AU2021107455A4 - Automatic contactless health parameters measurement and monitoring apparatus - Google Patents

Abstract

AUTOMATIC CONTACTLESS HEALTH PARAMETERS MEASUREMENT AND MONITORING APPARATUS ABSTRACT The present invention is related to Automatic contactless health parameters measurement and monitoring apparatus . The objective of present invention is to solve the abnormalities presented in the prior art techniques related to contactless health monitoring. 24 DRAWINGS Display Unit Temperature sensor Breath Measurement Data Processing Server Central sor Processing unit Oxygen Level Measurement thermographic camera FIGURE 1 25

Description

DRAWINGS

Display Unit

Temperature sensor

Breath Measurement Data Processing Server Central

Oxygen Level Processing unit sor Measurement

thermographic camera

FIGURE 1

AUTOMATIC CONTACTLESS HEALTH PARAMETERS MEASUREMENT AND MONITORING APPARATUS FIELD OF INVENTION

[001]. The present invention relates to the technical field of biomedical

health parameter diagnose.

[002]. The present invention relates to the field of biomedical

engineering.

[003]. Particularly, the present invention relates to health monitoring to

control a person using sensor and processing.

[004]. More particularly, the present invention is related to Automatic

contactless health parameters measurement and monitoring

apparatus .

BACKGROUND & PRIOR ART

[005]. The subject matter discussed in the background section should

not be assumed to be prior art merely as a result of its mention in the

background section. Similarly, a problem mentioned in the

background section or associated with the subject matter of the

background section should not be assumed to have been previously

recognized in the prior art. The subject matter in the background

section merely represents different approaches, which in-and-of

themselves may also be inventions.

[006]. To measure a person's temperature, thermal imaging systems and non

contact infrared thermometers, which are non-contact temperature

assessment devices, can be utilized. Although an infected individual may be

infectious without remarkable symptoms, an elevated temperature is one

approach to identify a person who may have a COVID-19 infection.

[007]. in every premises a person or worker are present to monitor the

symptom of the covidl9 for giving the permission to enter into the place

where the people want to get admission.

[008]. Heart beat sensor is used to get the heart beat but it is the separate

work though the sensor for particular that work only. Also the cloud is used

to store any kind of data for further use.

[009]. Some of the device will run through the battery like 9 volt, 12 volt,

etc. also some time we need to reload the battery in case of damaged the

previous batteries.

[0010]. Micro controller is used for various work where it will run by the

particular code by the user for the particular operation.

[0011]. Some of the work listed herewith:

[0012]. 1.0002568762CONTINUOUS HEALTH MONITOR RU

20.11.2015Int.Class A61B /OOAppl.No 2014125440/14Applicantnventor

CagOBH iHMBHiKTop AHTHOBH (RU) FIELD: medicine. SUBSTANCE:

device comprises electrodes, amplifiers, transmitting and receiving

antennas, a signalling unit, breathing rate, pulse, partial pressure of oxygen,

temperature, blood pressure sensors, a device number register, a timing

unit, a memory read register, a direct energy saving register, a number

decoder, a comparator unit, setters, integral comparator units, information

registers, integral deviation registers, a check register, parallel-serial

registers, a control unit, an information display unit, an information input

unit and a signalling unit. EFFECT: using the invention enables providing more reliable transmission of health parameters under noise conditions. 2 dwg

[0013]. 2.106333694INTELLIGENT HEALTH MONITORING SYSTEM

CN - 18.01.20171nt.Class A61B 5/145Appl.No

102016000862272Applicant JIANGSU OINT LECTRONIC

TECHNOLOGY CO., LTD.Inventor MENG LEIJUNThe invention

discloses an intelligent health monitoring system. The intelligent health

monitoring system comprises a health monitoring unit arranged on a

monitoring object, wherein the health monitoring unit comprises a blood

oxygen monitoring module, a blood pressure monitoring module, a body

temperature monitoring module, an electrocardio monitoring module, an

alarming module, a breath monitoring module, a controller and a display

interface, wherein the blood oxygen monitoring module, the blood pressure

monitoring module, the body temperature monitoring module, the

electrocardio monitoring module, the alarming module, the breath

monitoring module and the display interface are all connected with the

controller, the health monitoring unit is communicated with a PC (personal

computer) by virtue of a serial port communication module, the PC is

installed on one end part of a nursing bed, and the health monitoring unit is

also in network communication with a monitoring and caring center station

by virtue of a network module. The intelligent health monitoring system can monitor the health of a user respectively on the aspects of the human body temperature, electrocardiogram, blood oxygen, and blood pressure and can be communicated with the monitoring and caring center station by virtue of the network, so that the function is powerful. By arranging the alarming measure, the application prospect is good.

[0014]. 3.204192596INTELLIGENT HEALTH MONITOR CN

11.03.20151nt.Class A61B /0205Appl.No 201420647618.2Applicant CITY

COLLEGE OF DONGGUAN NIVERSITY OF TECHNOLOGYInventor

LI JIANHUI The utility model discloses an intelligent health monitor and

relates to the technical field of medical instruments. The intelligent health

monitor comprises a main machine seat and function components arranged

on the main machine seat. The function components comprise a master

control mechanism, a storage mechanism, a communication mechanism

and a terminal mechanism. The master control mechanism is composed of

a master controller IC, a power module, a blood pressure monitoring

module, a blood oxygen saturation monitoring module, a heart rate

monitoring module, a body temperature monitoring module, a breathe

collection module, an EEG collection module, a pulse collection module

and a heart sound collection module, wherein the power module, the blood

pressure monitoring module, the blood oxygen saturation monitoring

module, the heart rate monitoring module, the body temperature monitoring module, the breathe collection module, the EEG collection module, the pulse collection module and the heart sound collection module are connected with the IC. The intelligent health monitor has the function of monitoring various life sign parameters such as the blood pressure, the blood oxygen saturation, the body temperature, the heart rate, the breathe, the EEG, the pulse and the heart sound, has the functions of local display, storage, remote storage, historical information inquiry, automatic health condition curve table generation and the like, a monitored person can have more free movement spaces, accurate measurement indexes can be obtained, and people are prevented from shuttling back and forth between a family and a hospital.

[0015]. 4.112641572HEALTH MONITORING AND REHABILITATION

WHEELCHAIR CN - 13.04.2021Int.Class A61G 5/OOAppl.No

202011536398.2Applicant HONGKEXIN FUTURE

MICROELECTRONICS TECHNOLOGY CHENGDU CO., TD.Inventor

ZHANG SHUAI The invention discloses a health monitoring and

rehabilitation wheelchair. Through a main control module, a

communication module, a power module, an environment sensing module,

a health monitoring module, an interaction module, a one-key alarm

module, an illumination module and a massage module, the wheelchair can

monitor the heart rate, blood oxygen, breathing and other physiological indexes of a user and the ambient temperature, illumination and road condition environment of the user in real time, and provide travel related instructions for the user and turn on the illumination module through the interaction module; and if the physiological indexes exceed a threshold value, early warning information is sent to an associated user through the communication module, and the travel safety of the user is guaranteed.

[0016]. 5.112641182LIFE HEALTH MONITORING AND NAVIGATION

POSITIONING CRUTCH CN - 13.04.2021Int.Class A45B 3/00Appl.No

202011536396.3Applicant HONGKEXIN FUTURE

MICROELECTRONICS TECHNOLOGY CHENGDU CO., TD.Inventor

ZHANG SHUAI The invention discloses a life health monitoring and

navigation positioning crutch, which comprises a main control module, a

communication module, a power supply module, a sensing monitoring

module, a voice communication module, a one-key alarm module, an NFC

module and a micro video head module. The crutch can monitor the

position, posture information, heart rate, blood oxygen and breath of a user

in real time. When it is monitored that the physiological indexes exceed a

threshold value or the user presses a button emergently, the position and

the physiological indexes of the user can be sent to the associated user in

time; in addition, the crutch can monitor the environment temperature and

the illumination intensity, give an instruction not suitable for traveling to the user or turn on illumination, facilitate traveling of the user, obtain the physical condition and position of the user in time and be used for guaranteeing traveling safety of the user.

[0017]. 6.107343781HEALTH MONITORING SYSTEM BASED ON

SMARTSHIRT AND CLOUD COMPUTING TECHNOLOGY CN

14.11.2017Int.Class A61B 5/0205Appl.No 201610284266.2Applicant LAI

XIAORONGInventor LAI IAORONGThe invention provides a health

monitoring system based on a smartshirt and cloud computing

technology, which is composed of the smartshirt (internally provided with

a washing spinning dry electrode and superfine steel fibers), a buckle type

data transmission device, a smartphone, a cloud platform and special

monitoring software and is characterized by integrating a variety of micro

intelligent physiological signal sensors to the smartshirt which is comfort

in wearing, connecting the sensors and a data transmission processing

device by the superfine steel fibers, realizing the collection of important

body physiological index and state, such as electrocardiograph (ECG),

heart rate, breath, blood oxygen, body temperature and tumble or not, of

old people, critical patients and patients with chronic diseases, transmitting

the data to the smartphone carried by a user through a Bluetooth device,

transmitting to the cloud platform to store and process by the mobile web

of a telecom operator, sending the warning information to the smartphones of children and doctors by the cloud platform, and monitoring the health conditions of the old people and patients by the smartphone and a PC device by children and doctors. The health monitoring system based on the smartshirt and the cloud computing technology provides a strong support for first aid, diseases diagnosis and treatment.

[0018]. 7.WO/2017/114489MOBILE PHONE HAVING HEALTH

MONITORING AND FEEDBACK TREATMENT FUNCTION WO

06.07.2017Int.Class A61B 5/0205Appl.No PCT/CN2016/113530Applicant

ZHOU, Guomingnventor ZHOU, uoming Provided is a mobile phone

having a health-monitoring and feedback treatment function; the display

screen (2) of said mobile phone is directly connected to a housing (1), or is

connected to and inlaid in the housing (1) by means of a USB connector;

the left and right outer sides of the housing (1) are metal panels (5, 6),

which serve as two electrodes; the housing (1) is internally provided with a

rechargeable battery (3), a circuit board (4), and a USB plug (9); the

bottom of the housing (1) is provided with a USB jack (10), and the

exterior is provided with a set of function buttons (8), an earphone jack (7),

and a spare jack (11); externally connected are a headset sensor (12) and an

integrated finger sensor (15); the back side of the housing (1) is provided

with a camera Y and a multi-wavelength light emitter X; the mobile phone

is small, lightweight, and multi-purpose, has such functions as for the collection, processing, display, and transmission of life and health data, and predicts in real time several important health data concerning the human body, such as heartbeat, heart rate, cardiac rhythm, brain function state, blood oxygen saturation and blood oxygen concentration, breathing frequency, fingertip temperature, finger arterial pressure, and lung function; at the same time, it adjusts and treats some organ functions, and is used for individuals, families, community medical stations, hospitals, and emergency centers of all levels.

[0019]. 8.000020310727HEALTH MONITOR FOR BABIES AND OLD

PEOPLE HAS RED LIGHT BREATHING, PULSE, OXYGEN, AND OTHER SENSORS IN PLASTIC TRANSMITTER PACKAGE

ATTACHED BY PLASTER DE - 06.11.2003Int.Class A61B 5/Appl.No

20310727Applicant BRAUN GMBH Inventor A health monitor measures

breathing and pulse rates, oxygen content and optionally acceleration,

motion or temperature using a battery powered red or infrared light

photopleythsmographic sensor integrated in a plastic package with a radio

transmitter place in a shell attached to the body with optically transparent

side facing the body.

[0020]. 9.1020180087894EAR WEARING TYPE HEALTH CARE

MONITORING SYSTEM

[0021]. KR - 03.08.2018 Int.Class A61B 5/00 Appl.No 1020170011799

Applicant C1Al414 1Rl ' IInventor YOON, YOUNG RO

The present invention relates to an ear wearing type health care monitoring

system, which comprises: an ear wearing type signal detection unit

provided with a pulse wave (i.e. photoplethysmogram) detection unit and a

non-contact temperature sensor positioned at the front or the rear of an ear

or an earlobe to detect pulse wave signals and temperature signals; and a

portable personal terminal (e.g. smartphone) detecting respiration signals,

heartbeat signals and oxygen saturation signals from the pulse wave signals

received from the ear wearing type signal detection unit, and analyzing a

health state of a user from the oxygen saturation (SpO_2) signals, the

respiration signals, the heartbeat signals, and the temperature signals. The

ear wearing type health care monitoring system is able to detect the body

temperature and the oxygen saturation accurately while there is no

inconvenience in a general life because of not closing the ear. The present

invention comprises: the ear wearing type signal detection unit worn on an

ear and including a pulse wave detection unit detecting the pulse wave

signals and a body temperature detection unit detecting the body

temperature signals; and the portable personal terminal including a

calculation processing unit detecting the oxygen saturation, the heartbeat,

and the breathing rate from the pulse wave signals received from the ear

wearing type signal detection unit, and determining whether each of the oxygen saturation, the heartbeat and the breathing rate exists in each criterion range. The calculation processing unit passes the pulse wave signals through a high band pass filter having 0.1 Hz of cutoff frequency, performs fast Fourier transform (FFT) for the pulse wave signals passed through the high band pass filter, and detects a peak in the pulse wave signals or the oxygen saturation resulted from the FFT wherein the peak with 0.1-0.5 Hz inclusive of the frequency is detected and the number of peaks per minute is obtained by the breathing rate per minute.

[0022]. .Groupings of alternative elements or embodiments of the invention

disclosed herein are not to be construed as limitations. Each group member

can be referred to and claimed individually or in any combination with

other members of the group or other elements found herein. One or more

members of a group can be included in, or deleted from, a group for

reasons of convenience and/or patentability. When any such inclusion or

deletion occurs, the specification is herein deemed to contain the group as

modified thus fulfilling the written description of all Markus groups used

in the appended claims.

[0023]. As used in the description herein and throughout the claims that

follow, the meaning of "a," "an," and "the" includes plural reference unless

the context clearly dictates otherwise. Also, as used in the description herein, the meaning of "in" includes "in" and "on" unless the context clearly dictates otherwise.

[0024]. The recitation of ranges of values herein is merely intended to serve as

a shorthand method of referring individually to each separate value falling

within the range. Unless otherwise indicated herein, each individual value is

incorporated into the specification as if it were individually recited herein.

All methods described herein can be performed in any suitable order unless

otherwise indicated herein or otherwise clearly contradicted by context.

[0025]. The use of any and all examples, or exemplary language (e.g. "such

as") provided with respect to certain embodiments herein is intended merely

to better illuminate the invention and does not pose a limitation on the scope

of the invention otherwise claimed. No language in the specification should

be construed as indicating any non-claimed element essential to the practice

of the invention.

[0026]. The above information disclosed in this Background section is

only for enhancement of understanding of the background of the

invention and therefore it may contain information that does not form

the prior art that is already known in this country to a person of

ordinary skill in the art.

SUMMARY

[0027]. The present invention mainly cures and solves the technical

problems existing in the prior art. In response to these problems, the

present invention provides Automatic contactless health parameters

measurement and monitoring apparatus.

[0028]. As one aspect of the present invention relates to A

system for health monitoring on temperature monitor, wherein the

system comprises: An internet of things sensor unit, wherein

internet of things sensor unit is connected to an temperature sensor,

wherein internet of things sensor unit is used to sense the available

temperature in the temperature sensor; An Optical sensor unit,

optical sensor unit is used to measure the oxygen level I n the

people, wherein the infra-red camera the device will monitor the

SpO2 (oxygen level) of each people; A thermo graphic camera,

used to detect the respiratory (breathing) rate of the individual; A temperature sensor and a heartbeat sensor, place on a stand which towards a person entering in the premises, wherein the temperature sensor is used to sense the temperature and heart beat sensor is used to measure the heartbeat of the people entering in the premises; and A processing unit, used to process the information received from the internet of things sensor unit and the optical sensor unit , wherein the center unit comprises a machine learning based algorithm to process the information with incorporating all the people health data and biomedical parameter , with the current condition of the people, wherein the processing unit process the information received from the thermos graphic sensor, the temperature sensor, the optical sensor unit, and send alerting signal to an alarm or smart phone or a server when any set of biomedical parameters monitor found abnormal.

OBJECTIVE OF THE INVENTION

[0029]. The principal objective of the present invention is to provide

Automatic contactless health parameters measurement and monitoring

apparatus .

BRIEF DESCRIPTION OF DRAWINGS

[0030]. Further clarify various aspects of some example embodiments of

the present invention, a more particular description of the invention

will be rendered by reference to specific embodiments thereof which

are illustrated in the appended drawings. It is appreciated that these

drawings depict only illustrated embodiments of the invention and are

therefore not to be considered limiting of its scope. The invention will

be described and explained with additional specificity and detail

through the use of the accompanying drawings.

[0031]. In order that the advantages of the present invention will be

easily understood, a detailed description of the invention is discussed

below in conjunction with the appended drawings, which, however,

should not be considered to limit the scope of the invention to the

accompanying drawings, in which:

[0032]. Figure 1 shows an exemplary representation of Automatic

contactless health parameters measurement and monitoring apparatus,

according to the present invention

DETAIL DESCRIPTION

[0033]. The present invention discloses Automatic contactless health

parameters measurement and monitoring apparatus

.

[0034]. Figure 1 shows the exemplary representation of Automatic

contactless health parameters measurement and monitoring apparatus

, according to the present invention.

[0035]. Although the present disclosure has been described with the

purpose of two smart frameworks for providing privacy and protection

in block chain based private transactions using cloud computing

approach, it should be appreciated that the same has been done merely

to illustrate the invention in an exemplary manner and to highlight any

other purpose or function for which explained structures or

configurations could be used and is covered within the scope of the

present disclosure.

[0036]. An Automatic contactless health parameters measurement and

monitoring apparatus is disclosed.

[0037]. A system for health monitoring on temperature monitor,

, the system comprises An internet of things sensor unit, wherein

internet of things sensor unit is connected to an temperature sensor,

wherein internet of things sensor unit is used to sense the available

temperature in the temperature sensor.

[0038]. An Optical sensor unit is used to measure the oxygen

level I n the people, wherein the infra-red camera the device will

monitor the SpO2 (oxygen level) of each people.

[0039]. A thermo graphic camera is used to detect the respiratory

(breathing) rate of the individual.

[0040]. A temperature sensor and a heartbeat sensor are placed on

a stand which towards a person entering in the premises. The

temperature sensor is used to sense the temperature and heart beat

sensor is used to measure the heartbeat of the people entering in

the premises.

[0041]. A processing unit is used to process the information

received from the internet of things sensor unit and the optical

sensor unit , wherein the center unit comprises a machine learning

based algorithm to process the information with incorporating all

the people health data and biomedical parameter , with the current

condition of the people.

[0042]. The processing unit process the information received from

the thermos graphic sensor, the temperature sensor, the optical

sensor unit, and send alerting signal to an alarm or smart phone or

a server when any set of biomedical parameters monitor found

abnormal.

[0043]. The processing unit is microcontroller based processing

unit.

[0044]. The processing unit comprises memory, a communication

unit and an associated electronic circuit.

[0045]. The processing unit send the result of measurement of

biomedical parameters to a display unit.

[0046]. The figures and the foregoing description give examples of

embodiments. Those skilled in the art will appreciate that one or

more of the described elements may well be combined into a single

functional element. Alternatively, certain elements may be split into

multiple functional elements. Elements from one embodiment may

be added to another embodiment.

[0047]. For example, order of processes described herein may be

changed and are not limited to the manner described herein.

Moreover, the actions of any block diagram need not be

implemented in the order shown; nor do all of the acts need to be

necessarily performed. Also, those acts that are not dependent on

other acts may be performed in parallel with the other acts. The

scope of embodiments is by no means limited by these specific

examples.

[0048]. Although implementations of the invention have been described

in a language specific to structural features and/or methods, it is to

be understood that the appended claims are not necessarily limited to

the specific features or methods described. Rather, the specific

features and methods are disclosed as examples of implementations

of the invention.

Claims (4)

CLAIMS I/We claim:

1. A automatic contactless health parameters measurement

and monitoring apparatus, wherein the system comprises:

An internet of things sensor unit, wherein internet of things sensor

unit is connected to an temperature sensor, wherein internet of

things sensor unit is used to sense the available temperature in

the temperature sensor;

An Optical sensor unit, optical sensor unit is used to measure the

oxygen level I n the people, wherein the infra-red camera the

device will monitor the SpO2 (oxygen level) of each people;

A thermo graphic camera, used to detect the respiratory

(breathing) rate of the individual;

A temperature sensor and a heartbeat sensor, place on a stand

which towards a person entering in the premises, wherein the

temperature sensor is used to sense the temperature and heart beat sensor is used to measure the heartbeat of the people entering in the premises; and

A processing unit, used to process the information received from

the internet of things sensor unit and the optical sensor unit

, wherein the center unit comprises a machine learning based

algorithm to process the information with incorporating all the

people health data and biomedical parameter , with the current

condition of the people, wherein the processing unit process the

information received from the thermos graphic sensor, the

temperature sensor, the optical sensor unit, and send alerting

signal to an alarm or smart phone or a server when any set of

biomedical parameters monitor found abnormal.

2. The automatic contactless health parameters

measurement and monitoring apparatus as claimed in claim 1,

The processing unit is microcontroller based processing unit.

3. The automatic contactless health parameters

measurement and monitoring apparatus as claimed in claim 1,

The processing unit comprises memory, a communication unit

and an associated electronic circuit.

4. The automatic contactless health parameters

measurement and monitoring apparatus as claimed in claim 1,

The processing unit send the result of measurement of biomedical

parameters to a display unit.

FIGURE 1 DRAWINGS