CN104799832A - Heath data Internet of things monitoring device and monitoring method - Google Patents
Heath data Internet of things monitoring device and monitoring method Download PDFInfo
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- CN104799832A CN104799832A CN201510203809.9A CN201510203809A CN104799832A CN 104799832 A CN104799832 A CN 104799832A CN 201510203809 A CN201510203809 A CN 201510203809A CN 104799832 A CN104799832 A CN 104799832A
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Abstract
The invention discloses a heath data internet of things monitoring device and a monitoring method. The monitoring device comprises a business data acquisition module (1), a node terminal acquisition module (2), zone routing APs (Access Point) (3) and a network management module (4), wherein the business data acquisition module (1) is used for transmitting detection data to the node terminal acquisition module (2) through the network; the node terminal acquisition module (2) is used for initiating bidirectional data transmission to the zone router APs (3) through the network; the plurality of zone routing APs (3) are used for gathering data to the network management module (4) through the network. The health data Internet of things monitoring method and monitoring device can be used for conveniently and rapidly finishing remote acquisition of medical treatment information of patients without the need of reading meters by medical personnel on site, and thus the working efficiency of the medical personnel is improved to a certain degree.
Description
Technical field
The present invention discloses a kind of health data Internet of Things monitoring device and implementation method, relates to medical monitoring arts, belongs to the innovative technology of health data Internet of Things monitoring device and monitoring method.
Background technology
Along with the development of state-of-the-art technology, one that combines with medical skill as modern communication technology emerging marginal technology subject, tele-medicine is the current Medical treatment system of China, health care proposes an effective solution.Combined with medical science by information technology, rely on the real-time communication of network, some physiological parameters of patient are sent to monitoring station, for medical personnel provide medical information in real time, facilitate the medical and medical personnel of patient can make diagnosis in time, improve medical monitoring efficiency.
Telemedicine monitoring system based on wireless sensor network is a kind of modernization telemedicine monitoring system, it utilizes medical treatment transducer as physiology information detecting interface, adopt wireless communication technology that the patient's physiologic information gathered is sent to monitoring station, medical personnel can directly analyze the physiologic information of patient in monitoring station thus reach remote diagnosis effect.Therefore, need the telemedicine monitoring system that structure one is quick, effective, real-time, solve in medical monitoring process, care provider, to the loaded down with trivial details record of patient's physiologic information, improves monitoring efficiency.
Summary of the invention
For solving the problems of the technologies described above, the object of this invention is to provide a kind of health data Internet of Things monitoring device, the present invention can effectively real time record with upload the physiologic information of patient, solve the workload that care provider is loaded down with trivial details, improve monitoring efficiency.
Another object of the present invention is to provide a kind of monitoring method of health data Internet of Things monitoring device, and real-time of the present invention is good, and reliability is high, compatible strong.
Object of the present invention is realized by following technical scheme:
A kind of health data Internet of Things monitoring device of the present invention, comprise service data acquisition module, nodal terminal acquisition module, Partial route AP, network management module, wherein service data acquisition module detects data by network to the transmission of nodal terminal acquisition module, and nodal terminal acquisition module initiates bidirectional data transfers by network to Partial route AP; Multiple Partial route AP by network by convergence to network management module.
The monitoring method of health data Internet of Things monitoring device of the present invention, comprises the steps:
1) service data acquisition module transmits the detection data of body temperature harvester and blood oxygen pulse harvester to nodal terminal acquisition module by zigbee network;
2), after nodal terminal acquisition module obtains and detects data, bidirectional data transfers is initiated by zigbee network to Partial route AP;
3) multiple Partial route AP converges to network management module by zigbee network, and is uploaded onto the server by network by network management module (4).
Compared with prior art, tool of the present invention has the following advantages:
(1) real-time is good.Patient's physiologic information relies on wireless sense network to upload to server with the form of " heartbeat packet ", has broken away from traditional medical personnel and has gone to patient and make a copy of instrument by the side of, and information updating speed is fast, ensures that medical monitoring personnel understand the physiological situation of patient in time.
(2) reliability is high.The medical monitoring system that the present invention improves relies on sensor network technology, and wireless sense network self has link self-recoverage, self-healing mechanism, supports effectively bind and the unbind of multinode, ensure that the reliability of data upload.
(3) compatible strong.Partial route AP provided by the invention, has opened WIFI module, Ethernet interface and 3G network interface, supports to be logged in or Telnet by mobile phone this locality, obtains the physiologic information of patient, simultaneously compatible several data obtain manner.
Accompanying drawing explanation
Fig. 1 is system block diagram of the present invention;
Fig. 2 is nodal terminal acquisition module system block diagram of the present invention;
Fig. 3 is Partial route AP system block diagram of the present invention.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, accompanying drawing is used to provide a further understanding of the present invention, and form a part for description, with embodiment provided by the invention jointly for explaining the present invention, but embodiments of the present invention are not limited thereto, be not construed as limiting the invention.
The theory diagram of health data Internet of Things monitoring device of the present invention as shown in Figure 1, health data Internet of Things monitoring device of the present invention, comprise service data acquisition module 1, nodal terminal acquisition module 2, Partial route AP3, network management module 4, wherein service data acquisition module 1 transmits detection data by network to nodal terminal acquisition module 2, and nodal terminal acquisition module 2 initiates bidirectional data transfers by network to Partial route AP3; Multiple Partial route AP3 by network by convergence to network management module 4.
In the present embodiment, above-mentioned network management module 4 also upload the data to server by network.
In the present embodiment, above-mentioned service data acquisition module 1 is made up of body temperature harvester and blood oxygen pulse harvester.
In the present embodiment, above-mentioned service data acquisition module 1 transmits the detection data of body temperature harvester and blood oxygen pulse harvester to nodal terminal acquisition module 2 by zigbee network.
The theory diagram of nodal terminal acquisition module 2 of the present invention as shown in Figure 2, comprise microprocessor 21, zigbee module 22, LCD liquid crystal display screen 23, voice module 24, supply module 25, wherein supply module 25 supplies power to microprocessor 21, zigbee module 22 and voice module 24 are connected with microprocessor 21, the outfan of microprocessor 21 is connected with LCD liquid crystal display screen 23, and described zigbee module 22 is set as the terminal node in zigbee network.
The supply module 25 of described nodal terminal acquisition module 2 is 5V batteries, zigbee module 22 is set as the terminal node in zigbee network, nodal terminal acquisition module 2 obtains the body temperature harvester 11 of service data acquisition module 1 and the detection data of blood oxygen pulse harvester 12 by zigbee module 22, and detection data is presented in real time on LCD liquid crystal display screen 23.Nodal terminal acquisition module 2 can realize point-to-point speech communication by zigbee module 22.When multiple service data acquisition module (1) and the mixing of multiple nodal terminal acquisition module 2 exist, effective dynamic binding of service data acquisition module 1 and nodal terminal acquisition module 2 and dynamic unbind can be provided with to nodal terminal acquisition module 2.
The theory diagram of Partial route AP of the present invention as shown in Figure 3, Partial route AP3 comprises arm processor 31, WIFI module 32, zigbee module 33, supply module 34, serial ports and USB port 35, RJ45 Ethernet interface 36, wherein supply module 34 supplies power to arm processor 31, WIFI module 32 and zigbee module 33 are connected with arm processor 31, and arm processor 31 is also connected with serial ports and USB port 35 and RJ45 Ethernet interface 36.Described zigbee module 33 is set as the router in zigbee network, uses as relaying.In addition, above-mentioned arm processor (31) is also connected with 3G network interface 37.
The supply module 34 of described Partial route AP3 is 5V power supply adaptor, and zigbee module 33 is set as the router in zigbee network, uses as relaying.Partial route AP3 obtains the detection data of multiple nodal terminal acquisition module 2 by zigbee module 33, after Unified coding, sent the detection data of all nodal terminal acquisition modules 2 under this Partial route AP3 management more in real time to network management module 4 by zigbee module 33, zigbee module 33 also can transmitting voice information.In addition, android mobile phone is installed supporting android application program, WIFI module 32 on Partial route AP3 is set as hotspot pattern, and mobile phone to be connected into after Partial route AP3 with WIFI form can the detection data of each nodal terminal acquisition module 2 of online query.Serial ports and USB port 35 use as debugging, and RJ45 Ethernet interface 36 and 3G module interface 37 are expanded and used.
The composition of described network management module 4 is the same with the composition of Partial route AP3, zigbee module settings is wherein the coordinator in zigbee network, manage this zigbee network, and as the Rendezvous Point of data, by the detection data upload of each node to server.Network management module 4 obtains the detection data of multiple Partial route AP3 by zigbee module, after Unified coding, and the detection data of this network under being managed to host computer transmission network management module 4 in real time by RJ45 Ethernet interface.
The monitoring method of health data Internet of Things monitoring device of the present invention, comprises the steps:
1) service data acquisition module 1 transmits the detection data of body temperature harvester and blood oxygen pulse harvester to nodal terminal acquisition module (2) by zigbee network;
2), after nodal terminal acquisition module 2 obtains and detects data, bidirectional data transfers is initiated by zigbee network to Partial route AP3;
3) multiple Partial route AP3 converges to network management module 4 by zigbee network, and is uploaded onto the server by network by network management module 4.
Above-mentioned network management module 4 is connected to router by Ethernet network interface, then is uploaded onto the server by latticed form.
Although the embodiment disclosed by the present invention is as above, the embodiment that described content just adopts for the ease of understanding the present invention, and be not used to limit the present invention.Technical staff in any the technical field of the invention; under the prerequisite not departing from the spirit and scope disclosed by the present invention; any amendment and change can be done what implement in form and in details; but scope of patent protection of the present invention, the scope that still must define with appending claims is as the criterion.
Claims (10)
1. a health data Internet of Things monitoring device, it is characterized in that comprising service data acquisition module (1), nodal terminal acquisition module (2), Partial route AP (3), network management module (4), wherein service data acquisition module (1) detects data by network to nodal terminal acquisition module (2) transmission, and nodal terminal acquisition module (2) initiates bidirectional data transfers by network to Partial route AP (3); Multiple Partial route AP (3) by network by convergence to network management module (4).
2. health data Internet of Things monitoring device according to claim 1, is characterized in that above-mentioned network management module (4) also upload the data to server by network.
3. health data Internet of Things monitoring device according to claim 1, is characterized in that above-mentioned service data acquisition module (1) is made up of body temperature harvester and blood oxygen pulse harvester.
4. health data Internet of Things monitoring device according to claim 1, is characterized in that above-mentioned service data acquisition module (1) transmits the detection data of body temperature harvester and blood oxygen pulse harvester to nodal terminal acquisition module (2) by zigbee network.
5. health data Internet of Things monitoring device according to claim 1, it is characterized in that above-mentioned nodal terminal acquisition module (2) comprises microprocessor (21), zigbee module (22), LCD liquid crystal display screen (23), voice module (24), supply module (25), wherein supply module (25) supplies power to microprocessor (21), zigbee module (22) and voice module (24) are connected with microprocessor (21), the outfan of microprocessor (21) is connected with LCD liquid crystal display screen (23), described zigbee module (22) is set as the terminal node in zigbee network.
6. health data Internet of Things monitoring device according to claim 1, it is characterized in that above-mentioned zone route AP (3) comprises arm processor (31), WIFI module (32), zigbee module (33), supply module (34), serial ports and USB port (35), RJ45 Ethernet interface (36), 3G network interface (37), wherein supply module (34) supplies power to arm processor (31), WIFI module (32) and zigbee module (33) are connected with arm processor (31), arm processor (31) is also connected with serial ports and USB port (35) and RJ45 Ethernet interface (36).
7. health data Internet of Things monitoring device according to claim 6, is characterized in that above-mentioned zigbee module (33) is set as the router in zigbee network, uses as relaying.
8. health data Internet of Things monitoring device according to claim 6, is characterized in that above-mentioned arm processor (31) is also connected with 3G network interface (37).
9. health data Internet of Things monitoring device according to claim 6, it is characterized in that the composition of above-mentioned network management module (4) is the same with the composition of Partial route AP (3), zigbee module settings is wherein the coordinator in zigbee network, manage this zigbee network, and as the Rendezvous Point of data, by the detection data upload of each node to server.
10. a monitoring method for health data Internet of Things monitoring device, is characterized in that comprising the steps:
1) service data acquisition module (1) transmits the detection data of body temperature harvester and blood oxygen pulse harvester to nodal terminal acquisition module (2) by zigbee network;
2), after nodal terminal acquisition module (2) obtains and detects data, bidirectional data transfers is initiated by zigbee network to Partial route AP (3);
3) multiple Partial route AP (3) converges to network management module (4) by zigbee network, and is uploaded onto the server by network by network management module (4).
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CN105873168A (en) * | 2016-06-03 | 2016-08-17 | 南京工程学院 | Person heart-rate monitoring method, system and device based on relaying transmission |
CN106211211A (en) * | 2016-07-27 | 2016-12-07 | 西南大学 | There is equipment identification and the wireless gateway device of information recognizing function, analytic and network-building method |
CN107464410A (en) * | 2017-09-18 | 2017-12-12 | 电子科技大学 | A kind of infrared temperature networking collection and distance transmission system |
CN110798516A (en) * | 2019-10-21 | 2020-02-14 | 重庆大学 | Data acquisition unit of adaptation noninvasive medical instrument |
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