CN115721260A - Medical remote endowment visiting communication system based on Internet of things and use method - Google Patents

Abstract

The invention discloses a medical remote endowment visiting communication system based on the Internet of things and a using method thereof. According to the invention, the output end of the wireless transmission module is connected with the input end of the processor module, the output end of the processor module is connected with the input end of the starting control module, the output end of the starting control module is connected with the input ends of the data transmission module and the video call module, the output end of the data transmission module is connected with the input end of the data analysis module, and the respiration signal acquisition module, the pulse signal acquisition module and the movement signal acquisition module in the signal acquisition module can detect data of the old people in real time and judge whether the old people sleep or not through the processor module, so that the old people are prevented from being awakened by the call bell and frightened by the old people, meanwhile, the old people are prevented from being influenced by the outside during the rest process, and the convenience of the system is improved.

Description

Medical remote endowment visiting communication system based on Internet of things and use method

Technical Field

The invention belongs to the technical field of intelligent endowment, and particularly relates to a medical remote endowment visiting communication system based on the Internet of things and a use method.

Background

The intelligent endowment is 'intelligent home endowment', which is a newly popular endowment concept. The old people can live in daily life without being restricted by time and geographical environment and can live in high quality and enjoyed life in own home by the old people in the mode of endowment, which is originally proposed by the British life trust Foundation and is generally called as a fully intelligent old people system. The intelligent old-age caring system is based on the internet of things technology, and the electronic chip device is implanted into the household old-age caring equipment, so that the daily life of the old is in a remote monitoring state. The intelligent endowment system can be provided with a remote visiting communication system when in use.

However, the common remote visiting communication system may wake up the old people when the old people have a rest and sleep, so that the sleep of the old people is not facilitated, and the health of the old people is adversely affected.

Disclosure of Invention

The invention aims to: in order to solve the problems, a medical remote old-age care visiting communication system based on the Internet of things and a using method are provided.

The technical scheme adopted by the invention is as follows: the medical remote-care visiting communication system based on the Internet of things comprises a processor module, a power supply module, a starting control module, a data sending module, a data analysis module, an alarm module, a wireless transmission module, an AD conversion module, a signal acquisition module, a data display terminal, a man-machine interaction module, a video call module, a signal receiving terminal, a 5G communication module, a terminal calling module, a respiration signal acquisition module, a pulse signal acquisition module, a manual analysis module, a physical activity signal acquisition module and an intelligent analysis module, wherein the output end of the signal acquisition module is connected with the input end of the AD conversion module, the output end of the AD conversion module is connected with the input end of the wireless transmission module, the output end of the wireless transmission module is connected with the input end of the processor module, and the output end of the processor module is connected with the input end of the starting control module;

the output end of the starting control module is connected with the input ends of the data sending module and the video call module, the output end of the starting control module is connected with the input end of the data sending module, the output end of the data sending module is connected with the input end of the data analysis module, the output end of the data analysis module is connected with the input end of the alarm module, the output end of the terminal call module is connected with the input end of the 5G communication module, the output end of the 5G communication module is connected with the input end of the signal receiving terminal, and the output end of the signal receiving terminal is connected with the input end of the video call module

In a preferred embodiment, a power supply module is fixedly mounted at the power connection end of the processor module, and the power supply module is electrically connected with an external power supply.

In a preferred embodiment, a body movement signal acquisition module, a respiration signal acquisition module and a pulse signal acquisition module are arranged in the signal acquisition module, and the output ends of the body movement signal acquisition module, the respiration signal acquisition module and the pulse signal acquisition module are connected with the input end of the signal acquisition module.

In a preferred embodiment, an intelligent analysis module is arranged inside the data analysis module, and an information receiving end of the intelligent analysis module is connected with the cloud computing module.

In a preferred embodiment, the pulse signal acquisition module acquires a fingertip pulse signal, and the fingertip pulse signal acquisition circuit comprises a pre-amplification circuit, a low-pass filter circuit and a 50Hz trap circuit; the frequency band collected in the pulse signal collecting module is mainly concentrated within 20Hz, and noise signals generated by friction between the motor and the skin and the like are removed within 20 Hz.

In a preferred embodiment, the internal acquisition circuit of the respiration signal acquisition module comprises a preamplifier circuit, a low-pass filter circuit and a 50Hz trap circuit; the respiratory transducer in the respiratory signal acquisition module acquires respiratory signals, the amplitude of the signals output by the respiratory transducer is about 100mV, and the signals output by the respiratory transducer are amplified by the pre-amplification circuit by 30 to 50 times.

In a preferred embodiment, a radio frequency motion sensor is arranged in the body motion signal acquisition module, the output mode of the radio frequency motion sensor is analog output, and other analog signal conditioning circuits are not required to be added when the radio frequency motion sensor outputs; the signal voltage output by the radio frequency sensor is 3.3V, the radio frequency motion sensor needs to be added with a voltage division circuit to meet the requirement of single chip AD sampling, and the voltage division circuit adopts a resistance voltage division mode.

In a preferred embodiment, the intelligent analysis module is connected with the cloud computing module, health files of all the aged-care workers are managed in a centralized manner through cloud computing, and expert visit records in all aspects of the medical industry are gathered by the cloud computing module; the cloud computing module also manages the health record of each patient for the whole life in a centralized manner, the patient can be consulted through the network at any time and any place in daily life, and accurate information of the patient can be provided for a doctor under special conditions, such as emergency medical events.

In a preferred embodiment, the device connection end of the manual analysis module is provided with a data display terminal and a human-computer interaction module, and the outside of the human-computer interaction module is provided with a guardian checking device of an elderly living institution.

In a preferred embodiment, the use method of the medical remote endowment visiting communication system based on the internet of things comprises the following steps:

s1, after a power supply module provides electric energy for the whole system, the system starts to work, at the moment, a respiration signal acquisition module, a pulse signal acquisition module and a body movement signal acquisition module in the signal acquisition module respectively start to carry out detection on body data of old people, and input the data into an AD conversion module, and the AD conversion module converts the signals and inputs the converted signals into a processor module through a wireless transmission module;

s2, the processor module starts to analyze an RFMS signal, extracts a respiratory rate or a heart rate, compares the respiratory rate or the heart rate with a respiratory band signal and a fingertip pulse signal to obtain whether the old is in a sleep state, and then inputs a result into the starting control module;

s3, when family relatives of the old people call the old people through the terminal calling module and the video call module, if the inside of the processor module judges that the old people are in a sleeping state, the video call module is closed at the moment, so that the old people are prevented from disturbing rest; when the old people are judged not to be in the sleep state, the video call module is connected, so that the old people can make calls;

s4, starting a control module, inputting data into a data analysis module through a data sending module when a daily user starts the control module, comparing an intelligent analysis module in the data analysis module with a cloud database, analyzing detailed data of the old by medical personnel at an operation end of a manual analysis module, and judging by combining the intelligent analysis module;

and S5, when the health data of the old people are detected to be abnormal, the medical care checking personnel can operate the alarm module to give an alarm, so that the old people can be checked and observed in time.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the breathing signal acquisition module, the pulse signal acquisition module and the body movement signal acquisition module in the signal acquisition module can detect data of the old people in real time, and judge whether the old people sleep or not through the processor module, so that the old people are prevented from being awakened by the communication bell and frightened, meanwhile, the old people are prevented from being influenced by the outside during the resting process, and the convenience of the system is improved.

2. According to the invention, the intelligent analysis module and the manual analysis module are arranged in the data analysis module, so that the data of the old people can be monitored and analyzed in real time, and the data of the old people is prevented from being discovered when abnormal, and meanwhile, the alarm module is matched, so that the alarm can be realized immediately when abnormal conditions occur, the personal safety of the old people is ensured, and the safety and the protection for the old people of the system are improved.

Drawings

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 is a system block diagram of a signal acquisition module according to the present invention;

FIG. 3 is a block diagram of a data analysis module system according to the present invention.

The labels in the figure are: 1-a processor module, 2-a power supply module, 3-a start control module, 4-a data sending module, 5-a data analysis module, 6-an alarm module, 7-a wireless transmission module, 8-an-D conversion module, 9-a signal acquisition module, 10-a data display terminal, 11-a human-computer interaction module, 12-a video call module, 13-a signal receiving terminal, 14-5G communication module, 15-a terminal call module, 16-a respiration signal acquisition module, 17-a pulse signal acquisition module, 18-a manual analysis module, 19-a body movement signal acquisition module and 20-an intelligent analysis module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

With reference to figures 1-3 of the drawings,

example (b):

the medical remote-care visiting communication system based on the Internet of things and the using method thereof comprise a processor module 1, a power supply module 2, a starting control module 3, a data sending module 4, a data analysis module 5, an alarm module 6, a wireless transmission module 7, an AD conversion module 8, a signal acquisition module 9, a data display terminal 10, a man-machine interaction module 11, a video call module 12, a signal receiving terminal 13, a 5G communication module 14, a terminal calling module 15, a respiration signal acquisition module 16, a pulse signal acquisition module 17, a manual analysis module 18, a physical signal acquisition module 19 and an intelligent analysis module 20, wherein the output end of the signal acquisition module 9 is connected with the input end of the AD conversion module 8, the output end of the AD conversion module 8 is connected with the input end of the wireless transmission module 7, the output end of the wireless transmission module 7 is connected with the input end of the processor module 1, and the output end of the processor module 1 is connected with the input end of the starting control module 3;

the output that starts control module 3 is connected with data transmission module 4 and video call module 12's input, the output that starts control module 3 is connected with data transmission module 4's input, data transmission module 4's output is connected with data analysis module 5's input, data analysis module 5's output is connected with alarm module 6's input, terminal calling module 15's output is connected with 5G communication module 14's input, 5G communication module 14's output is connected with signal reception terminal 13's input, signal reception terminal 13's output is connected with video call module 12's input.

The inside of signal acquisition module 9 is provided with body movement signal acquisition module 19, respiratory signal acquisition module 16 and pulse signal acquisition module 17, and the output of body movement signal acquisition module 19, respiratory signal acquisition module 16 and pulse signal acquisition module 17 is connected with signal acquisition module 9's input. The respiratory signal acquisition module, the pulse signal acquisition module and the body movement signal acquisition module in the signal acquisition module can detect old man data in real time, and judge through the processor module whether the old man has a rest in sleep, thereby avoid the old man to be awakened by the ring tone of calling, cause frightening to the old man, also guaranteed simultaneously that the old man can not receive external influence in the rest process, increased the convenience of this system.

An intelligent analysis module 20 is arranged inside the data analysis module 5, and an information receiving end of the intelligent analysis module 20 is connected with the cloud computing module. Data analysis module inside is provided with intelligent analysis module and artifical analysis module, can monitor the analysis to old man's data in real time to do not discover when avoiding old man's data unusual, cooperate alarm module simultaneously, report to the police immediately when can realizing the abnormal conditions, guaranteed old man's personal safety, improved the security of this system and to old man's protectiveness.

The pulse signal acquisition module 17 acquires a fingertip pulse signal, and the fingertip pulse signal acquisition circuit comprises a pre-amplification circuit, a low-pass filter circuit and a 50Hz trap circuit; the frequency band collected inside the pulse signal collecting module 17 is mainly concentrated within 20Hz, and some noise signals generated by friction between the motor and the skin are removed within 20 Hz.

The internal acquisition circuit of the respiratory signal acquisition module 16 comprises a preamplification circuit, a low-pass filter circuit and a 50Hz trap circuit; the respiratory transducer in the respiratory signal acquisition module 16 acquires respiratory signals, the amplitude of the signals output by the respiratory transducer is about 100mV, and the pre-amplification circuit amplifies the signals output by the respiratory transducer by 30 to 50 times.

The body motion signal acquisition module 19 is internally provided with a radio frequency motion sensor, the output mode of the radio frequency motion sensor is analog output, and other analog signal conditioning circuits are not required to be added when the radio frequency motion sensor outputs; the signal voltage output by the radio frequency sensor is 3.3V, the radio frequency motion sensor needs to be added with a voltage division circuit to meet the requirement of single chip AD sampling, and the voltage division circuit adopts a resistance voltage division mode.

The intelligent analysis module 20 is connected with the cloud computing module, health files of all the aged care personnel are managed in a centralized manner through cloud computing, and expert diagnosis records in all aspects of the medical industry are gathered by the cloud computing module; the cloud computing module is used for mining and analyzing the mass data, extracting the optimal treatment process of each disease course, forming a standard and serving more patients, managing the health records of the whole life of each patient in a centralized manner, enabling the patients to look up through the network at any time and any place in daily life, and providing accurate information of the patients to doctors under special conditions if an emergency medical event happens.

The device connecting end of the manual analysis module 18 is provided with a data display terminal 10 and a human-computer interaction module 11, and the outside of the human-computer interaction module is provided with a guardian checking device of an elderly institution.

The working principle is as follows: the use method of the medical remote endowment visiting communication system based on the Internet of things comprises the following steps:

s1, after a power supply module 2 supplies electric energy to the whole system, the system starts to work, at the moment, a respiration signal acquisition module 16, a pulse signal acquisition module 17 and a body movement signal acquisition module 19 in a signal acquisition module 9 respectively start to detect body data of old people, the data are input into an AD conversion module 8, and the AD conversion module 8 converts the signals and inputs the converted signals into a processor module 1 through a wireless transmission module 7;

s2, an internal data analysis module of the processor module 1 starts to analyze the RFMS signals, extracts the respiratory rate or the heart rate, compares the respiratory rate signals with the signals of the respiratory band and the signals of the fingertip pulse to obtain whether the old is in a sleep state or not, and then inputs the result into a starting control module 3 through the processor module 1;

s3, when family relatives of the old people call the old people through the terminal calling module 15 and the video call module 12, if the inside of the processor module 1 judges that the old people are in a sleeping state at the moment, the video call module 12 is closed at the moment, and the rest of the old people is avoided; when the old people are judged not to be in the sleep state, the video call module 12 is connected at the moment, so that the old people can make calls;

s4, starting the control module 3, inputting data into the data analysis module 5 through the data transmission module 4 when a daily user uses the control module, comparing the intelligent analysis module 20 in the data analysis module 5 with a cloud database, analyzing detailed data of the old by medical staff at the operation end of the manual analysis module 18, and judging by combining the intelligent analysis module 20;

and S5, when the health data of the old people are detected to be abnormal, the medical care checking personnel can operate the alarm module 6 to give an alarm, so that the old people can be checked and observed in time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. Remote medical care visit communication system and application method based on thing networking, including processor module (1), power module (2), start control module (3), data transmission module (4), data analysis module (5), alarm module (6), wireless transmission module (7), AD conversion module (8), signal acquisition module (9), data display terminal (10), human-computer interaction module (11), video conversation module (12), signal reception terminal (13), 5G communication module (14), terminal calling module (15), respiratory signal acquisition module (16), pulse signal acquisition module (17), artifical analysis module (18), body movement signal acquisition module (19), intelligent analysis module (20), its characterized in that: the output end of the signal acquisition module (9) is connected with the input end of the AD conversion module (8), the output end of the AD conversion module (8) is connected with the input end of the wireless transmission module (7), the output end of the wireless transmission module (7) is connected with the input end of the processor module (1), and the output end of the processor module (1) is connected with the input end of the starting control module (3);

the output that starts control module (3) is connected with data transmission module (4) with the input of video conversation module (12), the output that starts control module (3) is connected with the input of data transmission module (4), the output of data transmission module (4) is connected with the input of data analysis module (5), the output of data analysis module (5) is connected with the input of alarm module (6), the output of terminal calling module (15) is connected with the input of 5G communication module (14), the output of 5G communication module (14) is connected with the input of signal reception terminal (13), the output of signal reception terminal (13) is connected with the input of video conversation module (12).

2. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: the power supply connecting end of the processor module (1) is fixedly provided with a power supply module (2), and the power supply module (2) is electrically connected with an external power supply.

3. The internet-of-things-based medical remote-care visiting communication system and the using method thereof as claimed in claim 1, wherein: the internal of signal acquisition module (9) is provided with body movement signal acquisition module (19), breathing signal acquisition module (16) and pulse signal acquisition module (17), body movement signal acquisition module (19) breathing signal acquisition module (16) with the output of pulse signal acquisition module (17) is connected with the input of signal acquisition module (9).

4. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: an intelligent analysis module (20) is arranged inside the data analysis module (5), and an information receiving end of the intelligent analysis module (20) is connected with the cloud computing module.

5. The internet-of-things-based medical remote-care visiting communication system and the using method thereof as claimed in claim 1, wherein: the pulse signal acquisition module (17) acquires fingertip pulse signals, and the fingertip pulse signal acquisition circuit comprises a pre-amplification circuit, a low-pass filter circuit and a 50Hz trap circuit; the frequency band collected in the pulse signal collecting module (17) is mainly concentrated within 20Hz, and noise signals generated by friction between a motor and the skin and the like are removed within 20 Hz.

6. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: the internal acquisition circuit of the respiratory signal acquisition module (16) comprises a preamplification circuit, a low-pass filter circuit and a 50Hz trap circuit; the respiration transducer in the respiration signal acquisition module (16) acquires respiration signals, the amplitude of the signals output by the respiration transducer is about 100mV, and the signals output by the respiration transducer are amplified by the pre-amplification circuit by 30 to 50 times.

7. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: the body motion signal acquisition module (19) is internally provided with a radio frequency motion sensor, and the output mode of the radio frequency motion sensor is analog output.

8. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: the intelligent analysis module (20) is connected with the cloud computing module, health files of all the aged care personnel are managed in a centralized mode through cloud computing, and expert diagnosis records in all aspects of the medical industry are gathered by the cloud computing module; and the cloud computing module is used for mining and analyzing the mass data and extracting the optimal treatment process of each course to serve the patients.

9. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: the device connecting end of the manual analysis module (18) is provided with a data display terminal (10) and a human-computer interaction module (11), and a guardian checking device of an aged-care institution is arranged outside the human-computer interaction module.

10. The internet-of-things-based medical remote endowment visiting communication system and the using method thereof according to claim 1, wherein: the use method of the medical remote endowment visiting communication system based on the Internet of things comprises the following steps:

s1, after a power supply module (2) provides electric energy for the whole system, the system starts to work, at the moment, a respiration signal acquisition module (16), a pulse signal acquisition module (17) and a body movement signal acquisition module (19) in a signal acquisition module (9) respectively start to carry out detection on body data of old people, the body data are input into an AD conversion module (8), and the AD conversion module (8) converts the signals and inputs the converted signals into a processor module (1) through a wireless transmission module (7);

s2, an internal data analysis module of the processor module (1) starts to analyze the RFMS signal, extracts the respiratory rate or the heart rate, compares the respiratory rate or the heart rate with a respiratory band signal and a fingertip pulse signal to obtain whether the old is in a sleep state or not, and then inputs the result into the starting control module (3) through the processor module (1);

s3, when family relatives of the old people call the old people through the terminal calling module (15) and the video call module (12), if the inside of the processor module (1) judges that the old people are in a sleeping state, the video call module (12) is closed at the moment, and the old people are prevented from disturbing rest; when the old people are judged not to be in the sleep state, the video call module (12) is switched on at the moment, so that the old people can make a call;

s4, starting the control module (3), inputting data into the data analysis module (5) through the data transmission module (4) when a daily user uses the control module, comparing an intelligent analysis module (20) in the data analysis module (5) with a cloud database, analyzing detailed data of the old by medical staff at an operation end of the manual analysis module (18), and judging by combining the intelligent analysis module (20);

and S5, when the health data of the old people are detected to be abnormal, the medical care checking personnel can operate the alarm module (6) to give an alarm, so that the old people can be checked and observed in time.

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