacts with device 900, the variations in temperature of device 900 orientation or acceleration/deceleration and device 900.Sensor cluster 914 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor cluster 914 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor cluster 914 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.

Communications component 916 is configured to the communication being convenient to wired or wireless mode between device 900 and other equipment.Device 900 can access the wireless network based on communication standard, as Wi-Fi, 2G or 3G, or their combination.In one exemplary embodiment, communications component 916 receives from the broadcast singal of external broadcasting management system or broadcast related information via broadcast channel.In one exemplary embodiment, communications component 916 also comprises near-field communication (NFC) module, to promote junction service.Such as, can based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 900 can be realized, for performing above-mentioned rescue mode by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components.

In the exemplary embodiment, additionally provide a kind of non-transitory computer-readable recording medium comprising instruction, such as, comprise the memory 904 of instruction, above-mentioned instruction can perform above-mentioned rescue mode by the processor 918 of device 900.Such as, non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc.

Those skilled in the art, at consideration specification and after putting into practice invention disclosed herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Specification and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim below.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (24)

1. a rescue mode, is characterized in that, is applied in Wearable device, comprises:

Determine to use the user of described Wearable device to be in stranded state;

Obtain the positional information of described Wearable device;

Every predetermined time interval, described positional information is sent to detecting devices, described detecting devices is for generating the rescue instruction carrying described positional information.

2. method according to claim 1, is characterized in that, described method also comprises:

Read in the identify label prestored in described Wearable device, described identify label is sent to server, receive the identity information that described server sends, described identity information is that described server determines the user account corresponding with described identify label, read from described user account, or, read in the identity information prestored in described Wearable device;

Described identity information is sent to described detecting devices, and described identity information is used for the identity indicating described user to described detecting devices.

3. method according to claim 1, is characterized in that, described method also comprises:

Obtain the physiological status parameter of described user, described physiological status parameter is sent to described detecting devices, described physiological status parameter is used for the rescue priority indicating described user to described detecting devices.

4. method according to claim 1, is characterized in that, describedly determines to use the user of described Wearable device to be in stranded state, comprising:

Detect and whether receive help-asking mode open command, if receive described help-asking mode open command, then determine to use the user of described Wearable device to be in stranded state; Or,

Obtain the environmental parameter of environment residing for described Wearable device, when described environmental parameter meets stranded condition, determine to use the user of described Wearable device to be in stranded state.

5. the method according to any one of Claims 1-4, is characterized in that, described method also comprises:

Receive the response message that described detecting devices sends, described response message is used to indicate described detecting devices and has received described positional information and described identity information;

Generate the first information according to described response message, described first information is used for notifying that described user waits for rescue.

6. the method according to any one of Claims 1-4, is characterized in that, described method also comprises:

Receive the rescue information that described detecting devices sends, described rescue information is used to indicate to be rescued described user;

Generate the second information according to described rescue information, described second information is used for notifying that described user coordinates rescue.

7. a rescue mode, is characterized in that, is applied in detecting devices, comprises:

Receive the positional information that Wearable device sends, described positional information be described Wearable device determine use the user of described Wearable device to be in stranded state after obtain and send;

Generate the rescue instruction carrying described positional information.

8. method according to claim 7, is characterized in that, described method also comprises:

Receive the identity information of the described user that described Wearable device sends;

The identity of described user is indicated according to described identity information.

9. method according to claim 7, is characterized in that, described method also comprises:

Receive the physiological status parameter of the described user that described Wearable device sends;

The rescue priority of described user is indicated according to described physiological status parameter.

10., according to the arbitrary described method of claim 7 to 9, it is characterized in that, described method also comprises:

After receiving described positional information, send response message to described Wearable device, described Wearable device is used for generating the first information according to described response message, and described first information is used to indicate described user and waits for rescue.

11. according to the arbitrary described method of claim 7 to 9, and it is characterized in that, described method also comprises:

After receiving described positional information, rescue information is sent to described Wearable device, described rescue information generates when rescuing described user, described Wearable device is used for generating the second information according to described rescue information, and described second information is used to indicate described user and coordinates rescue.

12. 1 kinds of deliverance apparatus, is characterized in that, are applied in Wearable device, comprise:

Determination module, is configured to determine to use the user of described Wearable device to be in stranded state;

Acquisition module, is configured to the positional information obtaining described Wearable device;

First sending module, the described positional information being configured to be got by described acquisition module every predetermined time interval sends to detecting devices, and described detecting devices is for generating the rescue instruction carrying described positional information.

13. devices according to claim 12, is characterized in that, described device also comprises:

Read module, be configured to read in the identify label prestored in described Wearable device, described identify label is sent to server, receive the identity information that described server sends, described identity information is that described server determines the user account corresponding with described identify label, read from described user account, or, read in the identity information prestored in described Wearable device;

Second sending module, is configured to described identity information to send to described detecting devices, and described identity information is used for the identity indicating described user to described detecting devices.

14. devices according to claim 12, is characterized in that, described device also comprises:

3rd sending module, is configured to the physiological status parameter obtaining described user, and described physiological status parameter is sent to described detecting devices, and described physiological status parameter is used for the rescue priority indicating described user to described detecting devices.

15. devices according to claim 12, is characterized in that, described determination module, comprising:

First determines submodule, is configured to detect whether receive help-asking mode open command, if receive described help-asking mode open command, then determines to use the user of described Wearable device to be in stranded state; Or,

Second determines submodule, is configured to the environmental parameter obtaining environment residing for described Wearable device, when described environmental parameter meets stranded condition, determines to use the user of described Wearable device to be in stranded state.

16., according to claim 12 to the device described in 15 any one, is characterized in that, described device also comprises:

First receiver module, be configured to the response message receiving the transmission of described detecting devices, described response message is used to indicate described detecting devices and has received described positional information and described identity information;

First generation module, the described response message being configured to receive according to described first receiver module generates the first information, and described first information is used for notifying that described user waits for rescue.

17., according to claim 12 to the device described in 15 any one, is characterized in that, described device also comprises:

Second receiver module, be configured to the rescue information receiving the transmission of described detecting devices, described rescue information is used to indicate to be rescued described user;

Second generation module, the described rescue information being configured to receive according to described second receiver module generates the second information, and described second information is used for notifying that described user coordinates rescue.

18. 1 kinds of deliverance apparatus, is characterized in that, are applied in detecting devices, comprise:

First receiver module, is configured to receive the positional information that Wearable device sends, described positional information be described Wearable device determine use the user of described Wearable device to be in stranded state after obtain and send;

Generation module, is configured to generate the rescue instruction carrying the described positional information that described first receiver module receives.

19. devices according to claim 18, is characterized in that, described device also comprises:

Second receiver module, is configured to the identity information receiving the described user that described Wearable device sends;

First indicating module, the described identity information being configured to receive according to described second receiver module indicates the identity of described user.

20. devices according to claim 18, is characterized in that, described device also comprises:

3rd receiver module, is configured to the physiological status parameter receiving the described user that described Wearable device sends;

Second indicating module, the described physiological status parameter being configured to receive according to described 3rd receiver module indicates the rescue priority of described user.

21. according to claim 18 to 19 arbitrary described devices, and it is characterized in that, described device also comprises:

First sending module, be configured to after receiving described positional information, send response message to described Wearable device, described Wearable device is used for generating the first information according to described response message, and described first information is used to indicate described user and waits for rescue.

22. according to claim 18 to 19 arbitrary described devices, and it is characterized in that, described device also comprises:

Second sending module, be configured to after receiving described positional information, rescue information is sent to described Wearable device, described rescue information generates when rescuing described user, described Wearable device is used for generating the second information according to described rescue information, and described second information is used to indicate described user and coordinates rescue.

23. 1 kinds of deliverance apparatus, is characterized in that, are applied in Wearable device, comprise:

Processor;

For storing the memory of described processor executable;

Wherein, described processor is configured to:

Determine to use the user of described Wearable device to be in stranded state;

Obtain the positional information of described Wearable device;

Every predetermined time interval, described positional information is sent to detecting devices, described detecting devices is for generating the rescue instruction carrying described positional information.

24. 1 kinds of deliverance apparatus, is characterized in that, are applied in detecting devices, comprise:

Processor;

For storing the memory of described processor executable;

Wherein, described processor is configured to:

Receive the positional information that Wearable device sends, described positional information be described Wearable device determine use the user of described Wearable device to be in stranded state after obtain and send;

Generate the rescue instruction carrying described positional information.