CN111638753A - Earthquake help-seeking method, wearable device, electronic device and storage medium - Google Patents

Abstract

The application relates to the technical field of electronic equipment, and discloses an earthquake help-seeking method, wearable equipment, electronic equipment and a storage medium, which comprise: when the wearable equipment is in the earthquake mutual assistance mode, equipment scanning is carried out on an area corresponding to the geographical position where the wearable equipment is located; when terminal equipment matched with the wearable equipment is scanned, controlling the wearable equipment to automatically establish communication connection with the terminal equipment; and sending the distress message containing the geographical position to the terminal equipment through the communication connection. By implementing the embodiment of the application, the wearable device can be added with the terminal device without authorization, and the identity information is trusted identity information, and the distress information containing the geographical position of the wearable device is sent to the terminal device, so that the victim can be timely and accurately positioned, the distress information is sent to the rescue workers, and the success rate of rescue is improved.

Description

Earthquake help-seeking method, wearable device, electronic device and storage medium

Technical Field

The application relates to the technical field of electronic equipment, in particular to an earthquake help-seeking method, wearable equipment, electronic equipment and a storage medium.

Background

Earthquake disasters bring huge economic losses and casualties to China. In earthquake, people are sometimes buried under the ruins, lose the connection with ground personnel and cannot be timely treated, thereby causing a plurality of casualties. At present, the self-rescue mode of victims in earthquakes is generally as follows: and sending the distress information containing the position of the victim to the outside search and rescue personnel through the wireless communication device. However, in practice, it is found that the network in the area of the epicenter usually cannot be connected, and the victim cannot successfully send the distress information through the wireless communication device, so that the search and rescue personnel cannot timely and accurately locate the victim, and the success rate of search and rescue is reduced.

Disclosure of Invention

The embodiment of the application discloses an earthquake help-seeking method, wearable equipment, electronic equipment and a storage medium, which can timely and accurately locate victims and improve the success rate of search and rescue.

The embodiment of the application discloses an earthquake help-seeking method in a first aspect, which comprises the following steps:

when the wearable equipment is in the earthquake mutual assistance mode, equipment scanning is carried out on an area corresponding to the geographical position where the wearable equipment is located;

when terminal equipment is scanned, controlling the wearable equipment to automatically establish communication connection with the terminal equipment;

sending first identity information of the wearable device to the terminal device through the communication connection, wherein the first identity information is used for instructing the terminal device to add the first identity information as trusted identity information;

receiving second identity information of the terminal equipment through the communication connection, and adding the second identity information as trust identity information;

and sending distress information containing the geographic position to terminal equipment with the trust identity information.

As an optional implementation manner, in the first aspect of this embodiment of the present application, before performing device scanning on an area corresponding to a geographic location where the wearable device is located when the wearable device is in the seismic mutual assistance mode, the method further includes:

when receiving an earthquake prompt, identifying the earthquake prompt to obtain earthquake information contained in the earthquake prompt;

when the earthquake information comprises a mutual aid mode trigger instruction, controlling the wearable equipment to start an earthquake mutual aid mode matched with the mutual aid mode trigger instruction, and reading earthquake self-rescue information from the earthquake information, wherein the earthquake self-rescue information comprises at least one earthquake self-rescue type and self-rescue information matched with each earthquake self-rescue type;

outputting self-rescue prompt information containing the at least one earthquake self-rescue type, wherein the self-rescue prompt information is used for prompting a user of the wearable equipment to select a target earthquake self-rescue type matched with the current earthquake situation from the at least one earthquake self-rescue type;

and when the target earthquake self-rescue type input by the user is detected, self-rescue information matched with the target earthquake self-rescue type is output.

As an optional implementation manner, in the first aspect of this embodiment of the present application, after obtaining the seismic information included in the seismic hint, the method further includes:

when the earthquake information does not contain the mutual aid mode triggering instruction, outputting a mutual aid mode starting prompt, wherein the mutual aid mode starting prompt is used for prompting a user of the wearable equipment to start an earthquake mutual aid mode of the wearable equipment;

controlling the wearable device to turn on the seismic mutual aid mode when detecting a user-input instruction indicating to turn on the seismic mutual aid mode of the wearable device.

As an optional implementation manner, in the first aspect of this embodiment of the present application, before sending the distress message including the geographic location to the terminal device with the identity information, the method further includes:

scanning the environment of the user of the wearable device through a three-dimensional scanning device in the wearable device to obtain a three-dimensional model of the environment of the user;

the sending of the distress message including the geographical location to the terminal device with the trusted identity information includes:

and sending distress information containing the geographic position and the three-dimensional model to terminal equipment with the trusted identity information.

As an optional implementation manner, in the first aspect of this embodiment of the present application, after the sending the distress message including the geographic location to the terminal device with the identity information, the method further includes:

when a target instruction sent by the terminal equipment is received, reading an equipment identifier of the terminal equipment contained in the target instruction, and acquiring a target resource which is requested to be accessed by the target instruction;

determining an access authority level corresponding to the equipment identifier;

and when the target resource is detected to be matched with the access authority level, controlling the target instruction to access the target resource.

As an optional implementation manner, in the first aspect of this embodiment of the present application, the method further includes:

when the target resource is detected not to be matched with the access authority level, reading first interaction information from the target instruction, and acquiring the current electric quantity of the wearable device;

determining an interaction mode corresponding to the current electric quantity;

acquiring second interactive information corresponding to the first interactive information;

and sending the second interactive information according to the interactive mode.

As an optional implementation manner, in the first aspect of this embodiment of the present application, before sending the distress message including the geographic location to the terminal device with the identity information, the method further includes:

acquiring target position information of the terminal equipment through the communication connection, and acquiring personal information of a user of the wearable equipment;

generating path information between the target location information and the geographic location;

and generating distress information containing the personal information, the path information and the geographic position.

A second aspect of the embodiments of the present application discloses a wearable device, including:

the scanning unit is used for carrying out equipment scanning on an area corresponding to the geographical position of the wearable equipment when the wearable equipment is in the earthquake mutual assistance mode;

the connection unit is used for controlling the wearable equipment to automatically establish communication connection with the terminal equipment when the terminal equipment is scanned;

a first sending unit, configured to send first identity information of the wearable device to the terminal device through the communication connection, where the first identity information is used to instruct the terminal device to add the first identity information as trusted identity information;

the adding unit is used for receiving second identity information of the terminal equipment through the communication connection and adding the second identity information as trusted identity information;

and the second sending unit is used for sending the distress message containing the geographic position to the terminal equipment with the trust identity information.

A third aspect of the embodiments of the present application discloses an electronic device, including:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to perform part or all of the steps of any one of the methods of the first aspect.

A fourth aspect of embodiments of the present application discloses a computer-readable storage medium storing program code, where the program code includes instructions for performing some or all of the steps of any one of the methods of the first aspect.

A fifth aspect of embodiments of the present application discloses a computer program product, which, when run on a computer, causes the computer to perform some or all of the steps of any one of the methods of the first aspect.

A sixth aspect of the present embodiment discloses an application publishing platform, configured to publish a computer program product, wherein when the computer program product runs on a computer, the computer is caused to perform part or all of the steps of any one of the methods of the first aspect.

Compared with the prior art, the embodiment of the application has the following beneficial effects:

in the embodiment of the application, when the wearable device is in the earthquake mutual assistance mode, device scanning is carried out on the area corresponding to the geographical position where the wearable device is located; when terminal equipment matched with the wearable equipment is scanned, controlling the wearable equipment to automatically establish communication connection with the terminal equipment; and sending the distress message containing the geographical position to the terminal equipment through the communication connection. Therefore, by the embodiment of the application, the wearable device can add the identity information of the terminal device without authorization as the trusted identity information, and send the distress message containing the geographical position of the wearable device to the terminal device, so that the victim can be timely and accurately positioned, the distress message is sent to the rescue workers, and the success rate of rescue is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic flow chart of an earthquake help-seeking method disclosed in an embodiment of the present application;

fig. 2 is a schematic view of an application scenario to which an earthquake help-seeking method disclosed in an embodiment of the present application is applied;

FIG. 3 is a schematic flow chart of another earthquake help-seeking method disclosed in the embodiments of the present application;

FIG. 4 is a schematic flow chart of another earthquake help-seeking method disclosed in the embodiments of the present application;

fig. 5 is a schematic structural diagram of a wearable device disclosed in an embodiment of the present application;

fig. 6 is a schematic structural diagram of another wearable device disclosed in the embodiments of the present application;

fig. 7 is a schematic structural diagram of an electronic device disclosed in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It is to be noted that the terms "comprises" and "comprising" and any variations thereof in the examples and figures of the present application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

The embodiment of the application discloses an earthquake help-seeking method, wearable equipment, electronic equipment and a storage medium, which can timely and accurately locate victims, send help-seeking information to search and rescue personnel and improve the success rate of search and rescue. The following are detailed below.

Referring to fig. 1, fig. 1 is a schematic flow chart of an earthquake help-seeking method disclosed in the embodiment of the present application. The earthquake help-seeking method can be applied to wearable equipment. In order to better understand the earthquake help-seeking method described in fig. 1, the embodiment of the present application first introduces an application scenario to which the earthquake help-seeking method shown in fig. 1 is applicable.

Referring to fig. 2, fig. 2 is a schematic view of an application scenario in which the earthquake help-seeking method shown in fig. 1 is applied. The application scenario shown in fig. 2 may be an area after an earthquake. In the scenario shown in fig. 2, wearable device a, terminal device b1, terminal device b2, terminal device c, terminal device d1, and terminal device d2 may be included, in the scenario shown in fig. 2, an area a corresponding to the geographic location where wearable device a is located may be an area where wearable device a can perform device scanning, wearable device a may control wearable device a to enter a seismic mutual assistance mode and perform device scanning on area a after an earthquake occurs, as shown in fig. 2, a terminal device that can establish a communication connection with wearable device a in scanning area a may be terminal device b1 and/or terminal device b2, while there may also be terminal device c that cannot establish a communication connection with wearable device a in scanning area a, and further, as shown in the figure, both terminal device d1 and terminal device d2 outside scanning area a cannot be scanned by wearable device a, therefore, the terminal device d1 and the terminal device d2 cannot establish a communication connection with the wearable device a; the wearable device a can send first identity information of the wearable device a to the terminal device b1 and/or the terminal device b2 through the communication connection, wherein the first identity information is used for instructing the terminal device b1 and/or the terminal device b2 to add the first identity information as trusted identity information; the wearable device a can receive the second identity information of the terminal device b1 and/or the terminal device b2 through the communication connection, and add the second identity information as the trusted identity information; the wearable device a sends distress information containing the geographical position to the terminal device b1 and/or the terminal device b2 with the trusted identity information, so that the terminal device b1 and/or the terminal device b2 can initiate rescue actions for the user of the wearable device a.

As shown in fig. 1, the earthquake help-seeking method may include the steps of:

101. and when the wearable device is in the earthquake mutual assistance mode, performing device scanning on an area corresponding to the geographical position where the wearable device is located.

In the embodiment of the application, the wearable device can start the earthquake mutual-help mode after the earthquake occurs at the geographical position where the wearable device is located, and the wearable device can be in communication connection with the terminal device scanned in the area by scanning the area corresponding to the geographical position, so that the wearable device can send distress information to the terminal device through the communication connection.

In the embodiment of the application, the geographic position corresponding to the wearable device can be located through a satellite navigation and Positioning System, the satellite navigation and Positioning System can be a Global Positioning System (GPS), a Galileo (Galileo) System, a GLONASS (GLONASS) System or a beidou satellite navigation System (CNSS), and the like, so that the wearable device can acquire the accurate geographic position even under the condition that the geographic position where the wearable device is located cannot be connected with a mobile network after an earthquake, and the accuracy of the Positioning of the wearable device is improved.

In this embodiment of the application, an area corresponding to the geographic location where the wearable device is located may be a maximum scanning range that the wearable device can cover when scanning the terminal device, and a range of the area corresponding to the geographic location where the wearable device is located needs to be determined according to a scanning capability of the scanning device in the wearable device, that is, a distance from any position to the wearable device in the area corresponding to the geographic location where the wearable device is located does not exceed a maximum distance that the scanning device can scan.

For example, the area corresponding to the geographic location where the wearable device is located may be a circular area, the position corresponding to the center of the circular area may be the geographic location where the wearable device is located, and the radius of the circular area may be the farthest distance that the scanning device in the wearable device can scan, so that the circular area corresponding to the geographic location where the wearable device is located is the largest area that the scanning device of the wearable device can scan, and the scanning comprehensiveness is improved.

102. And when the terminal equipment is scanned, controlling the wearable equipment to automatically establish communication connection with the terminal equipment.

In the embodiment of the application, the terminal device may be the same as the wearable device, or may be a device capable of establishing communication connection with the wearable device, and when the wearable device establishes communication connection with the terminal device automatically, the wearable device may not be authorized by a user of the wearable device, that is, when the wearable device scans the terminal device, the wearable device is controlled to be in communication connection with the terminal device, so that the speed of establishing communication connection between the wearable device and the terminal device is increased. In addition, the wearable device may establish a connection with the terminal device by means of short-range wireless communication or long-range wireless communication, where the short-range wireless communication may be: violet peak (ZigBee) protocol, Bluetooth (Bluetooth) technology, or wireless fidelity (WiFi).

103. First identity information of the wearable device is sent to the terminal device through the communication connection, and the first identity information is used for indicating the terminal device to add the first identity information as trusted identity information.

In this embodiment of the application, the first identity information of the wearable Device may be information such as a Device Fingerprint (Device Fingerprint) of the wearable Device, and after the terminal Device adds the first identity information of the wearable Device as the trusted identity information, the interactive information may be sent to the wearable Device, for example, a user of the terminal Device may communicate information with the user of the wearable Device through the terminal Device, and the communication mode may be text communication, voice communication, video communication, or the like.

104. And receiving second identity information of the terminal equipment through the communication connection, and adding the second identity information as the trusted identity information.

In the embodiment of the application, the second identity information of the terminal device may be information such as a device fingerprint of the terminal device, and after the wearable device adds the second identity information of the terminal device as the trusted identity information, the wearable device may send interactive information to the terminal device.

105. And sending distress information containing the geographical position to the terminal equipment with the trusted identity information.

In the embodiment of the application, the geographical position contained in the distress message enables the user of the terminal device receiving the distress message to accurately know the current geographical position of the user of the wearable device, so that the accuracy of determining the position of the user of the wearable device is improved. In addition, the help-seeking device at least may further include personal information (such as name, age, gender, contact information, and the like) of a user of the wearable device, a past medical history, a health condition, environment information where the user is currently located, and the like, and after receiving the help-seeking information including the above information, the user of the terminal device may plan to obtain a specific help-seeking scheme suitable for the user based on the personal information (, the past medical history, the health condition, and the environment information where the user is currently located) of the user, so as to improve the adaptability of the help-seeking scheme to the actual situation of the user;

furthermore, the wearable device can acquire the current residual capacity of the wearable device, and can also estimate the rescue time length, so that the maximum capacity that the wearable device can consume per minute can be calculated according to the residual capacity and the rescue time length, and the wearable device can also acquire the power consumption per minute corresponding to each multimedia type, so that the multimedia type matched with the distress message can be determined according to the maximum capacity that the wearable device can consume per minute and the power consumption per minute corresponding to each multimedia type, and therefore the interaction efficiency of the user of the wearable device and the user of the terminal device is higher on the premise of ensuring the success of rescue.

As an alternative embodiment, after step 103 is executed, the following steps may also be executed:

acquiring a current vital sign of a user of the wearable device through a vital sign acquisition device in the wearable device;

obtaining the health state of the user by analyzing the current vital signs;

and sending the distress message containing the health state to the terminal equipment through the communication connection.

By implementing the implementation mode, the physical health condition of the user can be detected, and the obtained health state of the user can be sent to the terminal equipment, so that the user of the terminal equipment can timely master the health condition of the victim and rescue the victim according to the health condition, and the safety of the victim is ensured.

In the embodiment of the application, an apparatus for acquiring the current vital signs of the user, such as a temperature sensor, a pulse sensor, an oximeter, and the like, may be disposed in the vital sign acquisition device, the current vital signs of the user acquired by the vital sign acquisition device may include, but are not limited to, information of the body temperature, the heart rate, the blood pressure, the blood oxygen, and the like of the user, standard numerical information corresponding to each vital sign may be stored in the wearable device in advance, after the current vital signs of the user are acquired, the acquired current vital signs and the corresponding standard numerical information may be compared to obtain comparison results of each current vital sign, the comparison results may be a normal condition and an abnormal condition, and as long as any one of the comparison results of each current vital sign is an abnormal condition, it may be considered that the health condition of the user is problematic, the user of the wearable device needs to be treated as soon as possible, so that the treatment success rate of the user of the wearable device is improved.

As an optional implementation manner, a user of the wearable device may be a search and rescue worker, the wearable device may establish a communication connection with a terminal device of a victim, and further may obtain a geographic position where the terminal device of the victim is located, and further determine a rescue route according to the geographic position of the terminal device and the geographic position of the wearable device, and further learn, through interaction between the wearable device and the terminal device, information of an environment where the user of the terminal device is located and a physical health state of the user of the terminal device, and further provide more information about the victim for the rescuer of the wearable device, so that the generated rescue scheme has higher safety.

In the embodiment of the application, victims can be timely and accurately positioned, the help seeking information is sent to the search and rescue personnel, and the success rate of search and rescue is improved. In addition, the implementation of the method described in the embodiment of the application improves the comprehensiveness of the scanning. In addition, the method described in the embodiment of the application ensures the safety of the victim.

Referring to fig. 3, fig. 3 is a schematic flow chart of another earthquake help-seeking method disclosed in the embodiment of the present application. As shown in fig. 3, the earthquake help-seeking method may include the steps of:

301. and when the earthquake prompt is received, identifying the earthquake prompt to obtain the earthquake information contained in the earthquake prompt.

In this embodiment of the application, the earthquake prompt may be an earthquake prompt sent to a victim suffering from an earthquake by a third-party earthquake monitoring platform when the occurrence of the earthquake is monitored. The earthquake prompting method comprises the steps that earthquake information matched with the current earthquake can be contained in the earthquake prompting, the earthquake information can include but is not limited to the magnitude and the epicenter of the current earthquake, earthquake self-rescue information aiming at the earthquake can be further contained, the earthquake self-rescue information can contain different self-rescue modes corresponding to different magnitudes, the earthquake self-rescue information can also contain different self-rescue modes corresponding to different conditions faced by victims, and therefore the embodiment of the application is not limited.

As an alternative implementation, after obtaining the seismic information included in the seismic hint in step 301, the following steps may be further performed:

when the earthquake information does not contain a mutual aid mode triggering instruction, outputting a mutual aid mode starting prompt, wherein the mutual aid mode starting prompt is used for prompting a user of the wearable equipment to start an earthquake mutual aid mode of the wearable equipment;

when an instruction which is input by a user and used for indicating to start the earthquake mutual-aid mode of the wearable device is detected, the wearable device is controlled to start the earthquake mutual-aid mode.

By implementing the implementation mode, when the earthquake information does not contain the mutual assistance mode triggering instruction, whether the earthquake mutual assistance mode of the wearable equipment needs to be started or not can be prompted to the user, and if the earthquake mutual assistance mode of the wearable equipment can be started when the instruction which is input by the user and used for indicating confirmation is detected, the earthquake mutual assistance mode of the wearable equipment can be started normally when the user experiences an earthquake, so that the success rate of starting the earthquake mutual assistance mode by the wearable equipment is improved.

In the embodiment of the application, if the earthquake information does not contain a mutual aid mode triggering instruction, the wearable equipment can be controlled to output a mutual aid mode starting prompt, whether the earthquake mutual aid mode of the wearable equipment needs to be started or not is further determined according to the intention of a user of the wearable equipment, and if the user thinks that the current environment is not safe, the earthquake mutual aid mode of the wearable equipment needing to be started can be selected; if the user thinks that the environment that oneself is located is safe at present, can select the earthquake mutual-aid mode that need not to open wearable equipment to avoided wearable equipment to open earthquake mutual-aid mode under user's safe condition, reduced wearable equipment's power consumption.

Furthermore, the multimedia type of the mutual aid mode starting prompt may be one or more of a text type, an image type, or a sound type, and the wearable device may determine an output mode matched with the multimedia type corresponding to the mutual aid mode starting prompt, and output the mutual aid mode starting prompt through the output mode.

302. When the earthquake information comprises a mutual aid mode trigger instruction, the wearable equipment is controlled to start an earthquake mutual aid mode matched with the mutual aid mode trigger instruction, earthquake self-rescue information is read from the earthquake information, and the earthquake self-rescue information comprises at least one earthquake self-rescue type and self-rescue information matched with each earthquake self-rescue type.

In the embodiment of the application, the seismic information can further include a mutual aid mode triggering instruction, and the seismic information can be received by the wearable device, so that the mutual aid mode triggering instruction can be sent to the wearable device through the seismic information, when the wearable device receives the seismic information, the mutual aid mode triggering instruction can be read from the seismic information, and a seismic mutual aid mode matched with the mutual aid mode triggering instruction in the wearable device is timely started, so that the wearable device can normally work after an earthquake occurs.

In the embodiment of the application, the earthquake self-rescue type can include but is not limited to a self-rescue type capable of freely moving and a self-rescue type incapable of freely moving, and the self-rescue type capable of freely moving can be that victims who experience an earthquake are not trapped in a building and can freely move, so that self-rescue information corresponding to the self-rescue type capable of freely moving can exist in earthquake information; the self-rescue type which cannot move freely can be that victims who experience the earthquake are trapped in the building and cannot move freely, so that self-rescue information corresponding to the self-rescue type which cannot move freely can exist in the earthquake information. The two earthquake self-rescue types are completely different in corresponding suitable self-rescue modes, so that the corresponding self-rescue modes can be generated according to different earthquake self-rescue types, and the mode that a user acquiring self-rescue information learns the self-rescue information is simplified.

303. Outputting self-rescue prompt information containing at least one earthquake self-rescue type, wherein the self-rescue prompt information is used for prompting a user of the wearable equipment to select a target earthquake self-rescue type matched with the current earthquake condition from the at least one earthquake self-rescue type.

In the embodiment of the application, the earthquake type of saving oneself can be one or more, and when the earthquake type of saving oneself is multiple, wearable equipment can output the prompt information of saving oneself that contains a plurality of kinds of earthquake types of saving oneself to make wearable equipment's user can select an earthquake type of saving oneself from the multiple earthquake type of saving oneself, so that wearable equipment can output the information of saving oneself that comparatively matches with user's current state of locating.

Optionally, the mode that the wearable device outputs the self-rescue prompting device containing multiple earthquake self-rescue types can be as follows: the display screen of the wearable device outputs the virtual keys corresponding to the multiple earthquake self-rescue types, so that the wearable device can acquire the current position clicked by the user on the display screen, the target virtual keys corresponding to the current position can be determined, the target earthquake self-rescue types corresponding to the target virtual keys can be further determined, and the self-rescue prompt information output by the wearable device is more visual.

In addition, the mode that wearable equipment output contains the suggestion device of saving oneself of multiple earthquake type of saving oneself can also be: the audio of multiple earthquake type of saving oneself is exported through the speaker of wearable equipment, and each earthquake type of saving oneself of output can correspond unique code, this code also can be exported through the speaker, so that user input's pronunciation can be gathered to wearable equipment, when detecting to contain the coding information in this pronunciation, can discern this coding information, confirm the target code that this coding information corresponds, and then can confirm the target earthquake type of saving oneself that the target code corresponds, therefore, need not the user and select the target earthquake type of saving oneself through manual mode, the mode of selecting the target earthquake type of saving oneself has been simplified.

304. And when the target earthquake self-rescue type input by the user is detected, self-rescue information matched with the target earthquake self-rescue type is output.

In the embodiment of the application, the multimedia type of the target self-rescue information can include, but is not limited to, a character type, an image type, a video type and an audio type, and when the target self-rescue information includes first target self-rescue information of the character type and the image type, the first target self-rescue information can be output through a display screen of the wearable device; when the target self-rescue information comprises second target self-rescue information of an audio type, the second target self-rescue information can be output through a loudspeaker of the wearable device; when the target self-rescue information contains the video type third target self-rescue information, the image information in the third target self-rescue information can be output through the display screen of the wearable device, and meanwhile, the audio information in the third target self-rescue information can also be output through the loudspeaker of the wearable device, so that the comprehensiveness of the wearable device for outputting the target self-rescue information can be improved.

In the embodiment of the application, by implementing the steps 301 to 304, the earthquake mutual-help mode of the wearable device can be started according to the mutual-help mode trigger instruction contained in the earthquake prompt, the target earthquake self-help type matched with the current earthquake condition selected by the user is obtained, and then the target self-help information matched with the target earthquake self-help type is output, so that the user can perform self-help according to the target self-help information, and the probability of rescuing the disaster-stricken person is improved.

305. And when the wearable device is in the earthquake mutual assistance mode, performing device scanning on an area corresponding to the geographical position where the wearable device is located.

306. And when the terminal equipment is scanned, controlling the wearable equipment to automatically establish communication connection with the terminal equipment.

307. First identity information of the wearable device is sent to the terminal device through the communication connection, and the first identity information is used for indicating the terminal device to add the first identity information as trusted identity information.

308. And receiving second identity information of the terminal equipment through the communication connection, and adding the second identity information as the trusted identity information.

309. The method comprises the steps that the environment where a user of the wearable device is located is scanned through a three-dimensional scanning device in the wearable device, and a three-dimensional model of the environment where the user is located is obtained.

In this application embodiment, wearable equipment can also gather environmental information such as the temperature, humidity and the oxygen content of the current environment of user, and then can add the environmental information who gathers to three-dimensional model in to the environment that makes the three-dimensional model that generates and the current environment of user be more similar, thereby has promoted the accuracy of the SOS information that generates.

310. And sending distress information containing the geographic position and the three-dimensional model to the terminal equipment with the trusted identity information.

In the embodiment of the application, by implementing the steps 309 to 310, the three-dimensional model of the environment where the user is located can be acquired through the three-dimensional scanning device of the wearable device, and the three-dimensional model is transmitted to the terminal device, so that the search and rescue workers can make a rescue plan according to the three-dimensional model, and the safety of rescue of the user is improved.

In the embodiment of the application, victims can be timely and accurately positioned, the help seeking information is sent to the search and rescue personnel, and the success rate of search and rescue is improved. In addition, the method described in the embodiment of the application simplifies the way for the user obtaining the self-rescue information to learn the self-rescue information. In addition, by the method, the success rate of opening the earthquake mutual assistance mode of the wearable device is improved. In addition, the self-rescue prompt information output by the wearable device is more visual by implementing the method described in the embodiment of the application. In addition, the method described in the embodiment of the application simplifies the mode of selecting the target earthquake self-rescue type. In addition, by implementing the method described in the embodiment of the application, the rescue probability of the disaster-stricken person is improved. In addition, the method described in the embodiment of the application improves the safety of the user for rescue.

Referring to fig. 4, fig. 4 is a schematic flow chart of another earthquake help-seeking method disclosed in the embodiment of the present application. As shown in fig. 4, the earthquake help-seeking method may include the steps of:

401. and when the wearable device is in the earthquake mutual assistance mode, performing device scanning on an area corresponding to the geographical position where the wearable device is located.

402. When the terminal device matched with the wearable device is scanned, the wearable device is controlled to automatically establish communication connection with the terminal device.

403. First identity information of the wearable device is sent to the terminal device through the communication connection, and the first identity information is used for indicating the terminal device to add the first identity information as trusted identity information.

404. And receiving second identity information of the terminal equipment through the communication connection, and adding the second identity information as the trusted identity information.

405. And sending distress information containing the geographical position to the terminal equipment with the trusted identity information.

As an alternative embodiment, before step 405, the following steps may also be performed:

acquiring target position information of the terminal equipment through communication connection, and acquiring personal information of a user of the wearable equipment;

generating path information between the target position information and the geographic position;

and generating distress information containing personal information, path information and geographical position.

By implementing the implementation mode, the path information between the wearable device and the terminal device can be generated according to the target position information and the geographic position, and the distress message containing the path information and the personal information of the user of the wearable device can be generated, so that the user of the terminal device receiving the distress message can quickly know the personal information and the position information of the disaster-stricken person, and the efficiency of determining the personal information and the position information of the disaster-stricken person is improved.

406. And when a target instruction sent by the terminal equipment is received, reading the equipment identifier of the terminal equipment contained in the target instruction, and acquiring the target resource which is requested to be accessed by the target instruction.

In the embodiment of the application, the target instruction can be used for accessing resources in the wearable device, and the wearable device has a risk of resource leakage because the communication connection established between the wearable device and the terminal device does not need to be allowed by a user of the wearable device additionally, so that the wearable device can detect the received target instruction, and only the detected target instruction can execute an operation matched with the target instruction. The wearable device can acquire the device identifier of the terminal device from the target instruction, so that the wearable device can quickly acquire the authority information of the terminal device corresponding to the device identifier in the wearable device.

407. And determining the access authority level corresponding to the equipment identification.

In the embodiment of the application, the device type of the terminal device corresponding to the device identifier can be determined through the device identifier, different device types can correspond to different access permission levels, and the device type of the terminal device can include but is not limited to a private type and a public type.

408. And when the target resource is detected to be matched with the access authority level, controlling the target instruction to access the target resource.

In this embodiment of the application, by implementing the steps 406 to 408, when it is detected that the received target instruction includes a target resource that needs to be accessed in the wearable device, the access right of the terminal device may be determined first, and when it is detected that the access right of the terminal device can access the target resource, the target instruction is allowed to access the target resource, so that the security of the resource stored in the wearable device is improved.

As an optional implementation manner, when the target resource is detected not to match the access right level, the following steps may be further performed:

reading first interaction information from the target instruction, and acquiring the current electric quantity of the wearable device;

determining an interaction mode corresponding to the current electric quantity;

acquiring second interactive information corresponding to the first interactive information;

and sending the second interactive information according to the interactive mode.

By implementing the implementation mode, when the interaction information contained in the target instruction is detected, the current electric quantity of the wearable device can be obtained, the interaction mode of the wearable device and the terminal device can be determined according to the current electric quantity, and the corresponding second interaction information can be determined according to the interaction mode, so that the wearable device and the terminal device can interact in sufficient electric quantity, and the interaction success rate of the wearable device and the terminal device is improved.

In the embodiment of the application, the interaction mode corresponding to the current electric quantity can be an interaction mode which can be implemented by the wearable device and can be supported by the current electric quantity; in addition, the manner of generating the second interaction information matched with the first interaction information and the interaction pattern may be: the initial interaction information which is input by the user and matched with the first interaction information can be acquired, and the initial interaction information can be converted into second interaction information matched with the interaction mode, so that the generated second interaction information is matched with the first interaction information and the interaction mode.

In the embodiment of the application, victims can be timely and accurately positioned, the help seeking information is sent to the search and rescue personnel, and the success rate of search and rescue is improved. In addition, by implementing the method described in the embodiment of the application, the efficiency of determining the personal information and the position information of the disaster-stricken person is improved. In addition, by implementing the method described in the embodiment of the application, the security of the resource stored in the wearable device is improved. In addition, by implementing the method described in the embodiment of the application, the success rate of interaction between the wearable device and the terminal device is improved.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a wearable device disclosed in the embodiment of the present application. As shown in fig. 5, the wearable device may include a scanning unit 501, a connection unit 502, a first sending unit 503, an adding unit 504, and a second sending unit 505, where:

the scanning unit 501 is configured to perform device scanning on an area corresponding to a geographic location where the wearable device is located when the wearable device is in the earthquake mutual aid mode.

A connection unit 502, configured to control the wearable device to automatically establish a communication connection with the terminal device when the terminal device is scanned by the scanning unit 501.

A first sending unit 503, configured to send first identity information of the wearable device to the terminal device through the communication connection established by the connection unit 502, where the first identity information is used to instruct the terminal device to add the first identity information as trusted identity information.

An adding unit 504, configured to receive second identity information of the terminal device through the communication connection established by the connecting unit 502, and add the second identity information as trusted identity information;

a second sending unit 505, configured to send distress information including the geographic location to the terminal device with the trust identity information added by the adding unit 504.

As an optional implementation manner, the second sending unit 505 may further be configured to:

acquiring a current vital sign of a user of the wearable device through a vital sign acquisition device in the wearable device;

obtaining the health state of the user by analyzing the current vital signs;

and sending the distress message containing the health state to the terminal equipment through the communication connection.

By implementing the implementation mode, the physical health condition of the user can be detected, and the obtained health state of the user can be sent to the terminal equipment, so that the user of the terminal equipment can timely master the health condition of the victim and rescue the victim according to the health condition, and the safety of the victim is ensured.

In the embodiment of the application, victims can be timely and accurately positioned, the help seeking information is sent to the search and rescue personnel, and the success rate of search and rescue is improved. In addition, in the wearable device shown in the embodiment of the application, the safety of victims is guaranteed.

Referring to fig. 6, fig. 6 is a schematic structural diagram of another wearable device disclosed in the embodiment of the present invention. Wherein, the wearable device shown in fig. 6 is optimized by the wearable device shown in fig. 5, and compared with the wearable device shown in fig. 5, the wearable device shown in fig. 6 may further include:

the identifying unit 506 is configured to identify the seismic hint to obtain the seismic information included in the seismic hint before the scanning unit 501 performs device scanning on the area corresponding to the geographic location where the wearable device is located when the wearable device is in the seismic mutual assistance mode and when the seismic hint is received.

And the opening unit 507 is used for controlling the wearable device to open the earthquake mutual aid mode matched with the mutual aid mode trigger instruction when the earthquake information obtained by the identification unit 506 contains the mutual aid mode trigger instruction, and reading earthquake self-rescue information from the earthquake information, wherein the earthquake self-rescue information contains at least one earthquake self-rescue type and self-rescue information matched with each earthquake self-rescue type.

The first output unit 508 is used for outputting self-rescue prompt information containing at least one earthquake self-rescue type read by the starting unit 507, and the self-rescue prompt information is used for prompting a user of the wearable device to select a target earthquake self-rescue type matched with the current earthquake situation from the at least one earthquake self-rescue type.

The first obtaining unit 509 is configured to, when the target earthquake self-rescue type input by the user is detected, output self-rescue information matched with the target earthquake self-rescue type.

In the embodiment of the application, the earthquake mutual-help mode of the wearable device can be started according to the mutual-help mode trigger instruction contained in the earthquake prompt, the target earthquake self-help type matched with the current earthquake condition selected by the user is obtained, and then the target self-help information matched with the target earthquake self-help type is output, so that the user can save self according to the target self-help information, and the probability of rescuing the disaster-stricken is improved.

As an alternative embodiment, the wearable device shown in fig. 6 may further include:

a second output unit 510, configured to output a mutual aid mode starting prompt after the identification unit 506 obtains the seismic information included in the seismic prompt and when the seismic information does not include a mutual aid mode trigger instruction, where the mutual aid mode starting prompt is used to prompt a user of the wearable device to start an seismic mutual aid mode of the wearable device;

the starting unit 507 is further configured to control the wearable device to start the seismic mutual aid mode when an instruction, which is input by a user and used for instructing to start the seismic mutual aid mode of the wearable device, is detected.

By implementing the implementation mode, when the earthquake information does not contain the mutual assistance mode triggering instruction, whether the earthquake mutual assistance mode of the wearable equipment needs to be started or not can be prompted to the user, and if the earthquake mutual assistance mode of the wearable equipment can be started when the instruction which is input by the user and used for indicating confirmation is detected, the earthquake mutual assistance mode of the wearable equipment can be started normally when the user experiences an earthquake, so that the success rate of starting the earthquake mutual assistance mode by the wearable equipment is improved.

As an alternative embodiment, the wearable device shown in fig. 6 may further include:

the three-dimensional scanning unit 511 is configured to scan the environment where the user of the wearable device is located through the three-dimensional scanning device in the wearable device to obtain a three-dimensional model of the environment where the user is located before the second sending unit 505 sends the distress message including the geographic location to the terminal device with trusted identity information;

in addition, the manner for the second sending unit 505 to send the distress message including the geographic location to the terminal device with the trusted identity information may specifically be:

and sending distress information containing the geographic position and the three-dimensional model obtained by the three-dimensional scanning unit 511 to the terminal equipment with the trusted identity information.

By the implementation of the implementation mode, the three-dimensional model of the environment where the user is located can be acquired through the three-dimensional scanning device of the wearable device, and the three-dimensional model is transmitted to the terminal device, so that search and rescue personnel can make a rescue plan according to the three-dimensional model, and the safety of rescue of the user is improved.

As an alternative embodiment, the wearable device shown in fig. 6 may further include:

the first reading unit 512 is configured to, after the second sending unit 505 sends the distress message including the geographic location to the terminal device with the trusted identity information, and when a target instruction sent by the terminal device is received, read the device identifier of the terminal device included in the target instruction, and obtain a target resource that the target instruction requests to access;

a determining unit 513, configured to determine an access permission level corresponding to the device identifier read by the first reading unit 512;

an accessing unit 514, configured to control the target instruction to access the target resource when detecting that the target resource read by the first reading unit 512 matches the access permission level determined by the determining unit 513.

By implementing the implementation mode, when the received target instruction is detected to contain the target resource needing to be accessed in the wearable device, the access authority of the terminal device is determined, and the target instruction is allowed to access the target resource under the condition that the access authority of the terminal device is detected to be capable of accessing the target resource, so that the safety of the resource stored in the wearable device is improved.

As an alternative embodiment, the wearable device shown in fig. 6 may further include:

the second reading unit 515 is configured to, when it is detected that the target resource read by the first reading unit 512 is not matched with the access permission level determined by the determining unit 513, read the first interaction information from the target instruction, and obtain a current electric quantity of the wearable device;

the determining unit 513 is further configured to determine an interaction mode corresponding to the current electric quantity acquired by the second reading unit 515;

the first obtaining unit 509 is further configured to obtain second interaction information corresponding to the first interaction information obtained by the second reading unit 515;

a third sending unit 516, configured to send the second interaction information acquired by the first acquiring unit 509 according to the interaction mode determined by the determining unit 513.

By implementing the implementation mode, when the interaction information contained in the target instruction is detected, the current electric quantity of the wearable device can be obtained, the interaction mode of the wearable device and the terminal device can be determined according to the current electric quantity, and the corresponding second interaction information can be determined according to the interaction mode, so that the wearable device and the terminal device can interact in sufficient electric quantity, and the interaction success rate of the wearable device and the terminal device is improved.

As an alternative embodiment, the wearable device shown in fig. 6 may further include:

a second obtaining unit 517, configured to obtain target location information of the terminal device through a communication connection and obtain personal information of a user of the wearable device before the second sending unit 505 sends the distress message including the geographic location to the terminal device with trusted identity information;

a generating unit 518, configured to generate path information between the target location information and the geographic location acquired by the second acquiring unit 517;

the generating unit 518 is further configured to generate distress information including the personal information, the generated route information, and the geographic location acquired by the second acquiring unit 517.

By implementing the implementation mode, the path information between the wearable device and the terminal device can be generated according to the target position information and the geographic position, and the distress message containing the path information and the personal information of the user of the wearable device can be generated, so that the user of the terminal device receiving the distress message can quickly know the personal information and the position information of the disaster-stricken person, and the efficiency of determining the personal information and the position information of the disaster-stricken person is improved.

In the embodiment of the application, victims can be timely and accurately positioned, the help seeking information is sent to the search and rescue personnel, and the success rate of search and rescue is improved. In addition, in the wearable device shown in the embodiment of the application, the success rate of the wearable device for starting the earthquake mutual assistance mode is improved. In addition, in the wearable device shown in the embodiment of the application, the safety of rescuing the user is improved. In addition, in the wearable device shown in the embodiment of the application, the safety of resources stored in the wearable device is improved. In addition, in the wearable device shown in the embodiment of the application, the success rate of interaction between the wearable device and the terminal device is improved. In addition, in the wearable device shown in the embodiment of the application, the efficiency of determining the personal information and the position information of the disaster-stricken person is improved. In addition, in the wearable device shown in the embodiment of the application, the safety of victims is guaranteed.

Referring to fig. 7, fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. As shown in fig. 7, the electronic device may include:

a memory 701 in which executable program code is stored;

a processor 702 coupled to the memory 701;

wherein, the processor 702 calls the executable program code stored in the memory 701 to execute part or all of the steps of the method in the above method embodiments.

The embodiment of the application also discloses a computer readable storage medium, wherein the computer readable storage medium stores program codes, wherein the program codes comprise instructions for executing part or all of the steps of the method in the above embodiment.

The embodiment of the present application also discloses a computer program product, wherein when the computer program product runs on a computer, the computer is caused to execute part or all of the steps of the method in the above embodiment.

The embodiment of the application also discloses an application publishing platform, wherein the application publishing platform is used for publishing a computer program product, and when the computer program product runs on a computer, the computer is enabled to execute part or all of the steps of the method in the embodiment.

It should be appreciated that reference throughout this specification to "an embodiment of the present application" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrase "in the embodiments of the present application" appearing in various places throughout the specification are not necessarily all referring to the same embodiments. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. Those skilled in the art should also appreciate that the embodiments described in this specification are all alternative embodiments and that the acts and modules involved are not necessarily required for this application.

In various embodiments of the present application, it should be understood that the size of the serial number of each process described above does not mean that the execution sequence is necessarily sequential, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation on the implementation process of the embodiments of the present application.

In addition, the terms "system" and "network" are often used interchangeably herein. It should be understood that the term "and/or" herein is merely one type of association relationship describing an associated object, meaning that three relationships may exist, for example, a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

In the embodiments provided herein, it should be understood that "B corresponding to a" means that B is associated with a from which B can be determined. It should also be understood, however, that determining B from a does not mean determining B from a alone, but may also be determined from a and/or other information.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by instructions associated with a program, which may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), compact disc-Read-Only Memory (CD-ROM), or other Memory, magnetic disk, magnetic tape, or magnetic tape, Or any other medium which can be used to carry or store data and which can be read by a computer.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated units, if implemented as software functional units and sold or used as a stand-alone product, may be stored in a computer accessible memory. Based on such understanding, the technical solution of the present application, which is a part of or contributes to the prior art in essence, or all or part of the technical solution, may be embodied in the form of a software product, stored in a memory, including several requests for causing a computer device (which may be a personal computer, a server, a network device, or the like, and may specifically be a processor in the computer device) to execute part or all of the steps of the above-described method of the embodiments of the present application.

The earthquake help-seeking method, the wearable device, the electronic device and the storage medium disclosed in the embodiment of the application are introduced in detail, a specific example is applied in the text to explain the principle and the implementation mode of the application, and the description of the embodiment is only used for helping to understand the method and the core idea of the application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. An earthquake help-seeking method, comprising:

when the wearable equipment is in the earthquake mutual assistance mode, equipment scanning is carried out on an area corresponding to the geographical position where the wearable equipment is located;

when terminal equipment is scanned, controlling the wearable equipment to automatically establish communication connection with the terminal equipment;

sending first identity information of the wearable device to the terminal device through the communication connection, wherein the first identity information is used for instructing the terminal device to add the first identity information as trusted identity information;

receiving second identity information of the terminal equipment through the communication connection, and adding the second identity information as trust identity information;

and sending distress information containing the geographic position to terminal equipment with the trust identity information.

2. The method of claim 1, wherein before performing the device scan on the area corresponding to the geographic location of the wearable device when the wearable device is in the seismic-assisted mode, the method further comprises:

when receiving an earthquake prompt, identifying the earthquake prompt to obtain earthquake information contained in the earthquake prompt;

when the earthquake information comprises a mutual aid mode trigger instruction, controlling the wearable equipment to start an earthquake mutual aid mode matched with the mutual aid mode trigger instruction, and reading earthquake self-rescue information from the earthquake information, wherein the earthquake self-rescue information comprises at least one earthquake self-rescue type and self-rescue information matched with each earthquake self-rescue type;

outputting self-rescue prompt information containing the at least one earthquake self-rescue type, wherein the self-rescue prompt information is used for prompting a user of the wearable equipment to select a target earthquake self-rescue type matched with the current earthquake situation from the at least one earthquake self-rescue type;

and when the target earthquake self-rescue type input by the user is detected, self-rescue information matched with the target earthquake self-rescue type is output.

3. The method of claim 2, wherein after said obtaining seismic information contained in said seismic prompt, said method further comprises:

when the earthquake information does not contain the mutual aid mode triggering instruction, outputting a mutual aid mode starting prompt, wherein the mutual aid mode starting prompt is used for prompting a user of the wearable equipment to start an earthquake mutual aid mode of the wearable equipment;

controlling the wearable device to turn on the seismic mutual aid mode when detecting a user-input instruction indicating to turn on the seismic mutual aid mode of the wearable device.

4. The method according to any one of claims 1 to 3, wherein before sending the distress message including the geographical location to the terminal device with the identity-of-trust information, the method further comprises:

scanning the environment of the user of the wearable device through a three-dimensional scanning device in the wearable device to obtain a three-dimensional model of the environment of the user;

the sending of the distress message including the geographical location to the terminal device with the trusted identity information includes:

and sending distress information containing the geographic position and the three-dimensional model to terminal equipment with the trusted identity information.

5. The method according to any one of claims 1 to 3, wherein after sending the distress message including the geographical location to the terminal device having the identity-of-trust information, the method further comprises:

when a target instruction sent by the terminal equipment is received, reading an equipment identifier of the terminal equipment contained in the target instruction, and acquiring a target resource which is requested to be accessed by the target instruction;

determining an access authority level corresponding to the equipment identifier;

and when the target resource is detected to be matched with the access authority level, controlling the target instruction to access the target resource.

6. The method of claim 5, further comprising:

when the target resource is detected not to be matched with the access authority level, reading first interaction information from the target instruction, and acquiring the current electric quantity of the wearable device;

determining an interaction mode corresponding to the current electric quantity;

acquiring second interactive information corresponding to the first interactive information;

and sending the second interactive information according to the interactive mode.

7. The method according to any one of claims 1 to 3, wherein before sending the distress message including the geographical location to the terminal device with the identity-of-trust information, the method further comprises:

acquiring target position information of the terminal equipment through the communication connection, and acquiring personal information of a user of the wearable equipment;

generating path information between the target location information and the geographic location;

and generating distress information containing the personal information, the path information and the geographic position.

8. A wearable device, comprising:

the scanning unit is used for carrying out equipment scanning on an area corresponding to the geographical position of the wearable equipment when the wearable equipment is in the earthquake mutual assistance mode;

the connection unit is used for controlling the wearable equipment to automatically establish communication connection with the terminal equipment when the terminal equipment is scanned;

a first sending unit, configured to send first identity information of the wearable device to the terminal device through the communication connection, where the first identity information is used to instruct the terminal device to add the first identity information as trusted identity information;

the adding unit is used for receiving second identity information of the terminal equipment through the communication connection and adding the second identity information as trusted identity information;

and the second sending unit is used for sending the distress message containing the geographic position to the terminal equipment with the trust identity information.

9. An electronic device, comprising:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program codes stored in the memory to execute the earthquake help-seeking method according to any one of claims 1 to 7.

10. A computer-readable storage medium storing a computer program for causing a computer to execute the earthquake distress method according to any one of claims 1 to 7.

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