CN103479350A - Operating method and device of sign monitoring based on internet of things - Google Patents

Abstract

The invention provides an operating method and device of sign monitoring based on the internet of things. The method includes acquiring human body physiological parameters; sending the human body physiological parameters to monitor base station equipment through wireless transmitting; sending the human body physiological parameters to network equipment through cable transmission; and sending the human body physiological parameters to a remote monitoring and controlling unit. Compared with the prior art, the operating method and device of sign monitoring based on the internet of things has the advantages that each human body physiological parameter of a person to be monitored is transmitted and monitored through remote real-time acquisition, and a doctor and families of the person to be monitored are allowed to grasp the state of an illness of the person to be monitored at any time anywhere, meanwhile, emergency of the person to be monitored can be treated and fed back by the doctor, requirements for monitoring the person to be monitored in real time are met, and probability of further deterioration of the state of the person to be monitored can be reduced.

Description

Operational approach and the device of the sign monitoring based on Internet of Things

Technical field

The present invention relates to a kind of operational approach and device of sign monitoring, especially relate to a kind of operational approach and device of the sign monitoring based on Internet of Things.

Background technology

The monitoring of traditional sign, mainly for wired or simply by the pattern of key control, need the custodial person to link up and controlled with the monitoring personnel, but lack often communication capability because of critically ill patient, therefore this kind of equipment also is impractical in the monitoring of critically ill patient.Monitoring situation for critically ill patient, often depend on nurse's feedback and making the rounds of the wards of doctor's every day, yet, restriction due to nurse, doctor's number, can not be each critically ill patient man-to-man outfit nurse and doctor, simultaneously, even be not subject to the restriction of number, restriction due to people self physical ability, vital sign that can not 24 hours real-time monitoring critically ill patients, cause the doctor can not grasp custodial person's the state of an illness whenever and wherever possible, the emergency occurred with the reply custodial person provides rescuing scheme timely.

Summary of the invention

For solving the problems of the technologies described above, the object of the present invention is to provide a kind of operational approach and device of the sign monitoring based on Internet of Things, every vital sign of the method, device Real-time Collection, transmission, monitoring custodial person, can make the doctor grasp in real time custodial person's PD situation, provide in time therapeutic scheme and cured.

Correspondingly, the operational approach of the sign monitoring based on Internet of Things of an embodiment of the present invention, said method comprising the steps of: gather human body physiological parameter;

Described human body physiological parameter is sent to the monitoring base station equipment by wireless transmission;

Described human body physiological parameter is sent to the network equipment by wire transmission;

Described human body physiological parameter is sent to the remote monitoring unit by the Internet.

As a further improvement on the present invention, gather human body physiological parameter for gathering electrocardiographic recording, eeg recording, blood pressure recording, pulse record, breathing at least one in record, vim and vigour record, blood oxygen saturation record, temperature recording, blood sugar recording.

As a further improvement on the present invention, described " collection human body physiological parameter; " specifically comprise: with analog signal form Real-time Collection human body physiological parameter, the physiological parameter of analog signal form is converted to the physiological parameter of digital signal form, and transmitted by radio sensing network.

As a further improvement on the present invention, described radio sensing network is the zigbee radio sensing network.

As a further improvement on the present invention, described human body physiological parameter is sent to the monitoring base station equipment by radio communication.

As a further improvement on the present invention, the human body physiological parameter that described remote monitoring unit is received is resolved, and shows and preserves.

As a further improvement on the present invention, described remote monitoring cellular installation is on PC, mobile phone or pda.

Correspondingly, the device of the sign monitoring based on Internet of Things of one embodiment of the present invention, described device comprises: collecting unit, for Real-time Collection wireless sender's body physiological parameter;

The monitoring base station equipment, with described collecting unit wireless connections, receive described physiological parameter, and it is processed and wired transmission;

The network equipment, with described monitoring base station equipment wired connection, receive the human body physiological parameter that described monitoring base station equipment sends, and it is processed and sends;

The remote monitoring unit, be connected by the Internet with the described network equipment, receives the human body physiological parameter that the described network equipment sends.

As a further improvement on the present invention, described human body physiological parameter comprises: at least one in electrocardiographic recording, eeg recording, blood pressure recording, pulse record, breathing record, vim and vigour record, blood oxygen saturation record, temperature recording, blood sugar recording.

As a further improvement on the present invention, described collecting unit comprises: sensing module, and it is for gathering the human body physiological parameter of analog signal form;

The front end circuit module, it converts the human body physiological parameter of digital signal form to for the human body physiological parameter by analog signal form;

Wireless sending module, it is transmitted by radio sensing network for the human body physiological parameter by digital signal form;

Power module, it is for powering to collecting unit.

As a further improvement on the present invention, described collecting unit is connected by the zigbee radio sensing network with described monitoring base station equipment.

As a further improvement on the present invention, described monitoring base station equipment comprises:

Wireless receiving module, it is for passing through the described human body physiological parameter of radio sensing network receiving digital signals form;

The first serial module, the wire transmission interface, for docking with network equipment coffret is wired, to transmit described human body physiological parameter.

As a further improvement on the present invention, the described network equipment comprises:

The second serial module, the wire transmission interface, for docking with the first serial module is wired, to receive described human body physiological parameter;

The Network Serial Port module, the Internet Transmission interface, for docking by the Internet with the remote monitoring unit, send described human body physiological parameter.

As a further improvement on the present invention, described remote monitoring unit comprises:

Control module, it guards the unlatching of base station equipment and the network equipment for controlling collecting unit, and the operation of controlling the remote monitoring unit;

Parsing module, its human body physiological parameter received for the remote monitoring unit is resolved, and shows and preserves.

As a further improvement on the present invention, described remote monitoring cellular installation is on PC, mobile phone or pda.

Compared with prior art, the present invention is based on operational approach and the device of the sign monitoring of Internet of Things, by long-range Real-time Collection, transmit, monitor every human body physiological parameter of custodial person, make doctor and custodial person family members grasp custodial person's the state of an illness whenever and wherever possible, simultaneously, the emergency that the doctor occurs the custodial person provides treatment feedback timely, meet custodial person's needs demand of monitoring in real time, reduce custodial person's state of an illness the probability further worsened occurs.

The accompanying drawing explanation

Fig. 1 is the flow chart of the operational approach of the monitoring of the sign based on Internet of Things in an embodiment of the present invention;

Fig. 2 is the module map of the sign monitor device based on Internet of Things in an embodiment of the present invention.

The specific embodiment

Below with reference to each embodiment shown in the drawings, describe the present invention.But these embodiments do not limit the present invention, the conversion on the structure that those of ordinary skill in the art makes according to these embodiments, method or function all is included in protection scope of the present invention.

As shown in Figure 1, in an embodiment of the present invention, the operational approach of sign monitoring is based on Internet of Things and realizes, said method comprising the steps of:

S1, collection human body physiological parameter; Described human body physiological parameter is sent to the monitoring base station equipment by wireless transmission.

Described human body physiological parameter comprises: electrocardiographic recording, eeg recording, blood pressure recording, pulse record, breathing record, vim and vigour record, blood oxygen saturation record, temperature recording, blood sugar recording etc.

Concrete, according to custodial person's concrete condition, by corresponding wireless sensing node, gathering human body physiological parameter, described wireless sensing node has the measurement human body physiological parameter, the function that described human body physiological parameter is processed and sent; Accordingly, the corresponding physiological parameter of each wireless sensing node; For example: the corresponding pulse record that gathers of pulse sensing radio node, the corresponding electrocardiographic recording that gathers of electrocardio sensing radio node, breathe corresponding collection of sensing radio node and breathe record etc.

Accordingly, the form collection human body physiological parameter with analogue signal, convert it into the human body physiological parameter of the digital signal form that can be used for transmission, and transmitted by radio sensing network.

Accordingly, the mode of being transmitted by radio sensing network has multiple, zigbee radio sensing network for example, bluetooth, infrared transmission, wifi etc.In the present invention's one preferred implementation, select the zigbee radio sensing network to be transmitted.

The zigbee radio sensing network be a kind of closely, low complex degree, self-organizing, low-power consumption, low data rate, wireless networking mechanics of communication cheaply, mainly be suitable for automatically controlling and remote control field, can embed various device; Because its network can, easily for the user provides wireless data transmission function, therefore be applicable to the Internet of Things field.

Concrete, by the human body physiological parameter of described digital signal form, the mode by radio communication sends to the monitoring base station equipment.

Certainly, described human body physiological parameter also can wiredly be delivered to the monitoring base station equipment.In the present invention's one preferred implementation, due to the limitation of ward space, and the characteristics of considering equipment self, therefore, adopt radio sensing network to be transmitted.

S2, described human body physiological parameter is sent to the network equipment by wire transmission.

Concrete, by the described human body physiological parameter of monitoring base station equipment wireless receiving, described human body physiological parameter to be processed, the wire transmission interface by the network equipment, send to the network equipment by described human body physiological parameter.

S3, described human body physiological parameter is sent to the remote monitoring unit by the Internet.

Concrete, by network equipment wire transmission interface, receive from the described human body physiological parameter of the wired transmission of monitoring base station equipment, and it is processed, Internet Transmission interface by the network equipment, be sent to the remote monitoring unit by described human body physiological parameter by the Internet.

S4, the human body physiological parameter that described remote monitoring unit is received are resolved, and show and preserve.

Concrete, receive described human body physiological parameter by the remote monitoring unit, and monitor in real time the situation of change of described human body physiological parameter, store simultaneously and show the described human body physiological parameter received, and the situation of change of described human body physiological parameter; Medical personnel, by showing result and the historical record of transferring storage, handle it in time to the situation of change monitored.

Preferably, described remote monitoring unit can be arranged on the equipment such as PC, mobile phone or pda.The doctor can check custodial person's change of illness state situation whenever and wherever possible, with the change of illness state to occurring, makes timely and processing.Simultaneously, the custodial person family members also can log in the health condition that remote monitoring unit 400 is understood the custodial person at any time.

As shown in Figure 2, the device of the sign monitoring based on Internet of Things in an embodiment of the present invention, described device comprises: collecting unit 100, monitoring base station equipment 200, the network equipment 300 and remote monitoring unit 400.

Collecting unit 100, described collecting unit 100 is for Real-time Collection wireless sender's body physiological parameter; Described physiological parameter comprises: electrocardiographic recording, eeg recording, blood pressure recording, pulse record, breathing record, vim and vigour record, blood oxygen saturation record, temperature recording, blood sugar recording etc.

Accordingly, according to custodial person's concrete condition, described collecting unit 100 is comprised of a plurality of wireless sensing nodes, and described wireless sensing node has the measurement human body physiological parameter, the function that described human body physiological parameter is processed and sent; Accordingly, the corresponding physiological parameter of each wireless sensing node; For example: the corresponding pulse record that gathers of pulse sensing radio node, the corresponding electrocardiographic recording that gathers of electrocardio sensing radio node, breathe corresponding collection of sensing radio node and breathe record etc.

Concrete, described wireless sensing node comprises: sensing module 101, and it is for gathering the human body physiological parameter of analog signal form; Front end circuit module 103, it converts the human body physiological parameter of digital signal form to for the human body physiological parameter by analog signal form; Wireless sending module 105, it is transmitted by radio sensing network for the human body physiological parameter by digital signal form; Power module 107, it is for giving collecting unit 100 power supplies; The first microcontroller module 109, it is for controlling sensing module, front end circuit module, wireless sending module and power module work.

Accordingly, the mode of being transmitted by radio sensing network has multiple, zigbee radio sensing network for example, bluetooth, infrared transmission, wifi etc.In the present invention's one preferred implementation, select the zigbee radio sensing network to be transmitted.

The zigbee radio sensing network be a kind of closely, low complex degree, self-organizing, low-power consumption, low data rate, wireless networking mechanics of communication cheaply, mainly be suitable for automatically controlling and remote control field, can embed various device; Because its network can, easily for the user provides wireless data transmission function, therefore be applicable to Internet of Things field tool.

Concrete, collecting unit 100 will can be used for the human body physiological parameter of the digital signal form of transmission, and the mode by radio communication sends to monitoring base station equipment 200.

Certainly, described human body physiological parameter also can wiredly transmit, in the present invention's one preferred implementation, and due to the limitation of ward space, and the characteristics of considering equipment self, therefore, adopt radio sensing network to be transmitted.

Monitoring base station equipment 200, described monitoring base station equipment 200 and described collecting unit 100 wireless connections, receive described physiological parameter, and it is processed and wired transmission.

Accordingly, described monitoring base station equipment 200 comprises: wireless receiving module 201, and described wireless receiving module 201 is by the described human body physiological parameter of radio sensing network receiving digital signals form; First serial module 203, the wire transmission interface, for docking with network equipment coffret is wired, to transmit described human body physiological parameter; The second microcontroller module 205, for controlling radio receiving transmitting module and 203 work of first serial module.

Concrete, wireless receiving module 201 docks with wireless sending module 101 is wireless, to receive described human body physiological parameter; Control described human body physiological parameter by the second microcontroller module 205 and be delivered to first serial module 203, and send it to the network equipment 300 by first serial module 203.

The network equipment 300, the described network equipment 300 and described monitoring base station equipment wired connection, receive the human body physiological parameter that described monitoring base station equipment 200 sends, and it is processed and sends;

The described network equipment 300 comprises: second serial module 301, and described second serial module 301 is used for docking with first serial module 201 is wired for the wire transmission interface, to receive described human body physiological parameter;

Network Serial Port module 303, described Network Serial Port module 303 is the Internet Transmission interface, for docking by the Internet with remote monitoring unit 400, sends described human body physiological parameter;

The 3rd microcontroller module 305, for controlling second serial module 301 and 303 work of Network Serial Port module.

Concrete, described the 3rd microcontroller module 305 is controlled second serial modules 301 and is received described human body physiological parameter, described human body physiological parameter is processed, and controlled described human body physiological parameter and be delivered to remote monitoring unit 400 from Network Serial Port module 303.

Remote monitoring unit 400, described remote monitoring unit 400 is connected by the Internet with the described network equipment 300, receives the human body physiological parameter that the described network equipment 300 sends.

Accordingly, described remote monitoring unit 400 comprises: control module 401, it guards the unlatching of base station equipment 200 and the network equipment 300 for controlling collecting unit 100, and the operation of controlling remote monitoring unit 400.

Parsing module 403, the human body physiological parameter that remote monitoring unit 400 is received is resolved, and shows and preserves.

Concrete, control module 401 is controlled remote monitoring unit 400 and is received described human body physiological parameter, and monitor in real time the situation of change of described human body physiological parameter, store by parsing module 403 simultaneously and show the described human body physiological parameter received, and the situation of change of described human body physiological parameter; Medical personnel, by showing result and the historical record of transferring storage, handle it in time to the situation of change monitored.

Preferably, described remote monitoring unit 400 is connected with the network equipment by the Internet, and it can be arranged on the equipment such as PC, mobile phone or pda.The doctor can check custodial person's change of illness state situation whenever and wherever possible, with the change of illness state to occurring, makes timely and processing.Simultaneously, the custodial person family members also can log in the health condition that remote monitoring unit 400 is understood the custodial person at any time.

Accordingly, operational approach and the device of sign of the present invention monitoring, because it is realized based on Internet of Things, and it is simple in structure, is easy to install, can be arranged on according to the demand of different user different places.

For example: for the custodial person who is in hospital, by collecting unit 100, base station custodial care facility 200 and the network equipment 300 are arranged on ward.For the custodial person on emergency tender, can be by collecting unit 100, base station custodial care facility 200 and the network equipment 300 are arranged on emergency tender.And remote monitoring unit 400 can be arranged on the equipment such as PC, mobile phone or pda, by the Internet, with the network equipment 300, be connected.In an embodiment of the present invention, operational approach and device that the monitoring custodial person electrocardiographic recording of take is guarded in conjunction with the above sign based on Internet of Things as example are done concise and to the point description.

Concrete, collecting unit 100 is attached to custodial person's cardiac position and places, roughly the same time is opened collecting unit 100, base station custodial care facility 200, the network equipment 300 and remote monitoring unit 400.

401 pairs of collecting units 100 of described control module send command signal, the Real-time Collection human body physiological parameter; Described human body physiological parameter is converted in collecting unit 100 to transferable human body physiological parameter, by being wirelessly transmitted to base station custodial care facility 200; Through the internal conversion of base station custodial care facility 200, in wired mode, be delivered to the network equipment 300; Afterwards, advance the internal conversion of the network equipment 300, by the Internet, be delivered to remote monitoring unit 400.Described remote monitoring unit 400 stores and shows custodial person's change of illness state situation, and medical personnel, by showing result and the historical record of transferring storage, handle it in time to the situation of change monitored.Simultaneously, the custodial person family members also can log in the health condition that remote monitoring unit 400 is understood the custodial person at any time.

Compared with prior art, the present invention is based on operational approach and the device of the sign monitoring of Internet of Things, by long-range Real-time Collection, transmit, monitor every human body physiological parameter of custodial person, make doctor and custodial person family members grasp custodial person's the state of an illness whenever and wherever possible, simultaneously, the emergency that the doctor occurs the custodial person provides treatment feedback timely, meet custodial person's needs demand of monitoring in real time, reduce custodial person's state of an illness the probability further worsened occurs.

Being divided into various modules with function while for convenience of description, describing above device describes respectively.Certainly, when implementing the application, can realize the function of each module in same or a plurality of software and/or hardware.

As seen through the above description of the embodiments, those skilled in the art can be well understood to the mode that the application can add essential general hardware platform by software and realizes.Understanding based on such, the part that the application's technical scheme contributes to prior art in essence in other words can embody with the form of software product, this computer software product can be kept in Protector, as ROM/RAM, magnetic disc, CD etc., comprise that some instructions are with so that a computer equipment (can be personal computer, Information Push Server, or the network equipment etc.) carry out the described method of some part of each embodiment of the application or embodiment.

Device embodiments described above is only schematic, the wherein said module as the separating component explanation can or can not be also physically to separate, the parts that show as module can be or can not be also physical modules, can be positioned at a place, or also can be distributed on a plurality of mixed-media network modules mixed-medias.Can select according to the actual needs some or all of module wherein to realize the purpose of present embodiment scheme.Those of ordinary skills in the situation that do not pay creative work, can understand and implement.

The application can be used in numerous general or special purpose computingasystem environment or configuration.For example: personal computer, Information Push Server computer, handheld device or portable set, plate equipment, multi-processing module system, the system based on micro treatment module, set top box, programmable consumer-elcetronics devices, network PC, minicomputer, mainframe computer, comprise distributed computing environment of above any system or equipment etc.

The application can describe in the general context of the computer executable instructions of being carried out by computer, for example program module.Usually, program module comprises the routine carrying out particular task or realize particular abstract data type, program, object, assembly, data structure etc.Also can in distributed computing environment, put into practice the application, in these distributed computing environment, be executed the task by the teleprocessing equipment be connected by communication network.In distributed computing environment, program module can be arranged in the local and remote computer Protector that comprises preservation equipment.

Be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should make description as a whole, technical scheme in each embodiment also can, through appropriate combination, form other embodiments that it will be appreciated by those skilled in the art that.

Above listed a series of detailed description is only illustrating for feasibility embodiment of the present invention; they are not in order to limit the scope of the invention, all disengaging within equivalent embodiment that skill spirit of the present invention does or change all should be included in protection scope of the present invention.

Claims (15)

1. the operational approach of the sign monitoring based on Internet of Things, is characterized in that, said method comprising the steps of:

Gather human body physiological parameter;

Described human body physiological parameter is sent to the monitoring base station equipment by wireless transmission;

Described human body physiological parameter is sent to the network equipment by wire transmission;

Described human body physiological parameter is sent to the remote monitoring unit by the Internet.

2. the operational approach that the sign based on Internet of Things according to claim 1 is guarded, it is characterized in that, gather human body physiological parameter for gathering electrocardiographic recording, eeg recording, blood pressure recording, pulse record, breathing at least one in record, vim and vigour record, blood oxygen saturation record, temperature recording, blood sugar recording.

3. the operational approach of the sign monitoring based on Internet of Things according to claim 1, is characterized in that, described " collection human body physiological parameter; " specifically comprise: with analog signal form Real-time Collection human body physiological parameter, the physiological parameter of analog signal form is converted to the physiological parameter of digital signal form, and transmitted by radio sensing network.

4. the operational approach of the sign monitoring based on Internet of Things according to claim 3, is characterized in that, described radio sensing network is the zigbee radio sensing network.

5. the operational approach of the sign monitoring based on Internet of Things according to claim 1, is characterized in that,

Described human body physiological parameter is sent to the monitoring base station equipment by radio communication.

6. the operational approach of the sign monitoring based on Internet of Things according to claim 1, is characterized in that, further comprising the steps of:

The human body physiological parameter that described remote monitoring unit is received is resolved, and shows and preserves.

7. the operational approach of the sign monitoring based on Internet of Things according to claim 6, is characterized in that, described remote monitoring cellular installation is on PC, mobile phone or pda.

8. a sign monitor device, is characterized in that, comprising:

Collecting unit, for Real-time Collection wireless sender's body physiological parameter;

The monitoring base station equipment, with described collecting unit wireless connections, receive described physiological parameter, and it is processed and wired transmission;

The network equipment, with described monitoring base station equipment wired connection, receive the human body physiological parameter that described monitoring base station equipment sends, and it is processed and sends;

The remote monitoring unit, be connected by the Internet with the described network equipment, receives the human body physiological parameter that the described network equipment sends.

9. the sign monitor device based on Internet of Things according to claim 8, it is characterized in that, described human body physiological parameter comprises: at least one in electrocardiographic recording, eeg recording, blood pressure recording, pulse record, breathing record, vim and vigour record, blood oxygen saturation record, temperature recording, blood sugar recording.

10. the sign monitor device based on Internet of Things according to claim 8, is characterized in that, described collecting unit comprises: sensing module, and it is for gathering the human body physiological parameter of analog signal form;

The front end circuit module, it converts the human body physiological parameter of digital signal form to for the human body physiological parameter by analog signal form;

Wireless sending module, it is transmitted by radio sensing network for the human body physiological parameter by digital signal form;

Power module, it is for powering to collecting unit.

11. the sign monitor device based on Internet of Things according to claim 10, is characterized in that, described collecting unit is connected by the zigbee radio sensing network with described monitoring base station equipment.

12. the sign monitor device based on Internet of Things according to claim 11, is characterized in that, described monitoring base station equipment comprises:

Wireless receiving module, it is for passing through the described human body physiological parameter of radio sensing network receiving digital signals form;

The first serial module, the wire transmission interface, for docking with network equipment coffret is wired, to transmit described human body physiological parameter.

13. the sign monitor device based on Internet of Things according to claim 12, is characterized in that, the described network equipment comprises:

The second serial module, the wire transmission interface, for docking with the first serial module is wired, to receive described human body physiological parameter;

The Network Serial Port module, the Internet Transmission interface, for docking by the Internet with the remote monitoring unit, send described human body physiological parameter.

14. the sign monitor device based on Internet of Things according to claim 13, is characterized in that, described remote monitoring unit comprises:

Control module, it guards the unlatching of base station equipment and the network equipment for controlling collecting unit, and the operation of controlling the remote monitoring unit;

Parsing module, its human body physiological parameter received for the remote monitoring unit is resolved, and shows and preserves.

15. the sign monitor device based on Internet of Things according to claim 14 is characterized in that described remote monitoring cellular installation is on PC, mobile phone or pda.

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