WO2020187075A1 - Method and device for providing rescue information to rescuer - Google Patents
Method and device for providing rescue information to rescuer Download PDFInfo
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- WO2020187075A1 WO2020187075A1 PCT/CN2020/078406 CN2020078406W WO2020187075A1 WO 2020187075 A1 WO2020187075 A1 WO 2020187075A1 CN 2020078406 W CN2020078406 W CN 2020078406W WO 2020187075 A1 WO2020187075 A1 WO 2020187075A1
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- rescue
- information
- distress
- user equipment
- location information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/02—Services making use of location information
- H04W4/021—Services related to particular areas, e.g. point of interest [POI] services, venue services or geofences
Definitions
- This application relates to the field of rescue, in particular to a technology for providing rescue information to rescuers.
- One purpose of this application is to provide a method and equipment for providing rescue information to rescuers.
- a method for providing rescue information to rescuers at the end of a network device includes:
- a method for providing rescue information to rescuers at the end of a rescue device including:
- the distress request is used for the network device to determine at least one rescue user equipment based on the positioning basis information, and send the distress location information of the distress device and at least one rescue device to at least one of the at least one rescue equipment Storage location information of wearable rescue equipment.
- a method for providing rescue information to rescuers at the end of rescue user equipment including:
- a method for providing rescue information to rescuers at the end of a network device includes:
- a method for providing rescue information to rescuers at the end of a rescue device including:
- the distress request is used for the network device to determine at least one rescue user equipment based on the positioning basis information, and send the distress location information of the distress device and at least one rescue device to at least one of the at least one rescue equipment The storage location information of AED equipment.
- a method for providing rescue information to rescuers at the end of rescue user equipment including:
- a method for providing rescue information to rescuers includes:
- the distress device sends a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;
- the network device receives the request for help, determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and at least one wearable rescue device to at least one of the at least one rescue user equipment Storage location information;
- the rescue user equipment receives the call for help location information of the call for help device and the storage location information of at least one wearable rescue device, provides call for help prompt information about the call for help request, and presents the at least one wearable rescue on a map interface Storage location information of the equipment;
- the network device receives rescue response information about the request for help sent by the rescue user equipment.
- a method for providing rescuers with rescue information including:
- the distress device sends a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;
- the network device receives the request for help, determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the storage of at least one AED device to at least one of the at least one rescue user equipment location information;
- the rescue user equipment receives the distress location information of the distress distress device and the storage location information of at least one AED device, provides distress prompt information about the distress request, and presents the storage location of the at least one AED device on a map interface information;
- the network device receives rescue response information about the request for help sent by the rescue user equipment.
- a device for providing rescue information to rescuers wherein the device includes:
- a memory arranged to store computer-executable instructions that, when executed, cause the processor to perform the operations of any of the above methods.
- a computer-readable medium storing instructions that, when executed, cause a system to perform the operation of any one of the above methods.
- the location of the caller and the location of the rescue helmet and other equipment required for the rescue are sent to the rescuer, so that the rescuer can carry the corresponding promptly and accurately.
- the equipment goes to the location of the caller and implements the rescue, thereby reducing the burden of the rescuer and improving the rescue efficiency, and it is not necessary for each rescuer to prepare the necessary equipment, which can reduce the rescue cost and increase the rescue willingness of the rescuer.
- Fig. 1 is a flowchart of a method for providing rescue information to rescuers according to an embodiment of the present application
- Fig. 2 is a flowchart of a method for providing rescue information to rescuers on the network device side according to an embodiment of the present application
- Fig. 3 is a flowchart of a method for providing rescue information to rescuers at the end of a rescue device according to another embodiment of the present application;
- FIG. 4 is a flowchart of a method for providing rescue information to rescuers at the end of rescue user equipment according to another embodiment of the present application
- Figure 5 is a flowchart of a method for providing rescue information to rescuers according to another embodiment of the present application.
- Fig. 6 is a flowchart of a method for providing rescue information to rescuers on the network device side according to another embodiment of the present application
- FIG. 7 is a flowchart of a method for providing rescue information to rescuers at the end of a rescue device according to another embodiment of the present application.
- FIG. 8 is a flowchart of a method for providing rescue information to rescuers at the end of rescue user equipment according to another embodiment of the present application.
- Fig. 9 shows a functional module of a network device according to an embodiment of the present application.
- Fig. 10 shows functional modules of a distress call device according to another embodiment of the present application.
- Fig. 11 shows a functional module of a rescue user equipment according to another embodiment of the present application.
- Fig. 12 shows a functional module of a network device according to another embodiment of the present application.
- Fig. 13 shows functional modules of a distress call device according to another embodiment of the present application.
- Fig. 14 shows a functional module of a rescue user equipment according to another embodiment of the present application.
- Fig. 15 shows functional modules of an exemplary system of the present application.
- the terminal, the equipment of the service network, and the trusted party all include one or more processors (for example, a central processing unit (CPU)), input/output interfaces, network interfaces, and RAM.
- processors for example, a central processing unit (CPU)
- Memory may include non-permanent memory in computer readable media, random access memory (RAM) and/or non-volatile memory, such as read only memory (ROM) or flash memory (Read Only Memory). Flash Memory). Memory is an example of computer readable media.
- RAM random access memory
- ROM read only memory
- Flash Memory Flash Memory
- Computer-readable media include permanent and non-permanent, removable and non-removable media, and information storage can be realized by any method or technology.
- the information can be computer-readable instructions, data structures, program modules, or other data.
- Examples of computer storage media include, but are not limited to, phase-change memory (PCM), programmable random access memory (Programmable Random Access Memory, PRAM), and static random access memory (Static Random-Access Memory, SRAM), dynamic random access memory (Dynamic Random Access Memory, DRAM), other types of random access memory (Random Access Memory, RAM), read-only memory (Read-Only Memory, ROM), electrically erasable and programmable Read-only memory (Electrically-Erasable Programmable Read-Only Memory, EEPROM), Flash Memory (Flash Memory) or other memory technologies, Compact Disc Read-Only Memory (CD-ROM), Digital Multi Digital Versatile Disc (DVD) or other optical storage, magnetic cassettes, magnetic tape storage or other magnetic storage devices or any other non-transmission
- the equipment referred to in this application includes but is not limited to user equipment, network equipment, or equipment formed by the integration of user equipment and network equipment through a network.
- the user equipment includes, but is not limited to, any mobile electronic product that can perform human-computer interaction with the user (for example, human-computer interaction through a touchpad), such as a smart phone, a tablet computer, etc., and the mobile electronic product can adopt any operation System, such as Android operating system, iOS operating system, etc.
- the network device includes an electronic device that can automatically perform numerical calculation and information processing in accordance with pre-set or stored instructions, and its hardware includes, but is not limited to, a microprocessor, an Application Specific Integrated Circuit (ASIC) ), Programmable Logic Device (PLD), Field Programmable Gate Array (FPGA), Digital Signal Processor (DSP), embedded devices, etc.
- the network device includes, but is not limited to, a computer, a network host, a single network server, a set of multiple network servers, or a cloud composed of multiple servers; here, the cloud is composed of a large number of computers or network servers based on Cloud Computing, Among them, cloud computing is a type of distributed computing, a virtual supercomputer composed of a group of loosely coupled computer sets.
- the network includes, but is not limited to, the Internet, a wide area network, a metropolitan area network, a local area network, a VPN network, and a wireless ad hoc network (Ad Hoc Network).
- the device may also be a program running on the user equipment, network equipment, or user equipment and network equipment, network equipment, touch terminal, or a device formed by integrating network equipment and touch terminal through a network.
- the wearable rescue device referred to in this application is a hardware device, including but not limited to smart helmets, smart glasses or other hardware devices, which can be directly worn on the user's body or integrated into the user's clothes or other accessories.
- it has the ability to communicate with other devices (for example, including but not limited to other user devices of the same user, or user devices of other users, cloud servers and other network devices, etc.).
- these wearable rescue devices are used to provide users (such as rescue volunteers) with additional information about the rescue scene, including but not limited to interaction information with others, relevant instructions provided by the background command center, etc.
- users such as rescue volunteers
- additional information about the rescue scene including but not limited to interaction information with others, relevant instructions provided by the background command center, etc.
- the wearable rescue device it can be provided to the user by means including but not limited to voice, text, graphics/images, etc.
- a method for providing rescue information to rescuers includes the following steps:
- the distress device sends a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;
- the network device receives the request for help, determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and at least one wearable rescue device to at least one of the at least one rescue user equipment Storage location information;
- the rescue user equipment receives the call for help location information of the call for help device and the storage location information of at least one wearable rescue device, provides call for help prompt information about the call for help request, and presents the at least one wearable rescue on a map interface Storage location information of the equipment;
- the network device receives rescue response information about the request for help sent by the rescue user equipment.
- the call for help device is used by the corresponding user to call for help to notify related volunteers to come to help. It can be a fixed or movable electronic device and is configured to communicate with a corresponding network device; the network device is also configured To communicate with the corresponding one or more rescue user equipment; and the one or more rescue user equipment is held by the corresponding rescue volunteer, for example, the one or more rescue user equipment is for the rescue volunteer.
- Computing devices such as mobile phones, tablets, and wearable electronic devices used.
- a method for providing rescue information to rescuers on the network device side includes step S101, step S102, and step S103.
- step S101 the network device receives a distress request sent by a corresponding distress device, wherein the distress request includes the positioning basis information of the distress device.
- step S102 the network device determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment. Store location information.
- the network device receives rescue response information about the request for help sent by at least one rescue user equipment.
- the network device receives a distress request sent by a corresponding distress device, wherein the distress request includes the positioning basis information of the distress device.
- the distress request is triggered by the distress device, for example, the distress request is triggered based on any of the following including but not limited to:
- the calling device detects that the calling user falls, and in some embodiments the calling device is worn by the calling user.
- the request for help is triggered by the calling user in an emergency situation that requires rescue by himself, so as to call related rescue volunteers to help the calling user; while in other embodiments, the calling for help When someone needs help, the request is triggered by someone other than the person who needs help (user calling for help) to call related rescue volunteers to come and provide help.
- the positioning basis information is used for the network device to determine the location of the user calling for help, and notify the corresponding rescue volunteer to go to the location and provide assistance.
- step S102 the network device determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment. Store location information.
- the network device pre-stores the geographic location information of one or more rescue user devices (and corresponding rescue volunteers) (for example, the corresponding rescue volunteers often move in a certain area), or real-time/intermittent Query one or more rescue user equipment for its geographic location information; in the case that the geographic location of the rescue user equipment is available to the network equipment, the network equipment is based on the location of the caller and the location of one or more rescue user equipment , Determine the nearest one or more rescue user equipment, and send the location of the caller to these rescue user equipment, as well as the storage location of available wearable rescue equipment (for example, smart helmets, smart glasses, etc.) for corresponding The rescue volunteers take the wearable rescue equipment and go to the location of the caller to provide help.
- one or more rescue user devices and corresponding rescue volunteers
- the network equipment is based on the location of the caller and the location of one or more rescue user equipment , Determine the nearest one or more rescue user equipment, and send the location of the caller to these rescue user equipment, as well as the storage location of
- the network device can also send the above-mentioned call for help location information and the storage location information of the wearable rescue device according to other logic, for example, to all or active (for example, the state is "available" or in the boot state) rescue user equipment these messages.
- the manner in which the network device selects rescue user equipment and sends related information as described above is only an example and not a limitation of this application. Other existing or possible future specific implementations can be applied to This application is also included in the protection scope of this application and is included here by reference.
- the wearable rescue equipment is stored in a public area for the rescue volunteers in need to access, so as to realize the multi-person reuse of the wearable rescue equipment and improve the use of the wearable rescue equipment As there is no need to provide wearable rescue equipment for each rescue volunteer, this solution can also reduce the deployment cost of the entire rescue system.
- the network device receives rescue response information about the rescue request sent by at least one rescue user equipment.
- the rescue response information includes (but not limited to) consent to go and rescue, disapproval to go and rescue, etc., and these rescue response information are only examples. If other existing or possible future rescue response information can be applied to this The application is also included in the protection scope of this application and is included here by reference.
- the network device performs subsequent steps based on the rescue response information, for example, when the rescue response information includes "disagree to go and rescue", continue to seek responses from other rescue volunteers to the call for help.
- the above-mentioned positioning basis information is any one of the following items, or a combination of the following items:
- the device identification information of the distress call device such as the record number and serial number of the distress device, and the network device can query and determine the geographic location of the distress device based on the device identification information;
- the satellite positioning information of the distress device for example, the satellite positioning information is obtained based on the satellite positioning module (such as GPS module, Beidou positioning module, GLONASS module, etc.) built into the distress device;
- the satellite positioning module such as GPS module, Beidou positioning module, GLONASS module, etc.
- the preset distress location information of the distress call device for example, by default, a fixed location information will be sent when a certain device triggers a distress call.
- the network device can learn the location of the rescue user device (for example, the rescue user device may periodically send its real-time location), in order to more accurately determine the volunteers who go to the location of the caller for rescue to improve the rescue efficiency, in some embodiments Among them, the above step S102 includes sub-step S1021 and sub-step S1022 (none of them are shown).
- the network device determines the distress location information of the distress device based on the positioning basis information, and determines at least one rescue user device based on the distress position information, for example, calculates and determines the closest to the distress device Rescue user equipment, or a rescue user equipment that is close enough to the location of the call for help (for example, in a circular area with a preset radius) by calculation, or a rescue user that is located in the same community or street as the call for help equipment.
- the distress location information of the distress call device is determined based on the positioning basis information, and at least one rescue user equipment whose distance from the distress location information is less than a preset distance is determined by querying.
- the network device sends the call for help location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment.
- the network device can send this information to one rescue user device, and can also send this information to multiple rescue user devices.
- the network device sends the call for help location information and the storage location information of at least one wearable rescue device to the rescue user equipment closest to the call for help among the at least one rescue user equipment, as much as possible.
- the rescue efficiency may be improved; in other embodiments, the network device sends this information to multiple rescue user devices to improve the rescue success rate.
- the network device determines the storage location information of at least one wearable rescue device based on the call for help location information query, Then send the call for help location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment.
- the storage location of wearable rescue equipment such as smart helmets has been known in advance and entered into the corresponding database, or the system has ascertained the storage status of related equipment in advance (for example, network equipment can communicate with wearable rescue equipment, and network equipment has been queried Determine the location or storage status of the wearable rescue device, such as whether it is in the library).
- the rescue response information sent includes "determine to participate in rescue "Etc., or if there are rescue users who agree to participate in rescue operations, then rescuers who are determined to participate in rescue will emerge from the original unspecified rescuers.
- the above method further includes step S104 (not shown) Out).
- the network device receives rescue response information about the call for help sent by the first rescue user equipment among the at least one rescue user equipment; subsequently, in step S104, the network device is based on the rescue response Information, returning to the first rescue user equipment storage location information of a preferred rescue device among the at least one wearable rescue device.
- the preferred rescue equipment is selected from the available wearable rescue equipment, for example, the available wearable rescue equipment is selected from the available wearable rescue equipment that is in good condition, closest to the volunteer, or closest to the volunteer's path to the location of the caller Wearable rescue equipment (that is, the least detour required) to improve rescue efficiency and rescue success rate.
- an "appointment" can be set for each wearable rescue equipment. mark. For example, if a device is marked as "reserved”, the device has been determined to be used by a rescuer, and it is recommended that subsequent rescuers use other equipment; and if a certain device is marked as "not reserved” ", the device is available to the current rescuer, and the rescuer can "book” the device and mark it as "booked”.
- step S102 the network device determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and at least one wearable rescue device to at least one of the at least one rescue device.
- the storage location information of the device wherein the reservation status information of the at least one wearable rescue device is not reserved.
- step S104 the network device updates the reservation status information of the preferred rescue device among the at least one wearable rescue device to have been reserved based on the rescue response information, and reports to the first rescue user The device returns the storage location information of the preferred rescue device.
- the above step S104 includes sub-step S1041, sub-step S1042, and sub-step S1043 (none of them are shown).
- the network device separately determines the first distance between each wearable rescue device and the first rescue user device based on the rescue response information and the storage location information of the at least one wearable rescue device , And the second distance between each wearable rescue device and the calling device.
- the network device determines the preferred rescue device among the at least one wearable rescue device based on the first distance and the second distance corresponding to each wearable rescue device, such as one or some wearable rescue devices. The first distance and the second distance corresponding to the device meet a distance condition, then the wearable rescue device (etc.) is judged to be a preferred rescue device. In sub-step S1043, the network device returns the storage location information of the preferred rescue device to the first rescue user equipment.
- the wearable rescue device is a smart helmet (called rescue helmet).
- rescue helmet The rescue user equipment, rescue helmet, and rescue caller’s rescue equipment held by the rescuer are all located and can be displayed on the map when needed, based on two points
- the positioning can calculate the distance between the two points.
- a distance threshold as x, assuming that the path distance between the rescuer (and its rescue user equipment) and the rescue helmet (Route Distance, the distance calculated from the road length) is d1, and the rescue helmet and the rescuer (and the rescue equipment)
- the distance between the paths is d2, calculate the difference between (d1+d2) and x.
- the absolute value of the difference is the smallest, the corresponding path is the optimal path, and the corresponding rescue helmet is judged as the "most Excellent helmet" (preferred rescue equipment).
- a method for providing rescue information to rescuers on the rescue device side includes step S201.
- the distress call device sends a distress request to the corresponding network device, wherein the distress request includes the positioning basis information of the distress device; wherein the distress request is used for the network device to base on the positioning basis information
- At least one rescue user equipment is determined, and the rescue location information of the rescue equipment and the storage location information of the at least one wearable rescue equipment are sent to at least one of the at least one rescue equipment.
- the distress request is triggered based on any of the following items including but not limited to:
- the calling device detects that the calling user falls, and in some embodiments the calling device is worn by the calling user.
- the request for help is triggered by the calling user in an emergency situation that requires rescue by himself, so as to call related rescue volunteers to help the calling user; while in other embodiments, the calling for help When someone needs help, the request is triggered by someone other than the person who needs help (user calling for help) to call related rescue volunteers to come and provide help.
- the positioning basis information is used for the network device to determine the location of the user calling for help, and notify the corresponding rescue volunteer to go to the location and provide assistance.
- the above-mentioned positioning basis information is any one of the following items, or a combination of the following items:
- the device identification information of the distress call device such as the record number and serial number of the distress device, and the network device can query and determine the geographic location of the distress device based on the device identification information;
- the satellite positioning information of the distress device for example, the satellite positioning information is obtained based on the satellite positioning module (such as GPS module, Beidou positioning module, GLONASS module, etc.) built into the distress device;
- the satellite positioning module such as GPS module, Beidou positioning module, GLONASS module, etc.
- the preset distress location information of the distress call device for example, by default, a fixed location information will be sent when a certain device triggers a distress call.
- a method for providing rescuers to rescuers on the rescue user device side is also provided.
- Information method Referring to FIG. 4, the method includes step S301, step S302, and step S303.
- the rescue user equipment receives the rescue location information of the rescue device and the storage location information of at least one wearable rescue device that is sent by the corresponding network device based on the rescue request sent by the rescue device.
- the wearable rescue equipment is stored in a public area for the rescue volunteers in need to access, so as to realize the multi-person reuse of the wearable rescue equipment and improve the use of the wearable rescue equipment As there is no need to provide wearable rescue equipment for each rescue volunteer, this solution can also reduce the deployment cost of the entire rescue system.
- the rescue user equipment provides distress prompt information about the distress request, and presents the storage location information of the at least one wearable rescue device on the map interface.
- the rescue user device provides the call for help prompt information in the form of sound, text, graphics/image, etc., and presents a map interface on its screen, and then presents the storage location of the corresponding wearable rescue device on the map interface for the rescuer Go to fetch.
- the above method further includes step S306 (not shown), in which step S306, the rescue user device presents the recommended route information on the map interface.
- step S303 the rescue user equipment sends rescue response information about the rescue request to the network device.
- the rescue response information sent includes "determine to participate in rescue "Etc., or if there are rescue users who agree to participate in rescue operations, then rescuers who are determined to participate in rescue will emerge from the original unspecified rescuers.
- the above method further includes step S304 (not shown) Out).
- the rescue user equipment receives the storage location information of the preferred rescue device among the at least one wearable rescue device sent by the network device based on the rescue response information, and distinguishes and presents the storage location of the preferred rescue device
- the location information for example, presents the storage location in different ways (including but not limited to presentation in different sizes of icons, different colors, etc., or presentation in the form of flashing).
- the preferred rescue equipment is selected by the network device from the available wearable rescue equipment, for example, the available wearable rescue equipment is selected from the available wearable rescue equipment, which is in good condition, closest to the volunteer, or the location of the caller from the volunteer. Wearable rescue equipment with the nearest route (that is, the least detour required) to improve rescue efficiency and rescue success rate
- the above method further includes step S305 (not shown).
- step S305 the rescue user equipment sends the location information of the rescue user equipment to the network device.
- the above-mentioned preferred rescue equipment is determined from the at least one wearable rescue equipment based on the location information of the rescue user equipment.
- the storage location of wearable rescue equipment such as smart helmets has been known in advance and entered into the corresponding database, or the system has ascertained the storage status of related equipment in advance (for example, network equipment can communicate with wearable rescue equipment, and network equipment has been queried Determine the location or storage status of the wearable rescue device, such as whether it is in the library).
- the preferred rescue equipment is selected from the available wearable rescue equipment, for example, the available wearable rescue equipment is selected from the available wearable rescue equipment that is in good condition, closest to the volunteer, or closest to the volunteer's path to the location of the caller Wearable rescue equipment (that is, the least detour required) to improve rescue efficiency and rescue success rate.
- each wearable rescue equipment may be marked with an "appointment". For example, if a device is marked as "reserved”, the device has been determined to be used by a rescuer, and it is recommended that subsequent rescuers use other equipment; and if a certain device is marked as "not reserved” ", the device is available to the current rescuer, and the rescuer can "book” the device and mark it as "booked”. Based on this, in some embodiments, the rescue response information is used to update the reservation status information of at least one wearable rescue device to be reserved.
- the network device determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue device , Wherein the reservation status information of the at least one wearable rescue device is not reserved; subsequently, the network device updates the reservation status information of the preferred rescue device in the at least one wearable rescue device based on the rescue response information to Has been reserved, and returns the storage location information of the preferred rescue equipment to the first rescue user equipment.
- rescuers can also bring an Automated External Defibrillator (AED) to the rescue site.
- AED Automated External Defibrillator
- a method for providing rescue information to rescuers includes the following steps:
- the distress device sends a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;
- the network device receives the request for help, determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the storage of at least one AED device to at least one of the at least one rescue user equipment location information;
- the rescue user equipment receives the distress location information of the distress distress device and the storage location information of at least one AED device, provides distress prompt information about the distress request, and presents the storage location of the at least one AED device on a map interface information;
- the network device receives rescue response information about the request for help sent by the rescue user equipment.
- the specific implementation is the same or basically the same as the aforementioned method for providing rescue information to rescuers, and will not be repeated here, and is included here by reference.
- the network device sends the storage location information of the wearable rescue device to the rescue user device; and based on this method, the network device sends the storage location of the AED device to the rescue user device information.
- the preferred rescue equipment can be screened for rescue users from all available AED equipment. To improve rescue efficiency.
- network equipment can reserve AED equipment for rescuers, provide nearby AED equipment to rescuers, provide rescuers with AED equipment on the path to the caller’s location, and provide rescuers with the AED equipment closest to the path to the caller’s location. Wait.
- network equipment can reserve AED equipment for rescuers, provide nearby AED equipment to rescuers, provide rescuers with AED equipment on the path to the caller’s location, and provide rescuers with the AED equipment closest to the path to the caller’s location. Wait.
- these specific implementations of screening preferred rescue equipment are only examples and not any limitation of this application; other existing or possible future specific implementations of screening preferred rescue equipment are applicable In this application, it is also included in the protection scope of this application, and is included here by reference.
- a method for providing rescuers with rescue information at the network device side is also provided.
- the method includes step S401, step S402, and step S403.
- the network device receives a distress request sent by a corresponding distress device, wherein the distress request includes the positioning basis information of the distress device.
- the network device determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the storage location of the at least one AED device to at least one of the at least one rescue user equipment information.
- the network device receives rescue response information about the rescue request sent by at least one rescue user equipment.
- the specific implementation is the same as or basically the same as the aforementioned method for providing rescue information to rescuers on the network device side, and will not be repeated here, and is included here by reference. The difference is that based on the aforementioned method for providing rescue information to rescuers on the network device side, the network device sends the storage location information of the wearable rescue device to the rescue user device; and based on this method, the network device sends the AED to the rescue user device The storage location information of the device.
- the above method further includes step S404 and step S405 (none of them are shown).
- step S404 the network device determines one or more rescue user equipment based on the rescue response information, for example, determines these rescue user equipment based on the location information of the user equipment of other rescue volunteers.
- These rescue user equipment includes but It is not limited to be located in the same cell or street as the caller, and the distance is less than a distance threshold, etc.; in step S405, the network device sends an assistance rescue instruction to the one or more rescue user equipment (for example, the instruction provides The location information of the caller or the recommended path for the rescuer to go to the location of the caller), and the rescue user equipment corresponding to the rescue response information is sent to the rescue user equipment corresponding to the rescue information (for example,
- the assistance rescue information includes, but is not limited to, the identity information of the users participating in the assistance, information on the number of people, estimated time of arrival, etc.).
- a method for providing rescuers with rescue information at the end of a call for help is also provided.
- the method includes step S501.
- the distress request device sends a distress request to the corresponding network device, wherein the distress request includes the positioning criterion information of the distress device; wherein the distress request is used for the network device to base on the positioning criterion information
- At least one rescue user equipment is determined, and the rescue location information of the rescue equipment and the storage location information of the at least one AED device are sent to at least one of the at least one rescue equipment.
- the specific implementation is the same or basically the same as the aforementioned method for providing rescue information to the rescuer at the end of the call for help, and will not be repeated here, and is included here by reference.
- the network device sends the storage location information of the wearable rescue device to the rescue user device; and based on this method, the network device sends the AED to the rescue user device The storage location information of the device.
- a method for providing rescuers with rescue information at the end of a rescue user device is also provided.
- the method includes step S601, step S602, and step S603.
- the rescue user equipment receives the rescue location information of the rescue device and the storage location information of at least one AED device that are sent by the corresponding network device based on the rescue request sent by the rescue device.
- the rescue user equipment provides distress prompt information about the distress request, and presents the storage location information of the at least one AED device on the map interface.
- the rescue user equipment sends rescue response information about the rescue request to the network device.
- the specific implementation is the same or basically the same as the aforementioned method for providing rescue information to the rescuer at the rescue user equipment side, and will not be repeated here, and is included here by reference.
- the network device sends the storage location information of the wearable rescue device to the rescue user equipment; and based on this method, the network device sends the rescue user equipment The storage location information of AED equipment.
- the above method further includes step S604 (not shown).
- the rescue user equipment receives assistance and rescue information about one or more rescue user equipment.
- the assistance and rescue information includes, but is not limited to, the identity information, number of people, and estimated time of arrival of the users participating in the assistance.
- a network device 100 for providing rescue information to rescuers includes a rescue request receiving module 101, a location information sending module 102, and a rescue response receiving module 103.
- the distress request receiving module 101 receives a distress request sent by a corresponding distress device, wherein the distress request includes the positioning basis information of the distress device.
- the location information sending module 102 determines at least one rescue user equipment based on the positioning basis information, and sends the call location information of the call for help device and the storage location of the at least one wearable rescue device to at least one of the at least one rescue user equipment information.
- the rescue response receiving module 103 receives rescue response information about the rescue request sent by at least one rescue user equipment.
- the distress request receiving module 101 receives the distress request sent by the corresponding distress device, wherein the distress request includes the positioning basis information of the distress device.
- the distress request is triggered by the distress device, for example, the distress request is triggered based on any of the following including but not limited to:
- the calling device detects that the calling user falls, and in some embodiments the calling device is worn by the calling user.
- the request for help is triggered by the calling user in an emergency situation that requires rescue by himself, so as to call related rescue volunteers to help the calling user; while in other embodiments, the calling for help When someone needs help, the request is triggered by someone other than the person who needs help (user calling for help) to call related rescue volunteers to come and provide help.
- the positioning basis information is used for the network device to determine the location of the user calling for help, and notify the corresponding rescue volunteer to go to the location and provide assistance.
- the location information sending module 102 determines at least one rescue user equipment based on the positioning basis information, and sends the call location information of the call for help device and the storage location of the at least one wearable rescue device to at least one of the at least one rescue user equipment information.
- the network device pre-stores the geographic location information of one or more rescue user devices (and corresponding rescue volunteers) (for example, the corresponding rescue volunteers often move in a certain area), or real-time/intermittent Query one or more rescue user equipment for its geographic location information; in the case that the geographic location of the rescue user equipment is available to the network equipment, the network equipment is based on the location of the caller and the location of one or more rescue user equipment , Determine the nearest one or more rescue user equipment, and send the location of the caller to these rescue user equipment, as well as the storage location of available wearable rescue equipment (for example, smart helmets, smart glasses, etc.) for corresponding The rescue volunteers take the wearable rescue equipment and go to the location of the caller to provide help.
- the network device pre
- the network device can also send the above-mentioned call for help location information and the storage location information of the wearable rescue device according to other logic, for example, to all or active (for example, the state is "available" or in the boot state) rescue user equipment these messages.
- the manner in which the network device selects rescue user equipment and sends related information as described above is only an example and not a limitation of this application. Other existing or possible future specific implementations can be applied to This application is also included in the protection scope of this application and is included here by reference.
- the wearable rescue equipment is stored in a public area for the rescue volunteers in need to access, so as to realize the multi-person reuse of the wearable rescue equipment and improve the use of the wearable rescue equipment As there is no need to provide wearable rescue equipment for each rescue volunteer, this solution can also reduce the deployment cost of the entire rescue system.
- the rescue response receiving module 103 receives rescue response information about the rescue request sent by at least one rescue user equipment.
- the rescue response information includes (but not limited to) consent to go and rescue, disapproval to go and rescue, etc., and these rescue response information are only examples. If other existing or possible future rescue response information can be applied to this The application is also included in the protection scope of this application and is included here by reference.
- the network device performs subsequent steps based on the rescue response information, for example, when the rescue response information includes "disagree to go and rescue", continue to seek responses from other rescue volunteers to the call for help.
- the above-mentioned positioning basis information is any one of the following items, or a combination of the following items:
- the device identification information of the distress call device such as the record number and serial number of the distress device, and the network device can query and determine the geographic location of the distress device based on the device identification information;
- the satellite positioning information of the distress device for example, the satellite positioning information is obtained based on the satellite positioning module (such as GPS module, Beidou positioning module, GLONASS module, etc.) built into the distress device;
- the satellite positioning module such as GPS module, Beidou positioning module, GLONASS module, etc.
- the preset distress location information of the distress call device for example, by default, a fixed location information will be sent when a certain device triggers a distress call.
- the position information sending module 102 includes a rescue equipment determining unit 1021 and a position information sending unit 1022 (none of them are shown).
- the rescue device determining unit 1021 determines the rescue location information of the rescue device based on the positioning basis information, and determines at least one rescue user device based on the rescue location information, for example, calculates and determines the rescue user device closest to the rescue device , Or calculate and determine the rescue user equipment that is close enough to the location of the rescue device (for example, in a circular area with a preset radius), or query and determine the rescue user equipment that is located in the same community or street as the rescue device.
- the distress location information of the distress call device is determined based on the positioning basis information, and at least one rescue user equipment whose distance from the distress location information is less than a preset distance is determined by querying.
- the location information sending unit 1022 sends the call for help location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment.
- the network device can send this information to one rescue user device, and can also send this information to multiple rescue user devices.
- the network device sends the call for help location information and the storage location information of at least one wearable rescue device to the rescue user equipment closest to the call for help among the at least one rescue user equipment, as much as possible.
- the rescue efficiency may be improved; in other embodiments, the network device sends this information to multiple rescue user devices to improve the rescue success rate.
- the location information sending unit 1022 determines the storage location information of at least one wearable rescue device based on the call for help location information query, and then reports At least one of the at least one rescue user equipment sends the call for help location information and the storage location information of the at least one wearable rescue device.
- the storage location of wearable rescue equipment such as smart helmets has been known in advance and entered into the corresponding database, or the system has ascertained the storage status of related equipment in advance (for example, network equipment can communicate with wearable rescue equipment, and network equipment has been queried Determine the location or storage status of the wearable rescue device, such as whether it is in the library).
- the rescue response information sent includes "determine to participate in rescue "Etc., or if there are rescue users who agree to participate in rescue operations, then rescuers who are determined to participate in rescue will emerge from the original unspecified rescuers.
- the above-mentioned equipment further includes a preferred equipment information sending module 104 (not shown).
- the rescue response receiving module 103 receives the rescue response information about the rescue request sent by the first rescue user equipment among the at least one rescue user equipment; then, the device information sending module preferably sends the rescue response information to the rescue user equipment based on the rescue response information.
- the first rescue user equipment returns the storage location information of the preferred rescue equipment among the at least one wearable rescue equipment.
- the preferred rescue equipment is selected from the available wearable rescue equipment, for example, the available wearable rescue equipment is selected from the available wearable rescue equipment that is in good condition, closest to the volunteer, or closest to the volunteer's path to the location of the caller Wearable rescue equipment (that is, the least detour required) to improve rescue efficiency and rescue success rate.
- an "appointment" can be set for each wearable rescue equipment. mark. For example, if a device is marked as "reserved”, the device has been determined to be used by a rescuer, and it is recommended that subsequent rescuers use other equipment; and if a certain device is marked as "not reserved” ", the device is available to the current rescuer, and the rescuer can "book” the device and mark it as "booked”.
- the location information sending module 102 determines at least one rescue user equipment based on the positioning basis information, and sends the call for help location information of the call for help and the location information of the at least one wearable rescue device to at least one of the at least one rescue equipment.
- Storage location information wherein the reservation status information of the at least one wearable rescue device is unreserved.
- the preferred device information sending module 104 updates the reservation status information of the preferred rescue device in the at least one wearable rescue device to be reserved based on the rescue response information, and returns it to the first rescue user device Storage location information of the preferred rescue equipment.
- the aforementioned preferred device information sending module 104 includes a distance determining unit 1041, a preferred device determining unit 1042, a preferred device information sending unit 1043 (none of which is shown).
- the distance determining unit 1041 separately determines the first distance between each wearable rescue device and the first rescue user device based on the rescue response information and the storage location information of the at least one wearable rescue device, and each of them The second distance between a wearable rescue device and the calling device.
- the preferred device determining unit 1042 determines the preferred rescue device among the at least one wearable rescue device based on the first distance and the second distance corresponding to each wearable rescue device, for example, one or some wearable rescue devices correspond to If the first distance and the second distance satisfy a distance condition, the wearable rescue device(s) is judged to be a preferred rescue device.
- the preferred device information sending unit 1043 returns the storage location information of the preferred rescue device to the first rescue user equipment.
- the wearable rescue device is a smart helmet (called rescue helmet).
- rescue helmet The rescue user equipment, rescue helmet, and rescue caller’s rescue equipment held by the rescuer are all located and can be displayed on the map when needed, based on two points
- the positioning can calculate the distance between the two points.
- a distance threshold as x, assuming that the path distance between the rescuer (and its rescue user equipment) and the rescue helmet (Route Distance, the distance calculated from the road length) is d1, and the rescue helmet and the rescuer (and the rescue equipment)
- the distance between the paths is d2, calculate the difference between (d1+d2) and x.
- the absolute value of the difference is the smallest, the corresponding path is the optimal path, and the corresponding rescue helmet is judged as the "most Excellent helmet" (preferred rescue equipment).
- the distress call device 200 includes a distress request sending module 201.
- the distress request sending module 201 transmits a distress request to a corresponding network device, wherein the distress request includes the positioning criterion information of the distress device; wherein the distress request is used for the network device to determine at least based on the positioning criterion information A rescue user equipment, and send the rescue location information of the rescue device and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue device.
- the distress request is triggered based on any of the following items including but not limited to:
- the calling device detects that the calling user falls, and in some embodiments the calling device is worn by the calling user.
- the request for help is triggered by the calling user in an emergency situation that requires rescue by himself, so as to call related rescue volunteers to help the calling user; while in other embodiments, the calling for help When someone needs help, the request is triggered by someone other than the person who needs help (user calling for help) to call related rescue volunteers to come and provide help.
- the positioning basis information is used for the network device to determine the location of the user calling for help, and notify the corresponding rescue volunteer to go to the location and provide assistance.
- the above-mentioned positioning basis information is any one of the following items, or a combination of the following items:
- the device identification information of the distress call device such as the record number and serial number of the distress device, and the network device can query and determine the geographic location of the distress device based on the device identification information;
- the satellite positioning information of the distress device for example, the satellite positioning information is obtained based on the satellite positioning module (such as GPS module, Beidou positioning module, GLONASS module, etc.) built into the distress device;
- the satellite positioning module such as GPS module, Beidou positioning module, GLONASS module, etc.
- the preset distress location information of the distress call device for example, by default, a fixed location information will be sent when a certain device triggers a distress call.
- a rescue user equipment 300 for providing rescue information to rescuers is also provided.
- the rescue user equipment 300 includes a location information receiving module 301, a call for help information presentation module 302, and a rescue response sending module 303.
- the location information receiving module 301 receives the distress location information of the distress device and the storage location information of at least one wearable rescue device that are sent by the corresponding network device based on the distress request sent by the distress device.
- the wearable rescue equipment is stored in a public area for the rescue volunteers in need to access, so as to realize the multi-person reuse of the wearable rescue equipment and improve the use of the wearable rescue equipment As there is no need to provide wearable rescue equipment for each rescue volunteer, this solution can also reduce the deployment cost of the entire rescue system.
- the distress information presentation module 302 provides distress prompt information about the distress request, and presents the storage location information of the at least one wearable rescue device on the map interface.
- the rescue user device provides the call for help prompt information in the form of sound, text, graphics/image, etc., and presents a map interface on its screen, and then presents the storage location of the corresponding wearable rescue device on the map interface for the rescuer Go to fetch.
- the current location of the rescuer (for example, determined based on the satellite positioning module of the rescue user equipment), the location of the rescuer, the location of the rescuer to the rescuer, or wearable rescue
- the rescue response sending module 303 sends rescue response information about the request for help to the network device.
- the rescue response information sent includes "determine to participate in rescue "Etc., or if there are rescue users who agree to participate in rescue operations, then rescuers who are determined to participate in rescue will emerge from the original unspecified rescuers.
- the above-mentioned equipment further includes a distinguishing and presenting module 304 ( Not shown).
- the distinguishing and presenting module 304 receives the storage location information of the preferred rescue device among the at least one wearable rescue device sent by the network device based on the rescue response information, and distinguishes and presents the storage location information of the preferred rescue device, for example,
- the storage location is presented in different ways (including but not limited to presentation in different sizes of icons, different colors, etc., or presentation in the form of flashing).
- the preferred rescue equipment is selected by the network device from the available wearable rescue equipment, for example, the available wearable rescue equipment is selected from the available wearable rescue equipment, which is in good condition, closest to the volunteer, or the location of the caller from the volunteer. Wearable rescue equipment with the nearest route (that is, the least detour required) to improve rescue efficiency and rescue success rate
- the above-mentioned equipment further includes a rescue user equipment location determination module 305 (not shown).
- the rescue user equipment location determination module 305 sends the location information of the rescue user equipment to the network device.
- the above-mentioned preferred rescue equipment is determined from the at least one wearable rescue equipment based on the location information of the rescue user equipment.
- the storage location of wearable rescue equipment such as smart helmets has been known in advance and entered into the corresponding database, or the system has ascertained the storage status of related equipment in advance (for example, network equipment can communicate with wearable rescue equipment, and network equipment has been queried Determine the location or storage status of the wearable rescue device, such as whether it is in the library).
- the preferred rescue equipment is selected from the available wearable rescue equipment, for example, the available wearable rescue equipment is selected from the available wearable rescue equipment that is in good condition, closest to the volunteer, or closest to the volunteer's path to the location of the caller Wearable rescue equipment (that is, the least detour required) to improve rescue efficiency and rescue success rate.
- each wearable rescue equipment may be marked with an "appointment". For example, if a device is marked as "reserved”, the device has been determined to be used by a rescuer, and it is recommended that subsequent rescuers use other equipment; and if a certain device is marked as "not reserved” ", the device is available to the current rescuer, and the rescuer can "book” the device and mark it as "booked”. Based on this, in some embodiments, the rescue response information is used to update the reservation status information of at least one wearable rescue device to be reserved.
- the network device determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue device , Wherein the reservation status information of the at least one wearable rescue device is not reserved; subsequently, the network device updates the reservation status information of the preferred rescue device in the at least one wearable rescue device based on the rescue response information to Has been reserved, and returns the storage location information of the preferred rescue equipment to the first rescue user equipment.
- rescuers can also bring an Automated External Defibrillator (AED) to the rescue site.
- AED Automated External Defibrillator
- the system can also provide the storage location information of the AED device to the rescue user equipment. Among them, for emergency rescue events involving cardiac arrest, it is very important to obtain AED equipment as soon as possible and rescue patients.
- the preferred rescue equipment can be screened for rescue users from all available AED equipment.
- the relevant specific implementations are the same as or substantially the same as the specific implementations for determining the preferred rescue equipment based on the wearable rescue equipment described above, and will not be repeated here, and are included here by reference.
- network equipment can reserve AED equipment for rescuers, provide nearby AED equipment to rescuers, provide rescuers with AED equipment on the path to the caller’s location, and provide rescuers with the AED equipment closest to the path to the caller’s location. Wait.
- a network device 400 for providing rescue information to rescuers includes a rescue request receiving module 401, a location information sending module 402, and a rescue response receiving module 403.
- the distress request receiving module 401 receives the distress request sent by the corresponding distress device, wherein the distress request includes the positioning basis information of the distress device.
- the location information sending module 402 determines at least one rescue user equipment based on the positioning criterion information, and sends the rescue location information of the rescue device and the storage location information of the at least one AED device to at least one of the at least one rescue user equipment.
- the rescue response receiving module 403 receives rescue response information about the rescue request sent by at least one rescue user equipment.
- the specific implementation is the same as or basically the same as the aforementioned network equipment for providing rescue information to rescuers, and will not be repeated here, and is included here by reference. The difference is that, based on the aforementioned network device used to provide rescuers with rescue information, the network device sends the storage location information of the wearable rescue device to the rescue user device; and based on the network device, the network device sends the AED device to the rescue user device. Store location information.
- the above-mentioned device further includes an assisting user determination module 404 and an assisting instruction sending module 405 (neither shown).
- the assisted user determination module 404 determines one or more assisted rescue user equipment based on the rescue response information, for example, determines these assisted rescue user equipment based on the location information of the user equipment of other rescue volunteers.
- assisted rescue user equipments include but are not limited to It is located in the same cell or street as the caller, and the distance is less than a distance threshold, etc.; the assistance instruction sending module 405 sends an assistance rescue instruction to the one or more assistance user equipment (for example, the instruction provides the assistance user equipment with the location of the caller Information or a recommended route for assisting rescuers to go to the location of the caller), and sending assistance and rescue information about the one or more rescue user equipment to the rescue user equipment corresponding to the rescue response information (for example, the assistance rescue information Including, but not limited to, the identity information of the users participating in the assistance, the number of people, the estimated time of arrival, etc.)
- the distress call device 500 includes a distress request sending module 501.
- the distress request sending module 501 sends a distress request to a corresponding network device, where the distress request includes the positioning basis information of the distress device; wherein the distress request is used for the network device to determine at least A rescue user equipment, and send the rescue location information of the rescue device and the storage location information of the at least one AED device to at least one of the at least one rescue equipment.
- the specific implementation is the same as or basically the same as the above-mentioned emergency call device for providing rescue information to rescuers, and will not be repeated here, and is included here by reference.
- the network device sends the storage location information of the wearable rescue device to the rescue user device; and based on the rescue device, the network device sends the AED device to the rescue user device. Store location information.
- a rescue user equipment 600 for providing rescue information to rescuers is also provided.
- the rescue user equipment 600 includes a location information receiving module 601, a calling information presentation module 602, and a rescue response sending module 603.
- the location information receiving module 601 receives the distress location information of the distress device and the storage location information of at least one AED device that are sent by the corresponding network device based on the distress request sent by the distress device.
- the distress information presentation module 602 provides distress prompt information about the distress request, and presents the storage location information of the at least one AED device on the map interface.
- the rescue response sending module 603 sends rescue response information about the request for help to the network device.
- the specific implementation is the same as or basically the same as the aforementioned rescue user equipment for providing rescue information to rescuers, and will not be repeated here, and is included here by reference.
- the difference is that based on the aforementioned rescue user equipment used to provide rescue information to rescuers, the network device sends the storage location information of the wearable rescue device to the rescue user equipment; and based on the rescue user equipment, the network device sends the AED to the rescue user equipment.
- the storage location information of the device based on the aforementioned rescue user equipment used to provide rescue information to rescuers.
- the above-mentioned equipment further includes a rescue information receiving module 604 (not shown).
- the assistance and rescue information receiving module 604 receives assistance and rescue information about one or more assistance and rescue user equipment.
- the assistance and rescue information includes, but is not limited to, the identity information, number of people, and estimated time of arrival of the users participating in the assistance.
- the present application also provides a computer-readable storage medium that stores computer code, and when the computer code is executed, the method described in any of the preceding items is executed.
- the present application also provides a computer program product.
- the computer program product is executed by a computer device, the method described in any of the preceding items is executed.
- This application also provides a computer device, which includes:
- One or more processors are One or more processors;
- Memory used to store one or more computer programs
- the one or more processors When the one or more computer programs are executed by the one or more processors, the one or more processors are caused to implement the method as described in any one of the preceding items.
- Figure 15 shows an exemplary system that can be used to implement the various embodiments described in this application.
- the system 1000 can be used as any network device, rescue device or rescue user device in each of the embodiments.
- the system 1000 may include one or more computer-readable media with instructions (for example, system memory or NVM/storage device 1020) and be coupled with the one or more computer-readable media and configured to execute
- the instructions are one or more processors (for example, the processor(s) 1005) that implement modules to perform the actions described in this application.
- system control module 1010 may include any suitable interface controller to provide at least one of the processor(s) 1005 and/or any suitable device or component in communication with the system control module 1010 Any appropriate interface.
- the system control module 1010 may include a memory controller module 1030 to provide an interface to the system memory 1015.
- the memory controller module 1030 may be a hardware module, a software module, and/or a firmware module.
- the system memory 1015 may be used to load and store data and/or instructions for the system 1000, for example.
- the system memory 1015 may include any suitable volatile memory, such as a suitable DRAM.
- the system memory 1015 may include a double data rate type quad synchronous dynamic random access memory (DDR4 SDRAM).
- DDR4 SDRAM double data rate type quad synchronous dynamic random access memory
- system control module 1010 may include one or more input/output (I/O) controllers to provide interfaces to the NVM/storage device 1020 and the communication interface(s) 1025.
- I/O input/output
- NVM/storage device 1020 may be used to store data and/or instructions.
- NVM/storage device 1020 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 drives ( Hard Disk, HDD), one or more compact disc (CD) drives and/or one or more digital versatile disc (DVD) drives).
- suitable non-volatile memory e.g., flash memory
- suitable non-volatile storage device(s) e.g., one or more hard drives ( Hard Disk, HDD), one or more compact disc (CD) drives and/or one or more digital versatile disc (DVD) drives).
- the NVM/storage device 1020 may include storage resources that are physically part of the device on which the system 1000 is installed, or it may be accessed by the device without necessarily being part of the device.
- the NVM/storage device 1020 may be accessed via the communication interface(s) 1025 through the network.
- the communication interface(s) 1025 may provide an interface for the system 1000 to communicate through one or more networks and/or with any other suitable devices.
- the system 1000 can wirelessly communicate with one or more components of the wireless network according to any of one or more wireless network standards and/or protocols.
- At least one of the processor(s) 1005 may be packaged with the logic of one or more controllers of the system control module 1010 (e.g., the memory controller module 1030). For one embodiment, at least one of the processor(s) 1005 may be packaged with the logic of one or more controllers of the system control module 1010 to form a system in package (SiP). For one embodiment, at least one of the processor(s) 1005 may be integrated with the logic of one or more controllers of the system control module 1010 on the same mold. For one embodiment, at least one of the processor(s) 1005 may be integrated with the logic of one or more controllers of the system control module 1010 on the same mold to form a system on chip (SoC).
- SoC system on chip
- the system 1000 may be, but is not limited to, a server, a workstation, a desktop computing device, or a mobile computing device (for example, a laptop computing device, a handheld computing device, a tablet computer, a netbook, etc.).
- the system 1000 may have more or fewer components and/or different architectures.
- the system 1000 includes one or more cameras, keyboards, liquid crystal display (LCD) screens (including touchscreen displays), non-volatile memory ports, multiple antennas, graphics chips, application specific integrated circuits ( ASIC) and speakers.
- LCD liquid crystal display
- ASIC application specific integrated circuits
- This application can be implemented in communities, shopping malls, exhibition halls, parks and other places.
- the rescue equipment can be installed in public places such as communities, shopping malls, exhibition halls, and parks, so as to realize rapid response to emergencies.
- this application can be implemented in software and/or a combination of software and hardware, for example, it can be implemented by an application specific integrated circuit (ASIC), a general purpose computer or any other similar hardware device.
- the software program of the present application may be executed by a processor to realize the steps or functions described above.
- the software program (including related data structure) of the present application can be stored in a computer-readable recording medium, such as RAM memory, magnetic or optical drive or floppy disk and similar devices.
- some steps or functions of the present application may be implemented by hardware, for example, as a circuit that cooperates with a processor to execute each step or function.
- the computer program instructions in the computer-readable medium include but are not limited to source files, executable files, installation package files, etc.
- the manner in which computer program instructions are executed by the computer includes but 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 before executing the corresponding post-installation program.
- the computer-readable medium may be any available computer-readable storage medium or communication medium that can be accessed by a computer.
- Communication media includes media by which communication signals containing, for example, computer-readable instructions, data structures, program modules, or other data are transmitted from one system to another system.
- Communication media can include conductive transmission media (such as cables and wires (for example, optical fiber, coaxial, etc.)) and wireless (unguided transmission) media that can propagate energy waves, such as sound, electromagnetic, RF, microwave, and infrared .
- Computer readable instructions, data structures, program modules or other data may be embodied as, for example, a modulated data signal in a wireless medium such as a carrier wave or similar mechanism such as embodied as part of spread spectrum technology.
- modulated data signal refers to a signal whose one or more characteristics have been altered or set in such a way as to encode information in the signal. Modulation can be analog, digital or hybrid modulation techniques.
- a computer-readable storage medium may include volatile, non-volatile, nonvolatile, and nonvolatile, and may be implemented in any method or technology for storing information such as computer-readable instructions, data structures, program modules, or other data. Removable and non-removable media.
- 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 memory (MRAM, FeRAM); and magnetic and optical storage devices (hard disks, tapes, CDs, DVDs); or other currently known media or future developments that can be stored for computer systems Computer readable information/data used.
- volatile memory such as random access memory (RAM, DRAM, SRAM
- non-volatile memory such as flash memory, various read-only memories (ROM, PROM, EPROM) , EEPROM), magnetic and ferromagnetic/ferroelectric memory (MRAM, FeRAM); and magnetic and optical storage devices (hard disks, tapes, CDs, DVDs); or other currently known media or future developments that can be stored for computer systems Computer readable information/data used.
- volatile memory such as random access memory (RAM, DRAM,
- an embodiment according to the present application includes a device including a memory for storing computer program instructions and a processor for executing the program instructions, wherein, when the computer program instructions are executed by the processor, trigger
- the operation of the device is based on the aforementioned methods and/or technical solutions according to multiple embodiments of the present application.
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Abstract
Description
Claims (26)
- 一种在网络设备端用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers at the end of a network device, wherein the method includes:接收对应的呼救设备所发送的呼救请求,其中所述呼救请求包括所述呼救设备的定位依据信息;Receiving a distress request sent by a corresponding distress device, wherein the distress request includes the positioning basis information of the distress device;基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援用户设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息;Determine at least one rescue user equipment based on the positioning criterion information, and send the rescue location information of the rescue equipment and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment;接收至少一个救援用户设备所发送的关于所述呼救请求的救援响应信息。Receiving rescue response information about the call for help sent by at least one rescue user equipment.
- 根据权利要求1所述的方法,其中,所述定位依据信息包括以下至少任一项:The method according to claim 1, wherein the positioning basis information includes at least any one of the following:所述呼救设备的设备标识信息;The device identification information of the distress call device;所述呼救设备的卫星定位信息;Satellite positioning information of the distress device;所述呼救设备的预设呼救位置信息。The preset distress location information of the distress device.
- 根据权利要求1所述的方法,其中,所述基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援用户设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息,包括:The method according to claim 1, wherein the at least one rescue user equipment is determined based on the positioning basis information, and the rescue location information of the rescue equipment and at least one rescue user equipment are sent to at least one of the at least one rescue user equipment. The storage location information of a wearable rescue device, including:基于所述定位依据信息确定所述呼救设备的呼救位置信息,并基于所述呼救位置信息确定至少一个救援用户设备;Determine the distress location information of the distress call device based on the positioning basis information, and determine at least one rescue user equipment based on the distress location information;向所述至少一个救援用户设备中的至少一个发送所述呼救位置信息以及至少一个可穿戴救援设备的存放位置信息。Send the call for help location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment.
- 根据权利要求3所述的方法,其中,所述基于所述定位依据信息确定所述呼救设备的呼救位置信息,并基于所述呼救位置信息确定至少一个救援用户设备,包括:The method according to claim 3, wherein the determining the distress location information of the distress device based on the positioning basis information, and determining at least one rescue user equipment based on the distress location information, comprises:基于所述定位依据信息确定所述呼救设备的呼救位置信息,并查询确定与所述呼救位置信息的距离小于预设距离的至少一个救援用户设备。Determine the distress call location information of the distress call device based on the positioning basis information, and query and determine at least one rescue user equipment whose distance from the distress location information is less than a preset distance.
- 根据权利要求3或4所述的方法,其中,所述向所述至少一个救援用户设备中的至少一个发送所述呼救位置信息以及至少一个可穿戴救援设备的存放位置信息,包括:The method according to claim 3 or 4, wherein the sending the call location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment comprises:向所述至少一个救援用户设备中与所述呼救设备距离最近的救援用户设备发送所述呼救位置信息以及至少一个可穿戴救援设备的存放位置信息。Sending the rescue user equipment closest to the rescue user equipment among the at least one rescue user equipment and the storage position information of the at least one wearable rescue equipment.
- 根据权利要求3所述的方法,其中,所述向所述至少一个救援用户设备中的 至少一个发送所述呼救位置信息以及至少一个可穿戴救援设备的存放位置信息,包括:The method according to claim 3, wherein the sending the call location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment comprises:基于所述呼救位置信息查询确定至少一个可穿戴救援设备的存放位置信息;Determining storage location information of at least one wearable rescue device based on the call for help location information query;向所述至少一个救援用户设备中的至少一个发送所述呼救位置信息以及所述至少一个可穿戴救援设备的存放位置信息。Sending the call for help location information and the storage location information of the at least one wearable rescue device to at least one of the at least one rescue user equipment.
- 根据权利要求1所述的方法,其中,所述接收至少一个救援用户设备所发送的关于所述呼救请求的救援响应信息,包括:The method according to claim 1, wherein the receiving rescue response information about the rescue request sent by at least one rescue user equipment comprises:接收所述至少一个救援用户设备中的第一救援用户设备所发送的关于所述呼救请求的救援响应信息;Receiving rescue response information about the request for help sent by a first rescue user equipment of the at least one rescue user equipment;所述方法还包括:The method also includes:基于所述救援响应信息,向所述第一救援用户设备返回所述至少一个可穿戴救援设备中优选救援设备的存放位置信息。Based on the rescue response information, return storage location information of a preferred rescue device among the at least one wearable rescue device to the first rescue user equipment.
- 根据权利要求7所述的方法,其中,所述基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援用户设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息,包括:8. The method according to claim 7, wherein said determining at least one rescue user equipment based on said positioning basis information, and sending the rescue location information of said rescue equipment and at least one rescue user equipment to at least one of said at least one rescue user equipment The storage location information of a wearable rescue device, including:基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息,其中所述至少一个可穿戴救援设备的预约状态信息为未被预约;At least one rescue user equipment is determined based on the positioning basis information, and the rescue location information of the rescue equipment and the storage location information of the at least one wearable rescue device are sent to at least one of the at least one rescue equipment, wherein the at least The reservation status information of a wearable rescue device is not reserved;所述基于所述救援响应信息,向所述第一救援用户设备返回所述至少一个可穿戴救援设备中优选救援设备的存放位置信息,包括:The returning the storage location information of the preferred rescue device among the at least one wearable rescue device to the first rescue user equipment based on the rescue response information includes:基于所述救援响应信息,将所述至少一个可穿戴救援设备中的优选救援设备的预约状态信息更新为已被预约,并向所述第一救援用户设备返回所述优选救援设备的存放位置信息。Based on the rescue response information, the reservation status information of the preferred rescue device in the at least one wearable rescue device is updated to be reserved, and the storage location information of the preferred rescue device is returned to the first rescue user device .
- 根据权利要求7所述的方法,其中,所述基于所述救援响应信息,向所述第一救援用户设备返回所述至少一个可穿戴救援设备中优选救援设备的存放位置信息,包括:The method according to claim 7, wherein the returning storage location information of a preferred rescue device among the at least one wearable rescue device to the first rescue user equipment based on the rescue response information comprises:基于所述救援响应信息,根据所述至少一个可穿戴救援设备的存放位置信息,分别确定其中每个可穿戴救援设备与所述第一救援用户设备的第一距离,以及其中每个可穿戴救援设备与所述呼救设备的第二距离;Based on the rescue response information, and according to the storage location information of the at least one wearable rescue device, the first distance between each wearable rescue device and the first rescue user device is determined, and each wearable rescue device is The second distance between the device and the calling device;基于每个可穿戴救援设备相对应的第一距离及第二距离,确定所述至少一个可穿戴救援设备中的优选救援设备;Determining a preferred rescue device among the at least one wearable rescue device based on the first distance and the second distance corresponding to each wearable rescue device;向所述第一救援用户设备返回所述优选救援设备的存放位置信息。Return the storage location information of the preferred rescue equipment to the first rescue user equipment.
- 根据权利要求9所述的方法,其中,所述基于每个可穿戴救援设备相对应的第一距离及第二距离,确定所述至少一个可穿戴救援设备中的优选救援设备,包括:The method according to claim 9, wherein the determining a preferred rescue device among the at least one wearable rescue device based on the first distance and the second distance corresponding to each wearable rescue device comprises:确定所述至少一个可穿戴救援设备中,相对应的第一距离及第二距离满足距离条件的可穿戴救援设备为优选救援设备。It is determined that among the at least one wearable rescue device, the wearable rescue device whose corresponding first distance and second distance meet the distance condition is the preferred rescue device.
- 一种在呼救设备端用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers at the end of a call for help, wherein the method includes:向对应的网络设备发送呼救请求,其中所述呼救请求包括所述呼救设备的定位依据信息;Sending a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;其中,所述呼救请求用于供所述网络设备基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息。Wherein, the distress request is used for the network device to determine at least one rescue user equipment based on the positioning basis information, and send the distress location information of the distress device and at least one rescue device to at least one of the at least one rescue equipment Storage location information of wearable rescue equipment.
- 根据权利要求11所述的方法,其中,所述定位依据信息包括以下至少任一项:The method according to claim 11, wherein the positioning basis information includes at least any one of the following:所述呼救设备的设备标识信息;The device identification information of the distress call device;所述呼救设备的卫星定位信息;Satellite positioning information of the distress device;所述呼救设备的预设呼救位置信息。The preset distress location information of the distress device.
- 一种在救援用户设备端用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers at the end of rescue user equipment, wherein the method includes:接收对应的网络设备基于呼救设备发送的呼救请求而发送的、所述呼救设备的呼救位置信息,以及至少一个可穿戴救援设备的存放位置信息;Receiving the distress location information of the distress device and the storage location information of at least one wearable rescue device that are sent by the corresponding network device based on the distress request sent by the distress device;提供关于所述呼救请求的呼救提示信息,并在地图界面上呈现所述至少一个可穿戴救援设备的存放位置信息;Providing distress prompt information about the distress request, and presenting the storage location information of the at least one wearable rescue device on a map interface;向所述网络设备发送关于所述呼救请求的救援响应信息。Sending rescue response information about the request for help to the network device.
- 根据权利要求13所述的方法,其中,所述方法还包括:The method according to claim 13, wherein the method further comprises:接收所述网络设备基于所述救援响应信息所发送的、所述至少一个可穿戴救援设备中优选救援设备的存放位置信息,并区分呈现所述优选救援设备的存放位置信息。Receiving the storage location information of a preferred rescue device among the at least one wearable rescue device that is sent by the network device based on the rescue response information, and distinguishing and presenting the storage location information of the preferred rescue device.
- 根据权利要求14所述的方法,其中,所述方法还包括:The method according to claim 14, wherein the method further comprises:向所述网络设备发送所述救援用户设备的所处位置信息;Sending the location information of the rescue user equipment to the network equipment;其中,所述优选救援设备是基于所述救援用户设备的所处位置信息而从所述至少一个可穿戴救援设备中确定的。Wherein, the preferred rescue equipment is determined from the at least one wearable rescue equipment based on the location information of the rescue user equipment.
- 根据权利要求13至15中任一项所述的方法,其中,所述方法还包括:The method according to any one of claims 13 to 15, wherein the method further comprises:在所述地图界面上呈现推荐路径信息。The recommended route information is presented on the map interface.
- 根据权利要求13所述的方法,其中,所述救援响应信息用于将至少一个可穿戴救援设备的预约状态信息更新为已被预约。The method according to claim 13, wherein the rescue response information is used to update the reservation status information of the at least one wearable rescue device to be reserved.
- 一种在网络设备端用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers at the end of a network device, wherein the method includes:接收对应的呼救设备所发送的呼救请求,其中所述呼救请求包括所述呼救设备的定位依据信息;Receiving a distress request sent by a corresponding distress device, wherein the distress request includes the positioning basis information of the distress device;基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援用户设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个AED设备的存放位置信息;Determine at least one rescue user equipment based on the positioning basis information, and send the rescue location information of the rescue equipment and the storage location information of the at least one AED device to at least one of the at least one rescue user equipment;接收至少一个救援用户设备所发送的关于所述呼救请求的救援响应信息。Receiving rescue response information about the call for help sent by at least one rescue user equipment.
- 根据权利要求18所述的方法,其中,所述方法还包括:The method of claim 18, wherein the method further comprises:基于所述救援响应信息,确定一个或多个协助救援用户设备;Based on the rescue response information, determine one or more rescue user devices;向所述一个或多个协助救援用户设备发送协助救援指令,并向所述救援响应信息所对应的救援用户设备发送关于所述一个或多个协助救援用户设备的协助救援信息。Sending an assisting rescue instruction to the one or more assisting rescue user equipment, and sending assisting rescue information about the one or more assisting rescue user equipment to the rescue user equipment corresponding to the rescue response information.
- 一种在呼救设备端用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers at the end of a call for help, wherein the method includes:向对应的网络设备发送呼救请求,其中所述呼救请求包括所述呼救设备的定位依据信息;Sending a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;其中,所述呼救请求用于供所述网络设备基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个AED设备的存放位置信息。Wherein, the distress request is used for the network device to determine at least one rescue user equipment based on the positioning basis information, and send the distress location information of the distress device and at least one rescue device to at least one of the at least one rescue equipment The storage location information of AED equipment.
- 一种在救援用户设备端用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers at the end of rescue user equipment, wherein the method includes:接收对应的网络设备基于呼救设备发送的呼救请求而发送的、所述呼救设备的呼救位置信息,以及至少一个AED设备的存放位置信息;Receiving the distress location information of the distress device and the storage location information of at least one AED device that are sent by the corresponding network device based on the distress request sent by the distress device;提供关于所述呼救请求的呼救提示信息,并在地图界面上呈现所述至少一个AED设备的存放位置信息;Provide distress prompt information about the distress request, and present the storage location information of the at least one AED device on a map interface;向所述网络设备发送关于所述呼救请求的救援响应信息。Sending rescue response information about the request for help to the network device.
- 根据权利要求21所述的方法,其中,所述方法还包括:The method of claim 21, wherein the method further comprises:接收关于一个或多个协助救援用户设备的协助救援信息。Receive assistance and rescue information about one or more assistance and rescue user equipment.
- 一种用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers, wherein the method includes:呼救设备向对应的网络设备发送呼救请求,其中所述呼救请求包括所述呼救设 备的定位依据信息;The distress call device sends a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;网络设备接收所述呼救请求,基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援用户设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息;The network device receives the request for help, determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and at least one wearable rescue device to at least one of the at least one rescue user equipment Storage location information;所述救援用户设备接收所述呼救设备的呼救位置信息以及至少一个可穿戴救援设备的存放位置信息,提供关于所述呼救请求的呼救提示信息,并在地图界面上呈现所述至少一个可穿戴救援设备的存放位置信息;The rescue user equipment receives the call for help location information of the call for help device and the storage location information of at least one wearable rescue device, provides call for help prompt information about the call for help request, and presents the at least one wearable rescue on a map interface Storage location information of the equipment;所述救援用户设备向所述网络设备发送关于所述呼救请求的救援响应信息;Sending, by the rescue user equipment, rescue response information on the call for help to the network equipment;所述网络设备接收所述救援用户设备所发送的关于所述呼救请求的救援响应信息。The network device receives rescue response information about the request for help sent by the rescue user equipment.
- 一种用于向救援者提供救援信息的方法,其中,该方法包括:A method for providing rescue information to rescuers, wherein the method includes:呼救设备向对应的网络设备发送呼救请求,其中所述呼救请求包括所述呼救设备的定位依据信息;The distress device sends a distress request to the corresponding network device, where the distress request includes the positioning basis information of the distress device;网络设备接收所述呼救请求,基于所述定位依据信息确定至少一个救援用户设备,并向所述至少一个救援用户设备中的至少一个发送所述呼救设备的呼救位置信息以及至少一个AED设备的存放位置信息;The network device receives the request for help, determines at least one rescue user equipment based on the positioning basis information, and sends the rescue location information of the rescue device and the storage of at least one AED device to at least one of the at least one rescue user equipment location information;所述救援用户设备接收所述呼救设备的呼救位置信息以及至少一个AED设备的存放位置信息,提供关于所述呼救请求的呼救提示信息,并在地图界面上呈现所述至少一个AED设备的存放位置信息;The rescue user equipment receives the distress location information of the distress distress device and the storage location information of at least one AED device, provides distress prompt information about the distress request, and presents the storage location of the at least one AED device on a map interface information;所述救援用户设备向所述网络设备发送关于所述呼救请求的救援响应信息;Sending, by the rescue user equipment, rescue response information on the call for help to the network equipment;所述网络设备接收所述救援用户设备所发送的关于所述呼救请求的救援响应信息。The network device receives rescue response information about the request for help sent by the rescue user equipment.
- 一种用于向救援者提供救援信息的设备,其中,该设备包括:A device for providing rescue information to rescuers, wherein the device includes:处理器;以及Processor; and被安排成存储计算机可执行指令的存储器,所述可执行指令在被执行时使所述处理器执行根据权利要求1至22中任一项所述方法的操作。A memory arranged to store computer-executable instructions which, when executed, cause the processor to perform the operations of the method according to any one of claims 1-22.
- 一种存储指令的计算机可读介质,所述指令在被执行时使得***进行根据权利要求1至22中任一项所述方法的操作。A computer-readable medium storing instructions, which when executed, cause a system to perform the operation of the method according to any one of claims 1 to 22.
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CN109769204B (en) * | 2019-03-15 | 2022-04-26 | 上海救要救信息科技有限公司 | Method and device for providing rescue information for rescuers |
CN109831773B (en) * | 2019-03-18 | 2021-06-15 | 上海救要救信息科技有限公司 | Rescue method, rescue equipment and computer readable medium |
CN110717677A (en) * | 2019-10-11 | 2020-01-21 | 深圳市荣盛智能装备有限公司 | Display method, system, electronic device and storage medium for commanding and scheduling |
CN114915661A (en) * | 2021-02-09 | 2022-08-16 | 上海救要救信息科技有限公司 | Method and device for rescuing user |
CN113689686B (en) * | 2021-07-20 | 2022-11-01 | 广州市炬盾科技发展有限公司 | Intelligent security method and system applying big data service |
CN114222280B (en) * | 2022-02-22 | 2022-07-08 | 荣耀终端有限公司 | Emergency communication method, equipment and storage medium |
CN114821994B (en) * | 2022-04-19 | 2022-10-28 | 浙江远图技术股份有限公司 | Health monitoring method and system based on wearable equipment and storage medium |
CN115884090A (en) * | 2022-10-20 | 2023-03-31 | 青岛海诺生物工程有限公司 | Automatic external defibrillator positioning method and system |
CN116798203B (en) * | 2023-05-08 | 2024-03-19 | 西宁蜀海网络技术有限公司 | Method and system for realizing public welfare hotline accurate planning emergency rescue |
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