CN111210603A - Intelligent watch system, alarm system and alarm method - Google Patents
Intelligent watch system, alarm system and alarm method Download PDFInfo
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- CN111210603A CN111210603A CN202010020800.5A CN202010020800A CN111210603A CN 111210603 A CN111210603 A CN 111210603A CN 202010020800 A CN202010020800 A CN 202010020800A CN 111210603 A CN111210603 A CN 111210603A
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/01—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
- G08B25/08—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using communication transmission lines
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/01—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium
- G08B25/10—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using wireless transmission systems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/52—Network services specially adapted for the location of the user terminal
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- Business, Economics & Management (AREA)
- Emergency Management (AREA)
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Abstract
The invention provides an intelligent watch system, which comprises a watch terminal and an IOT application terminal, wherein the watch terminal is configured to detect biological characteristics and position information of a wearer and trigger an alarm mode according to the position information of the wearer; the IOT application terminal is used for setting a safety range, alarming calls, storing positioning information and transmitting the safety range and the alarming calls back to the watch terminal. According to the intelligent watch system, the alarm system and the alarm method, the alarm awakening mechanism is set based on NB-IOT communication and GSM communication switching, and the GSM network is controlled in a manner triggered by the NB-IOT transmission network, so that the power consumption of the GSM network is reduced, the energy consumption of the portable watch can be effectively reduced, and the characteristic of enhancing the cruising ability of the watch is achieved.
Description
Technical Field
The invention relates to the technical field of communication, in particular to an intelligent watch system, an alarm system and an alarm method.
Background
By 2020, global access to internet devices will reach 270 billion, and future low power wide area networks (LPWA) will have explosive growth. Therefore, the portable wearable device is popular among consumers due to the characteristic of convenience. However, the communication mode of the wearable device in the market adopts the mode of monitoring the network in real time by the GSM, so that the energy consumption of the watch is high, and the appearance and the convenience of the mobile phone battery are greatly influenced. At present, intelligent watches are difficult to realize intellectualization, power consumption, volume and weight, man-machine interaction and the like.
In 2016, the 3GPP completes the deployment of a standard core protocol and related standards, and as an NB-IOT (narrowband Internet of things) core network has the characteristics of wireless coverage, low equipment power consumption, low support delay sensitivity, low terminal complexity, more user connections and the like, the NB-IOT core network is popular with people in the industry of Internet of things. The NB-IOT realizes longer standby by virtue of PSM and eDRX modes, the former terminal is still registered in the network but signaling is not reachable, so that the terminal is in a deep sleep power-saving mode; the latter further prolongs the terminal sleep cycle and reduces unnecessary activation of the receiving unit.
GSM (global system for mobile communications) module based alarm systems have become popular, auto-dialing to contact the guardian and the alarm. The microcontroller controls the GSM module to realize wireless communication functions (sending short messages and dialing calls) through AT instructions. The device is widely applied to the field of industrial application, and comprises a GSM module meter reading device, a household fire and theft alarm device and a carrier tracker. However, these applications are energy intensive and require daily recharging.
Therefore, there is a need for a smart watch system, an alarm system and an alarm method that address technical problems in the prior art.
Disclosure of Invention
One aspect of the present invention is to provide a smart watch system, the system comprising a watch terminal and an IOT application terminal,
the watch terminal is configured to detect a biometric characteristic of the wearer, location information, and trigger an alarm mode according to the location information of the wearer;
the IOT application terminal is used for setting a safety range, alarming calls, storing positioning information and transmitting the safety range and the alarming calls back to the watch terminal.
Preferably, the watch terminal comprises a function switching module for turning on/off the alarm mode.
Preferably, the watch terminal comprises a biological detection module for detecting human biological characteristics; the positioning module is used for recording and outputting the position and track information of the watch terminal;
an NB-IOT communication module for enabling communication with an NB-IOT network node; the GSM communication module is used for triggering automatic dialing and accessing a GSM system; the communication switching module is used for switching NB-IOT communication and GSM communication;
and the central processor is configured to compare the real-time distance between the watch terminal and the bit information with the set safety distance and trigger an alarm mode according to the comparison result.
Preferably, the watch terminal further comprises a clock module, a display screen and a power supply module.
Preferably, the central processor compares the real-time distance between the watch terminal and the bit information with the set safety distance,
when the real-time distance is larger than the safe distance, triggering position detection;
and when the real-time distance is smaller than the safe distance, not triggering position detection.
Preferably, the real-time distance is greater than the safety distance, and when the position detection is triggered,
when the real-time distance reaches a first threshold value, selecting an NB-IOT network node, and sending the real-time distance data to an IOT application terminal;
when the real-time distance reaches a second threshold value, switching to GSM communication, and triggering automatic dialing and an IOT application terminal to establish GSM communication;
the second threshold is greater than the first threshold.
Preferably, when switching to GSM communication, GSM communication cannot be established with the IOT application terminal for a certain time,
switching to NB-IOT communication and sending the real-time distance data to the IOT application terminal.
Another aspect of the present invention is to provide an alarm system of a smart watch system, the system including a watch terminal, an IOT application terminal, an NB-IOT network node, and an NB-IOT core network,
the watch terminal is used for triggering an alarm mode according to the position information of the wearer;
the IOT application terminal is used for setting a safety range, alarming a telephone, storing positioning information and transmitting the safety range and the alarming telephone back to the watch terminal;
the NB-IOT network node is used for accessing the NB-IOT core network;
the NB-IOT core network is used for communicating with the IOT application terminal.
Yet another aspect of the present invention is to provide an alarm method, including the steps of:
the watch terminal acquires self position information, sends the position information to the IOT application terminal, and closes NB-IOT communication;
the IOT application terminal is used for setting a safety range and an alarm telephone, storing positioning information and transmitting the safety range and the alarm telephone back to the watch terminal;
the central processor compares the real-time distance between the watch terminal and the bit information with the set safety distance,
when the real-time distance is larger than the safe distance, triggering position detection;
and when the real-time distance is smaller than the safe distance, not triggering position detection.
Preferably, the real-time distance is greater than the safety distance, and when the position detection is triggered,
when the real-time distance reaches a first threshold value, selecting an NB-IOT network node, and sending the real-time distance data to an IOT application terminal;
when the real-time distance reaches a second threshold value, switching to GSM communication, and triggering automatic dialing and an IOT application terminal to establish GSM communication;
the second threshold is greater than the first threshold.
According to the intelligent watch system, the alarm system and the alarm method, the alarm awakening mechanism is set based on NB-IOT communication and GSM communication switching, and the GSM network is controlled in a manner triggered by the NB-IOT transmission network, so that the power consumption of the GSM network is reduced, the energy consumption of the portable watch can be effectively reduced, and the characteristic of enhancing the cruising ability of the watch is achieved.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.
Drawings
Further objects, features and advantages of the present invention will become apparent from the following description of embodiments of the invention, with reference to the accompanying drawings, in which:
fig. 1 schematically shows a schematic view of a watch terminal according to the invention.
Fig. 2 shows a schematic view of the alarm system of the present invention.
Fig. 3 shows a flow diagram of the alarm method of the present invention.
Detailed Description
The objects and functions of the present invention and methods for accomplishing the same will be apparent by reference to the exemplary embodiments. However, the present invention is not limited to the exemplary embodiments disclosed below; it can be implemented in different forms. The nature of the description is merely to assist those skilled in the relevant art in a comprehensive understanding of the specific details of the invention.
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals denote the same or similar parts, or the same or similar steps.
The invention provides an intelligent watch system, aiming at solving the technical problem that an intelligent watch in the prior art is high in power consumption. According to an embodiment of the invention, an intelligent watch system comprises a watch terminal and an IOT application terminal.
In this embodiment, a wearer wears a watch terminal, and a guardian smart device (e.g., a mobile phone) installs an IOT application terminal (e.g., APP), and triggers an alarm according to the position information of the wearer.
As shown in fig. 1, the watch terminal of the present invention is configured to detect a biometric characteristic of a wearer, location information, and trigger an alarm mode according to the location information of the wearer.
The watch terminal comprises a central processor 100 configured to compare the real-time distance of the watch terminal from the bit information with a set safety distance and trigger an alarm mode according to the comparison result.
And a function switching module 200 for turning on/off the alarm mode. And the alarm module 300 is used for driving the alarm to send out an alarm signal, giving a prompt to the wearer and indicating that the behavior of the wearer exceeds a safe distance.
A communication switching module 400, configured to switch NB-IOT communication and GSM communication. An NB-IOT communication module 600 for enabling communication with an NB-IOT network node. And the GSM communication module 500 is used for triggering automatic dialing and accessing a GSM system.
The biometric detection module 900 is used for detecting human biometric features. And the positioning module 800 is configured to record and output the position and track information of the watch terminal. The positioning module 800 comprises a GPS positioning module and/or a beidou satellite positioning module, and the positioning module is integrated with a power management unit to provide power for the device. The positioning module 800 can realize functions of routing inspection, positioning, track recording and navigation, positioning information is output through serial port data, the low-power-consumption design is adopted, dual requirements of time length and high cost performance of watch terminal standby are met, and the watch terminal has the advantages of advanced radio frequency structure, interference suppression and high sensitivity.
The watch terminal further includes at least two antenna units, a clock module, a display screen, and a power module 700, where the power module 700 supplies power to the GSM communication module 500 and the central processor 100 in an awake state, and the power module 700 supplies power only to the central processor 100 in a standby state.
According to the embodiment of the invention, the intelligent watch system further comprises an IOT application terminal which is used for setting the safety range, alarming the call, storing the positioning information and transmitting the safety range and the alarming the call back to the watch terminal.
The guardian sets a safety range at the IOT application terminal, alarms the telephone and stores the position information sent by the watch terminal. And the IOT application terminal transmits the safety range and the alarm call back to the watch terminal through NB-IOT communication.
According to the embodiment of the invention, the intelligent watch system realizes alarm based on NB-IOT communication and GSM communication, and reduces energy consumption of the watch terminal.
Specifically, the watch terminal selects an NB-IOT network node through the central processing unit 100, the NB-IOT communication module 600 sends positioning information (e.g., a location a, where the wearer is not expected to be too far away from the location) of the watch terminal to the selected NB-IOT network node, and finally, the positioning information is accessed to an NB-IOT core network and then transmitted to the IOT application terminal.
The IOT application terminal sets a safety range, alarms and calls, stores position information sent by the watch terminal, and transmits the safety range and the alarm back to the watch terminal through NB-IOT communication.
And after the information exchange is finished, the NB-IOT communication and the GSM communication are closed, and the power supply module is closed to supply power to the GSM communication module and enter a standby state.
As the wearer moves, the watch terminal deviates from the positioning information (e.g., the wearer moves to location B). The central processor compares the real-time distance (A, B distance between two places) of the watch terminal from the bit information with the set safety distance.
And when the real-time distance is greater than the safe distance, triggering position detection.
When the real-time distance is smaller than the safe distance, the position detection is not triggered, the NB-IOT communication and the GSM communication are still in the closed state, and the power supply module is still closed to supply power to the GSM communication module.
The real-time distance is larger than the safe distance, when the position detection is triggered,
when the real-time distance reaches the first threshold value, the central processor selects the NB-IOT network node, activates the NB-IOT communication module 600, and the NB-IOT communication module 600 sends the real-time distance data to the selected NB-IOT network node, and finally, the real-time distance data is accessed to the NB-IOT core network and then transmitted to the IOT application terminal.
And when the real-time distance reaches a second threshold value, activating the GSM communication module, switching to GSM communication through the communication switching module 400, and triggering automatic dialing to establish GSM communication with the IOT application terminal.
In the above process, the second threshold is larger than the first threshold.
In some preferred embodiments, when switching to GSM communication, GSM communication cannot be established with the IOT application terminal for a certain time (e.g., after two auto-dial calls),
the NB-IOT communication is switched to NB-IOT communication through the communication switching module 400, the NB-IOT communication module 600 sends the real-time distance data to the selected NB-IOT network node, and finally, the real-time distance data is accessed to the NB-IOT core network and then transmitted to the IOT application terminal.
The biological detection module 900 includes ECG electrocardiographic detection, PCG photoelectric sensor. The ECG electrocardio monitors the skin potential signal of the human body to obtain the electrocardiogram data of the human body, comprehensively estimates the working state of the heart and reduces the sudden heart disease; the PCG photoelectric sensor is used for detecting conventional data such as sleep and movement, and automatically recording, superposing and averaging all the day.
When the watch terminal is in a standby state, the clock module and the biological detection module 900 are connected with the central processor through the I/O port, and the biological characteristic data is stored in the central processor. The clock module transmits time information in real time and transmits the time information to the display screen for display through the I/O port.
According to the embodiment of the invention, when the real-time distance is greater than the safe distance and the position detection is triggered, the biological characteristic data stored by the central processor 100 is uploaded to the NB-IOT core network, and when a guardian wants to check the physical condition of a wearer at the IOT application terminal, the biological characteristic data is transmitted to the IOT application terminal through the NB-IOT core network, and the two systems work in a coordinated manner, so that the effectiveness and the accuracy of the health detection are ensured.
According to an embodiment of the present invention, the smart watch system further includes a function switching module 200 for turning on/off the alarm mode. And the alarm module 300 is used for driving the alarm to send out an alarm signal, giving a prompt to the wearer and indicating that the behavior of the wearer exceeds a safe distance.
When the wearer wants to send distance data to the IOT application terminal (even in a safe range), the wearer triggers the function switching module 200 to start an alarm mode through a function key (e.g., a mechanical key or a touch screen key), so that the central processor selects an NB-IOT network node, activates the NB-IOT communication module 600, sends real-time distance data to the selected NB-IOT network node through the NB-IOT communication module 600, and finally accesses the NB-IOT core network and transmits the real-time distance data to the IOT application terminal.
Or, the GSM communication module is activated and switched to GSM communication through the communication switching module 400, triggering automatic dialing to establish GSM communication with the IOT application terminal.
According to an embodiment of the present invention, as shown in fig. 2, an alarm system of an intelligent watch system, a watch terminal, an IOT application terminal, an NB-IOT network node, and an NB-IOT core network is shown.
The watch terminal is configured to trigger the alarm mode according to the location information of the wearer, and the specific process is explained above and is not described here again.
The IOT application terminal is configured to set a security range, store the alarm call, and store the positioning information, and transmit the security range and the alarm call back to the watch terminal, where the specific process is explained above and is not described herein again.
In this embodiment, for example, the mobile phone terminal 1, …, the plurality of mobile phone terminals of the mobile phone terminal n communicate with the NB-IOT network node (a), the … NB-IOT network node (b) and the plurality of NB-IOT network nodes, and each mobile phone terminal selects the NB-IOT network node through the central processor.
And the NB-IOT core network is used for communicating with the IOT application terminal, and a plurality of NB-IOT network nodes are accessed to the NB-IOT core network to realize communication with the IOT application terminal.
According to an embodiment of the present invention, an alarm method is provided, and fig. 3 shows a flow chart of the alarm method of the present invention.
According to the embodiment of the invention, the alarm method comprises the following steps:
and step S101, initial setting.
The watch terminal acquires the position information of the watch terminal, sends the position information to the IOT application terminal, and closes NB-IOT communication.
And the IOT application terminal sets a safety range and an alarm telephone, stores positioning information and transmits the safety range and the alarm telephone back to the watch terminal.
Specifically, the watch terminal selects an NB-IOT network node through the central processing unit 100, the NB-IOT communication module 600 sends positioning information (e.g., a location a, where the wearer is not expected to be too far away from the location) of the watch terminal to the selected NB-IOT network node, and finally, the positioning information is accessed to an NB-IOT core network and then transmitted to the IOT application terminal.
The IOT application terminal sets a safety range, alarms and calls, stores position information sent by the watch terminal, and transmits the safety range and the alarm back to the watch terminal through NB-IOT communication.
And after the information exchange is finished, the NB-IOT communication and the GSM communication are closed, and the power supply module is closed to supply power to the GSM communication module and enter a standby state.
And S102, comparing the real-time distance between the mobile phone terminal and the position information with the set safety distance.
As the wearer moves, the watch terminal deviates from the positioning information. And the central processor compares the real-time distance between the watch terminal and the position information with the set safety distance.
And when the real-time distance is greater than the safe distance, triggering position detection and entering the step S105.
When the real-time distance is smaller than the safety distance, the position detection is not triggered, and the process goes to step S104.
Step S104, entering standby.
The NB-IOT communication and the GSM communication are still in the closed state, the power supply module is still closed to supply power to the GSM communication module, and the mobile phone terminal is in the standby state.
And step S105, NB-IOT communication is selected.
The real-time distance is larger than the safe distance, when the position detection is triggered,
and when the real-time distance reaches a first threshold value, selecting the NB-IOT network node, and sending the real-time distance data to the IOT application terminal.
When the real-time distance reaches the first threshold value, the central processor selects the NB-IOT network node, activates the NB-IOT communication module 600, and the NB-IOT communication module 600 sends the real-time distance data to the selected NB-IOT network node, and finally, the real-time distance data is accessed to the NB-IOT core network and then transmitted to the IOT application terminal.
And step S106, selecting GSM communication.
And when the real-time distance reaches a second threshold value, switching to GSM communication, and triggering automatic dialing and an IOT application terminal to establish GSM communication.
And when the real-time distance reaches a second threshold value, activating the GSM communication module, switching to GSM communication through the communication switching module 400, and triggering automatic dialing to establish GSM communication with the IOT application terminal.
In some preferred embodiments, when switching to GSM communication, GSM communication cannot be established with the IOT application terminal for a certain time (e.g., after two auto-dial calls),
the NB-IOT communication is switched to NB-IOT communication through the communication switching module 400, the NB-IOT communication module 600 sends the real-time distance data to the selected NB-IOT network node, and finally, the real-time distance data is accessed to the NB-IOT core network and then transmitted to the IOT application terminal.
According to the intelligent watch system, the alarm system and the alarm method, the alarm awakening mechanism is set based on NB-IOT communication and GSM communication switching, and the GSM network is controlled in a manner triggered by the NB-IOT transmission network, so that the power consumption of the GSM network is reduced, the energy consumption of the portable watch can be effectively reduced, and the characteristic of enhancing the cruising ability of the watch is achieved.
Other embodiments of the invention will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.
Claims (10)
1. A smart watch system, characterized in that the system comprises a watch terminal and an IOT application terminal,
the watch terminal is configured to detect a biometric characteristic of the wearer, location information, and trigger an alarm mode according to the location information of the wearer;
the IOT application terminal is used for setting a safety range, alarming calls, storing positioning information and transmitting the safety range and the alarming calls back to the watch terminal.
2. The system of claim 1, wherein the watch terminal comprises a function switching module for enabling/disabling an alarm mode.
3. The system of claim 1, wherein the watch terminal comprises a biometric detection module for detecting a human biometric; the positioning module is used for recording and outputting the position and track information of the watch terminal;
an NB-IOT communication module for enabling communication with an NB-IOT network node; the GSM communication module is used for triggering automatic dialing and accessing a GSM system; the communication switching module is used for switching NB-IOT communication and GSM communication;
and the central processor is configured to compare the real-time distance between the watch terminal and the bit information with the set safety distance and trigger an alarm mode according to the comparison result.
4. The system of claim 1, wherein the watch terminal further comprises a clock module, a display screen, and a power module.
5. The system of claim 3, wherein the central processor compares the real-time distance of the watch terminal from the bit information to a set safe distance,
when the real-time distance is larger than the safe distance, triggering position detection;
and when the real-time distance is smaller than the safe distance, not triggering position detection.
6. The system of claim 5, wherein the real-time distance is greater than the safe distance, and upon triggering position detection,
when the real-time distance reaches a first threshold value, selecting an NB-IOT network node, and sending the real-time distance data to an IOT application terminal;
when the real-time distance reaches a second threshold value, switching to GSM communication, and triggering automatic dialing and an IOT application terminal to establish GSM communication;
the second threshold is greater than the first threshold.
7. The system of claim 6, wherein when switching to GSM communication, GSM communication cannot be established with the IOT application terminal for a certain time,
switching to NB-IOT communication and sending the real-time distance data to the IOT application terminal.
8. An alarm system comprising the smart watch system of any one of claims 1 to 7, wherein the system comprises a watch terminal, an IOT application terminal, an NB-IOT network node, and an NB-IOT core network,
the watch terminal is used for triggering an alarm mode according to the position information of the wearer;
the IOT application terminal is used for setting a safety range, alarming a telephone, storing positioning information and transmitting the safety range and the alarming telephone back to the watch terminal;
the NB-IOT network node is used for accessing the NB-IOT core network;
the NB-IOT core network is used for communicating with the IOT application terminal.
9. An alarm method, characterized in that the method comprises the steps of:
the watch terminal acquires self position information, sends the position information to the IOT application terminal, and closes NB-IOT communication;
the IOT application terminal is used for setting a safety range and an alarm telephone, storing positioning information and transmitting the safety range and the alarm telephone back to the watch terminal;
the central processor compares the real-time distance between the watch terminal and the bit information with the set safety distance,
when the real-time distance is larger than the safe distance, triggering position detection;
and when the real-time distance is smaller than the safe distance, not triggering position detection.
10. The method of claim 9, wherein the real-time distance is greater than the safe distance, and upon triggering position detection,
when the real-time distance reaches a first threshold value, selecting an NB-IOT network node, and sending the real-time distance data to an IOT application terminal;
when the real-time distance reaches a second threshold value, switching to GSM communication, and triggering automatic dialing and an IOT application terminal to establish GSM communication;
the second threshold is greater than the first threshold.
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CN105652653A (en) * | 2015-12-30 | 2016-06-08 | 深圳市鼎芯东方科技有限公司 | Smart watch-based vital sign detection method and smart watch |
CN206773459U (en) * | 2017-04-25 | 2017-12-19 | 北方民族大学 | Intelligent home endowment monitoring system based on Internet of Things |
CN107948310A (en) * | 2017-12-15 | 2018-04-20 | 西安博士创新科技有限公司 | Sign monitoring platform based on technology of Internet of things |
CN110517450A (en) * | 2019-08-20 | 2019-11-29 | 江西师范大学 | Wearable device and fall detection method based on narrowband Internet of Things |
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