TR201707485A2 - A health monitoring system - Google Patents

Abstract

The invention relates to a health monitoring system in which human health data are collected, stored and assessments are made and various results and gains are obtained. The mentioned system has been specially designed to monitor patients remotely. While the patients are out of the hospital environment, important health data (such as EKG, heart rate) are collected on the system of the invention and sent to the artificial intelligence software in the said invention technology. The mentioned artificial intelligence also initiates guidance and intervention processes for the patient and the patient's treatment process by making logical comments about the patient in line with the data it receives.

Description

DESCRIPTION A health monitoring system Technical Area The invention is intended for individuals who are at risk of life or whose health data need to be monitored remotely. It is about a systematic and integrated health and disease management system designed for

The invention is used to collect, store and evaluate human health data. It is about a system in which various results and gains are obtained by doing Said The system is especially designed for remote patient follow-up. patients, hospital important health data (such as EKG, heart rate) on the system in the invention are collected and sent to the artificial intelligence software in the mentioned invention technology.

The aforementioned artificial intelligence, in accordance with the data it receives, provides a logical understanding of the patient. By making comments, guidance and intervention for the patient and the treatment process of the patient initiates processes.

Invention, medical device, healthcare, mining, energy, military, defense industry, weapons in all areas that contain industry and dangerous business lines, and human health. It is about a system that will be used in every field that requires the current situation and its follow-up.

State of the Art In an existing application, the measurement of health data such as EKG, sugar, pulse, blood pressure is based on is taken. When the mentioned application is examined, only instant measurements are made. is seen. In other words, in order to measure the ECG of the individual, start the system. command is given and the system is shut down after the measurements are taken. This system cannot measure the health parameters of individuals continuously and a possible negative situation cannot provide information about If the individual's health condition deteriorates, this Different systems are needed to detect the situation. On the other hand, In the current practice mentioned, to evaluate the health data obtained from individuals difficulties in transmitting the mentioned health information to health personnel. (Since there is no real-time data transfer, communication systems such as telephone, mail, etc. time losses and wrong transfers) are in question. This is the individual-doctor- cause the process in the intervention triad to prolong and the need for more infrastructure. is happening.

In existing systems, environment-based variability can be calculated and An algorithmic analysis of whether there is a problematic situation by coordinating the differences conclusion is not possible. For example; An individual sitting next to the stove has a fire assuming that it may disturb the health personnel in an unnecessarily time-consuming way.

However, it is natural for an individual sitting next to the stove to have an increase in body temperature. This For this reason, taking into account the environment-based variability, body variability (body temperature increase, pulse increase) is required to be followed.

As a result, due to the above-mentioned disadvantages and current solutions It is necessary to make an improvement in the relevant technical field due to the inadequacy of the is locked.

Purpose of the Invention The invention was created by being inspired by the current situations, and the above-mentioned negativities aims to solve.

The main purpose of the invention is to keep the individual's health status under control. is to ensure that health data is obtained uninterruptedly and in real time. This For this purpose, the entire system, which is the subject of the invention, operates on a 24/7 basis.

Another aim of the invention is to make sure that all the components in the system can work. that it does not need to do anything. Wearable measuring device for this is designed. When the individual wears the wearable meter, the components are automatically It starts collecting data from the body and transmits it instantly to the required database.

Thus, there is no obligation for the individual to take any additional action.

Another purpose of the invention is to collect the environmental data of the individual's living space on a 24/7 basis. is to be received and transmitted in real time (Storage in existing systems It works on a regular basis and cannot make instantaneous transmission 24/7.) .

Another object of the invention is a smart key called an upgradeable smart button. 16 different status information (emergency, severe pain, dizziness, oral blood) vomiting, diarrhea, sudden loss of strength, urination, defecation, swelling, bleeding, urination, exercise, water consumption, food consumption, chest pain) is to measure. For example; vomiting button (smart key) placed next to the sink thanks to the patient's direction of pressing the button every time vomiting occurs. Thanks to the instruction, the patient can push the button every time he vomits with this orientation. This data can be transmitted to the main system instantly.

Another aim of the invention is that all health data obtained from individuals, wireless technologies by coming to the central command system, automatically in real time. is the evaluation. Thus, the system monitors the health status of the individual when necessary. It can come to a state that can intervene both very quickly and with minimum infrastructure.

In order to fulfill the above-mentioned purposes, the invention, decision support system remote monitoring, storage and use of health data by It is a health monitoring system that allows the evaluation of on oz, . multi-sensor input apparatus, . connected to the ECG electrode, one end of which is placed on the human body. ECG electrode socket where the ECG electrode cable is connected positioned and receiving data from ECG electrodes and measuring ECG EKG circuit, - Sp02 inserted into the human body via the multi-sensor input apparatus Sp02 circuit that receives data from its sensor, body implanted in the human body via the multi-sensor input apparatus body temperature and humidity data from the temperature and humidity sensor temperature and humidity circuit, o motion placed in the human body through the multi-sensor input apparatus motion circuit that receives data from its sensor, - In the ECG circuit, the said SpOz circuit, body temperature and humidity which provides the transmission of data collected in the circuit and motion circuit wireless communication module - 1, o energy-providing lithium battery-1, . said wireless communication module - 1 to transmit data sequence microcontroller - 1 positioned wearable device, .;. wireless communication module - 1 that receives data from the wearable device via data collection device that transmits it to the decision support system contains.

The structural and characteristic features and all advantages of the invention are given in the following figures and It is clearer thanks to the detailed explanation written by making references to these figures. will be understood as such, and therefore the assessment will also include these figures and should be taken into account.

Figures to Help Understand the Invention Figure 1 shows the preferred configuration of the inventive health monitoring system. It is a block diagram view showing the usage inside and outside the building.

Figure 2 is a top three-dimensional view of the preferred embodiment of the wearable device.

Figure 3 is a three-dimensional bottom view of the preferred embodiment of the wearable device.

Figure 4 is a three-dimensional side view of the preferred embodiment of the media device.

Figure 5 is a 'two dimensional top view' of the preferred embodiment of the media device.

Figure 6 is a three-dimensional side view of the preferred embodiment of the smart switch.

Figure 7 is a two-dimensional top view of the preferred embodiment of the smart switch.

Figure 8 is the top two of the preferred configuration of Zigbee USB Dongle Android/IOS. dimensional view.

Figure 9 shows the top 'three-dimensional' configuration of the preferred configuration of the gateway device. is the view.

Description of Part References . wearable device C. Multi-sensor input device .one. ECG circuit .11th. EKG electrode cable .1.2. ECG electrode holder .2. SpOz circuit 10.21. SpOg sensor .3. Body temperature and humidity circuit 103.1. Body temperature and humidity sensor .4. motion circuit .4.1. Motion sensor 10.5. Wireless communication module - 1 .6. Lithium battery - 1 .7'. Microcontroller -1 . media device .one. Dust measuring circuit 20.1 .1. Dust measurement sensor .2. Oxygen circuit .2.1. oxygen sensor .3. Temperature and humidity circuit 20.4. Wireless communication module - 2 . smart key .one. Wireless communication module - 3 .2. Button 40. Zigbee USB Dongle Android/IOS 40.1. Wireless communication module - 4 40.2 USB connection 50. Gateway device 50.1. Wireless communication network technologies module 50.2. Microcontroller - 2 60. Decision support system T. Mobile device V. Data acquisition device Detailed Description of the Invention In this detailed description, the preferred choice of a health monitoring system subject to the invention their configuration is explained only for a better understanding of the subject.

As seen in Figure 1, said health monitoring system subject to the invention, basically, it consists of a wearable device (10), a media device (20), a smart switch. (30), a Zigbee USB Dongle from Android/IOS (40) and a gateway device (50) is occurring.

The invention has two uses and connections, inside and outside the home.

Said wearable device (10), as seen in Figures 2 and 3, is It is placed in the chest area with a sash or an adhesive pad.

Said wearable device (10) is also an apparatus (adhesive) attached to the waist. It also works in the lumbar region via the belt. The said wearable device (10) ECG circuit (10.1), SpOz circuit (10.2), body temperature and humidity circuit (10.3), motion circuit (10.4) and multi-sensor input apparatus (C) is positioned. The purpose of the multi-sensor input apparatus (C) is the wearable device (10) with all circuits on it (Sp02 circuit (10.2), body temperature and humidity circuit (10.3), motion circuit (104)) all sensors (Sp02) positioned on the patient body to provide data communication between Sensors (Sp02 sensor (102.1), body temperature and humidity sensor (103.1), motion sensor (10.4.1)) one end on the body is inserted and one end is attached to the multi-sensor input apparatus (Ç). So all circuits They receive the data coming to the multi-sensor input apparatus (C).

The wearable device (10) transmits the measurement data made by the above-mentioned sensors every second. by means of the wireless communication module-1 (10.5) positioned on it, while the patient is in the environment where the system exists; via zigbee/bluetooth/wifi forwards it to the gateway device (50). The measurement data can also be sent from the gateway device (50) wirelessly. It is sent to the decision support system (60) working in cloud technology by transfer. Patient While outside the environment (such as on the street), the data of the wearable device (10) is still wireless. which can be plugged into a mobile device (T) (such as a smartphone, tablet) via module-1 (10.5) Direct decision support system (60) via Zigbee USB Dongle Android/IDS (40) sends it.

The wearable device (10) is powered by a lithium battery - 1 (10.6) and the important thing is Its feature is that it measures every second with its 24/7 uninterrupted working principle.

On the wearable device (10), there is an ECG circuit (10.1) for ECG measurement.

Thanks to the ECG circuit ( EKG electrode cable ( The electrodes at the ends are attached to the body of the individual and the data obtained from here is ECG. circuit ( three-lead via ECG measurement can be made. Also, in the pulse measurement, the ECG circuit (10.1) and electrodes are used. Current scientific formulas with ECG electrode data ECG status and heart rate information can be accessed using Via this software reachable. This software can be in the ECG circuit (10.1) or in the decision support system (60). it can be too.

SpOz circuit (10.2) for SpOz measurement on the wearable device (10) is located. Sp02 circuit (10.2) with multi-sensor input apparatus (C) It is in communication with the sensor (102.1). SpOg sensor (102.1) body via cable is positioned on it. SpOz sensors in existing systems, finger measurement is designed to do. However, the SpOz sensor mentioned in our invention (102.1) over the human body (Sensor chest cavity around the chest cavity) It is pasted on it.) has been revised in order to be able to measure. to the chest cavity The attached Sp02 sensor (102.1) works in the same way as the finger measuring.

To measure body temperature and humidity on the wearable device (10), the humidity circuit (10.3) is positioned. Body temperature and humidity circuit (10.3) multiple Communication with the body temperature and humidity sensor (10.31) thanks to the sensor input apparatus (Ç). and measurements are made automatically.

On the wearable device (10), for the measurement of shortness of breath and fall-stand status detection, the motion circuit (10.4) is positioned. Motion circuit (10.4) multi-sensor input It is in communication with the motion sensor (104.1) thanks to the apparatus (Ç). Shortness of breath The movement of the rib cage that occurs with each inhalation and the measurement of the movement the frequency is determined. Also motion sensor (104.1) X, Y and Z As a result of the coordinate plane detection, the sudden acceleration of the patient is detected. transfers the acceleration data to the motion circuit (10.4). Thus, the sudden fall of the patient Instant detection is provided in cases such as fainting or fainting.

Said media device (20), as seen in Figures 4 and 5, is the subject of the invention. the location where the health monitoring system will be used (such as home, workplace, workplace or hospital) It is an embedded device. The media device (20) is plugged into an outlet 24/7 without interruption. It measures every second with its working principle. on the media device (20) wireless communication module - 2 (20.4) again from the circuits on the media device (20) (dust measuring circuit (20.1), oxygen circuit (20.2), temperature and humidity circuit (20.3)) it provides wireless transmission of data to the gateway device (50).

On the media device (20), a dust circuit (20.1) and dust sensor for dust level measurement (20.1.1) is located. The dust sensor (20.1.1) detects the actual dust amount in the environment. it measures in time and transmits the information to the powder circuit (20.1).

On the ambient device (20), an oxygen circuit (20.2) for oxygen level measurement There is an oxygen sensor (202.1) on the oxygen circuit (20.2). is positioned. It measures the amount of oxygen in the environment in real time. The oxygen sensor (202.1) transmits the information to the oxygen circuit (20.2).

Temperature and humidity circuit (20.3) on the ambient device (20) to measure temperature and humidity. There is a temperature and humidity sensor on the temperature and humidity circuit (20.3). (203.1) is positioned. Temperature and humidity sensor (203.1) It measures the amount of humidity in real time and sends the information to the temperature and humidity circuit (20.3). transmits.

Automatic measurements such as eating-drinking, defecation, vomiting, exercise cannot be made. the mentioned smart key (30) seen in Figure 6 and Figure 7 to detect the situations is used. 16 different parameters (emergency, severe pain, pressure) to the smart switch (30) dizziness, bleeding from the mouth, vomiting, diarrhea, sudden loss of strength, urination, defecation, bloating, bleeding, urination, exercise, water consumption, food consumption, and chest pain) can be defined, it is possible to increase this number even more.

The smart switch (30) is in the environment, for example, a sink for obtaining vomit number data. located close to it. A separate positioning is made for each parameter. Patient When the smart key presses the push and pull button (30.2), the data belonging to that function is wireless. It is transferred to the gateway device (50) by means of the communication module - 3 (30.1). Clever Thanks to the IDs defined on the switch (30), which smart it is understood by the gateway device (50) that data is coming from the switch (30).

Each time the button (30.2) of the smart switch (30) is pressed, the measurements are manually digitalized. taken in terms of data. For example, when the person has a headache, the relevant smart key (30) By pressing the push button (30.2), the data is sent. A Lithium in the smart key (30) It works according to the principle of working 24/7 with a battery.

Mentioned Zigbee USB Dongle Android/IOS (40), as seen in Figure 8 wireless communication module - 4 in (40.1) wireless communication network It is a device used for Android/IOS mobile devices (T), working with technology. zigbee USB Dongle Android/IOS (40), USB on Android/IOS mobile devices (T) connection (, patient data received from the wearable device (10) while it is outside the environment (for example, while on the street). It provides transmission to the decision support system (60) over the internet.

The aforementioned cloud technology decision support system (60), wearable device (10), which takes, stores, queues the measurement values of the media device (20) and the smart key (30) detecting the person's life-threatening situation by developing logical algorithms that situation for doctors/hospitals/patient relatives in disease treatment processes, who can It is a computer program that can produce reports and produced with big data technology. (Previously The neural data is recorded in the decision support system (60). For example, the fire rating of 375 alarm is issued) Said gateway device (50), as seen in Figure @, has a wireless It is a device that hosts communication network technologies (zigbee/Wi-Fi/bluetooth). Other devices (wearable device (10), media device (20) and smart key (30)) Decision with wireless communication network technologies module (50.1) (zigbeeNVi-Fi/bluetooth) transmits it to the support system (60). It works with the principle of working 24/7, lithium batteries and It works by plugging into electrical outlets.

Microcontroller - 1 (10.7) in wearable device (10) and microcontroller in gateway device (50) controller - 2 (50.2) are available. Microcontroller - 1 (10.7) sequencing of data determines. eg microcontroller with patient on the go - 1 (10.7) closest it enables data to be sent to the gateway device (50).

Working principle of the system; The wearable device (10) is placed on the thorax region of the human body by a girdle or It is placed with an adhesive pad. The wearable device (10) is also a It can also work in the waist area by means of the apparatus (adhesive belt). Wearable ECG circuit (10.1), SpOg circuit for measuring health data on the device (10) (10.2), body temperature and humidity circuit (10.3) and action circuit (10.4).

Sensors connected to these circuits (Sp02 sensor (102.1), body temperature and humidity sensor (103.1) and motion sensor (10.4.1) ) one end is placed on the body and a end is attached to the multi-sensor input apparatus (C). ECG on the wearable device (10) circuit ( thanks to the ECG electrode cable (at the ends The electrodes are attached to the body of the individual and the data obtained from the electrodes are sent to the ECG circuit. ( via three-lead ECG measurement can be done. Wearable device (10), ECG, Sp02, body temperature above every second and the wireless communication module - 1 (10.5) by measuring humidity and movement. Zigbee pluggable to gateway device (50) and mobile device (T) via USB Dongle transmits to Android/IOS (40). cloud computing decision support sent to the software (60). Gateway device (50) and Zigbee USB Dongle on Android/IOS transmits this data to the decision support system (60) for evaluation.

In addition, while the patient is in the environment where the system exists, on the media device (20), temperature and humidity circuit (20.3), powder circuit (20.1) and oxygen circuit (20.2) are available. Dust measurement sensor (20.1.1) to dust circuit (20.1), oxygen sensor (202.1) transmit the data they measured instantaneously to the oxygen circuit (20.2). Wireless communication module - 2 (20.4) from the circuits (dust circuit) on the ambient Device (20) (20.1), the oxygen circuit (20.2), and the temperature and humidity circuit (203) to the gateway device (50) wirelessly.

In addition, the smart switch (30) for the detection of situations where automatic 'measurements cannot be made' is used. As 16 different parameters can be defined to the smart switch (30), this number further increase is possible. The smart key (30) is within the environment (for example, It is positioned (near the sink) to obtain vomit number data. For each parameter positioning is done in a separate place. Patient smart key (30) push and pull button (30.2) When pressed, the data belonging to that function, wireless communication module - 3 (30.1) via the gateway device (50). IDs defined in smart switch (30) thanks to which smart switch (30) data comes from each time the button (30.2) is pressed. understood by the gateway device (50). Each time the button (30.2) of the smart key (30) When pressed, measurements are taken manually in terms of numerical data. For example, person When the head hurts, press the button (30.2) of the relevant smart key (30) to send the data. 111] __F T El '_-"' 'ED 1III.}I --'-""'_ 1U.1.1 33”.? 53”.? SELI fr' ;31% ,f

Claims (2)

ISSUES It is a health monitoring system that enables the remote monitoring, storage and evaluation of health data by the decision support system (60). 0:' on, . multi-sensor input apparatus (Ç), ECG circuit (10.1) that receives data from ECG electrodes and makes ECG measurement, on which the ECG electrode socket (101.2) is connected, on which the ECG electrode cable (101.1) is connected, on which one end is connected with the ECG electrode placed on the human body. 0 body temperature and humidity circuit (10.3) that receives body temperature and humidity data from the body temperature and humidity sensor (103.1) placed in the human body via said multi-sensor input apparatus (C), 0 said multi-sensor input apparatus (C), 0 said The motion circuit (104) that receives data from the motion sensor (104.1) placed in the human body via the multi-sensor input apparatus (C), in that said ECG circuit (10.1), said Spog circuit (10.2), said body temperature and humidity circuit (10.3) and motion wireless communication module that transmits the data collected in the circuit (10.4) - 1 (10.5), Lithium battery-1 (10.6), which provides 0 energy, . said wireless communication module - microcontroller that sequencing the data transmitted by 1 (10.5) - wearable device (10) positioned 1 (107), .;. it includes said decision support system (60) that receives data from said wearable device (10) via said wireless communication module - 1 (10.5). It is the mentioned health monitoring system in accordance with Claim 1, and its feature is; gateway device (50) on which the data collection device (V) is positioned, on which the wireless communication network technologies module (50.1) is placed on the microcontroller - 2 (50.2) and the data received from the said wearable device (10) is transmitted to the decision support system (60). is that. It is the said health monitoring system in accordance with claim 1 or 2, and its feature is; On it, ~:° dust measurement sensor (20.1.1) that measures the amount of dust in the environment, oxygen sensor (202.1) that measures the amount of oxygen in the environment, â' the oxygen circuit (20.2) that receives the data from the said oxygen sensor (202.1), that measures the temperature and humidity in the environment temperature and humidity sensor (203.1), temperature and humidity circuit (20.3) receiving data from said temperature and humidity sensor (203.1), data collected in said dust circuit (20.1), said oxygen circuit (20.2) and said temperature and humidity circuit (20.3) it includes a media device (20) positioned as a wireless communication module - 2 (20.4) that enables the transmission to the said gateway device (50). It is the mentioned health monitoring system in accordance with claim 1 or 2, and its feature is; It contains a smart switch (30) positioned as a wireless communication module - 3 (301), which is used in cases where automatic measurements such as vomiting, headache cannot be made, and which enables the transmission of the numerical data contained in it to the said gateway device (50). It is the mentioned health monitoring system in accordance with claim '1 and its feature is; Wireless communication module that enables the data collection device (V) mentioned for use outside the building to transmit the data received from the wearable device (10) mentioned on it to the decision support system (60) - 4 (40. 1) and a USB connection (40. 2) Zigbee USB Dongle positioned includes Android/IOS (40).