CN107368675A - Vital sign monitoring method, system and data integration method, forward node - Google Patents
Vital sign monitoring method, system and data integration method, forward node Download PDFInfo
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- CN107368675A CN107368675A CN201710461742.8A CN201710461742A CN107368675A CN 107368675 A CN107368675 A CN 107368675A CN 201710461742 A CN201710461742 A CN 201710461742A CN 107368675 A CN107368675 A CN 107368675A
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- data
- wearable device
- chirp
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/0002—Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network
- A61B5/0015—Remote monitoring of patients using telemetry, e.g. transmission of vital signals via a communication network characterised by features of the telemetry system
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K17/00—Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations
- G06K17/0022—Methods or arrangements for effecting co-operative working between equipments covered by two or more of main groups G06K1/00 - G06K15/00, e.g. automatic card files incorporating conveying and reading operations arrangements or provisious for transferring data to distant stations, e.g. from a sensing device
Abstract
The present invention is applied to vital sign monitoring field, there is provided a kind of vital sign monitoring method, system and data integration method, forward node, the vital sign monitoring method include:Receiving unit obtains the identification information of the wearable device from the RFID of wearable device, and the identification information of the wearable device is sent to forward node;The vital sign data of acquisition is converted to chirp data by wearable device;Wearable device sends the chirp data to forward node.By the above method, cost can have greatly been saved, also, can also send the vital sign data of wearable device acquisition in time.
Description
Technical field
The invention belongs to data processing field, more particularly to a kind of vital sign monitoring method, system and Data Integration
Method, forward node.
Background technology
With the improvement of living standards, people increasingly focus on the monitoring to body, correspondingly, body is monitored
Product is also more and more.
The conventional product for possessing body monitoring function is all to realize body monitoring function by the module of complexity, such as,
Vital signs monitor is integrated on product, vital signs monitor includes vital sign detection module, single-chip microcomputer, A/D conversions
Device, buzzer, sending module, the single-chip microcomputer respectively with the vital sign detection module, A/D converter, buzzer, transmission
Module connects, and the vital sign detection module is used to obtain vital sign data.
Although the real-time control to health can be realized by the above-mentioned product for possessing body monitoring function, by
In the product for realizing vital sign monitoring function completed by the terminal device of complexity, therefore cause cost too high, to enterprise
Industry or user bring certain burden.
The content of the invention
The embodiments of the invention provide a kind of vital sign monitoring method, system and data integration method, forward node,
It is excessively complicated to solve existing vital sign monitoring device, the problem of so as to cause cost too high.
The embodiment of the present invention is achieved in that first aspect, there is provided a kind of vital sign monitoring method, including:
Receiving device obtains the identification information of the wearable device from the RFID of wearable device, and by described in
The identification information of wearable device is sent to forward node;
The vital sign data of acquisition is converted to chirp data by wearable device;
Wearable device sends the chirp data to forward node.
Second aspect, there is provided a kind of vital sign data integration method, including:
Forward node receives the identification information for the wearable device that receiving device is sent;
Forward node receives the chirp data that the wearable device is sent, and the chirp data are included by vital sign data
The data being converted to;
Forward node encapsulates the identification information and chirp data of the wearable device, obtains corresponding wrapper;
Forward node sends the wrapper to convergence unit, so that the convergence unit is handled the wrapper
Afterwards, result is sent to designated terminal.
The third aspect, there is provided a kind of life sign monitor system, the life sign monitor system include:Reception is set
Standby, wearable device, forward node and convergence unit, the wearable device are provided with RFID;
The receiving device, the mark for obtaining the wearable device from the RFID of wearable device are believed
Breath, and the identification information of the wearable device is sent to forward node;
The wearable device includes:
Chirp Date Conversion Unit, for the vital sign data of acquisition to be converted into chirp data;
Chirp data transmission unit, for the chirp data to be sent to forward node.
The forward node, the identification information of the wearable device sent for receiving the receiving device, and, receive institute
The chirp data of chirp data transmission unit transmission are stated, encapsulate the identification information and chirp data of the wearable device, are obtained pair
The wrapper answered, and the wrapper is sent to convergence unit;
The convergence unit, for handling the wrapper, and result is sent to designated terminal.
A kind of fourth aspect, there is provided forward node, it is characterised in that including:
Identification information receiving unit, the identification information of the wearable device for receiving receiving device transmission;
Chirp data receipt unit, the chirp data sent for receiving the wearable device, the chirp data include
The data being converted to by vital sign data;
Wrapper generation unit, for encapsulating the identification information and chirp data of the wearable device, obtain corresponding envelope
Dress bag;
Wrapper transmitting element, for the wrapper to be sent to convergence unit, so that the convergence unit is to described
After wrapper processing, result is sent to designated terminal.
5th aspect, there is provided a kind of life sign monitor system, including memory, processor and it is stored in described deposit
In reservoir and the computer program that can run on the processor, realized such as during computer program described in the computing device
Vital sign monitoring method step described in claim.
6th aspect, there is provided a kind of computer-readable recording medium, the computer-readable recording medium storage have meter
Calculation machine program, it is characterised in that the computer program realizes vital sign as claimed in claim when being executed by processor
Monitoring method step.
, therefore, can, meter cheap, simple in construction by cost because chirp data are brief data in the embodiment of the present invention
The terminal device generation limited with storage capacity is calculated, so as to greatly save cost, further, since the mark of wearable device is believed
The chirp data that breath and the wearable device obtain all are sent to forward node, and the chirp data are included by vital sign number
According to the data being converted to, the vital sign data therefore, it is possible in time be obtained wearable device by the forward node forwards
Go out.
Brief description of the drawings
Fig. 1 is the flow chart for the 1st kind of vital sign monitoring method that first embodiment of the invention provides;
Fig. 2 is the flow chart for the 2nd kind of vital sign monitoring method that second embodiment of the invention provides;
Fig. 3 is the flow chart for the 3rd kind of vital sign monitoring method that third embodiment of the invention provides;
Fig. 4 is the flow chart for the 4th kind of vital sign monitoring method that fourth embodiment of the invention provides;
Fig. 5 is the flow chart for the 5th kind of vital sign monitoring method that fifth embodiment of the invention provides;
Fig. 6 is a kind of classification schematic diagram for chirp frame that fifth embodiment of the invention provides;
Fig. 7 is the flow chart for the 6th kind of vital sign monitoring method that sixth embodiment of the invention provides;
Fig. 8 is the flow chart for the 7th kind of vital sign monitoring method that seventh embodiment of the invention provides;
Fig. 9 is the flow chart for the 8th kind of vital sign monitoring method that eighth embodiment of the invention provides;
Figure 10 is the flow chart for the 1st kind of vital sign data integration method that ninth embodiment of the invention provides;
Figure 11 is the flow chart for the 2nd kind of vital sign data integration method that tenth embodiment of the invention provides;
Figure 12 is a kind of structural representation for life sign monitor system that eleventh embodiment of the invention provides;
Figure 13 is a kind of structural representation for forward node that twelveth embodiment of the invention provides.
Embodiment
In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples
The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and
It is not used in the restriction present invention.
In the embodiment of the present invention, receiving device obtains the mark of the wearable device from the RFID of wearable device
Know information, and the identification information of the wearable device is sent to forward node, wearable device is by the vital sign data of acquisition
Chirp data are converted to, wearable device sends the chirp data to forward node.
In order to illustrate technical solutions according to the invention, illustrated below by specific embodiment.
Embodiment one:
Fig. 1 shows the flow chart for the 1st kind of vital sign monitoring method that first embodiment of the invention provides, it should be pointed out that
Although Fig. 1 is illustrated that from step S11 to step S12, in fact, step S11 and step S12 can also be held side by side
OK, here is omitted.The vital sign monitoring method mainly realizes that the wearable device includes radio frequency identification by wearable device
(Radio Frequency Identification, RFID) electronic tag, details are as follows:
Step S11, receiving device obtain the identification information of the wearable device from the RFID of wearable device,
And the identification information of the wearable device is sent to forward node.
Wherein, receiving device can be read write line.Specifically, after opening read write line (or other receiving devices), the read-write
Device sends mark to the RFID of wearable device by antenna and obtains signal corresponding to request, and then is set from the wearing
The identification information for the RFID for being prestored into the wearable device is obtained in standby RFID, the identification information is used
In the wearable device belonging to unique mark this its.
Wherein, forward node is traditional networking equipment of such as interchanger and router etc.
The vital sign data of acquisition is converted to chirp data by step S12, wearable device.
Wherein, vital sign data includes:Heartbeat, pulse, shell temperature etc.;
Wherein, chirp data refer to the data for storing, transmitting by chirp frame, will be described in detail in latter embodiments,
It is pointed out that chirp data are brief data, therefore, most costs are cheap, it is simple in construction, calculate and storage capacity
Limited terminal device can also generate the chirp data.
Specifically, in order to obtain the heartbeat data of user, pulse data, camera can be set on wearable device, started
Camera, place a finger on before camera, the brightness that blood from heart press-in finger capillary are shot by camera becomes
Change (red change in depth), and then realize the heartbeat of user, the measurement of pulse.
Specifically, in order to obtain the shell temperature data of user, temperature sensor can be set on wearable device, by this
Temperature sensor realizes the measurement of user's shell temperature.
Step S13, wearable device send the chirp data to forward node.
Specifically, because chirp data are brief data, " chirp " agreement lacks similar TCP/IP classical configuration, because
This, need to send chirp data to forward node, so that the forward node is further handled, specific processing procedure will later
Embodiment described in.
In the embodiment of the present invention, receiving device obtains the mark of the wearable device from the RFID of wearable device
Know information, and the identification information of the wearable device is sent to forward node, wearable device is by the vital sign data of acquisition
Chirp data are converted to, then the chirp data are sent to forward node., therefore, can because chirp data are brief data
Generated by the terminal device that cost is cheap, simple in construction, calculating and storage capacity are limited, so as to greatly save cost, this
Outside, due to the chirp data of the identification information of wearable device and wearable device acquisition are all sent to forward node, and institute
The data that chirp data include being converted to by vital sign data are stated, therefore, it is possible to be dressed in time by the forward node
The vital sign data that equipment obtains forwards.
Embodiment two:
Fig. 2 shows the flow chart for the 2nd kind of vital sign monitoring method that second embodiment of the invention provides, in this implementation
In example, mainly step S11 is refined, details are as follows:
Step S111, receiving device obtains the mark letter of the wearable device from the RFID of wearable device
Breath;
Step S112, communication channel is established with forward node, and by the communication channel of foundation by the wearing of acquisition
The identification information of equipment is sent to the forward node;
The vital sign data of acquisition is converted to chirp data by step S12, wearable device.
Step S13, wearable device send the chirp data to forward node.
Because receiving device is after the identification information of wearable device is obtained, communication channel is established with forward node at once, and
The identification information of the wearable device of acquisition is sent to the forward node by the communication channel of foundation, therefore, it is possible to
The identification information of the wearable device of acquisition is sent to forward node in time.
Embodiment three:
Fig. 3 shows the flow chart for the 3rd kind of vital sign monitoring method that third embodiment of the invention provides, in this implementation
In example, mainly step S11 is refined, details are as follows:
Step S111 ', receiving device obtain the mark letter of the wearable device from the RFID of wearable device
Breath;
Whether step S112 ', the number of identification information for the wearable device for judging to obtain are more than or equal to default number
Threshold value, if so, performing step S114 ', otherwise, go to step S113 ';It is pointed out that receiving device can be with multiple wearings
Equipment communication, now, the receiving device can receive the identification information of multiple wearable devices.
Step S113 ', continue to obtain the identification information of other next wearable devices, and perform step S112 ';
Step S114 ', with forward node establish communication channel, and by the communication channel of foundation by all wearings of acquisition
The identification information of equipment is sent to the forward node.
The vital sign data of acquisition is converted to chirp data by step S12, wearable device.
Step S13, wearable device send the chirp data to forward node.
Due to being only more than or equal to default number threshold value in the number of the identification information for the wearable device for judging to obtain
When, communication channel just is established with forward node, by the communication channel of foundation by the identification information of all wearable devices of acquisition
Send to the forward node, therefore, it is possible to effectively reduce the number of communications with forward node, so as to improve resource utilization.
Example IV:
Fig. 4 shows the flow chart for the 4th kind of vital sign monitoring method that fourth embodiment of the invention provides, in this implementation
In example, mainly step S11 is refined, details are as follows:
Step S111 ", receiving device obtain the mark letter of the wearable device from the RFID of wearable device
Breath;
Whether step S112 ", the identification information for judging the wearable device are any one being stored in transmission table immediately
Identification information, if so, going to step S113 ", otherwise, go to step S114 ";
Step S113 ", with forward node establish communication channel, and by the communication channel of foundation by the wearable device of acquisition
Identification information send to the forward node;
Whether step S114 ", the number of identification information for the wearable device for judging to obtain are more than or equal to default number
Threshold value, if so, going to step S115 ", otherwise, go to step S111 ".
Step S115 ", with forward node establish communication channel, and by the communication channel of foundation by all wearings of acquisition
The identification information of equipment is sent to the forward node;
The vital sign data of acquisition is converted to chirp data by step S12, wearable device.
Step S13, wearable device send the chirp data to forward node.
In the embodiment of the present invention, store one in receiving device in advance and send table immediately, this sends table storage needs immediately
The identification information of the wearable device sent immediately, certainly, if needing to send immediately can be set or be changed according to user, example
Such as, it is assumed that user wants to obtain the identification information of wearable device in time, then is arranged to the identification information of the wearable device
Need to send immediately, and be deposited into transmission table immediately, certainly, if user need not subsequently obtain the mark letter of wearable device immediately
Breath, then can be from the identification information for sending wearable device corresponding to deletion in table immediately.
In the embodiment of the present invention, need to send immediately and need not be immediately due to being divided into the identification information of wearable device
Two classes are sent, after receiving device gets the identification information for the wearable device for needing to send immediately, are built immediately with forward node
Vertical communication channel, the identification information of wearable device is sent to forward node, improve wearable device by the communication channel
The efficiency that identification information is sent in time;After receiving device gets the identification information for the wearable device that need not be sent immediately,
Continue the identification information of acquisition wearable device, until the number of the identification information of the wearable device of acquisition is more than default number threshold
Value, then communication channel is established with forward node, the identification information of all wearable devices of acquisition is sent by the communication channel
To forward node, so as to reduce the number of communications with forward node, bandwidth occupancy is reduced, improves resource utilization.
Embodiment five:
Fig. 5 shows the flow chart for the 5th kind of vital sign monitoring method that fifth embodiment of the invention provides, in this implementation
In example, mainly the step S12 of embodiment one is refined, step S11, step S13 is identical with embodiment one, is described in detail such as
Under:
Step S11, receiving device obtain the identification information of the wearable device from the RFID of wearable device,
And the identification information of the wearable device is sent to forward node.
Step S11 thinning process is identical with embodiment two, three, four, and here is omitted.
Step S121, wearable device determine the chirp data type that the vital sign data will be changed.
Wherein, chirp data type is primarily referred to as " chirp " pattern corresponding to chirp frame:The public and privately owned portion of chirp frame
Point can by known to one, " the public field end-tag " of variable length make a distinction.For example, end-tag can be 4
Bit or 8 bits, this is mainly dependent on whether to need 15 or 255 kind of different types of (public) " chirp " pattern.Wherein, Fig. 6
Show a kind of classification of chirp frame.
Specifically, a configuration information is prestored, the configuration information includes at least one chirp data type.When only
During a kind of chirp data type, vital sign data is all converted to the chirp data type by each wearable device;It is a variety of when having
During chirp data type, vital sign data gradually can be converted into previous cycle order and taken turns to according to default circular order
Chirp data type.Wherein, default circular order can be to circulate in order, or, by the priority of chirp data type
Circulation.When chirp data type has priority, the chirp data type can be that user is set according to the actual requirements, or,
How much the maximum data capacity that can be transmitted according to single chirp frame is configured (for example, can transmit when single chirp frame
Maximum data capacity is bigger, and its corresponding priority is lower, it is of course also possible to set the maximum that can be transmitted when single chirp frame
Data capacity is bigger, and its corresponding priority is more high).
Step S122, wearable device will obtain using the single frames maximum data memory capacity of the chirp data type as foundation
The vital sign data taken is divided into N section, and the N is integer, and N is more than or equal to 1.
Due to different types of chirp frame (i.e. different chirp data types), its corresponding single frames maximum data storage is held
Amount is different, therefore, if the vital sign data obtained in a period of time is excessive, it is impossible to sent by single chirp frame complete
When, the maximum data memory capacity that the vital sign data of acquisition can transmit according to single chirp frame can be divided into multiple portions
Point.
Step S123, wearable device are converted to the vital sign data according to division result the chirp of N number of chirp frame
Data.
It is pointed out that during division, can be drawn according to the sequencing of the vital sign data of acquisition
Point, and/or, divided according to the species of the vital sign data of acquisition.For example, during division, for acquisition
Multiple heartbeat datas are divided, or are divided etc. for multiple pulse datas of acquisition.Certainly, if last group of data are small
When the maximum data memory capacity that single chirp frame can transmit, then null byte filling is can use.
The chirp data are corresponded to and sent to forward node by step S13, wearable device.
In the embodiment of the present invention, the chirp data type that will be changed due to first determining the vital sign data, then with
The single frames maximum data memory capacity of the chirp data type is foundation, and the vital sign data of acquisition is divided into N section,
Vital sign data is finally converted to the chirp data of N number of chirp frame according to division result, Zhou is converted to therefore, it is possible to improve
Sing the speed of frame, and then improve and send chirp data are corresponding to the speed of forward node.
Embodiment six:
Fig. 7 shows the flow chart for the 6th kind of vital sign monitoring method that sixth embodiment of the invention provides, the present embodiment
In, also include when performing step S11:
Step S10, the RFID of wearable device utilize RF magnetic field caused by the receiving device to produce electric energy
And store the electric energy.
Worn described in being obtained in RFID of the receiving device (receiving device includes read write line) from wearable device
When wearing the identification information of equipment, it can produce a RF magnetic field, using the RF magnetic field can of short duration generation electric energy, store the electricity
Can be as the self-powered of the RFID of wearable device.Because the RFID of wearable device is only led to read write line
Letter, and the identification information of wearable device need to be only sent, without transmitting substantial amounts of information, therefore, its is simple in construction, and communication is simple,
The electricity of consuming is also seldom, and confession electrical property can be also realized merely with electric energy caused by the of short duration communication with read write line.
Step S11, receiving device obtain the identification information of the wearable device from the RFID of wearable device,
And the identification information of the wearable device is sent to forward node.
The vital sign data of acquisition is converted to chirp data by step S12, wearable device.
Step S13, wearable device send the chirp data to forward node.
Wherein, step S11 to step S13 is identical with above-described embodiment one to embodiment five, and here is omitted.
In the embodiment of the present invention, because the RFID of wearable device can utilize the of short duration communication with read write line to produce
Raw electric energy can also realize confession electrical property, it is therefore not necessary to additionally configure battery mould for the RFID of the wearable device
Block, so as to reduce the cost of the RFID of the wearable device.
Embodiment seven:
Fig. 8 shows the flow chart for the 7th kind of vital sign monitoring method that seventh embodiment of the invention provides, the present embodiment
Mainly the step S13 of above-described embodiment is refined, step S11 and step S12 are identical with above-described embodiment, are described in detail such as
Under:
Step S11, receiving device obtain the identification information of the wearable device from the RFID of wearable device,
And the identification information of the wearable device is sent to forward node.
The vital sign data of acquisition is converted to chirp data by step S12, wearable device.
Step S13 ', wearable device are sent the chirp data to forward node by infrared ray or bluetooth.
Specifically, infrared transmission module or Bluetooth transmission module corresponding to wearable device setting.
Because when using infrared ray or bluetooth data transmission, its anti-interference, stability and speed better than use
Wifi is transmitted, and therefore, during the present invention is implemented, the chirp data are sent to forwarding and saved by wearable device by infrared ray or bluetooth
Point, more rapidly, stably chirp data can be sent to forward node.
Embodiment eight:
Fig. 9 shows the flow chart for the 8th kind of vital sign monitoring method that eighth embodiment of the invention provides, the present embodiment
In, in order to which the more information transfers of user are gone out, wearable device can also obtain other numbers when obtaining vital sign data
According to for example, by the positional information of alignment sensor user, now, in step S12, wearable device is except needing acquisition
Vital sign data is converted to outside chirp data, it is also necessary to which the positional information of acquisition is converted into chirp data.
Step S11, receiving device obtain the identification information of the wearable device from the RFID of wearable device,
And the identification information of the wearable device is sent to forward node.
The vital sign data of acquisition and positional information are converted to chirp data by step S12 ', wearable device.
Step S13, wearable device send the chirp data to forward node.
In the embodiment of the present invention, because the vital sign data of acquisition and positional information are converted to chirp by wearable device
Data, and the chirp data are sent to forward node, therefore, it is possible to which the more information transfers of user are gone out, it is easy to use
Family or other users are known.
Embodiment nine:
Figure 10 shows the flow chart for the 1st kind of vital sign data integration method that ninth embodiment of the invention provides, this
In embodiment, the process of vital sign data how is mainly integrated from forward node, description, details are as follows:
Step S101, forward node receive the identification information for the wearable device that receiving device is sent.
Wherein, the receiving device can be read write line.
Wherein, forward node is traditional networking equipment of such as interchanger and router etc.
Step S102, forward node receive the chirp data that the wearable device is sent, and the chirp data are included by giving birth to
The data that life sign data is converted to.
Wherein, vital sign data includes:Heartbeat, pulse, shell temperature etc.;
Wherein, chirp data refer to the data for storing, transmitting by chirp frame.
Alternatively, when the positional information of the user of acquisition is also converted to chirp data by wearable device, then forward node
The chirp data of reception, believe in addition to the data including being converted to by vital sign data, in addition to by the position of user
Cease the data being converted to.
Step S103, forward node encapsulate the identification information and chirp data of the wearable device, obtain corresponding encapsulation
Bag.
Specifically, because chirp data are brief data, " chirp " agreement lacks similar TCP/IP classical configuration, because
This, the identification information of wearable device and chirp data need to be encapsulated as IP packets by forward node, so as to subsequently can be existing
The network system in send the chirp data that the IP packets include.Wherein, IP packets here include IPv6 packets.
It is pointed out that when the chirp data that a wearable device is sent are less, in order to avoid the wasting of resources, forwarding
The chirp Dynamic data exchange of the wearable device will not be encapsulated as an IP packet by node.Specifically, forward node can will be multiple
The chirp data that wearable device (or multiple sensors) is sent are encapsulated in an IP packet together.Alternatively, for purification receiving
The data flow for the multiple chirp data received, can cut redundancy after the data flow of chirp data of multiple wearable devices is collected
Data, and the data flow of remaining chirp data after cutting is encapsulated in an IP packet together.
Step S104, forward node send the wrapper to convergence unit, so that the convergence unit is to the envelope
After filling bag processing, result is sent to designated terminal.
The chirp data of the wearable device (or other-end equipment) of magnanimity in the convergence unit of Internet of Things, it is necessary to carry out
Analysis, and corresponding decision is performed according to result.Certainly, convergence unit can also send " chirp " of oneself and go to obtain information or match somebody with somebody
Put device parameter.In addition, convergence unit can also introduce various outside inputs, including big data and social networks trend, for example, drawing
Enter weather forecast etc..
Convergence unit carries the important task of Internet of Things man-machine interface, and it is handled wrapper, such as reduces a certain section
Collected abysmal mass data in time, as far as possible to people provide one group it is more succinct alarm, it is abnormal and other
Correlation analysis is reported.
In the embodiment of the present invention, because forward node is by the mark of the wearable device of reception and including by vital sign number
IP packets are encapsulated as together according to the chirp data being converted to, therefore so that the mark of vital sign data and wearable device
Knowledge can be transmitted in traditional network, on the basis of the cost of the wearable device of vital sign data is obtained in reduction,
The vital sign data of acquisition is transferred to designated terminal, is easy to user or other-end to know.
Embodiment ten:
Figure 11 shows the flow chart for the 2nd kind of vital sign data integration method that tenth embodiment of the invention provides, this
In embodiment, mainly the step S104 of embodiment nine is refined, details are as follows:
Wherein, step S101, step S102, step S103 specific implementation process are identical with embodiment nine, herein not
Repeat again.
Step S101, forward node receive the identification information for the wearable device that receiving device is sent.
Step S102, forward node receive the chirp data that the wearable device is sent, and the chirp data are included by giving birth to
The data that life sign data is converted to.
Step S103, forward node encapsulate the identification information and chirp data of the wearable device, obtain corresponding encapsulation
Bag.
Step S1041, forward node parse the chirp data, obtain the convergence unit letter that the chirp data carry
Breath.
Specifically, chirp data carry the convergence unit information that it need to send, for example, carrying the money order that need to be sent
The unique identification information of member, the unique identification information of the convergence unit being capable of the different convergence unit of unique mark.Certainly, chirp
The unique identification information for the convergence unit that data carry can be pre-configured with for user, also can be according to nearest principle, automatically will be with wearing
Wear the nearest money order member in equipment region and be configured to the convergence unit that the chirp data of the wearable device carry.
Step S1042, forward node send the wrapper to corresponding money order according to the convergence unit information
Member, so that after the convergence unit is to wrapper processing, result is sent to designated terminal.
Alternatively, in order to further filter non-essential data, then forward node send wrapper to converge unit it
Before, the data of corresponding filtering gateway filtering wrapper are first passed through, and then turn the wrapper after filtering by filtering gateway
It is dealt into convergence unit.
In the embodiment of the present invention, because forward node parses the unique mark for the convergence unit that need to be forwarded from chirp data
Information, therefore, it is possible to which the chirp data of reception are accurately sent into corresponding convergence unit, so that it is accurate by the convergence unit
It is sent to the terminal specified.
Embodiment 11:
Figure 12 shows a kind of structural representation for life sign monitor system that eleventh embodiment of the invention provides, and is
It is easy to illustrate, illustrate only part related to the present embodiment:
The life sign monitor system 12 includes:Receiving device 121, wearable device 122, forward node 123 and remittance
Poly- unit 124, the wearable device 122 are provided with RFID 1221.
The receiving device 121, for obtaining the wearable device from the RFID 1221 of wearable device
Identification information, and the identification information of the wearable device is sent to forward node.
Wherein, the receiving device 121 can be read write line.
Specifically, when receiving device 121 obtains the mark of the wearable device from the RFID of wearable device
Information, when the identification information of the wearable device of acquisition is sent to forward node, it can obtain the mark letter of wearable device
After breath, communication channel is established with forward node at once, and by the communication channel of foundation by the mark of the wearable device of acquisition
Know information to send to the forward node.
After the identification information that the wearable device can also be obtained from the RFID of wearable device, judge to obtain
The number of identification information of wearable device whether be more than or equal to default number threshold value, if so, being established with forward node logical
Believe channel, and sent the identification information of all wearable devices of acquisition to the forward node by the communication channel of foundation,
If it is not, continue to obtain the identification information of other next wearable devices.
After the identification information that the wearable device can also be obtained from the RFID of wearable device, described in judgement
Whether the identification information of wearable device is any one identification information being stored in transmission table immediately, if so, being built with forward node
Vertical communication channel, and sent the identification information of the wearable device of acquisition to the forward node by the communication channel of foundation,
If it is not, whether the number of identification information for the wearable device for judging to obtain is more than or equal to default number threshold value, if be more than or
It is equal to, then establishes communication channel with forward node, and by the communication channel of foundation by the mark of all wearable devices of acquisition
Information is sent to the forward node, if being less than, continues to obtain the identification information of wearable device.
Referring specifically to embodiment two, embodiment three, example IV.
Wherein, the wearable device 122 includes:
Chirp Date Conversion Unit 1222, for the vital sign data of acquisition to be converted into chirp data.
Wherein, vital sign data includes:Heartbeat, pulse, shell temperature etc..
Wherein, chirp data refer to the data for storing, transmitting by chirp frame.
Chirp data transmission unit 1223, for the chirp data to be sent to forward node.
Alternatively, the chirp Date Conversion Unit 1222 includes:
Chirp data type determining module, the chirp data type that will be changed for determining the vital sign data.
Wherein, chirp data type is primarily referred to as " chirp " pattern corresponding to chirp frame:The public and privately owned portion of chirp frame
Point can by known to one, " the public field end-tag " of variable length make a distinction.For example, end-tag can be 4
Bit or 8 bits, this is mainly dependent on whether to need 15 or 255 kind of different types of (public) " chirp " pattern.Wherein, Fig. 6
Show a kind of classification of chirp frame.
Specifically, a configuration information is prestored, the configuration information includes at least one chirp data type.When only
During a kind of chirp data type, vital sign data is all converted to the chirp data type by each wearable device;It is a variety of when having
During chirp data type, vital sign data gradually can be converted into previous cycle order and taken turns to according to default circular order
Chirp data type.Wherein, default circular order can be to circulate in order, or, by the priority of chirp data type
Circulation.When chirp data type has priority, the chirp data type can be that user is set according to the actual requirements, or,
How much the maximum data capacity that can be transmitted according to single chirp frame is configured (for example, can transmit when single chirp frame
Maximum data capacity is bigger, and its corresponding priority is lower, it is of course also possible to set the maximum that can be transmitted when single chirp frame
Data capacity is bigger, and its corresponding priority is more high)
Vital sign data division module, for using the single frames maximum data memory capacity of the chirp data type as according to
According to the vital sign data of acquisition being divided into N section, the N is integer, and N is more than or equal to 1.
Chirp data conversion module, for the vital sign data to be converted into N number of chirp frame according to division result
Chirp data.
Alternatively, during the RFID 1221 of wearable device communicates with receiving device 121, the wearing
The RFID 1221 of equipment produces electric energy using RF magnetic field caused by the receiving device and stored.
Alternatively, the chirp data transmission unit 1223 is specifically used for passing through infrared ray or bluetooth by the chirp data
Send to forward node.
The forward node 123, the identification information of the wearable device sent for receiving the receiving device 121, and,
The chirp data that the chirp data transmission unit 1223 is sent are received, encapsulate the identification information and chirp number of the wearable device
According to obtaining corresponding wrapper, and the wrapper is sent to convergence unit 124;
The convergence unit 124, for handling the wrapper, and result is sent to designated terminal.
, therefore, can, meter cheap, simple in construction by cost because chirp data are brief data in the embodiment of the present invention
The terminal device generation limited with storage capacity is calculated, so as to greatly save cost, further, since the mark of wearable device is believed
The chirp data that breath and the wearable device obtain all are sent to forward node, therefore, can also send wearable device acquisition in time
Vital sign data.
Embodiment 12:
Figure 13 shows a kind of structural representation for forward node that twelveth embodiment of the invention provides, wherein, forwarding
Node is traditional networking equipment of such as interchanger and router etc, for convenience of description, be illustrate only and the present embodiment phase
The part of pass:
The forward node, it is characterised in that including:
Identification information receiving unit 131, the identification information of the wearable device for receiving receiving device transmission.
Chirp data receipt unit 132, the chirp data sent for receiving the wearable device, the chirp packet
Include the data being converted to by vital sign data.
Alternatively, when the positional information of the user of acquisition is also converted to chirp data by wearable device, then forward node
The chirp data of reception, believe in addition to the data including being converted to by vital sign data, in addition to by the position of user
Cease the data being converted to.
Wrapper generation unit 133, for encapsulating the identification information and chirp data of the wearable device, obtain corresponding
Wrapper.
It is pointed out that when the chirp data that a wearable device is sent are less, in order to avoid the wasting of resources, forwarding
The chirp Dynamic data exchange of the wearable device will not be encapsulated as an IP packet by node.Specifically, forward node can will be multiple
The chirp data that wearable device (or multiple sensors) is sent are encapsulated in an IP packet together.Alternatively, for purification receiving
The data flow for the multiple chirp data received, can cut redundancy after the data flow of chirp data of multiple wearable devices is collected
Data, and the data flow of remaining chirp data after cutting is encapsulated in an IP packet together.
Wrapper transmitting element 134, for the wrapper to be sent to convergence unit, so that the convergence unit is to institute
After stating wrapper processing, result is sent to designated terminal.
Alternatively, the wrapper transmitting element 134 includes:
Chirp data resolution module, for parsing the chirp data, obtain the convergence unit that the chirp data carry
Information.
Wrapper sending module, for being sent the wrapper to corresponding money order according to the convergence unit information
Member, so that after the convergence unit is to wrapper processing, result is sent to designated terminal.
In the embodiment of the present invention, because forward node is by the mark of the wearable device of reception and including by vital sign number
IP packets are encapsulated as together according to the chirp data being converted to, therefore so that the mark of vital sign data and wearable device
Knowledge can be transmitted in traditional network, on the basis of the cost of the wearable device of vital sign data is obtained in reduction,
The vital sign data of acquisition is transferred to designated terminal, is easy to user or other-end to know.
The embodiment of the present invention additionally provides a kind of terminal device, including memory, processor and is stored in the storage
In device and the computer program that can run on the processor, realized described in the computing device during computer program as weighed
Profit requires described vital sign monitoring method step.
The embodiment of the present invention additionally provides a kind of computer-readable recording medium, the computer-readable recording medium storage
There is computer program, it is characterised in that the computer program realizes life as claimed in claim when being executed by processor
Sign monitoring method step.
It is apparent to those skilled in the art that for convenience of description and succinctly, only with above-mentioned each work(
Can unit, module division progress for example, in practical application, can be as needed and by above-mentioned function distribution by different
Functional unit, module are completed, i.e., the internal structure of described device are divided into different functional units or module, more than completion
The all or part of function of description.Each functional unit, module in embodiment can be integrated in a processing unit, also may be used
To be that unit is individually physically present, can also two or more units it is integrated in a unit, it is above-mentioned integrated
Unit can both be realized in the form of hardware, can also be realized in the form of SFU software functional unit.In addition, each function list
Member, the specific name of module are not limited to the protection domain of the application also only to facilitate mutually distinguish.Said system
The specific work process of middle unit, module, the corresponding process in preceding method embodiment is may be referred to, will not be repeated here.
In the above-described embodiments, the description to each embodiment all emphasizes particularly on different fields, and is not described in detail or remembers in some embodiment
The part of load, it may refer to the associated description of other embodiments.
Those of ordinary skill in the art are it is to be appreciated that the list of each example described with reference to the embodiments described herein
Member and algorithm steps, it can be realized with the combination of electronic hardware or computer software and electronic hardware.These functions are actually
Performed with hardware or software mode, application-specific and design constraint depending on technical scheme.Professional and technical personnel
Described function can be realized using distinct methods to each specific application, but this realization is it is not considered that exceed
The scope of the present invention.
In embodiment provided by the present invention, it should be understood that disclosed apparatus and method, others can be passed through
Mode is realized.For example, system embodiment described above is only schematical, for example, the division of the module or unit,
Only a kind of division of logic function, can there is an other dividing mode when actually realizing, such as multiple units or component can be with
With reference to or be desirably integrated into another system, or some features can be ignored, or not perform.It is another, it is shown or discussed
Mutual coupling or direct-coupling or communication connection can be by some interfaces, the INDIRECT COUPLING of device or unit or
Communication connection, can be electrical, mechanical or other forms.
The unit illustrated as separating component can be or may not be physically separate, show as unit
The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple
On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs
's.
In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, can also
That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list
Member can both be realized in the form of hardware, can also be realized in the form of SFU software functional unit.
If the integrated unit is realized in the form of SFU software functional unit and is used as independent production marketing or use
When, it can be stored in a computer read/write memory medium.Based on such understanding, the technical scheme of the embodiment of the present invention
The part substantially to be contributed in other words to prior art or all or part of the technical scheme can be with software products
Form embody, the computer software product is stored in a storage medium, including some instructions are causing one
Computer equipment (can be personal computer, server, or network equipment etc.) or processor (processor) perform this hair
The all or part of step of the bright each embodiment methods described of embodiment.And foregoing storage medium includes:USB flash disk, mobile hard disk,
Read-only storage (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic
Dish or CD etc. are various can be with the medium of store program codes.
Embodiment described above is merely illustrative of the technical solution of the present invention, rather than its limitations;Although with reference to foregoing reality
Example is applied the present invention is described in detail, it will be understood by those within the art that:It still can be to foregoing each
Technical scheme described in embodiment is modified, or carries out equivalent substitution to which part technical characteristic;And these are changed
Or replace, the essence of appropriate technical solution is departed from the spirit and scope of various embodiments of the present invention technical scheme, all should
Within protection scope of the present invention.
Claims (10)
- A kind of 1. vital sign monitoring method, it is characterised in that including:Receiving device obtains the identification information of the wearable device from the RFID of wearable device, and by the wearing The identification information of equipment is sent to forward node;The vital sign data of acquisition is converted to chirp data by wearable device;Wearable device sends the chirp data to forward node.
- 2. vital sign monitoring method as claimed in claim 1, it is characterised in that the wearable device is by the life entity of acquisition Sign data are converted to chirp data, specifically include:Wearable device determines the chirp data type that the vital sign data will be changed;Wearable device is using the single frames maximum data memory capacity of the chirp data type as foundation, by the vital sign number of acquisition According to N section is divided into, the N is integer, and N is more than or equal to 1;Wearable device is converted to the vital sign data according to division result the chirp data of N number of chirp frame.
- 3. vital sign monitoring method as claimed in claim 1, it is characterised in that in the receiving device from wearable device The identification information of the wearable device is obtained in RFID, and the identification information of the wearable device is sent to forwarding During node, including:The RFID of wearable device utilizes RF magnetic field caused by the receiving device to produce electric energy and stored.
- 4. vital sign monitoring method as claimed in claim 1, it is characterised in that the wearable device is by the chirp data Send to forward node, specifically include:Wearable device is sent the chirp data to forward node by infrared ray or bluetooth.
- A kind of 5. vital sign data integration method, it is characterised in that including:Forward node receives the identification information for the wearable device that receiving device is sent;Forward node receives the chirp data that the wearable device is sent, and the chirp data include being changed by vital sign data Obtained data;Forward node encapsulates the identification information and chirp data of the wearable device, obtains corresponding wrapper;Forward node sends the wrapper to convergence unit, so that after the convergence unit is to wrapper processing, will Result is sent to designated terminal.
- 6. vital sign monitoring method as claimed in claim 5, it is characterised in that the forward node sends out the wrapper Convergence unit is delivered to, so that after the convergence unit is to wrapper processing, result is sent to designated terminal, bag Include:Forward node parses the chirp data, obtains the convergence unit information that the chirp data carry;Forward node sends the wrapper to corresponding convergence unit according to the convergence unit information, so that the convergence After unit is to wrapper processing, result is sent to designated terminal.
- 7. a kind of life sign monitor system, it is characterised in that the life sign monitor system includes:Receiving device, wearing Equipment, forward node and convergence unit, the wearable device are provided with RFID;The receiving device, for obtaining the identification information of the wearable device from the RFID of wearable device, and The identification information of the wearable device is sent to forward node;The wearable device includes:Chirp Date Conversion Unit, for the vital sign data of acquisition to be converted into chirp data;Chirp data transmission unit, for the chirp data to be sent to forward node.The forward node, the identification information of the wearable device sent for receiving the receiving device, and, receive the Zhou The chirp data that data transmission unit of singing is sent, the identification information and chirp data of the wearable device are encapsulated, obtained corresponding Wrapper, and the wrapper is sent to convergence unit;The convergence unit, for handling the wrapper, and result is sent to designated terminal.
- A kind of 8. forward node, it is characterised in that including:Identification information receiving unit, the identification information of the wearable device for receiving receiving device transmission;Chirp data receipt unit, the chirp data sent for receiving the wearable device, the chirp data are included by giving birth to The data that life sign data is converted to;Wrapper generation unit, for encapsulating the identification information and chirp data of the wearable device, obtain corresponding wrapper;Wrapper transmitting element, for the wrapper to be sent to convergence unit, so that the convergence unit is to the encapsulation After bag processing, result is sent to designated terminal.
- 9. a kind of life sign monitor system, including memory, processor and it is stored in the memory and can be described The computer program run on processor, it is characterised in that realize such as right described in the computing device during computer program It is required that the step of any one of 1 to 6 methods described.
- 10. a kind of computer-readable recording medium, the computer-readable recording medium storage has computer program, and its feature exists In when the computer program is executed by processor the step of realization such as any one of claim 1 to 6 methods described.
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CN201710461742.8A CN107368675A (en) | 2017-06-16 | 2017-06-16 | Vital sign monitoring method, system and data integration method, forward node |
PCT/CN2017/093304 WO2018227687A1 (en) | 2017-06-16 | 2017-07-18 | Method and system for monitoring vital signs, data integration method, and forwarding node |
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