CN103799994A - Remote life information acquiring system on basis of ITO (Internet Of Things) - Google Patents

Abstract

The invention discloses a remote life information acquiring system on the basis of the ITO (Internet Of Things), which comprises a family monitor controller, a medical platform server, a monitoring center and a sensing system. The output end of the sensing system is connected with the input end of the family monitor controller; the family monitor controller is connected with the medical platform server by the internet; the medical platform server is connected with the monitoring center; and the family monitor controller comprises an IRFD (radio frequency identification) reader, a microprocessor and a wireless communication transceiver. According to the invention, health physical sign information of a patient can be monitored and tracked in real time, the utilization rate of medical resources is improved, diagnosis and treatment time is shortened, centralized management and operation of the medical resources are implemented, and meanwhile, accuracy and timeliness of data are also ensured.

Description

Remote life information acquisition system based on Internet of Things

Technical field

The present invention relates to information acquisition system, relate in particular to the remote life information acquisition system based on Internet of Things.

Background technology

Technology of Internet of things is to gather the information of various needs, is combined the huge network forming with the Internet.Its objective is and realize thing and thing, thing and people, all article are connected with network, convenient identification, management and control.Compare with traditional the Internet, Internet of Things has its distinct feature.First, it is the extensive use of various cognition technologies.Internet of Things deploy the polytype sensor of magnanimity, each sensor is an information source, according to thering is real-time, by the collection environmental information of certain frequency period, constantly update data.Secondly, its important foundation and core are still the Internets, by various wired and wireless network and the Internet converged, the information of object are passed real-time and accurately.The informational needs of the sensor timing acquiring on Internet of Things, by Internet Transmission, because its quantity is extremely huge, has formed magnanimity information.Further, Internet of Things not only provides the connection of sensor, itself also has the ability of Intelligent treatment, can implement Based Intelligent Control to object.

In traditional information Collection Mode, when the state of an illness to sufferer and various parameter acquisition, the change of illness state situation that often cannot realize long-range information gathering and observe patient, simultaneously completely the integrity of guarantee information and promptness, sometimes can bring certain impact to the judgement of the state of an illness to doctor, in order to ensure correctness and the promptness of data, must adapt to various heterogeneous networks and agreement, different interface corresponding to information acquisition device, is difficult to realize management and the operation of centralization.

Summary of the invention

Object of the present invention is just to provide in order to address the above problem a kind of real-time collecting, the remote life information acquisition system based on Internet of Things simple in structure.

The present invention is achieved through the following technical solutions above-mentioned purpose:

The present invention includes family's monitor controller, medical treatment Platform Server and Surveillance center and sensor-based system, the outfan of described sensor-based system is connected with the input of described family monitor controller, described family monitor controller is connected by the Internet with described medical Platform Server, described medical Platform Server is connected with described Surveillance center, , described family monitor controller comprises RIFD electronic label reader, microprocessor and wireless communication transceiver, the outfan of described sensor-based system is connected with the input of described microprocessor respectively, the outfan of described GPS localizer is connected with the input of described microprocessor, on described GPS localizer, be provided with described RIFD electronic tag, described RIFD electronic label reader is connected with described microprocessor, described microprocessor is connected with described video system, described microprocessor is connected with described wireless communication transceiver, described sensor-based system comprises body temperature trans, electrocardioscanner and oxygen saturation monitor device, described body temperature trans, the outfan of described oxygen saturation monitor device and described electrocardioscanner is connected with the input of described microprocessor respectively

Particularly, described temperature monitoring device comprises temperature sensor, first processor and a RIFD electronic tag, and the outfan of described temperature sensor is connected with described first processor, and a described RIFD electronic tag is connected with described first processor.

Particularly, described pulse blood oxygen instrument comprises the second processor, described the 2nd RIFD electronic tag, control the digital to analog converter of LED for two, the signal that photodiode is received carries out the filter amplifier of the device of filtering and amplification, by receiving signal digital to offer the A/D converter and the LED and the photodiode that are placed on the small-sized probe contacting with patient's finger tip or ear-lobe of modulus of microprocessor, described digital to analog converter is connected with photodiode with described LED, described digital to analog converter outfan is connected with the input of described filter amplifier, the outfan of described filter amplifier is connected with the input of described A/D converter, the outfan of described A/D converter is connected with described the second processor, described the second processor is connected with described the 2nd RIFD electronic tag.

Particularly, described electrocardioscanner comprises electrocardioelectrode, filter amplifier, A/D converter, the 3rd processor and the 3rd RIFD electronic tag, the outfan of described electrocardioelectrode is connected with described filter amplifier input, the outfan of described filter amplifier is connected with the input of described A/D converter, the outfan of described A/D converter is connected with the input of described the 3rd processor, and described the 3rd processor is connected with described the 3rd RIFD electronic tag.

Further, also comprise GPS localizer, described GPS localizer is arranged on it described patient, and is connected with described family monitor controller.

Beneficial effect of the present invention is:

The present invention can Real-Time Monitoring and the healthy sign information of following the tracks of patient, improves the utilization rate of medical resource, shortens consultation hours, realizes management and the operation of the centralization of medical resource, also ensures accuracy and the promptness of data simultaneously.

Accompanying drawing explanation

Fig. 1 is work schematic diagram of the present invention.

Fig. 2 is described structured flowchart of the present invention family monitor controller.

The specific embodiment

Below in conjunction with accompanying drawing, the invention will be further described:

As shown in Figure 1, the present invention includes family's monitor controller, medical treatment Platform Server and Surveillance center and sensor-based system, the outfan of sensor-based system is connected with the input of family's monitor controller, family's monitor controller is connected by the Internet with medical Platform Server, medical treatment Platform Server is connected with Surveillance center, , family's monitor controller comprises RIFD electronic label reader, microprocessor and wireless communication transceiver, the outfan of sensor-based system is connected with the input of microprocessor respectively, the outfan of GPS localizer is connected with the input of microprocessor, on GPS localizer, be provided with RIFD electronic tag, RIFD electronic label reader is connected with microprocessor, microprocessor is connected with video system, microprocessor is connected with wireless communication transceiver, sensor-based system comprises body temperature trans, electrocardioscanner and oxygen saturation monitor device, body temperature trans, the outfan of oxygen saturation monitor device and electrocardioscanner is connected with the input of microprocessor respectively

As shown in Figure 2, temperature monitoring device comprises temperature sensor, first processor and a RIFD electronic tag, and the outfan of temperature sensor is connected with first processor, and a RIFD electronic tag is connected with first processor.

As shown in Figure 2, pulse blood oxygen instrument comprises the second processor, the 2nd RIFD electronic tag, control the digital to analog converter of LED for two, the signal that photodiode is received carries out the filter amplifier of the device of filtering and amplification, by receiving signal digital to offer the A/D converter and the LED and the photodiode that are placed on the small-sized probe contacting with patient's finger tip or ear-lobe of modulus of microprocessor, digital to analog converter is connected with photodiode with LED, digital to analog converter outfan is connected with the input of filter amplifier, the outfan of filter amplifier is connected with the input of A/D converter, the outfan of A/D converter is connected with the second processor, the second processor is connected with the 2nd RIFD electronic tag.

As shown in Figure 2, electrocardioscanner comprises electrocardioelectrode, filter amplifier, A/D converter, the 3rd processor and the 3rd RIFD electronic tag, the outfan of electrocardioelectrode is connected with filter amplifier input, the outfan of filter amplifier is connected with the input of A/D converter, the outfan of A/D converter is connected with the input of the 3rd processor, and the 3rd processor is connected with the 3rd RIFD electronic tag.

As shown in Figure 1, also comprise GPS localizer, GPS localizer is arranged on it patient, and is connected with family monitor controller.

Operation principle of the present invention: gather life signal by each monitor being worn on human body, such as electrocardio, breathe, blood oxygen, blood pressure etc., the name sex of radio frequency identification record patient, the personal information such as blood group medical history and vital signs, be convenient to medical personnel and utilize the equipment queries such as PDA, nurse passes through mobile terminal enquiry, carry out and record doctor's advice, in the time that patient's health goes out abnormal conditions, family's monitor controller detects corresponding parameter by different sensors, and the information of rewriting corresponding electronic tag by microprocessor, make RIFD electronic label reader sense the parameter situation of change of electronic tag, because electronic tag has uniqueness, can be easy to recognize patient's basic personal information, can pass through in time medical Platform Server to Surveillance center's signal transmission, for the further analyzing and diagnosing of doctor, realize monitoring in real time, analyze a situation and deal with problems in real time from overall angle, also can realize across hospital, trans-regional remote diagnosis etc., can measure perception patient's condition whenever and wherever possible, any information all can and be analyzed by quick obtaining, the patient that minimizing hospital internal is respectively served link waits and queuing time, lock exactly its position according to patient's GPS localizer with it, if desired, Surveillance center can be according to patient position, near search patient, possesses the hospital of medical condition, and relate to first-aid personnel by patient's hospital's immediate care call server nearby and give treatment to.

Claims (5)

1. the remote life information acquisition system based on Internet of Things, it is characterized in that: comprise family's monitor controller, medical treatment Platform Server, Surveillance center and sensor-based system, the outfan of described sensor-based system is connected with the input of described family monitor controller, described family monitor controller is connected by the Internet with described medical Platform Server, described medical Platform Server is connected with described Surveillance center, described family monitor controller comprises RIFD electronic label reader, microprocessor and wireless communication transceiver, the outfan of described sensor-based system is connected with the input of described microprocessor respectively, the outfan of described GPS localizer is connected with the input of described microprocessor, on described GPS localizer, be provided with described RIFD electronic tag, described RIFD electronic label reader is connected with described microprocessor, described microprocessor is connected with described video system, described microprocessor is connected with described wireless communication transceiver, described sensor-based system comprises body temperature trans, electrocardioscanner and oxygen saturation monitor device, described body temperature trans, the outfan of described oxygen saturation monitor device and described electrocardioscanner is connected with the input of described microprocessor respectively.

2. a kind of remote life information acquisition system based on Internet of Things according to claim 1, it is characterized in that: described temperature monitoring device comprises temperature sensor, first processor and a RIFD electronic tag, the outfan of described temperature sensor is connected with described first processor, and a described RIFD electronic tag is connected with described first processor.

3. a kind of remote life information acquisition system based on Internet of Things according to claim 1, it is characterized in that: described pulse blood oxygen instrument comprises the second processor, described the 2nd RIFD electronic tag, control the digital to analog converter of LED for two, the signal that photodiode is received carries out the filter amplifier of the device of filtering and amplification, by receiving signal digital to offer the A/D converter and the LED and the photodiode that are placed on the small-sized probe contacting with patient's finger tip or ear-lobe of modulus of microprocessor, described digital to analog converter is connected with photodiode with described LED, described digital to analog converter outfan is connected with the input of described filter amplifier, the outfan of described filter amplifier is connected with the input of described A/D converter, the outfan of described A/D converter is connected with described the second processor, described the second processor is connected with described the 2nd RIFD electronic tag.

4. a kind of remote life information acquisition system based on Internet of Things according to claim 1, it is characterized in that: described electrocardioscanner comprises electrocardioelectrode, filter amplifier, A/D converter, the 3rd processor and the 3rd RIFD electronic tag, the outfan of described electrocardioelectrode is connected with described filter amplifier input, the outfan of described filter amplifier is connected with the input of described A/D converter, the outfan of described A/D converter is connected with the input of described the 3rd processor, and described the 3rd processor is connected with described the 3rd RIFD electronic tag.

5. a kind of remote life information acquisition system based on Internet of Things according to claim 1, it is characterized in that: described remote life information acquisition system also comprises GPS localizer, described GPS localizer is arranged on it described patient, and is connected with described family monitor controller.

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