CN109862112B - Rescue method and device - Google Patents

Abstract

The purpose of the application is to provide a rescue method, wherein the method comprises the following steps: receiving rescue task information; inquiring in a rescue storage device information base according to rescue site position information corresponding to the rescue task information to obtain rescue storage devices matched with the rescue site position information, wherein wearable rescue devices available for rescuers are stored in the rescue storage devices; and sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to a target rescuer who processes the rescue task information. The method and the device for storing the rescue information find the rescue storage device based on the position information for the target rescuer, and take away the wearable rescue device stored in the rescue storage device.

Description

Rescue method and device

Technical Field

The application relates to the field of rescue, in particular to a rescue technology.

Background

In the rescue process, the key to the successful rescue is to rescue the rescued person timely and accurately. However, in the prior art, a method for calling a rescuer with certain rescue capacity for the rescued person in an emergency situation is lacked, and equipment required for rescue can not be provided for the rescuers participating in the rescue in time. Therefore, the efficiency and success rate of rescue are difficult to guarantee.

Disclosure of Invention

One object of the present application is to provide a rescue method and apparatus.

According to an aspect of the present application, a rescue method at a network device side is provided, wherein the method includes:

receiving rescue task information;

inquiring in a rescue storage device information base according to rescue site position information corresponding to the rescue task information to obtain rescue storage devices matched with the rescue site position information, wherein wearable rescue devices available for rescuers are stored in the rescue storage devices;

and sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to a target rescuer who processes the rescue task information.

According to another aspect of the application, a rescue method at a rescue storage device is provided, wherein the rescue storage device is used for storing one or more wearable rescue devices, the rescue storage device comprises a charging module for charging the wearable rescue devices, and the method comprises the following steps:

detecting and obtaining device condition information of each wearable rescue device in the one or more wearable rescue devices;

and reporting the equipment condition information to corresponding network equipment.

According to still another aspect of the present application, there is provided a rescue method at a user equipment, wherein the method includes:

receiving rescue task information sent by corresponding network equipment;

and receiving the position information of the rescue storage equipment corresponding to the rescue task information.

According to an aspect of the present application, there is provided a network device, including:

a zero-one module for receiving rescue task information;

the first module, the second module and the third module are used for inquiring in a rescue storage device information base according to rescue site position information corresponding to the rescue task information to obtain rescue storage devices matched with the rescue site position information, wherein wearable rescue devices for rescuers are stored in the rescue storage devices;

and the one-zero-three module is used for sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to a target rescuer who processes the rescue task information.

According to another aspect of the application, a rescue storage device is provided, wherein the rescue storage device is configured to store one or more wearable rescue devices, the rescue storage device comprises a charging module configured to charge the wearable rescue devices, the device comprises:

a two-zero-one module for detecting and obtaining device condition information of each wearable rescue device in the one or more wearable rescue devices;

and the two-zero-two module is used for reporting the equipment status information to corresponding network equipment.

According to yet another aspect of the present application, there is provided a user equipment, wherein the apparatus includes:

the three-zero-one module is used for receiving rescue task information sent by corresponding network equipment;

and the three-zero-two module is used for receiving the position information of the rescue storage equipment corresponding to the rescue task information.

According to an aspect of the present application, there is provided a rescue method, wherein the method comprises:

the network equipment receives rescue task information, and according to rescue site position information corresponding to the rescue task information, a rescue storage equipment matched with the rescue site position information is obtained through query in a rescue storage equipment information base, wherein wearable rescue equipment capable of being used by rescuers is stored in the rescue storage equipment, and the rescue task information and the position information of the rescue storage equipment are sent to user equipment corresponding to target rescuers processing the rescue task information;

and the user equipment receives rescue task information sent by the network equipment and the position information of the rescue storage equipment corresponding to the rescue task information.

According to another aspect of the present application, there is provided a rescue method, wherein the method comprises:

the rescue storage equipment side detects and obtains equipment condition information of each wearable rescue equipment in the one or more wearable rescue equipment, and reports the equipment condition information to corresponding network equipment;

the network equipment receives equipment condition information of each wearable rescue equipment in one or more wearable rescue equipment uploaded by the rescue storage equipment; according to the equipment condition information, target wearable rescue equipment corresponding to the rescue task information is selected from the one or more wearable rescue equipment, and identification information of the target wearable rescue equipment is sent to the user equipment;

and the user equipment receives the identification information of the target wearable rescue equipment corresponding to the rescue task information sent by the network equipment.

According to an aspect of the present application, there is provided a rescue apparatus, wherein the apparatus comprises:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of any of the methods described above.

According to another aspect of the application, there is provided a computer readable medium storing instructions that, when executed, cause a system to perform the operations of any of the methods described above.

Compared with the prior art, the method and the device have the advantages that the rescue storage device matched with the rescue site position information is inquired in the rescue storage device information base according to the rescue site position information corresponding to the rescue task information, and the position information of the rescue storage device is sent to the user device corresponding to the target rescuer; therefore, the rescue storage device can be found for the target rescuers based on the position information, and the wearable rescue device stored in the rescue storage device can be taken away. And the rescue task information and the position information of the rescue storage equipment are sent to user equipment corresponding to a target rescuer who processes the rescue task information, so that the rescue is supported before the rescuer is called for the rescuer.

Further, the wearable rescue equipment is managed safely through the rescue storage equipment, the purpose that the wearable rescue equipment is put to public places safely is achieved, and a rescuer can conveniently and timely extract available wearable rescue equipment when needed.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 illustrates the topology of a rescue system according to one embodiment of the present application;

FIG. 2 illustrates a method flow of a rescue method according to an embodiment of the present application;

fig. 3 illustrates a method flow of a rescue method according to another embodiment of the present application;

fig. 4 shows a method flow of a rescue method at a network device according to another embodiment of the present application;

fig. 5 illustrates a method flow of a rescue method at a rescue storage device according to another embodiment of the present application;

fig. 6 shows a method flow of a rescue method at a user equipment according to another embodiment of the present application;

FIG. 7 illustrates functional modules of a network device according to another embodiment of the present application;

fig. 8 illustrates a functional module of a rescue storage device according to another embodiment of the present application;

FIG. 9 illustrates functional modules of a user equipment according to another embodiment of the present application;

FIG. 10 illustrates functional modules of an exemplary system that can be used to implement the various embodiments described in this application.

The same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

In a typical configuration of the present application, the terminal, the device serving the network, and the trusted party each include one or more processors (e.g., Central Processing Units (CPUs)), input/output interfaces, network interfaces, and memory.

The Memory may include forms of volatile Memory, Random Access Memory (RAM), and/or non-volatile Memory in a computer-readable medium, such as Read Only Memory (ROM) or Flash Memory. Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, Phase-Change Memory (PCM), Programmable Random Access Memory (PRAM), Static Random-Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), electrically Erasable Programmable Read-Only Memory (EEPROM), flash Memory or other Memory technology, Compact Disc Read-Only Memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other non-transmission medium, which can be used to store information that can be accessed by a computing device.

The device referred to in this application includes, but is not limited to, a user device, a network device, or a device formed by integrating a user device and a network device through a network. The user equipment includes, but is not limited to, any mobile electronic product, such as a smart phone, a tablet computer, etc., capable of performing human-computer interaction with a user (e.g., human-computer interaction through a touch panel), and the mobile electronic product may employ any operating system, such as an android operating system, an iOS operating system, etc. The network Device includes an electronic Device capable of automatically performing numerical calculation and information processing according to a preset or stored instruction, and the hardware includes, but is not limited to, a microprocessor, an Application Specific Integrated Circuit (ASIC), a Programmable Logic Device (PLD), a Field Programmable Gate Array (FPGA), a Digital Signal Processor (DSP), an embedded Device, and the like. The network device includes but is not limited to a computer, a network host, a single network server, a plurality of network server sets or a cloud of a plurality of servers; here, the Cloud is composed of a large number of computers or web servers based on Cloud Computing (Cloud Computing), which is a kind of distributed Computing, one virtual supercomputer consisting of a collection of loosely coupled computers. Including, but not limited to, the internet, a wide area network, a metropolitan area network, a local area network, a VPN network, a wireless Ad Hoc network (Ad Hoc network), etc. Preferably, the device may also be a program running on the user device, the network device, or a device formed by integrating the user device and the network device, the touch terminal, or the network device and the touch terminal through a network.

Of course, those skilled in the art will appreciate that the foregoing is by way of example only, and that other existing or future devices, which may be suitable for use in the present application, are also encompassed within the scope of the present application and are hereby incorporated by reference.

In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

According to one aspect of the application, a system for implementing a rescue method is provided. Referring to fig. 1, the system includes a network device, a rescue storage device that can store wearable rescue devices such as smart glasses or smart helmets, and a user device. In some embodiments, information, instructions, etc. are communicated between the rescue storage device and the network device, and between the user device and the network device via respective communication connections (e.g., communication connections established in a wired or wireless manner, etc.). In some embodiments, the user device in fig. 1 is a user device used by a rescuer, and the rescuer establishes communication with the network device through the user device to implement information or instruction transfer. The rescuer in fig. 1, including but not limited to the user needing to be rescued or other users in the vicinity of the user, can send rescue task information to the network device through the user device as a trigger condition for the entire rescue system. The rescue storage device is used for safely storing the wearable rescue device, and in some embodiments, the rescue storage device is an intelligent rescue storage device provided with an electronic lock or a mechanical lock, and the wearable rescue device includes but is not limited to intelligent glasses, an intelligent helmet and the like. The rescue storage device and the wearable rescue device comprise communication modules, and the communication modules are used for realizing communication between the rescue storage device and the wearable rescue device or are used for communication connection between the rescue storage device or the wearable rescue device and network equipment respectively. In some embodiments, the wearable rescue apparatus is used for transmitting rescue scene information shot by the camera device to the background so as to assist scene rescue by the background. In some embodiments, the rescue storage device reports device condition information of the wearable rescue device stored therein to a network device, and the network device sends instruction information to the rescue storage device to realize intelligent control of the rescue storage device. In some embodiments, the user device includes, but is not limited to, a computing device such as a cell phone, tablet, laptop, and the like.

In some embodiments, based on the system, the application also discloses a rescue method. Referring to fig. 2, the method includes the steps of:

the network equipment receives rescue task information, and according to rescue site position information corresponding to the rescue task information, a rescue storage equipment matched with the rescue site position information is obtained through query in a rescue storage equipment information base, wherein wearable rescue equipment capable of being used by rescuers is stored in the rescue storage equipment, and the rescue task information and the position information of the rescue storage equipment are sent to user equipment corresponding to target rescuers processing the rescue task information;

and the user equipment receives rescue task information sent by the network equipment and the position information of the rescue storage equipment corresponding to the rescue task information.

In this embodiment, communication is performed between a network device and a user device, where the user device is a user device used by a rescuer. The method includes the steps that a rescuer receives rescue task information sent by network equipment and position information of rescue storage equipment corresponding to the rescue task information through user equipment, in some embodiments, the user equipment presents the position information of the rescue storage equipment, so that the rescuer can conveniently find the rescue storage equipment based on the position information and take away wearable rescue equipment stored in the rescue storage equipment, and the rescuer wears the wearable rescue equipment to a rescue site to rescue. In this embodiment, the rescuer receives the location information of the rescue storage device sent by the network device through the corresponding user device, based on the location information, the rescuer can smoothly find the rescue storage device storing the wearable rescue device, and the success rate of rescue can be greatly increased by putting the wearable rescue device into the rescue scene.

In other embodiments, based on the system, the application also discloses a rescue method. Referring to fig. 3, the method includes the steps of:

the rescue storage equipment side detects and obtains equipment condition information of each wearable rescue equipment in the one or more wearable rescue equipment, and reports the equipment condition information to corresponding network equipment;

the network equipment receives equipment condition information of each wearable rescue equipment in one or more wearable rescue equipment uploaded by the rescue storage equipment; according to the equipment condition information, target wearable rescue equipment corresponding to the rescue task information is selected from the one or more wearable rescue equipment, and identification information of the target wearable rescue equipment is sent to the user equipment;

and the user equipment receives the identification information of the target wearable rescue equipment corresponding to the rescue task information sent by the network equipment.

In this embodiment, the network device is in communication connection with the rescue storage device and the user device, respectively. The wearable rescue equipment and the rescue storage equipment are respectively provided with a communication module, for example, the wearable rescue equipment reports the equipment condition information of the wearable rescue equipment to the corresponding rescue storage equipment, and the rescue storage equipment reports the equipment condition information to the network equipment. After receiving the device condition information, the network device determines a target wearable rescue device from one or more wearable rescue devices according to the device condition information, for example, the device condition information of the wearable rescue device includes electric quantity information of the device, electric quantity threshold information is preset in the network device, and when the electric quantity information is lower than or equal to the electric quantity threshold information, the network device sends charging instruction information to a rescue storage device corresponding to the wearable rescue device to control the rescue storage device to perform charging operation on the wearable rescue device. After determining a target wearable rescue device, the network device sends identification information of the target wearable rescue device (e.g., a serial number of the target wearable rescue device) to a user device corresponding to the target rescuer, where in some embodiments, each wearable rescue device has its corresponding identification information, and the identification information may correspond to a group number or a device number to which the wearable rescue device belongs, so as to manage a plurality of wearable rescue devices; in some embodiments, a mapping relationship exists between the identification information of each wearable rescue device and the rescue storage device storing the wearable rescue device, the network device determines a target wearable rescue device according to the device condition information of the wearable rescue device, and then determines a corresponding rescue storage device according to the identification information of the target wearable rescue device, so that a rescuer can find the wearable rescue device through the position information of the rescue storage device. In this embodiment, wearable rescue equipment is managed safely through rescue storage equipment, and intelligent management of rescue storage equipment is realized based on network equipment.

In some embodiments, the device condition information comprises at least any one of:

electric quantity information of the wearable rescue device;

starting state information of the wearable rescue device;

usage status information of the wearable rescue apparatus;

network signal information of the wearable rescue device;

location information of the wearable rescue apparatus.

The method is described in detail below with respect to a network device, a rescue storage device, and a user device, respectively.

From the perspective of the network device, the application also discloses a rescue method at the network device side. Referring to fig. 4, the method includes steps S101, S102, and S103, in step S101, a network device receives rescue task information; in step S102, the network device queries in a rescue storage device information base according to rescue site location information corresponding to the rescue task information to obtain a rescue storage device matched with the rescue site location information, where wearable rescue devices available for rescuers are stored in the rescue storage device; in step S103, the network device sends the rescue task information and the location information of the rescue storage device to the user device corresponding to the target rescuer who processes the rescue task information. In some embodiments, the rescue task information serves as a trigger condition for implementing the rescue method of the present application on the network device side, for example, the rescue task information includes, but is not limited to, a distress request, and a rescuer sends the distress request to the network device through its corresponding user device (e.g., a cell phone or other terminal device used by the rescuer). In some embodiments, the rescue scene is a scene where rescue needs to be performed, e.g., a scene of an event, a scene of a fire, etc. In some embodiments, a rescue storage device information base is arranged in the network device, and the rescue storage device information base comprises a plurality of rescue storage devices and position information of each rescue storage device. In some embodiments, wearable rescue devices including, but not limited to, smart glasses, smart helmets, etc. are stored in the rescue storage device for use by rescuers.

Specifically, in step S101, the network device receives rescue task information. In some embodiments, the rescue mission information is sent by a rescuer through their corresponding user device, wherein in some embodiments the rescuer is a person in the rescue scene that needs to be rescued (e.g., an injured person); in other embodiments, the person calling for help is other people in the rescue scene except the people needing rescue, for example, when the other people find that the situation needing rescue occurs, the other people send rescue task information through their corresponding user devices, and the network device receives the rescue task information.

In step S102, the network device queries in a rescue storage device information base according to rescue site location information corresponding to the rescue task information to obtain a rescue storage device matched with the rescue site location information, where wearable rescue devices available for rescuers are stored in the rescue storage device. In some embodiments, the network device determines the rescue scene location information corresponding to the rescue task information by determining the location information of the user sending the rescue task information, for example, determining the location information of the user sending the rescue task information based on one or more of GPS positioning, beidou satellite positioning, WIFI network positioning, base station positioning, and other positioning technologies, and determining the rescue scene location information by the location information of the user; in other embodiments, the rescue task information includes location information of a rescue scene, for example, the rescue task information sent by the user to the network device includes location information of the rescue scene. In some embodiments, the network device queries a rescue storage device information base for a rescue storage device matching the rescue site location information based on the rescue site location information, for example, the rescue storage device information base stores location information of a plurality of rescue storage devices, and the network device searches the rescue storage device information base for a rescue storage device located near the rescue site location or closest to the rescue site location according to the rescue site location information corresponding to the received rescue task information. In some embodiments, wearable rescue equipment for a rescuer is stored in the rescue storage equipment, for example, the rescue storage equipment is an intelligent rescue storage equipment provided with an electronic lock or a mechanical lock, and the wearable rescue equipment is locked in the rescue storage equipment and can be taken out only by unlocking. The rescue storage device can safely put wearable rescue equipment in public places, intelligent management of the rescue storage device can be conveniently carried out through the network device, the network device can find out nearby rescue storage devices only by sending rescue task information to the network device through a user, and therefore rescuers can conveniently take the wearable rescue equipment to carry out rescue anytime and anywhere.

In step S103, the network device sends the rescue task information and the location information of the rescue storage device to the user device corresponding to the target rescuer who processes the rescue task information. In some embodiments, the user device corresponding to the target rescuer receives the location information of the rescue storage device and presents (for example, presents in the form of a map, or displays specific location information in the form of text) the location information, so that the target rescuer can find the rescue storage device in time according to the location information. In some embodiments, the network device sends rescue mission information to the target rescuer while sending location information of the rescue storage device to the target rescuer so that the target rescuer knows that a rescue needs to occur at present. In some embodiments, the rescue mission information includes rescue scene location information so that the target rescuer arrives at the rescue scene in time to perform the rescue while finding the rescue storage device. In some embodiments, the network device sends rescue task information and location information of the rescue storage device to one or more target rescuers; in some embodiments, the one or more targeted rescuers may determine to participate in the rescue by returning confirmation information to the network device.

In some embodiments, the method further includes step S104 (not shown), in which step S104, the network device sends rescue guidance information to a wearable rescue device used by the target rescuer according to the rescue skill information of the target rescuer. In some embodiments, a rescuer information base is provided in the network device, and the rescuer information base stores a plurality of rescuers and rescue skill information of each rescuer, wherein the rescue skill information includes, but is not limited to, job information (e.g., medical officer, command officer, etc.) of the rescuers, capability level information (e.g., primary, secondary, tertiary, etc., with different levels corresponding to different rescue capabilities or rescue experiences). In some embodiments, each of the job information corresponds to different capability level information, for example, medical officers are classified into one level, two levels, and three levels, and the higher the level, the higher the rescue capability. Each ability level information corresponds to corresponding rescue guidance information. The rescue guidance information is used for guiding the target rescuer to carry out rescue operation correctly.

For example, the network device determines rescue skill information corresponding to the target rescuer based on identification information (e.g., name, number, etc.) of the target rescuer, and further, the network device sends corresponding rescue guidance information to a wearable rescue device used by the target rescuer based on the rescue skill information. In some embodiments, the target rescuer returns confirmation information to the network device based on rescue task information sent by the network device, further, the target rescuer prefers a rescue storage device based on the received location information of the rescue storage device (e.g., selects a rescue storage device closest to the rescuer or closest to the target rescuer), and sends information confirming the selection to the network device, wherein each rescue storage device has a corresponding wearable rescue device, and further, the network device can determine the wearable rescue device corresponding to the target rescuer. In some embodiments, the wearable rescue apparatus presents the rescue guidance information by voice, text, or multimedia. The rescue guidance information is information for providing corresponding rescue guidance according to the rescue skill information of the target rescuer, and can help the target rescuer to correctly implement rescue, for example, correct real-time artificial respiration or cardiac resuscitation, so as to improve the success rate of rescue.

In some embodiments, the method further comprises step S105 (not shown), step S106 (not shown), and step S107 (not shown). In step S105, the network device receives device condition information of each wearable rescue device in the one or more wearable rescue devices uploaded by the rescue storage device; in step S106, the network device selects, according to the device condition information, a target wearable rescue device corresponding to the rescue task information from the one or more wearable rescue devices; in step S107, the network device sends the identification information of the target wearable rescue device to the user device. In some embodiments, the device condition information includes, but is not limited to, power information of the wearable rescue device (e.g., a percentage of a remaining power to a total power, or a running time that can be supported by a current remaining power), startup state information (e.g., whether the wearable rescue device is currently on, off, or in a standby state), usage state information (e.g., whether it is currently used), network signal information (e.g., its network signal strength), location information (e.g., longitude and latitude information), and the like. In some embodiments, the device condition information is used for the network device to screen out available target wearable rescue devices from the plurality of wearable rescue devices, for example, the target wearable rescue devices need to be in an unused state before the network device can send identification information of the target wearable rescue devices to the user devices corresponding to the rescuers for the rescuers to use.

Specifically, in step S105, the network device receives device condition information of each of the one or more wearable rescue devices uploaded by the rescue storage device. In some embodiments, the rescue storage device and the wearable rescue device are provided with communication modules, communication connection can be established between the rescue storage device and the wearable rescue device through the communication modules, information transmission is carried out, and then the rescue storage device obtains device condition information of the wearable rescue device and uploads the device condition information to the network device.

In step S106, the network device selects, according to the device condition information, a target wearable rescue device corresponding to the rescue task information from the one or more wearable rescue devices. In some embodiments, the network device determines one or more rescue storage devices matched with rescue site location information corresponding to rescue task information according to the rescue task information, wherein wearable rescue devices are stored in the rescue storage devices. However, one or more wearable rescue devices corresponding to the one or more rescue storage devices may not be currently available, e.g., one of the wearable rescue devices is already used, and the wearable rescue device is not currently available. For example, the network device may determine whether the wearable rescue device is currently available according to the use state information of the wearable rescue device uploaded by the rescue storage device, so as to determine that the available wearable rescue device is a target wearable rescue device from the one or more wearable rescue devices, thereby ensuring that a target rescuer can get the currently available wearable rescue device to the rescue storage device.

In step S107, the network device sends the identification information of the target wearable rescue device to the user device. In some embodiments, after determining the target wearable rescue device, the network device sends the identification information of the target wearable rescue device to the user equipment.

In some embodiments, the method further includes step S108 (not shown), in which step S108, the network device sends a power-on instruction information about the target wearable rescue device to the rescue storage device. In some embodiments, after the network device determines a target wearable rescue device based on device condition information of the wearable rescue device, the network device sends starting instruction information to the target wearable rescue device, where the starting instruction information is used to start the target wearable rescue device for a target rescuer in advance, so as to save time for rescue. In some embodiments, a network device determines one or more target wearable rescue devices based on device condition information of the wearable rescue devices, and sends identification information of the one or more target wearable rescue devices to a user device corresponding to a target rescuer, the target rescuer determines a final target wearable rescue device from the one or more target wearable rescue devices through a confirmation operation, and sends the confirmation information to the network device, the network device sends starting instruction information to the corresponding target wearable rescue device based on the confirmation information, and the starting instruction information is used for starting the target wearable rescue device for the target rescuer in advance, so that time is saved for rescue.

In some embodiments, the device condition information comprises at least any one of: electric quantity information of the wearable rescue device; starting state information of the wearable rescue device; usage status information of the wearable rescue apparatus; network signal information of the wearable rescue device; location information of the wearable rescue apparatus.

For example, the device condition information includes power information of the wearable rescue device. In some embodiments, the network device screens out available target wearable rescue devices from one or more wearable rescue devices according to the power information of the wearable rescue devices. For example, when the power information of the wearable rescue device is lower than the preset power threshold information, the network device determines that the wearable rescue device is unavailable, so as to screen out the wearable rescue device from one or more wearable rescue devices.

As another example, the device condition information includes startup state information of the wearable rescue device. In some embodiments, the network device determines whether the wearable rescue device is available according to the start state information of the wearable rescue device, for example, if the start state information of the wearable rescue device is started, the network device determines that the wearable rescue is set as unavailable, and the wearable rescue device with the start state information of non-started is determined as the target wearable rescue device.

As another example, the device condition information includes usage state information of the wearable rescue device. In some embodiments, the network device determines the target wearable rescue device from the one or more wearable rescue devices by using the state information of the wearable rescue device. For example, the usage state information includes the wearable rescue device being used and not being used currently, and the network device needs to screen out the wearable rescue device not being used currently from the one or more wearable rescue devices and use the wearable rescue device as the target wearable rescue device for the target rescuer.

As another example, the device condition information includes network signal information of the wearable rescue device. In some embodiments, the network device obtains network signal information of a network device currently used by the wearable rescue device, and in some embodiments, the network signal information includes, but is not limited to, signal strength information of a network to which the wearable rescue device is currently connected, and the like. Based on the network signal information, the network device preferably selects the wearable rescue device with high signal intensity as the target wearable rescue device.

As another example, the device condition information includes location information of the wearable rescue device. In some embodiments, the network device obtains real-time location information of each wearable rescue device, and determines that the wearable rescue device is in a moving or using state if the magnitude or frequency of change of the location information is large. In some embodiments, the network device takes a wearable rescue device with fixed location information as the target wearable rescue device.

In some embodiments, the device condition information includes power information of the wearable rescue device; wherein the method further comprises a step S109 (not shown), in which step S109, the network device sends charging instruction information about the target wearable rescue device to the rescue storage device storing the target wearable rescue device according to the power information of the target wearable rescue device. In some embodiments, the network device performs charging management on the wearable rescue device by acquiring the power information of the wearable rescue device. For example, when the power information of the wearable rescue device acquired by the network device is lower than the preset power threshold information, the network equipment sends charging instruction information to rescue storage equipment for storing the wearable rescue equipment, the rescue storage device detects that the wearable rescue device is stored in the rescue storage device (for example, when the wearable rescue device is stored in the rescue storage device, a charging port is arranged in a notch for storing the wearable rescue device, the charging port on the wearable rescue device is clamped with the charging port on the notch, and the rescue storage device detects whether the wearable rescue device is currently stored on the rescue storage device through the charging port), the rescue storage device carries out charging operation on the wearable rescue device through the charging port based on the received charging instruction information. In some embodiments, when the charge of the wearable rescue device reaches 100%, the network device sends power-off instruction information to the rescue storage device. Carry out intelligent charging management to equipment is deposited in the rescue through network equipment, can guarantee to deposit wearable rescue equipment of depositing in this rescue storage equipment and be in the sufficient state of electric quantity all the time to the rescuer takes at any time.

In some embodiments, the method further comprises step S111 (not shown), step S112 (not shown), and step S113 (not shown). In step S111, a network device receives verification request information sent by the rescue storage device, where the verification request information includes verification basis information about the target rescuer; in step S112, the network device performs authentication processing on the authentication compliance information; in step S113, the network device sends corresponding verification result information or unlocking instruction information to the rescue storage device. In some embodiments, the wearable rescue device is locked in the rescue storage device through an electronic lock or a mechanical lock, the target rescuer can send verification request information to the corresponding network device through the rescue storage device, and the network device receives the verification request information and executes verification processing based on verification basis information in the verification request information. In some embodiments, the authentication-dependent information includes, but is not limited to, authorization information received by the user device from the network device, facial image information of the target rescuer.

For example, the rescue storage device acquires the face image information of a target rescuer A who wears the rescue device before through the camera device, and sends verification request information to the corresponding network device, wherein the verification request information comprises the face image information of the target rescuer A. The network device receives the verification request information and performs verification processing on verification basis information (face image information) in the verification request information, for example, a rescuer information base is arranged in the network device, the rescuer information base comprises related information (such as names, numbers and face image information) of a plurality of rescuers, the network device performs query matching in the rescuer information base according to the face image information of the target rescuer A in the verification request information, and if a rescuer matched with the face image information exists in the rescuer information base, the verification is successful. Further, the network device sends verification result information of successful verification to the rescue storage device, or the network device directly sends unlocking instruction information to the rescue storage device to control the rescue storage device to be automatically unlocked, and the target rescuer A can smoothly take away wearable rescue equipment stored in the rescue storage device.

In some embodiments, the method further includes step S114 (not shown), and in step S114, the network device sends verification basis information corresponding to the rescue storage device. In some embodiments, the verification-by-information includes, but is not limited to, authorization information (e.g., a password, an authorization code, a two-dimensional code, etc.). For example, authorization information of a plurality of rescue storage devices is stored in the network device, and the authorization information is used for unlocking the corresponding rescue storage devices. After determining the rescue storage device and the target rescuer, the network device sends verification basis information (for example, authorization information such as a password, an authorization code, a two-dimensional code and the like) corresponding to the rescue storage device to the user device corresponding to the target rescuer, meanwhile, the network device sends the verification basis information to the rescue storage device, the user device and the rescue storage device receive the same verification basis information, and therefore the target rescuer uses the verification basis information to unlock the rescue storage device and take away the wearable rescue device.

In some embodiments, the validation compliance information includes at least any one of: authorization information received by the user device from the network device, the authorization information being used to authorize the target rescuer to extract a wearable rescue device from the rescue storage device; face image information of the target rescuer; number information of the target rescuer; rescuer identification information of the target rescuer. In some embodiments, the network device executes verification processing according to verification basis information sent by the rescue storage device, and sends verification result information or unlocking instruction information to the rescue storage device according to a verification result; in other embodiments, the network device sends the verification basis information of the rescue storage device to the user device corresponding to the target rescuer, so that the target rescuer directly uses the verification basis information to unlock the rescue storage device, for example, the rescuer inputs the verification basis information on the rescue storage device, the rescue storage device verifies the verification basis information, and if the verification is passed, the wearable rescue device is unlocked for the rescuer to take. Of course, those skilled in the art will appreciate that the above-described authentication information is merely exemplary, and that other existing or future authentication information, which may be suitable for use in the present application, is also included within the scope of the present application and is incorporated by reference herein. According to the method for unlocking the rescue storage equipment according to the verification basis information, the wearable rescue equipment stored in the rescue storage equipment can be successfully extracted by a target rescuer.

For example, the verification-by-authentication information includes authorization information received by the user device from the network device, the authorization information being used to authorize the target rescuer to extract a wearable rescue device from the rescue storage device. In some embodiments, the authorization information includes, but is not limited to, a password, a two-dimensional code, an authorization code, and the like. After determining the rescue storage device, the network device sends authorization information (e.g., an unlocking password) corresponding to the rescue storage device to the user device corresponding to the target rescuer. The target rescuer inputs the authorization information to open the lock on the rescue storage device, so that the wearable rescue device stored in the rescue storage device is successfully extracted.

For another example, the verification-basis information includes face image information of the target rescuer. The network device is provided with a rescuer information base, wherein a plurality of rescuers and related information (such as face image information and the like) of each rescuer are stored in the rescuer information base. The face image information of a target rescuer who takes the wearable rescue equipment is taken by the rescue storage equipment before shooting, and face recognition is carried out on the face image information to extract the identity information of the target rescuer. For example, according to the face image information, the face image information matched with the face image information is inquired in a rescuer information base, and if a rescuer matched with the face image information of the target rescuer exists in the rescuer information base, the verification is determined to be successful.

As another example, the verification-basis information includes number information of the target rescuer. The network device is provided with a rescuer information base, wherein the rescuer information base stores a plurality of rescuers and related information (such as number information and the like) of each rescuer. In some embodiments, the rescuer will wear a brand with rescuer number information on his or her body or have the rescuer number information corresponding to the rescuer printed on the particular garment worn by the rescuer. The rescue storage equipment extracts the number information of the target rescuers who come to take the wearable rescue equipment before through the camera device, and inquires the number information matched with the rescue storage equipment in the rescuer information base according to the number information. And if the rescuer exists in the rescuer information base and is matched with the serial number of the target rescuer, determining that the verification is successful.

As another example, the verification-compliance information includes rescuer identification information of the target rescuer. In some embodiments, the rescuer identification information includes, but is not limited to, a rescuer logo graphic, a rescuer logo pattern, or the like. In some embodiments, when a target rescuer goes to the rescue storage device to extract the wearable rescue device, the rescue storage device extracts rescuer identification information of the target rescuer (for example, the rescuer identification information is printed on clothes worn by the rescuer or a signboard printed with the rescuer identification information is worn by the rescuer) through the camera device and sends the rescuer identification information to the network device. The network device verifies whether the rescuer identification information matches with pre-stored rescuer identification information. And if the verification result is matched, determining that the verification is successful.

In some embodiments, the step S103 includes a step S1031 (not shown) and a step S1032 (not shown), in the step S1031, the network device determines a target rescuer who processes the rescue task information according to the rescue site location information, wherein a distance between current location information of the target rescuer and the rescue site location information is less than or equal to predetermined distance threshold information; in step S1032, the network device sends the rescue task information and the location information of the rescue storage device to the user device corresponding to the target rescuer. In some embodiments, current position information of a plurality of rescuers is acquired based on one or more combination of positioning technologies such as GPS positioning, Beidou satellite positioning, WIFI network positioning or base station positioning, and a target rescuer located near the rescue site position information is inquired among the plurality of rescuers according to the rescue site position information, so that the rescuers can arrive at the rescue site in time to perform rescue. Further, the network device sends the received rescue task information and the inquired position information of the rescue storage device to one or more target rescuers nearby the rescue scene.

In some embodiments, the step S103 includes a step S1033 (not shown), a step S1034 (not shown), a step S1035 (not shown), and a step S1036 (not shown), in the step S1033, the network device sends the rescue task information to one or more candidate rescuers, wherein a distance between the current location information of each candidate rescuer and the rescue scene location information is less than or equal to a predetermined distance threshold information; in step S1034, the network device receives confirmation feedback information of at least one candidate rescuer of the one or more candidate rescuers on the rescue task information; in step S1035, the network device selects a target rescuer from the at least one candidate rescuer that determines the rescue task information; in step S1036, the network device sends the location information of the rescue storage device to the user device corresponding to the target rescuer. In some embodiments, the network device determines the final target rescuer by receiving confirmation feedback information returned by the candidate rescuers based on the rescue mission information. For example, the network device receives rescue task information sent by a person calling for help, and searches for one or more candidate rescuers located near the rescue scene location information based on the rescue scene location information corresponding to the rescue task information, wherein please refer to the description of the related embodiments above for specific implementation of determining the rescue scene location information and the current location information of the rescuers, which is not described herein again and is included herein by way of reference. Further, the candidate rescuer returns confirmation feedback information to the network device based on the received rescue mission information, e.g., the candidate rescuer returns confirmation feedback information to the network device in case of a current convenience to rescue a live rescue. And the network equipment determines a target rescuer corresponding to the rescue task information finally based on the received confirmation feedback information. Further, the network device sends the searched position information of the rescue storage device to the user device corresponding to the target rescuer who sends the confirmation feedback information.

A rescue method of the present application is described above from the perspective of a network device, and a rescue method of the present application is described below from the perspective of a rescue storage device with reference to fig. 3.

Fig. 3 illustrates a rescue method at a rescue storage device side, wherein the rescue storage device is used for storing one or more wearable rescue devices, the rescue storage device includes a charging module for charging the wearable rescue devices, the method includes steps S201 and S202, in step S201, the rescue storage device detects and obtains device condition information of each wearable rescue device in the one or more wearable rescue devices; in step S202, the rescue storage device reports the device condition information to the corresponding network device. In some embodiments, the rescue storage device is used to store a wearable rescue device. In some embodiments, the rescue storage device securely stores the wearable rescue device through an electronic or mechanical lock. In some embodiments, the rescue storage device is provided with a charging module for charging the wearable rescue device. In some embodiments, the rescue storage device and the wearable rescue device are both provided with communication modules for information transmission therebetween. The wearable rescue equipment reports the equipment condition information of the wearable rescue equipment to corresponding rescue storage equipment, the rescue storage equipment checks the equipment condition information of the wearable rescue equipment and reports the equipment condition information to corresponding network equipment, so that the network equipment performs equipment management on the corresponding wearable rescue equipment according to the equipment condition information and determines available target wearable rescue equipment from one or more found wearable rescue equipment.

In some embodiments, the method further includes step S203 (not shown) and step S204 (not shown), in step S203, the rescue storage device receives the boot instruction information about the target wearable rescue device in the one or more wearable rescue devices, which is sent by the network device; in step S204, the rescue storage device executes a boot operation on the target wearable rescue device according to the boot instruction information. In some embodiments, after the network device determines a target wearable rescue device based on device condition information of the wearable rescue device, the network device sends starting instruction information to a rescue storage device corresponding to the target wearable rescue device, the rescue storage device receives the starting instruction information, and executes a starting operation on the target wearable rescue device based on the starting instruction information, so as to start the target wearable rescue device for a target rescuer in advance, and save rescue time.

In some embodiments, the method further includes step S205 (not shown) and step S206 (not shown), in step S205, the rescue storage device receives charging instruction information about the wearable rescue device sent by the network device; in step S206, the rescue storage device performs a charging operation on the wearable rescue device according to the charging instruction information. In some embodiments, the network device obtains device condition information of a corresponding wearable rescue device (e.g., a wearable rescue device stored in the rescue storage device) reported by the rescue storage device. In some embodiments, the device condition information includes power information of the wearable rescue device, the network device detects whether the power information is lower than preset power threshold information, and if the power information of the wearable rescue device is lower than the power threshold information, the network device sends charging instruction information to a rescue storage device storing the wearable rescue device. In some embodiments, a mapping relationship exists between the wearable rescue device and a rescue storage device storing the wearable rescue device to determine a correspondence relationship between the wearable rescue device and the rescue storage device. The wearable rescue equipment is charged after the rescue storage equipment receives the charging instruction information, so that the wearable rescue equipment stored on the rescue storage equipment is ensured to be in a state of sufficient electric quantity all the time.

In some embodiments, the method further includes step S207 (not shown), step S208 (not shown), and step S209 (not shown), in step S207, the rescue storage device sends verification request information to the corresponding network device, where the verification request information includes verification basis information about the target rescuer; in step S208, the rescue storage device receives corresponding verification result information or unlocking instruction information sent by the network device; in step S209, the rescue storage device performs an unlocking operation according to the verification result information or the unlocking instruction information. In some embodiments, the wearable rescue equipment is safely stored by the rescue storage equipment through an electronic lock or a mechanical lock, and in order to realize the intelligent unlocking function, the rescue storage equipment performs verification unlocking by sending verification request information to the corresponding network equipment. In some embodiments, the verification-dependent information includes, but is not limited to, authorization information (e.g., a password, an authorization code, a two-dimensional code, etc.) sent by the network device to the targeted rescuer. The target rescuer sends verification request information to the network device by inputting the authorization information on the rescue storage device, wherein the verification request information comprises the authorization information. And the network equipment receives the verification request information and judges whether to send unlocking instruction information to the rescue storage equipment or not according to authorization information in the verification request information. If the authorization information is correspondingly matched with the authorization information of the rescue storage device sent by the network device to the target rescuer, the verification is successful, and the network device sends verification result information of the verification success to the rescue storage device, or the network device directly sends unlocking instruction information to the rescue storage device. The rescue storage device receives the verification result information or unlocking instruction information which is verified successfully, and executes unlocking operation.

In some embodiments, the method further includes step S211 (not shown), and in step S211, the rescue storage device receives verification evidence information corresponding to the rescue storage device, which is sent by the network device. In some embodiments, the verification-based information includes authorization information (e.g., a password, a two-dimensional code, an authorization code, etc.) corresponding to the rescue storage device, where the authorization information is used to unlock the rescue storage device so that the rescuer can successfully take out the wearable rescue device stored in the rescue storage device. In some embodiments, the network device sends authorization information corresponding to the rescue storage device, and meanwhile, the network device sends the authorization information to the user device corresponding to the target rescuer. In some embodiments, the target rescuer unlocks the lock by entering the authorization information on the rescue storage device.

In some embodiments, the method further includes step S212 (not shown) and step S213 (not shown), in step S212, the rescue storage device receives verification request information, wherein the verification request information includes verification basis information about the target rescuer; in step S213, the rescue storage device performs an unlocking operation according to the verification criterion information. In some embodiments, the rescue storage device receives verification request information, wherein in some embodiments, the verification criterion information includes face image information, rescuer identification information or number information of a target rescuer who previously extracts the wearable rescue device, which is acquired by the rescue storage device through a camera device or a face authentication device; in other embodiments, the verification-by-information includes authorization information entered by a target rescuer who previously extracted the wearable rescue device. Further, the network device sends the verification basis information about the target rescuer to the rescue storage device, the rescue storage device performs matching judgment according to the verification basis information sent by the network device and the verification basis information about the target rescuer obtained by the rescue storage device, and if the matching is successful, unlocking operation is performed.

The present application has been explained above from the perspective of a rescue storage device, and is explained below from the perspective of a user device with reference to fig. 4.

Fig. 4 illustrates a rescue method at a user equipment according to an embodiment of the present application, wherein the method includes steps S301 and S302, in step S301, the user equipment receives rescue task information sent by a corresponding network device; in step S302, the user equipment receives the location information of the rescue storage device corresponding to the rescue task information. In some embodiments, the user equipment is a user equipment corresponding to a target rescuer. And the network equipment sends the rescue task information sent by the person calling for help to one or more corresponding target rescuers. The target rescuer receives the rescue task information through the corresponding user equipment. Meanwhile, after the network device determines one or more rescue storage devices located near the rescue site location information based on the rescue task information, the location information of the one or more rescue storage devices is sent to the user device, the user device receives the location information, and the target rescuer selects one of the wearable rescue devices which is most convenient to extract according to the location information, presented by the user device, of the one or more rescue storage devices.

In some embodiments, the method further includes step S303 (not shown), in which step S303, the user device sends confirmation feedback information on the rescue task information to the corresponding network device based on the confirmation operation of the target rescuer. In some embodiments, one or more rescuers may receive rescue mission information sent by the network device, the one or more rescuers determining to participate in the rescue activity by sending confirmation feedback information to the network device. Thereby determining the target rescuers corresponding to the rescue task information.

In some embodiments, the method further includes step S304 (not shown), in which step S304, the user device receives identification information of a target wearable rescue device corresponding to the rescue task information sent by the corresponding network device. In some embodiments, the network device sends identification information of a target wearable rescue device corresponding to the rescue task information to a user device corresponding to the target rescuer. After the network device determines a target wearable rescue device, identifying information (for example, a serial number of the target wearable rescue device) of the target wearable rescue device, in some embodiments, each wearable rescue device has corresponding identifying information, and the identifying information may correspond to a group number or a device number to which the wearable rescue device belongs, so as to manage a plurality of wearable rescue devices; in some embodiments, a mapping relationship exists between identification information of each wearable rescue device and a rescue storage device storing the wearable rescue device, the network device determines a target wearable rescue device according to device condition information of the wearable rescue device, and then determines a corresponding rescue storage device according to the identification information of the target wearable rescue device, so that a rescuer can find the wearable rescue device according to position information of the rescue storage device. In this embodiment, wearable rescue equipment is managed safely through rescue storage equipment, and intelligent management of rescue storage equipment is realized based on network equipment.

In some embodiments, the method further includes step S305 (not shown), in step S305, the user device receives authorization information about the rescue storage device sent by the corresponding network device, wherein the authorization information is used for authorizing the target rescuer to extract the wearable rescue device from the rescue storage device. In some embodiments, the authorization information includes, but is not limited to, a password, a two-dimensional code, an authorization code, and the like. After determining the rescue storage device, the network device sends authorization information (e.g., an unlocking password) corresponding to the rescue storage device to the user device corresponding to the target rescuer. The target rescuer inputs the authorization information to open the lock on the rescue storage device, so that the wearable rescue device stored in the rescue storage device is successfully extracted.

Referring to fig. 7, the present application further discloses a network device, wherein the device includes a zero-one module, a zero-two module, and a zero-three module, the one-zero-one module is used for receiving rescue task information; the first module, the second module and the third module are used for inquiring in a rescue storage device information base according to rescue site position information corresponding to the rescue task information to obtain rescue storage devices matched with the rescue site position information, wherein wearable rescue devices for rescuers are stored in the rescue storage devices; and the one-zero-three module is used for sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to a target rescuer who processes the rescue task information. In some embodiments, the rescue task information serves as a trigger condition for implementing the rescue method of the present application on the network device side, for example, the rescue task information includes, but is not limited to, a distress request, and a rescuer sends the distress request to the network device through its corresponding user device (e.g., a cell phone or other terminal device used by the rescuer). In some embodiments, the rescue scene is a scene where rescue needs to be performed, e.g., a scene of an event, a scene of a fire, etc. In some embodiments, a rescue storage device information base is arranged in the network device, and the rescue storage device information base comprises a plurality of rescue storage devices and position information of each rescue storage device. In some embodiments, wearable rescue devices including, but not limited to, smart glasses, smart helmets, etc. are stored in the rescue storage device for use by rescuers.

Specifically, the system comprises a zero one module for receiving rescue task information. In some embodiments, the rescue mission information is sent by a rescuer through their corresponding user device, wherein in some embodiments the rescuer is a person in the rescue scene that needs to be rescued (e.g., an injured person); in other embodiments, the person calling for help is other people in the rescue scene except the people needing rescue, for example, when the other people find that the situation needing rescue occurs, the other people send rescue task information through their corresponding user devices, and the network device receives the rescue task information.

The first module, the second module and the third module are used for inquiring in a rescue storage device information base according to rescue site position information corresponding to the rescue task information to obtain rescue storage devices matched with the rescue site position information, wherein wearable rescue devices for rescuers are stored in the rescue storage devices. In some embodiments, the network device determines the rescue scene location information corresponding to the rescue task information by determining the location information of the user sending the rescue task information, for example, determining the location information of the user sending the rescue task information based on one or more of GPS positioning, beidou satellite positioning, WIFI network positioning, base station positioning, and other positioning technologies, and determining the rescue scene location information by the location information of the user; in other embodiments, the rescue task information includes location information of a rescue scene, for example, the rescue task information sent by the user to the network device includes location information of the rescue scene. In some embodiments, the network device queries a rescue storage device information base for a rescue storage device matching the rescue site location information based on the rescue site location information, for example, the rescue storage device information base stores location information of a plurality of rescue storage devices, and the network device searches the rescue storage device information base for a rescue storage device located near the rescue site location or closest to the rescue site location according to the rescue site location information corresponding to the received rescue task information. In some embodiments, wearable rescue equipment for a rescuer is stored in the rescue storage equipment, for example, the rescue storage equipment is an intelligent rescue storage equipment provided with an electronic lock or a mechanical lock, and the wearable rescue equipment is locked in the rescue storage equipment and can be taken out only by unlocking. The rescue storage device can safely put wearable rescue equipment in public places, intelligent management of the rescue storage device is facilitated through the network device, the network device can find out nearby rescue storage devices only by sending rescue task information to the network device through a user, and therefore rescuers can conveniently take the wearable rescue equipment to carry out rescue anytime and anywhere.

And the one-zero-three module is used for sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to a target rescuer who processes the rescue task information. In some embodiments, the user device corresponding to the target rescuer receives the location information of the rescue storage device and presents (for example, presents in the form of a map, or displays specific location information in the form of text) the location information, so that the target rescuer can find the rescue storage device in time according to the location information. In some embodiments, the network device sends rescue mission information to the target rescuer while sending location information of the rescue storage device to the target rescuer so that the target rescuer knows that a rescue needs to occur at present. In some embodiments, the rescue mission information includes rescue scene location information so that the target rescuer arrives at the rescue scene in time to perform the rescue while finding the rescue storage device. In some embodiments, the network device sends rescue task information and location information of the rescue storage device to one or more target rescuers; in some embodiments, the one or more targeted rescuers may determine to participate in the rescue by returning confirmation information to the network device.

In some embodiments, the device further comprises a zero-four module (not shown) for sending rescue guidance information to a wearable rescue device used by the target rescuer according to the rescue skill information of the target rescuer. In some embodiments, a rescuer information base is provided in the network device, and the rescuer information base stores a plurality of rescuers and rescue skill information of each rescuer, wherein the rescue skill information includes, but is not limited to, job information (e.g., medical officer, command officer, etc.) of the rescuers, capability level information (e.g., primary, secondary, tertiary, etc., with different levels corresponding to different rescue capabilities or rescue experiences). In some embodiments, each of the job information corresponds to different capability level information, for example, medical officers are classified into one level, two levels, and three levels, and the higher the level, the higher the rescue capability. Each ability level information corresponds to corresponding rescue guidance information. The rescue guidance information is used for guiding the target rescuer to carry out rescue operation correctly.

For example, the network device determines rescue skill information corresponding to the target rescuer based on identification information (e.g., name, number, etc.) of the target rescuer, and further, the network device sends corresponding rescue guidance information to a wearable rescue device used by the target rescuer based on the rescue skill information. In some embodiments, the target rescuer returns confirmation information to the network device based on rescue task information sent by the network device, further, the target rescuer prefers a rescue storage device based on the received location information of the rescue storage device (e.g., selects a rescue storage device closest to the rescuer or closest to the target rescuer), and sends information confirming the selection to the network device, wherein each rescue storage device has a corresponding wearable rescue device, and further, the network device can determine the wearable rescue device corresponding to the target rescuer. In some embodiments, the wearable rescue apparatus presents the rescue guidance information by voice, text, or multimedia. The rescue guidance information is information for providing corresponding rescue guidance according to the rescue skill information of the target rescuer, and can help the target rescuer to correctly implement rescue, for example, correct real-time artificial respiration or cardiac resuscitation, so as to improve the success rate of rescue.

In some embodiments, the apparatus further comprises a one-zero-five module (not shown), a one-zero-six module (not shown), and a one-zero-seven module (not shown). The rescue storage device comprises a zero-five module, a communication module and a control module, wherein the zero-five module is used for receiving device condition information of each wearable rescue device in one or more wearable rescue devices uploaded by the rescue storage device; a zero-six module, configured to select, according to the device condition information, a target wearable rescue device corresponding to the rescue task information from the one or more wearable rescue devices; and the one-zero-seven module is used for sending the identification information of the target wearable rescue device to the user equipment. In some embodiments, the device condition information includes, but is not limited to, power information of the wearable rescue device (e.g., a percentage of a remaining power to a total power, or a running time that can be supported by a current remaining power), startup state information (e.g., whether the wearable rescue device is currently on, off, or in a standby state), usage state information (e.g., whether it is currently used), network signal information (e.g., its network signal strength), location information (e.g., longitude and latitude information), and the like. In some embodiments, the device condition information is used for the network device to screen out available target wearable rescue devices from the plurality of wearable rescue devices, for example, the target wearable rescue devices need to be in an unused state before the network device can send identification information of the target wearable rescue devices to the user devices corresponding to the rescuers for the rescuers to use.

Specifically, the first module, the second module, the third module and the fourth module are used for receiving the device condition information of each wearable rescue device in the one or more wearable rescue devices uploaded by the rescue storage device. In some embodiments, the rescue storage device and the wearable rescue device are provided with communication modules, communication connection can be established between the rescue storage device and the wearable rescue device through the communication modules, information transmission is carried out, and then the rescue storage device obtains device condition information of the wearable rescue device and uploads the device condition information to the network device.

And the zero-six module is used for selecting target wearable rescue equipment corresponding to the rescue task information from the one or more wearable rescue equipment according to the equipment condition information. In some embodiments, the network device determines one or more rescue storage devices matched with rescue site location information corresponding to rescue task information according to the rescue task information, wherein wearable rescue devices are stored in the rescue storage devices. However, one or more wearable rescue devices corresponding to the one or more rescue storage devices may not be currently available, e.g., one of the wearable rescue devices is already used, and the wearable rescue device is not currently available. For example, the network device may determine whether the wearable rescue device is currently available according to the use state information of the wearable rescue device uploaded by the rescue storage device, so as to determine that the available wearable rescue device is a target wearable rescue device from the one or more wearable rescue devices, thereby ensuring that a target rescuer can get the currently available wearable rescue device to the rescue storage device.

And the one-zero-seven module is used for sending the identification information of the target wearable rescue device to the user equipment. In some embodiments, after determining the target wearable rescue device, the network device sends the identification information of the target wearable rescue device to the user equipment.

In some embodiments, the device further includes an eight-zero module (not shown) for sending a power-on command message to the rescue storage device regarding the target wearable rescue device. In some embodiments, after the network device determines a target wearable rescue device based on device condition information of the wearable rescue device, the network device sends starting instruction information to the target wearable rescue device, and the starting instruction information is used for starting the target wearable rescue device for a target rescuer in advance, so that time is saved for rescue. In some embodiments, a network device determines one or more target wearable rescue devices based on device condition information of the wearable rescue devices, and sends identification information of the one or more target wearable rescue devices to user equipment corresponding to a target rescuer, the target rescuer determines a final target wearable rescue device from the one or more target wearable rescue devices through a confirmation operation and sends the confirmation information to the network device, the network device sends starting instruction information to the corresponding target wearable rescue device based on the confirmation information, and the starting instruction information is used for starting the target wearable rescue device for the target rescuer in advance, so that time is saved for rescue.

In some embodiments, the device condition information comprises at least any one of: electric quantity information of the wearable rescue device; starting state information of the wearable rescue device; usage status information of the wearable rescue apparatus; network signal information of the wearable rescue device; location information of the wearable rescue apparatus.

For example, the device condition information includes power information of the wearable rescue device. In some embodiments, the network device screens out available target wearable rescue devices from one or more wearable rescue devices according to the power information of the wearable rescue devices. For example, when the power information of the wearable rescue device is lower than the preset power threshold information, the network device determines that the wearable rescue device is unavailable, so as to screen out the wearable rescue device from one or more wearable rescue devices.

As another example, the device condition information includes startup state information of the wearable rescue device. In some embodiments, the network device determines whether a wearable rescue device is available by determining whether the wearable rescue device is available according to the start state information of the wearable rescue device, e.g., if the start state information of the wearable rescue device is started, the network device determines that the wearable rescue is set as unavailable. And the wearable rescue device with the starting state information of being not started is determined as the target wearable rescue device.

As another example, the device condition information includes usage state information of the wearable rescue device. In some embodiments, the network device determines the target wearable rescue device from the one or more wearable rescue devices by using the state information of the wearable rescue device. For example, the usage state information includes the wearable rescue device being used and not being used currently, and the network device needs to screen out the wearable rescue device not being used currently from the one or more wearable rescue devices and use the wearable rescue device as the target wearable rescue device for the target rescuer.

As another example, the device condition information includes network signal information of the wearable rescue device. In some embodiments, the network device obtains network signal information of a network device currently used by the wearable rescue device, and in some embodiments, the network signal information includes, but is not limited to, signal strength information of a network to which the wearable rescue device is currently connected, and the like. Based on the network signal information, the network device preferably selects the wearable rescue device with high signal intensity as the target wearable rescue device.

As another example, the device condition information includes location information of the wearable rescue device. In some embodiments, the network device obtains real-time location information of each wearable rescue device, and determines that the wearable rescue device is in a moving or using state if the magnitude or frequency of change of the location information is large. In some embodiments, the network device takes a wearable rescue device with fixed location information as the target wearable rescue device.

In some embodiments, the device condition information includes power information of the wearable rescue device; the device further comprises a zero nine module (not shown), and the zero nine module is used for sending charging instruction information about the target wearable rescue device to the rescue storage device storing the target wearable rescue device according to the electric quantity information of the target wearable rescue device. In some embodiments, the network device performs charging management on the wearable rescue device by acquiring the power information of the wearable rescue device. For example, when the power information of the wearable rescue device acquired by the network device is lower than the preset power threshold information, the network equipment sends charging instruction information to rescue storage equipment for storing the wearable rescue equipment, the rescue storage device detects that the wearable rescue device is stored in the rescue storage device (for example, when the wearable rescue device is stored in the rescue storage device, a charging port is arranged in a notch for storing the wearable rescue device, the charging port on the wearable rescue device is clamped with the charging port on the notch, and the rescue storage device detects whether the wearable rescue device is currently stored on the rescue storage device through the charging port), the rescue storage device carries out charging operation on the wearable rescue device through the charging port based on the received charging instruction information. In some embodiments, when the charge of the wearable rescue device reaches 100%, the network device sends power-off instruction information to the rescue storage device. Carry out intelligent charging management to equipment is deposited in the rescue through network equipment, can guarantee to deposit wearable rescue equipment of depositing in this rescue storage equipment and be in the sufficient state of electric quantity all the time to the rescuer takes at any time.

In some embodiments, the apparatus further comprises a one-to-one module (not shown), a one-to-two module (not shown), and a one-to-three module (not shown). The one-to-one module is used for receiving verification request information sent by the rescue storage equipment, wherein the verification request information comprises verification basis information about the target rescuers; the one-to-two module is used for executing verification processing on the verification basis information; and the one-to-one module is used for sending corresponding verification result information or unlocking instruction information to the rescue storage equipment. In some embodiments, the wearable rescue device is locked in the rescue storage device through an electronic lock or a mechanical lock, the target rescuer can send verification request information to the corresponding network device through the rescue storage device, and the network device receives the verification request information and executes verification processing based on verification basis information in the verification request information. In some embodiments, the authentication-dependent information includes, but is not limited to, authorization information received by the user device from the network device, facial image information of the target rescuer.

For example, the rescue storage device acquires the face image information of a target rescuer A who wears the rescue device before through the camera device, and sends verification request information to the corresponding network device, wherein the verification request information comprises the face image information of the target rescuer A. The network device receives the verification request information and performs verification processing on verification basis information (face image information) in the verification request information, for example, a rescuer information base is arranged in the network device, the rescuer information base comprises related information (such as names, numbers and face image information) of a plurality of rescuers, the network device performs query matching in the rescuer information base according to the face image information of the target rescuer A in the verification request information, and if a rescuer matched with the face image information exists in the rescuer information base, the verification is successful. Further, the network device sends verification result information of successful verification to the rescue storage device, or the network device directly sends unlocking instruction information to the rescue storage device to control the rescue storage device to be automatically unlocked, and the target rescuer A can smoothly take away wearable rescue equipment stored in the rescue storage device.

In some embodiments, the device further includes a one-to-four module (not shown), which is configured to send verification basis information corresponding to the rescue storage device. In some embodiments, the verification-by-information includes, but is not limited to, authorization information (e.g., a password, an authorization code, a two-dimensional code, etc.). For example, authorization information of a plurality of rescue storage devices is stored in the network device, and the authorization information is used for unlocking the corresponding rescue storage devices. After determining the rescue storage device and the target rescuer, the network device sends verification basis information (for example, authorization information such as a password, an authorization code, a two-dimensional code and the like) corresponding to the rescue storage device to the user device corresponding to the target rescuer, meanwhile, the network device sends the verification basis information to the rescue storage device, the user device and the rescue storage device receive the same verification basis information, and therefore the target rescuer uses the verification basis information to unlock the rescue storage device and take away the wearable rescue device.

In some embodiments, the validation compliance information includes at least any one of: authorization information received by the user device from the network device, the authorization information being used to authorize the target rescuer to extract a wearable rescue device from the rescue storage device; face image information of the target rescuer; number information of the target rescuer; rescuer identification information of the target rescuer. In some embodiments, the network device executes verification processing according to verification basis information sent by the rescue storage device, and sends verification result information or unlocking instruction information to the rescue storage device according to a verification result; in other embodiments, the network device sends the verification basis information of the rescue storage device to the user device corresponding to the target rescuer, so that the target rescuer directly uses the verification basis information to unlock the rescue storage device, for example, the rescuer inputs the verification basis information on the rescue storage device, the rescue storage device verifies the verification basis information, and if the verification is passed, the wearable rescue device is unlocked for the rescuer to take. Of course, those skilled in the art will appreciate that the above-described authentication information is merely exemplary, and that other existing or future authentication information, which may be suitable for use in the present application, is also included within the scope of the present application and is incorporated by reference herein. According to the method for unlocking the rescue storage equipment according to the verification basis information, the wearable rescue equipment stored in the rescue storage equipment can be successfully extracted by a target rescuer.

For example, the verification-by-authentication information includes authorization information received by the user device from the network device, the authorization information being used to authorize the target rescuer to extract a wearable rescue device from the rescue storage device. In some embodiments, the authorization information includes, but is not limited to, a password, a two-dimensional code, an authorization code, and the like. After determining the rescue storage device, the network device sends authorization information (e.g., an unlocking password) corresponding to the rescue storage device to the user device corresponding to the target rescuer. The target rescuer inputs the authorization information to open the lock on the rescue storage device, so that the wearable rescue device stored in the rescue storage device is successfully extracted.

For another example, the verification-basis information includes face image information of the target rescuer. The network device is provided with a rescuer information base, wherein a plurality of rescuers and related information (such as face image information and the like) of each rescuer are stored in the rescuer information base. The face image information of a target rescuer who takes the wearable rescue equipment is taken by the rescue storage equipment before shooting, and face recognition is carried out on the face image information to extract the identity information of the target rescuer before shooting. For example, according to the face image information, the matched face image information is inquired in the rescuer information base, and if a rescuer matched with the face image information of the target rescuer exists in the rescuer information base, the verification is determined to be successful.

As another example, the verification-basis information includes number information of the target rescuer. The network device is provided with a rescuer information base, wherein the rescuer information base stores a plurality of rescuers and related information (such as number information and the like) of each rescuer. In some embodiments, the rescuer will wear a brand with rescuer number information on his or her body or have the rescuer number information corresponding to the rescuer printed on the particular garment worn by the rescuer. The rescue storage equipment extracts the number information of the target rescuers who come to take the wearable rescue equipment before through the camera device, and inquires the number information matched with the rescue storage equipment in the rescuer information base according to the number information. And if the rescuer exists in the rescuer information base and is matched with the serial number of the target rescuer, determining that the verification is successful.

As another example, the verification-compliance information includes rescuer identification information of the target rescuer. In some embodiments, the rescuer identification information includes, but is not limited to, a rescuer logo graphic, a rescuer logo pattern, or the like. In some embodiments, when a target rescuer goes to the rescue storage device to extract the wearable rescue device, the rescue storage device extracts rescuer identification information of the target rescuer (for example, the rescuer identification information is printed on clothes worn by the rescuer or a signboard printed with the rescuer identification information is worn by the rescuer) through the camera device and sends the rescuer identification information to the network device. The network device verifies whether the rescuer identification information matches with pre-stored rescuer identification information. And if the verification result is matched, determining that the verification is successful.

In some embodiments, the one-zero-three module includes a one-zero-three-one module (not shown) and a one-zero-three-two module (not shown), the one-zero-three-one module is used for determining a target rescuer for processing the rescue task information according to the rescue scene position information, wherein the distance between the current position information of the target rescuer and the rescue scene position information is less than or equal to the preset distance threshold information; and the one-to-three-to-two module is used for sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to the target rescuer. In some embodiments, current position information of a plurality of rescuers is acquired based on one or more combination of positioning technologies such as GPS positioning, Beidou satellite positioning, WIFI network positioning or base station positioning, and a target rescuer located near the rescue site position information is inquired among the plurality of rescuers according to the rescue site position information, so that the rescuers can arrive at the rescue site in time to perform rescue. Further, the network device sends the received rescue task information and the inquired position information of the rescue storage device to one or more target rescuers nearby the rescue scene.

In some embodiments, the one-zero-three module comprises a one-zero-three module (not shown), a one-zero-three-four module (not shown), a one-zero-three-five module (not shown), a one-zero-three-six module (not shown), and a one-zero-three-module, and is used for sending the rescue task information to one or more candidate rescuers, wherein the distance between the current position information of each candidate rescuer and the rescue scene position information is smaller than or equal to the preset distance threshold information; a zero-three-four module for receiving confirmation feedback information of at least one candidate rescuer of the one or more candidate rescuers on the rescue task information; a zero-three-five module for selecting a target rescuer from the at least one candidate rescuer who determines the rescue task information; and the one-zero-three-six module is used for sending the position information of the rescue storage equipment to user equipment corresponding to the target rescuer. In some embodiments, the network device determines the final target rescuer by receiving confirmation feedback information returned by the candidate rescuers based on the rescue mission information. For example, the network device receives rescue task information sent by a person calling for help, and searches for one or more candidate rescuers located near the rescue scene location information based on the rescue scene location information corresponding to the rescue task information, wherein please refer to the description of the related embodiments above for specific implementation of determining the rescue scene location information and the current location information of the rescuers, which is not described herein again and is included herein by way of reference. Further, the candidate rescuer returns confirmation feedback information to the network device based on the received rescue mission information, e.g., the candidate rescuer returns confirmation feedback information to the network device in case of a current convenience to rescue a live rescue. And the network equipment determines a target rescuer corresponding to the rescue task information finally based on the received confirmation feedback information. Further, the network device sends the searched position information of the rescue storage device to the user device corresponding to the target rescuer who sends the confirmation feedback information.

Fig. 8 illustrates a rescue storage device for storing one or more wearable rescue devices, the rescue storage device including a charging module for charging the wearable rescue devices, the device including a two-zero-one module and a two-zero-two module, the two-zero-one module for detecting and obtaining device condition information of each of the one or more wearable rescue devices, according to an embodiment of the present application; and the two-zero-two module is used for reporting the equipment status information to corresponding network equipment. In some embodiments, the rescue storage device is used to store a wearable rescue device. In some embodiments, the rescue storage device securely stores the wearable rescue device through an electronic or mechanical lock. In some embodiments, the rescue storage device is provided with a charging module for charging the wearable rescue device. In some embodiments, the rescue storage device and the wearable rescue device are both provided with communication modules for information transmission therebetween. The wearable rescue equipment reports the equipment condition information of the wearable rescue equipment to corresponding rescue storage equipment, the rescue storage equipment checks the equipment condition information of the wearable rescue equipment and reports the equipment condition information to corresponding network equipment, so that the network equipment performs equipment management on the corresponding wearable rescue equipment according to the equipment condition information and determines available target wearable rescue equipment from one or more found wearable rescue equipment.

In some embodiments, the device further includes a two-zero-three module (not shown) and a two-zero-four module (not shown), where the two-zero-three module is configured to receive the boot instruction information about the target wearable rescue device of the one or more wearable rescue devices, which is sent by the network device; and the two-zero-four module is used for executing the starting operation on the target wearable rescue equipment according to the starting instruction information. In some embodiments, after the network device determines a target wearable rescue device based on device condition information of the wearable rescue device, the network device sends starting instruction information to a rescue storage device corresponding to the target wearable rescue device, the rescue storage device receives the starting instruction information, and executes a starting operation on the target wearable rescue device based on the starting instruction information, so as to start the target wearable rescue device for a target rescuer in advance, and save rescue time.

In some embodiments, the device further includes a two-zero-five module (not shown) and a two-zero-six module (not shown), wherein the two-zero-five module is configured to receive charging instruction information about the wearable rescue device sent by a network device; and the two-zero-six module is used for executing charging operation on the wearable rescue equipment according to the charging instruction information. In some embodiments, the network device obtains device condition information of a corresponding wearable rescue device (e.g., a wearable rescue device stored in the rescue storage device) reported by the rescue storage device. In some embodiments, the device condition information includes power information of the wearable rescue device, the network device detects whether the power information is lower than preset power threshold information, and if the power information of the wearable rescue device is lower than the power threshold information, the network device sends charging instruction information to a rescue storage device storing the wearable rescue device. In some embodiments, a mapping relationship exists between the wearable rescue device and a rescue storage device storing the wearable rescue device to determine a correspondence relationship between the wearable rescue device and the rescue storage device. The wearable rescue equipment is charged after the rescue storage equipment receives the charging instruction information, so that the wearable rescue equipment stored on the rescue storage equipment is ensured to be in a state of sufficient electric quantity all the time.

In some embodiments, the device further includes a two-zero-seven module (not shown), a two-zero-eight module (not shown), and a two-zero-nine module (not shown), the two-zero-seven module being configured to send authentication request information to the corresponding network device, wherein the authentication request information includes authentication basis information about the target rescuer; the two-zero-eight module is used for receiving corresponding verification result information or unlocking instruction information sent by the network equipment; and the two-zero-nine module is used for executing unlocking operation according to the verification result information or the unlocking instruction information. In some embodiments, the wearable rescue equipment is safely stored by the rescue storage equipment through an electronic lock or a mechanical lock, and in order to realize the intelligent unlocking function, the rescue storage equipment performs verification unlocking by sending verification request information to the corresponding network equipment. In some embodiments, the verification-dependent information includes, but is not limited to, authorization information (e.g., a password, an authorization code, a two-dimensional code, etc.) sent by the network device to the targeted rescuer. The target rescuer sends verification request information to the network device by inputting the authorization information on the rescue storage device, wherein the verification request information comprises the authorization information. And the network equipment receives the verification request information and judges whether to send unlocking instruction information to the rescue storage equipment or not according to authorization information in the verification request information. If the authorization information is correspondingly matched with the authorization information of the rescue storage device sent by the network device to the target rescuer, the verification is successful, and the network device sends verification result information of the verification success to the rescue storage device, or the network device directly sends unlocking instruction information to the rescue storage device. The rescue storage device receives the verification result information or unlocking instruction information which is verified successfully, and executes unlocking operation.

In some embodiments, the device further includes two one-to-one modules (not shown), and the two one-to-one modules are configured to receive verification basis information corresponding to the rescue storage device sent by the network device. In some embodiments, the verification-based information includes authorization information (e.g., a password, a two-dimensional code, an authorization code, etc.) corresponding to the rescue storage device, where the authorization information is used to unlock the rescue storage device so that the rescuer can successfully take out the wearable rescue device stored in the rescue storage device. In some embodiments, the network device sends authorization information corresponding to the rescue storage device, and meanwhile, the network device sends the authorization information to the user device corresponding to the target rescuer. In some embodiments, the target rescuer unlocks the lock by entering the authorization information on the rescue storage device.

In some embodiments, the apparatus further comprises two modules (not shown) and two one three modules (not shown), two modules and two modules, for receiving authentication request information, wherein the authentication request information comprises authentication basis information about the target rescuer; and the two-one-three module is used for executing unlocking operation according to the verification basis information. In some embodiments, the rescue storage device receives verification request information, wherein in some embodiments, the verification criterion information includes face image information, rescuer identification information or number information of a target rescuer who previously extracts the wearable rescue device, which is acquired by the rescue storage device through a camera device or a face authentication device; in other embodiments, the verification-by-information includes authorization information entered by a target rescuer who previously extracted the wearable rescue device. Further, the network device sends the verification basis information about the target rescuer to the rescue storage device, the rescue storage device performs matching judgment according to the verification basis information sent by the network device and the verification basis information about the target rescuer obtained by the rescue storage device, and if the matching is successful, unlocking operation is performed.

Fig. 9 illustrates a user device according to an embodiment of the present application, wherein the device includes a three-zero-one module and a three-zero-two module, the three-zero-one module is configured to receive rescue task information sent by a corresponding network device; and the three-zero-two module is used for receiving the position information of the rescue storage equipment corresponding to the rescue task information. In some embodiments, the user equipment is a user equipment corresponding to a target rescuer. And the network equipment sends the rescue task information sent by the person calling for help to one or more corresponding target rescuers. The target rescuer receives the rescue task information through the corresponding user equipment. Meanwhile, after the network device determines one or more rescue storage devices located near the rescue site location information based on the rescue task information, the location information of the one or more rescue storage devices is sent to the user device, the user device receives the location information, and the target rescuer selects one of the wearable rescue devices which is most convenient to extract according to the location information, presented by the user device, of the one or more rescue storage devices.

In some embodiments, the device further includes a three-zero-three module (not shown) for sending confirmation feedback information of the rescue task information to the corresponding network device based on the confirmation operation of the target rescuer. In some embodiments, one or more rescuers may receive rescue mission information sent by the network device, the one or more rescuers determining to participate in the rescue activity by sending confirmation feedback information to the network device. Thereby determining the target rescuers corresponding to the rescue task information.

In some embodiments, the device further includes a three-zero-four module (not shown) configured to receive identification information of a target wearable rescue device corresponding to the rescue task information sent by a corresponding network device. In some embodiments, the network device sends identification information of a target wearable rescue device corresponding to the rescue task information to a user device corresponding to the target rescuer. After the network device determines a target wearable rescue device, identifying information (for example, a serial number of the target wearable rescue device) of the target wearable rescue device, in some embodiments, each wearable rescue device has corresponding identifying information, and the identifying information may correspond to a group number or a device number to which the wearable rescue device belongs, so as to manage a plurality of wearable rescue devices; in some embodiments, a mapping relationship exists between identification information of each wearable rescue device and a rescue storage device storing the wearable rescue device, the network device determines a target wearable rescue device according to device condition information of the wearable rescue device, and then determines a corresponding rescue storage device according to the identification information of the target wearable rescue device, so that a rescuer can find the wearable rescue device according to position information of the rescue storage device. In this embodiment, wearable rescue equipment is managed safely through rescue storage equipment, and intelligent management of rescue storage equipment is realized based on network equipment.

In some embodiments, the device further includes a three-zero-five module (not shown) configured to receive authorization information about a rescue storage device sent by a corresponding network device, wherein the authorization information is used to authorize the target rescuer to extract a wearable rescue device from the rescue storage device. In some embodiments, the authorization information includes, but is not limited to, a password, a two-dimensional code, an authorization code, and the like. After determining the rescue storage device, the network device sends authorization information (e.g., an unlocking password) corresponding to the rescue storage device to the user device corresponding to the target rescuer. The target rescuer inputs the authorization information to open the lock on the rescue storage device, so that the wearable rescue device stored in the rescue storage device is successfully extracted.

The present application also provides a computer readable storage medium having stored thereon computer code which, when executed, performs a method as in any one of the preceding.

The present application also provides a computer program product, which when executed by a computer device, performs the method of any of the preceding claims.

The present application further provides a computer device, comprising:

one or more processors;

a memory for storing one or more computer programs;

the one or more computer programs, when executed by the one or more processors, cause the one or more processors to implement the method of any preceding claim.

FIG. 10 illustrates an exemplary system that can be used to implement the various embodiments described herein;

in some embodiments, as shown in FIG. 10, the system 300 can be implemented as any of the devices in the various embodiments described. In some embodiments, system 300 may include one or more computer-readable media (e.g., system memory or NVM/storage 320) having instructions and one or more processors (e.g., processor(s) 305) coupled with the one or more computer-readable media and configured to execute the instructions to implement modules to perform the actions described herein.

For one embodiment, system control module 310 may include any suitable interface controllers to provide any suitable interface to at least one of processor(s) 305 and/or any suitable device or component in communication with system control module 310.

The system control module 310 may include a memory controller module 330 to provide an interface to the system memory 315. Memory controller module 330 may be a hardware module, a software module, and/or a firmware module.

System memory 315 may be used, for example, to load and store data and/or instructions for system 300. For one embodiment, system memory 315 may include any suitable volatile memory, such as suitable DRAM. In some embodiments, the system memory 315 may include a double data rate type four synchronous dynamic random access memory (DDR4 SDRAM).

For one embodiment, system control module 310 may include one or more input/output (I/O) controllers to provide an interface to NVM/storage 320 and communication interface(s) 325.

For example, NVM/storage 320 may be used to store data and/or instructions. NVM/storage 320 may include any suitable non-volatile memory (e.g., flash memory) and/or may include any suitable non-volatile storage device(s) (e.g., one or more Hard Disk Drives (HDDs), one or more Compact Disc (CD) drives, and/or one or more Digital Versatile Disc (DVD) drives).

NVM/storage 320 may include storage resources that are physically part of the device on which system 300 is installed or may be accessed by the device and not necessarily part of the device. For example, NVM/storage 320 may be accessible over a network via communication interface(s) 325.

Communication interface(s) 325 may provide an interface for system 300 to communicate over one or more networks and/or with any other suitable device. System 300 may wirelessly communicate with one or more components of a wireless network according to any of one or more wireless network standards and/or protocols.

For one embodiment, at least one of the processor(s) 305 may be packaged together with logic for one or more controller(s) (e.g., memory controller module 330) of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be packaged together with logic for one or more controller(s) of the system control module 310 to form a System In Package (SiP). For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with logic for one or more controller(s) of the system control module 310. For one embodiment, at least one of the processor(s) 305 may be integrated on the same die with logic for one or more controller(s) of the system control module 310 to form a system on a chip (SoC).

In various embodiments, system 300 may be, but is not limited to being: a server, a workstation, a desktop computing device, or a mobile computing device (e.g., a laptop computing device, a handheld computing device, a tablet, a netbook, etc.). In various embodiments, system 300 may have more or fewer components and/or different architectures. For example, in some embodiments, system 300 includes one or more cameras, a keyboard, a Liquid Crystal Display (LCD) screen (including a touch screen display), a non-volatile memory port, multiple antennas, a graphics chip, an Application Specific Integrated Circuit (ASIC), and speakers.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. Likewise, the software programs (including associated data structures) of the present application may be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Additionally, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Those skilled in the art will appreciate that the form in which the computer program instructions reside on a computer-readable medium includes, but is not limited to, source files, executable files, installation package files, and the like, and that the manner in which the computer program instructions are executed by a computer includes, but is not limited to: the computer directly executes the instruction, or the computer compiles the instruction and then executes the corresponding compiled program, or the computer reads and executes the instruction, or the computer reads and installs the instruction and then executes the corresponding installed program. Computer-readable media herein can be any available computer-readable storage media or communication media that can be accessed by a computer.

Communication media includes media by which communication signals, including, for example, computer readable instructions, data structures, program modules, or other data, are transmitted from one system to another. Communication media may include conductive transmission media such as cables and wires (e.g., fiber optics, coaxial, etc.) and wireless (non-conductive transmission) media capable of propagating energy waves such as acoustic, electromagnetic, RF, microwave, and infrared. Computer readable instructions, data structures, program modules, or other data may be embodied in a modulated data signal, for example, in a wireless medium such as a carrier wave or similar mechanism such as is embodied as part of spread spectrum techniques. The term "modulated data signal" means a signal that has one or more of its characteristics set or changed in such a manner as to encode information in the signal. The modulation may be analog, digital or hybrid modulation techniques.

By way of example, and not limitation, computer-readable storage media may include volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer-readable instructions, data structures, program modules or other data. For example, computer-readable storage media include, but are not limited to, volatile memory such as random access memory (RAM, DRAM, SRAM); and non-volatile memory such as flash memory, various read-only memories (ROM, PROM, EPROM, EEPROM), magnetic and ferromagnetic/ferroelectric memories (MRAM, FeRAM); and magnetic and optical storage devices (hard disk, tape, CD, DVD); or other now known media or later developed that can store computer-readable information/data for use by a computer system.

An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims (25)

1. A rescue method at a network device side, wherein the method comprises:

receiving rescue task information;

inquiring in a rescue storage device information base according to rescue site position information corresponding to the rescue task information to obtain rescue storage devices matched with the rescue site position information, wherein wearable rescue devices available for rescuers are stored in the rescue storage devices;

sending the rescue task information and the position information of the rescue storage device to user equipment corresponding to a target rescuer who processes the rescue task information, wherein the user equipment presents the position information of the rescue storage device to enable the target rescuer to find the rescue storage device based on the position information and take away wearable rescue equipment stored in the rescue storage device, so that the target rescuer can wear the wearable rescue equipment and put the wearable rescue equipment into a rescue site for rescue;

the step of sending the rescue task information and the position information of the rescue storage device to user equipment corresponding to a target rescuer who processes the rescue task information includes any one of the following steps:

determining a target rescuer for processing the rescue task information according to the rescue site position information, wherein the distance between the current position information of the target rescuer and the rescue site position information is less than or equal to preset distance threshold information; sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to the target rescuer; alternatively, the first and second electrodes may be,

determining a final target rescuer by receiving confirmation feedback information returned by the candidate rescuers based on the rescue task information; sending the position information of the rescue storage equipment to user equipment corresponding to the target rescuer;

receiving equipment condition information of each wearable rescue equipment in one or more wearable rescue equipment uploaded by the rescue storage equipment;

according to the equipment condition information, target wearable rescue equipment corresponding to the rescue task information is selected from the one or more wearable rescue equipment;

and sending the identification information of the target wearable rescue device to the user equipment.

2. The method of claim 1, wherein the method further comprises:

and sending rescue guidance information to wearable rescue equipment used by the target rescuer according to the rescue skill information of the target rescuer.

3. The method of claim 1, wherein the method further comprises:

sending starting instruction information about the target wearable rescue device to the rescue storage device.

4. The method of claim 1, wherein the device condition information comprises at least any one of:

electric quantity information of the wearable rescue device;

starting state information of the wearable rescue device;

usage status information of the wearable rescue apparatus;

network signal information of the wearable rescue device;

location information of the wearable rescue apparatus.

5. The method of claim 4, wherein the device condition information includes power information of the wearable rescue device;

wherein the method further comprises:

and sending charging instruction information about the target wearable rescue equipment to the rescue storage equipment storing the target wearable rescue equipment according to the electric quantity information of the target wearable rescue equipment.

6. The method of claim 1, wherein the method further comprises:

receiving verification request information sent by the rescue storage equipment, wherein the verification request information comprises verification basis information about the target rescuers;

executing verification processing on the verification basis information;

and sending corresponding verification result information or unlocking instruction information to the rescue storage equipment.

7. The method of claim 1, wherein the method further comprises:

and sending verification basis information corresponding to the rescue storage equipment.

8. The method according to claim 6 or 7, wherein the verification-dependent information comprises at least any one of:

authorization information received by the user device from the network device, the authorization information being used to authorize the target rescuer to extract a wearable rescue device from the rescue storage device;

face image information of the target rescuer;

number information of the target rescuer;

rescuer identification information of the target rescuer.

9. The method of claim 1, wherein the determining a final target rescuer by receiving confirmation feedback information returned by candidate rescuers based on the rescue task information comprises:

sending the rescue task information to one or more candidate rescuers, wherein the distance between the current position information of each candidate rescuer and the rescue scene position information is smaller than or equal to preset distance threshold information;

receiving confirmation feedback information of at least one candidate rescuer of the one or more candidate rescuers on the rescue task information;

selecting a target rescuer from the at least one candidate rescuer who determines the rescue task information.

10. A rescue method at a rescue storage device side, wherein the rescue storage device is used for storing one or more wearable rescue devices, the rescue storage device comprises a charging module used for charging the wearable rescue devices, the rescue storage device comprises a rescue storage device which is obtained by a network device through inquiring in a rescue storage device information base based on rescue site location information corresponding to rescue task information and is matched with the rescue site location information, and the method comprises the following steps:

detecting and obtaining device condition information of each wearable rescue device in the one or more wearable rescue devices;

reporting the device condition information to corresponding network devices, so that the network devices select target wearable rescue devices corresponding to rescue task information from the one or more wearable rescue devices according to the device condition information, and send identification information of the target wearable rescue devices to user devices corresponding to target rescuers, wherein the network devices send position information of the rescue storage devices to the user devices, the user devices provide the target rescuers to find the rescue storage devices based on the position information by presenting the position information of the rescue storage devices, and the user devices provide the target rescuers to take the target wearable rescue devices from the rescue storage devices by presenting the identification information of the target wearable rescue devices, so that the target rescuers can wear the target wearable rescue devices to put into rescue sites for rescue, the target rescuers are determined by the network equipment according to the rescue site position information, and the distance between the current position information of the target rescuers and the rescue site position information is smaller than or equal to preset distance threshold information; alternatively, the target rescuer is determined by the network device by receiving confirmation feedback information returned by candidate rescuers based on the rescue task information.

11. The method of claim 10, wherein the method further comprises:

receiving starting instruction information which is sent by the network equipment and is about a target wearable rescue equipment in the one or more wearable rescue equipments;

and executing a starting operation on the target wearable rescue equipment according to the starting instruction information.

12. The method of claim 10, wherein the method further comprises:

receiving charging instruction information about the wearable rescue device sent by a network device;

and executing charging operation on the wearable rescue equipment according to the charging instruction information.

13. The method of claim 10, wherein the method further comprises:

sending verification request information to corresponding network equipment, wherein the verification request information comprises verification basis information about the target rescuer;

receiving corresponding verification result information or unlocking instruction information sent by the network equipment;

and executing unlocking operation according to the verification result information or the unlocking instruction information.

14. The method of claim 10, wherein the method further comprises:

and receiving verification basis information corresponding to the rescue storage equipment sent by the network equipment.

15. The method of claim 14, wherein the method further comprises:

receiving verification request information, wherein the verification request information comprises verification basis information about the target rescuer;

and executing unlocking operation according to the verification basis information.

16. Rescue method at a user equipment side, wherein the method comprises:

receiving rescue task information sent by corresponding network equipment, wherein the network equipment receives equipment condition information of each wearable rescue equipment in one or more wearable rescue equipment uploaded by rescue storage equipment; according to the equipment condition information, target wearable rescue equipment corresponding to the rescue task information is selected from the one or more wearable rescue equipment; sending the identification information of the target wearable rescue device to the user equipment;

receiving position information of rescue storage equipment corresponding to the rescue task information, wherein the user equipment provides the target rescuer with the position information of the rescue storage equipment to find the rescue storage equipment based on the position information and take away wearable rescue equipment stored in the rescue storage equipment so that the target rescuer can put the wearable rescue equipment into a rescue site for rescue by wearing the wearable rescue equipment, the target rescuer corresponding to the user equipment is determined by the network equipment according to the position information of the rescue site, and the distance between the current position information of the target rescuer and the position information of the rescue site is smaller than or equal to preset distance threshold value information; or the target rescuer corresponding to the user equipment is determined by the network equipment by receiving confirmation feedback information returned by the candidate rescuers based on the rescue task information.

17. The method of claim 16, wherein the method further comprises:

and sending confirmation feedback information of the rescue task information to corresponding network equipment based on the confirmation operation of the target rescuer.

18. The method of claim 16, wherein the method further comprises:

and receiving identification information of the target wearable rescue equipment corresponding to the rescue task information sent by the corresponding network equipment.

19. The method of claim 16, wherein the method further comprises:

receiving authorization information about rescue storage equipment sent by corresponding network equipment, wherein the authorization information is used for authorizing the target rescuer to extract wearable rescue equipment from the rescue storage equipment.

20. A rescue method, wherein the method comprises:

the network equipment receives rescue task information, and according to rescue site position information corresponding to the rescue task information, the network equipment inquires in a rescue storage equipment information base to obtain rescue storage equipment matched with the rescue site position information, wherein wearable rescue equipment capable of being used by rescuers is stored in the rescue storage equipment; sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to a target rescuer who processes the rescue task information; the user equipment presents the position information of the rescue storage equipment, so that the target rescuer can find the rescue storage equipment based on the position information and take away wearable rescue equipment stored in the rescue storage equipment, the target rescuer can conveniently wear the wearable rescue equipment to put into a rescue site for rescue, and the rescue task information and the position information of the rescue storage equipment are sent to the user equipment corresponding to the target rescuer who processes the rescue task information, wherein the method comprises any one of the following steps:

determining a target rescuer for processing the rescue task information according to the rescue site position information, wherein the distance between the current position information of the target rescuer and the rescue site position information is less than or equal to preset distance threshold information; sending the rescue task information and the position information of the rescue storage equipment to user equipment corresponding to the target rescuer; alternatively, the first and second electrodes may be,

determining a final target rescuer by receiving confirmation feedback information returned by the candidate rescuers based on the rescue task information; sending the position information of the rescue storage equipment to user equipment corresponding to the target rescuer; receiving equipment condition information of each wearable rescue equipment in one or more wearable rescue equipment uploaded by the rescue storage equipment; according to the equipment condition information, target wearable rescue equipment corresponding to the rescue task information is selected from the one or more wearable rescue equipment;

sending the identification information of the target wearable rescue device to the user equipment;

and the user equipment receives rescue task information sent by the network equipment and the position information of the rescue storage equipment corresponding to the rescue task information.

21. A rescue method, wherein the method comprises:

the method comprises the steps that a rescue storage device end detects and obtains device condition information of each wearable rescue device in one or more wearable rescue devices, and reports the device condition information to corresponding network devices, wherein the rescue storage device comprises rescue storage devices which are obtained by inquiring the network devices in a rescue storage device information base based on rescue site position information corresponding to rescue task information and are matched with the rescue site position information;

the network equipment receives equipment condition information of each wearable rescue equipment in one or more wearable rescue equipment uploaded by the rescue storage equipment; according to the device condition information, selecting a target wearable rescue device corresponding to rescue task information from the one or more wearable rescue devices, and sending identification information of the target wearable rescue device to user equipment, wherein the network device transmits the location information of the rescue storage device to the user device, identification information of the target wearable rescue device for the target rescuer to take the target wearable rescue device from the rescue storage device, so that the target rescuer wears the target wearable rescue equipment and puts the wearable rescue equipment into a rescue site for rescue, the target rescuers are determined by the network equipment according to the rescue site position information, and the distance between the current position information of the target rescuers and the rescue site position information is smaller than or equal to preset distance threshold information; or the target rescuer is determined by the network equipment by receiving confirmation feedback information returned by candidate rescuers based on rescue task information;

the user equipment receives and presents the position information of the rescue storage equipment, so that the target rescuer can find the rescue storage equipment based on the position information, and the user equipment receives and presents the identification information of the target wearable rescue equipment corresponding to the rescue task information sent by the network equipment, so that the target rescuer can take the target wearable rescue equipment from the rescue storage equipment and put the wearable rescue equipment into a rescue site for rescue.

22. Rescue arrangement, wherein the arrangement comprises:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 1 to 9.

23. Rescue arrangement, wherein the arrangement comprises:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 10 to 15.

24. Rescue arrangement, wherein the arrangement comprises:

a processor; and

a memory arranged to store computer executable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 16 to 19.

25. A computer-readable medium storing instructions that, when executed, cause a system to perform the operations of any of the methods of claims 1-19.

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