CN111899830A - Non-contact intelligent health detection system, detection method and detection device - Google Patents

Abstract

The invention discloses a non-contact intelligent health detection system, a detection method and a detection device, wherein the system comprises an information acquisition module, an information display module, a data processing module, a data management platform and an APP client, wherein the data processing module is connected with the information acquisition module and the information display module, user sign information data are acquired through the information acquisition module, the data processing module analyzes and processes the information data acquired by the information acquisition module, and data results after analysis and processing are displayed on the information display module; the data management platform is connected with the data processing module, and the data processing module synchronizes the data result displayed on the information display module to the data management platform; the APP client is remotely connected with the data management platform and acquires a data result of the data management platform to check in real time. The invention can quickly and accurately carry out routine measurement, screening common diseases and the like, has high detection efficiency and can prevent and avoid the risk of cross infection in time.

Description

Non-contact intelligent health detection system, detection method and detection device

Technical Field

The invention relates to the field of health detection, in particular to a non-contact intelligent health detection system, a detection method and a detection device.

Background

As is well known, morning examination is an important health care measure that each kindergarten must perform, and is an important 'gate' for ensuring healthy growth of the kindergartens. According to the requirements of the ministry of education and the ministry of health of China, dozens of thousands of young holding institutions and kindergartens in China must perform the morning check of entering the kindergarten every day, and the morning check can be said to be the health care work which must be performed every day by the young holding institutions, the kindergartens and the like for strengthening the infectious disease prevention and control work.

With the increasing trend of infectious diseases, the prevention and control of diseases in kindergartens and primary and secondary schools are more critical and important. In the season of epidemic diseases, influenza, hand-foot-mouth disease, herpes type pharyngolaryngitis and the like are all the diseases easy to occur and many. The traditional morning examination mainly depends on a mode of asking one, watching two, touching three, checking four and registering five by a health care teacher, the mode generally has the defects of low morning examination efficiency, basic dependence on artificial subjective judgment, no retention of morning examination data, incapability of tracing and the like, and the morning examination machine is produced by the operation. However, the detection equipment in the prior art has the defects of poor quality, single function and large measurement error, and cannot meet the requirement of integrating high-quality conventional measurement and common disease screening (pinkeye screening, hand-mouth-foot disease screening, fever screening, vision screening and the like). Especially, the outbreak of epidemic situation in this year has extremely strong infectivity, and non-contact measurement is the main means and trend of health measurement in the future.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides a non-contact intelligent health detection system, a detection device and a detection method, which can quickly and accurately perform routine measurement, common disease screening and the like, and can prevent and avoid cross infection risks in time.

The embodiment of the application discloses: a non-contact intelligent health detection system comprises

The information acquisition module is used for acquiring user sign information data;

the information display module is used for displaying the health information of the user;

the data processing module is connected with the information acquisition module and the information display module, analyzes and processes the information data acquired by the information acquisition module, and displays the analyzed and processed data result on the information display module;

the data management platform is connected with the data processing module and synchronizes the data result displayed on the information display module to the data management platform; and

the APP client is remotely connected with the data management platform and acquires a data result of the data management platform;

the information acquisition module comprises a camera unit, a face recognition unit, a thermal imaging body temperature detection unit, a vision inspection unit and a pinkeye screening unit, wherein the face recognition unit, the thermal imaging body temperature detection unit, the vision inspection unit and the pinkeye screening unit are all connected with the camera unit and collect user data acquired by the camera unit.

Preferably, the user data includes user identity information data collected by the face recognition unit, user body temperature information data collected by the thermal imaging body temperature detection unit, user vision information data collected by the vision inspection unit, and user eye white information data collected by the pinkeye screening unit.

Preferably, the face recognition unit, the thermal imaging body temperature detection unit, the vision examination unit and the pinkeye screening unit are all connected with the data processing module and transmit the acquired information data to the data processing module.

Preferably, the vision inspection unit is an off-center optical detection unit.

Preferably, the pinkeye screening unit is a spectral light source imaging unit.

Preferably, the data processing module comprises a face adaptive algorithm for analyzing and processing the user identity information data acquired by the face recognition unit, a temperature compensation algorithm for acquiring the user body temperature information data by the thermal imaging body temperature detection unit, and an artificial intelligence algorithm for acquiring the user eye white information data by the pinkeye screening unit.

Preferably, the information acquisition module further comprises a gesture recognition unit and a voice recognition unit.

Preferably, the system further comprises a cloud system platform, one end of the cloud system platform is connected with the data management platform and synchronizes data results of the data management platform, the cloud system platform is further externally connected with a supervision system, and the supervision system comprises a government supervision system and a health supervision system.

The invention also provides a non-contact intelligent health detection device which comprises the non-contact intelligent health detection system.

The invention also provides a detection method of the non-contact intelligent health detection system, which comprises the non-contact intelligent health detection system, the detection method comprises the steps of collecting the user image through the camera unit,

the face recognition unit acquires a face target of a user image, matches the face target with a plurality of face targets preset in the data processing module, and outputs target information successfully matched to be displayed through the information display module;

the thermal imaging body temperature detection unit acquires temperature information of a face position of a user image, and the data processing module acquires the temperature information output by the thermal imaging body temperature detection unit and sends the temperature information to the information display module;

the vision inspection unit acquires and positions eyeball areas of user images to acquire user eye vision parameters, and the data processing module receives the user eye vision parameters output by the vision inspection unit, analyzes the user eye vision parameters and outputs user vision information data to the information display module;

the pinkeye screening unit collects the eye area of a user image and acquires the white eye information, the data processing module receives the white eye information output by the pinkeye screening unit, analyzes and judges the white eye information, and then sends the judgment result data to the information display module;

the information display module synchronizes each received information data to the data management platform, the data management platform stores and archives each received information data, and the APP client remotely checks each information data in the data management platform.

The invention has the following beneficial effects: the invention can carry out health detection on the detected object in a non-contact way, can detect the health conditions of the object such as body temperature, vision, whether the detected object has pinkeye and the like, has comprehensive functions, directly collects the image of the detected object to carry out identity recognition, replaces the function of manual card swiping or bracelet card swiping in the prior art, can really and quickly and accurately recognize identity information, wherein the thermal imaging body temperature detection unit can collect the body temperature of a human body in real time, the vision inspection unit detects the vision condition through eccentric light optics, the measured data is accurate, the detection accuracy is high, the pinkeye screening unit is a spectral light source imaging unit, does not need to assist personnel to check the image to judge the health problem of the detected object, the measured health data result can be checked in real time, the detection efficiency is improved, and the data result is synchronized to a data management platform to be recorded. The invention is applied to the morning examination of students, parents of the students can be connected with the data management platform through the APP client, so that the morning examination condition of the students can be checked in real time, and the health condition of the students can be analyzed and early warned in advance.

In order to make the aforementioned and other objects, features and advantages of the invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a vision inspection unit in an embodiment of the invention.

Reference numerals of the above figures:

1. an information acquisition module; 11. a camera unit; 12. a face recognition unit; 13. a thermal imaging body temperature detection unit; 14. a vision inspection unit; 15. a pinkeye screening unit; 16. a weight and height measuring unit; 17. a hand-mouth-foot inspection unit; 18. a gesture recognition unit; 19. a voice recognition unit; 2. an information display module; 3. a data processing module; 4. a data management platform; 5. an APP client; 6. a cloud system platform; 7. a light source plate; 71. hollowing out holes; 72. a support beam; 73. a lens; 74. an LED module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The non-contact intelligent health detection system shown in fig. 1 comprises an information acquisition module 1, an information display module 2, a data processing module 3, a data management platform 4 and an APP client 5, wherein the data processing module 3 is connected with the information acquisition module 1 and the information display module 2, user physical sign information data is acquired through the information acquisition module 1, the data processing module 3 analyzes and processes the acquired information data of the information acquisition module 1, and displays the analyzed and processed data result on the information display module 2; the data management platform 4 is connected with the data processing module 3, and the data processing module 3 synchronizes the data result displayed on the information display module 2 to the data management platform 4; the APP client 5 is remotely connected with the data management platform 4 and obtains a data result of the data management platform 4.

Information acquisition module 1 includes camera unit 11, face identification unit 12, thermal imaging body temperature detecting element 13, vision inspection unit 14 and pinkeye screening unit 15, face identification unit 12 thermal imaging body temperature detecting element 13 vision inspection unit 14 with pinkeye screening unit 15 all connects camera unit 11 and collection the user data that camera unit 11 obtained, face identification unit 12 thermal imaging body temperature detecting element 13 vision inspection unit 14 and pinkeye screening unit 15 all connects data processing module 3 to reach the information data transmission who gathers data processing module 3.

The user data includes user identity information data collected by the face recognition unit 12, user body temperature information data collected by the thermal imaging body temperature detection unit 13, user vision information data collected by the vision inspection unit 14, and user eye white information data collected by the pinkeye screening unit 15.

The data processing module 3 comprises a face self-adaptive algorithm for analyzing and processing the user identity information data acquired by the face recognition unit 12, a temperature compensation algorithm for acquiring the user body temperature information data by the thermal imaging body temperature detection unit 13, and an artificial intelligence algorithm for acquiring the user eye white information data by the pinkeye screening unit 14.

In the use process of morning examination in a kindergarten, the camera unit 11 is used for collecting user images,

the face recognition unit 12 rapidly detects the identity of the infant through an optical imaging system and a face recognition system thereof, the face recognition unit acquires a face target of an infant image and matches the face targets with a plurality of face targets preset in the data processing module, the data processing module 3 rapidly matches the identity of the infant through a face adaptive algorithm of user identity information data, and outputs information of the successfully matched infant identity target to be displayed through the information display module 2;

the thermal imaging body temperature detection unit 13 acquires temperature information of a face position of a user image, the data processing module 3 acquires the temperature information output by the thermal imaging body temperature detection unit 13 through a medical high-precision thermopile array and an environment temperature compensation algorithm, and the data processing module 3 analyzes and processes the temperature information output by the thermal imaging body temperature detection unit 13 through the temperature compensation algorithm for acquiring the body temperature information data of the user, measures the body temperature data of an infant and sends the body temperature data to the information display module 2; the traditional mode that the body temperature is tested by the traditional ear thermometer or forehead thermometer is overcome, and the body temperature is accurately collected in real time.

The vision examination unit 14 collects and positions eyeball areas of the user images to obtain vision parameters of the eyes of the user, and the data processing module 3 receives the vision parameters of the eyes of the user output by the vision examination unit 14, analyzes the vision parameters and outputs vision information data of the user to the information display module 2; the vision inspection unit 14 is an eccentric light optical detection unit, as shown in fig. 2, the eccentric light optical detection unit comprises a core light source plate 7, a circular hollow hole 71 is formed in the center of the light source plate 7, radial support beams 72 uniformly distributed in the hollow hole 71 converge at the center of the circle, the support beams 72 are used for fixing a lens 73, 12 groups of LED modules 74 for dispersing infrared light are arranged on the light source plate 7 and are arranged outside the hollow hole 71 in a radial emitting manner, the interval angle between adjacent emitting directions is 30 degrees, rapid non-contact high-precision inspection can be remotely performed on the vision of a tester, and positive effects on myopia prevention, hyperopia prevention, strabismus prevention and the like are provided.

The pinkeye screening unit 15 is a spectral light source imaging unit, acquires an eye area of a user image and acquires white eye information, the data processing module 3 receives the white eye information output by the pinkeye screening unit 15 and analyzes and judges whether an infant has pinkeye or not through an artificial intelligence extraction algorithm for acquiring white eye information data of the user, the image eye area is divided, an interested area is extracted and divided, the interested area is subjected to image processing, analysis and judgment are carried out according to existing stored clinical pathology big data, and judgment result data are sent to the information display module 2; the multispectral light source and the imaging technology are adopted, so that the health condition of eyes can be accurately detected in real time.

Each information data that information display module 2 will receive extremely data management platform 4, data management platform 4 files and updates historical detection data etc. with each information data record, the storage of receiving, and 5 remote connections data management platforms of APP customer end, infant's head of a family accessible APP customer end 5 look over in real time each information data in the data management platform looks over infant's health.

In another embodiment, the present invention further comprises a cloud system platform 6, wherein one end of the cloud system platform 6 is connected to the data management platform 4 and synchronizes the data result of the data management platform 4, the cloud system platform 6 is provided with an interface for externally connecting a monitoring system, the monitoring system comprises a government monitoring system and a health monitoring system, and the monitoring system receives the monitoring and guidance of local government departments and health departments and provides further analysis and early warning functions, so that a remote expert can intervene and diagnose earlier, and the health protection function is comprehensive.

In another embodiment, the information obtaining module 1 further comprises a height and weight measuring unit 16 for detecting height and weight information of the infant.

In another embodiment, the information obtaining module 1 further includes a hand-mouth-foot examining unit 17, the hand-mouth-foot examining unit 17 obtains regional images of hands, feet and oral cavity of the infant, and analyzes and judges whether the infant has hand-mouth-foot disease through an artificial intelligence extraction algorithm, the regions of the hands, feet or oral cavity of the image are firstly divided, the interested part in the divided regions is extracted, the interested part is subjected to image processing, and then pathological analysis and judgment are performed to screen the health condition of the hands, feet and oral cavity of the infant.

In another embodiment, the information acquisition module 1 further includes at least one of a gesture recognition unit 18 or a voice recognition unit 19, so as to realize human-computer interaction of the infant and improve the interest of children and the detection accuracy.

The invention provides a non-contact intelligent health detection device which comprises the detection system and can be used for carrying out remote non-contact detection on human body sign information on infants.

The principle and the implementation mode of the invention are explained by applying specific embodiments in the invention, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. A non-contact intelligent health detection system is characterized by comprising

The information acquisition module is used for acquiring user sign information data;

the information display module is used for displaying the health information of the user;

the data processing module is connected with the information acquisition module and the information display module, analyzes and processes the information data acquired by the information acquisition module, and displays the analyzed and processed data result on the information display module;

the data management platform is connected with the data processing module and synchronizes the data result displayed on the information display module to the data management platform; and

the APP client is remotely connected with the data management platform and acquires a data result of the data management platform;

the information acquisition module comprises a camera unit, a face recognition unit, a thermal imaging body temperature detection unit, a vision inspection unit and a pinkeye screening unit, wherein the face recognition unit, the thermal imaging body temperature detection unit, the vision inspection unit and the pinkeye screening unit are all connected with the camera unit and collect user data acquired by the camera unit.

2. The system according to claim 1, wherein the user data includes user identification information data collected by the face recognition unit, user body temperature information data collected by the thermographic body temperature detection unit, user vision information data collected by the vision inspection unit, and user eye white information data collected by the pinkeye screening unit.

3. The system according to claim 2, wherein the face recognition unit, the thermographic body temperature detection unit, the vision examination unit and the screening unit are all connected to the data processing module, and transmit the collected information data to the data processing module.

4. The system according to claim 3, wherein the vision inspection unit is an off-center optical detection unit.

5. The system according to claim 3, wherein the screening unit for red eye disease is a spectral light source imaging unit.

6. The system according to claim 3, wherein the data processing module comprises a face adaptive algorithm for analyzing and processing the user identification information data collected by the face recognition unit, a temperature compensation algorithm for collecting the user body temperature information data by the thermal imaging body temperature detection unit, and an artificial intelligence algorithm for collecting the user eye white information data by the pinkeye screening unit.

7. The system according to claim 1, wherein the information acquisition module further comprises one or two or more of a weight and height measurement unit, a hand-foot-and-mouth inspection unit, a gesture recognition unit, or a voice recognition unit.

8. The system according to claim 1, further comprising a cloud system platform, wherein one end of the cloud system platform is connected to the data management platform and synchronizes data results of the data management platform, the cloud system platform is further externally connected to a monitoring system, and the monitoring system comprises a government monitoring system and a health monitoring system.

9. A contactless smart health detection apparatus comprising the contactless smart health detection system of any one of claims 1-8.

10. A detection method of a non-contact intelligent health detection system, comprising the non-contact intelligent health detection system as claimed in any one of claims 1-8, wherein the detection method comprises, acquiring user images through the camera unit,

the face recognition unit acquires a face target of a user image, matches the face target with a plurality of face targets preset in the data processing module, and outputs target information successfully matched to be displayed through the information display module;

the thermal imaging body temperature detection unit acquires temperature information of an exposed part of a user image, and the data processing module acquires the temperature information output by the thermal imaging body temperature detection unit and sends the temperature information to the information display module;

the vision inspection unit acquires and positions eyeball areas of user images to acquire user eyeball biological parameters, and the data processing module receives the user eyeball biological parameters output by the vision inspection unit, analyzes the user eyeball biological parameters and outputs user vision information data to the information display module;

the pinkeye screening unit collects the eye area of a user image and acquires the white eye information, the data processing module receives the white eye information output by the pinkeye screening unit, analyzes and judges the white eye information, and then sends the judgment result data to the information display module;

the information display module synchronizes each received information data to the data management platform, the data management platform stores and archives each received information data, and the APP client remotely checks each information data in the data management platform.

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