CN111603167A - Self-adaptive height monitoring system - Google Patents
Self-adaptive height monitoring system Download PDFInfo
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- CN111603167A CN111603167A CN202010446144.5A CN202010446144A CN111603167A CN 111603167 A CN111603167 A CN 111603167A CN 202010446144 A CN202010446144 A CN 202010446144A CN 111603167 A CN111603167 A CN 111603167A
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Abstract
The invention discloses a health detection system adaptive to height, which comprises: the body temperature detection system comprises a face recognition module, a body temperature detection module, a control center, an input module and a height detection module; the face recognition module and the body temperature detection module are connected to a support vertical to the ground, and the control center controls the driving unit; and driving the input ends of the face recognition module and the body temperature detection module to point to the forehead of the detected face. The working position is automatically adjusted according to different body heights, and the forehead part of the human face at the fixed point position is shot to acquire human face identification and body temperature data, so that the error of infrared temperature measurement can be effectively avoided, and the success rate of human face identification is improved; due to the adoption of the comprehensive detection method, the human health index data can be comprehensively acquired in real time, the user experience is improved, and the method has the characteristics of high accuracy, safety and stability.
Description
Technical Field
The invention relates to a human health index detection system. More specifically, the invention relates to a health indicator detection system for use in detecting people of different heights.
Background
The existing health detection system only has the detection function of certain indexes, such as height, weight, body temperature and other indexes, particularly, the body temperature detection device usually adopts an infrared temperature measurement mode, and the mode usually generates larger measurement errors due to the influence of factors such as measurement distance, angle, position and the like, so that potential safety hazards are brought to epidemic prevention and control. Especially, in the process of detecting the entrance of the school in middle and primary schools, the height difference of students is large, the naked skin part for measurement can only be selected from the forehead part under the condition of wearing the mask, the handheld temperature measuring gun cannot meet the requirement of large flow real-time detection easily, the fixed body temperature detector can generate large measurement error, and the efficiency is low.
Disclosure of Invention
An object of the present invention is to solve at least the above problems and/or disadvantages and to provide at least the advantages described hereinafter.
The invention also aims to provide a height-adaptive health detection system, which can automatically adjust the measurement height according to the human bodies with different heights and accurately align the collected data of the forehead part of the human face, thereby avoiding the measurement error and simultaneously taking the comprehensive detection and attendance checking functions of various health indexes of the human body into consideration.
Still another object of the present invention is to improve the efficiency of real-time detection of health indicators such as body temperature and body health by using the method of the health detection system adaptive to height, so as to obtain better user experience.
To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a health detection system adaptive to height, comprising: the body temperature detection system comprises a face recognition module, a body temperature detection module, a control center, an input module and a height detection module; the human face recognition module and the body temperature detection module are connected to a support vertical to the ground, and the height detection module is arranged at one end of a telescopic rod extending along the horizontal direction at the top of the support; the control center controls the driving unit to drive the input ends of the face recognition module and the body temperature detection module to point to the forehead of the detected face.
Preferably, the input ends of the face recognition module and the body temperature detection module point to the detected human body, and the driving unit drives the face recognition module and the body temperature detection module to move vertically or horizontally along the support.
Preferably, the input ends of the face recognition module and the body temperature detection module point to the detected human body, and the driving unit drives the face recognition module and the body temperature detection module to rotate along a vertical plane.
Preferably, the face recognition module is a face image recognition device, and comprises a visible light camera for collecting a face image; the visible light camera is arranged independently or integrally with the face image recognition device; the body temperature detection module is an infrared thermal imaging temperature measuring device and comprises an infrared camera for collecting the temperature of a human body; the infrared camera is arranged independently or integrally with the infrared thermal imaging temperature measuring device.
Preferably, the height detection module is any one of an ultrasonic height measuring instrument, an image height measuring instrument or an infrared height measuring instrument.
Preferably, wherein the drive unit is a high precision stepper motor.
Preferably, the system further comprises: the weight detection module is arranged on the ground corresponding to the height detection module.
Preferably, the system further comprises: the blood pressure detection module, the human body component detection and analysis module, the human body heart rate detection module and the human body blood oxygen detection module; the blood pressure detection module, the human body component detection and analysis module, the human body heart rate detection module and the human body blood oxygen detection module are arranged in the middle of the bracket.
Preferably, the face recognition module, the body temperature detection module, the height detection module, the weight detection module, the blood pressure detection module, the body composition detection and analysis module, the body heart rate detection module and the body blood oxygen detection module adopt 2G, 3G, 4G, 5G, WIFI, NB-IOT, LoRa, ZigBee or Bluetooth network, infrared induction and the control center realizes data intercommunication.
The object of the invention is further achieved by a method for using a health detection system for height adaptation, the method comprising the steps of:
firstly, initializing a system, wherein the control center allocates a unique personnel ID for a tested personnel and stores the unique personnel ID in a system database, and facial image information, height-to-head ratio data and health standards of the personnel are input through the input module and stored in the system database;
secondly, a person to be detected stands under the height detection module and faces to the input ends of the face recognition module and the body temperature detection module, the height detection module measures and obtains height data of a human body in real time and transmits the height data to the control center, and the control center records and stores the height data and determines the actual height of the forehead part of the human body away from the ground according to the height and head length ratio data;
thirdly, the control center sends an adjusting instruction to the driving unit according to the actual height data, and drives the input ends of the face recognition module and the body temperature detection module to accurately position and point to the forehead of the detected face;
and fourthly, acquiring human face temperature data by the input end of the body temperature detection module, acquiring human face image data by the input end of the human face recognition module, transmitting the human face image data to the control center, recognizing corresponding personnel information by the control center through a comparison database, storing the height and body temperature data into a corresponding personnel ID database in an associated manner, and outputting the health state detection result of the detected personnel by the control center after comparing the stored data with the health standard database.
Preferably, the health status test result comprises height, weight, fat content, muscle content, bone content, body mass index, moisture content, body type judgment, blood pressure, heart rate and blood oxygen index.
Preferably, wherein said step further comprises,
step five: displaying the detection result of the health state of the personnel, and synchronously pushing the detection result to the registered mobile terminal client and other data sharing terminals of the personnel to be detected;
step six: the control center identifies corresponding personnel information by comparing the databases, stores the personnel arrival information and the time data into the corresponding personnel ID database in an associated manner, and records the attendance and card punching conditions of the personnel.
The invention at least comprises the following beneficial effects: the working position of the input end is automatically adjusted according to different body heights, and the forehead part of the human face at the fixed point position is shot to acquire human face identification and body temperature data, so that the error of infrared temperature measurement can be effectively avoided, and the success rate of human face identification is improved; by adopting the comprehensive detection method, the human health index data can be comprehensively acquired in real time, the user experience is improved, and the method has the characteristics of high accuracy, safety and stability.
Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.
Drawings
FIG. 1 is a schematic structural diagram of one embodiment of the present invention;
FIG. 2 is a schematic structural diagram of another embodiment of the present invention;
fig. 3 is a schematic diagram of the system components of an embodiment of the present invention.
Detailed Description
The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.
It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.
Fig. 1 shows an implementation form according to the invention, which includes: the body temperature detection system comprises a face recognition module 1, a body temperature detection module 2, a control center, an input module and a height detection module 3; the human face recognition module 1 and the body temperature detection module 2 are connected to a support 4 vertical to the ground, and the height detection module 3 is arranged at one end of a telescopic rod extending along the horizontal direction at the top of the support 4; the control center controls the driving unit 5 to drive the input ends of the face recognition module 1 and the body temperature detection module 2 to point to the forehead of the detected face. Also, the member includes various implementations.
In this technical solution, the using method comprises the following steps:
firstly, initializing a system, wherein the control center allocates a unique personnel ID for a tested personnel and stores the unique personnel ID in a system database, and facial image information, height-to-head ratio data and health standards of the personnel are input through the input module and stored in the system database;
secondly, a person to be detected stands below the height detection module 3 and faces to the input ends of the face recognition module 1 and the body temperature detection module 2, the height detection module 3 measures and obtains height data of a human body in real time and transmits the height data to the control center, and the control center records and stores the height data and determines the actual height of the forehead part of the human body from the ground according to the height-head ratio data;
thirdly, the control center sends an adjusting instruction to the driving unit 5 according to the actual height data, drives the input ends of the face recognition module 1 and the body temperature detection module 2 to vertically move or horizontally move along the bracket 4, and accurately positions and points to the forehead part of the detected face;
and fourthly, acquiring human face temperature data by the input end of the body temperature detection module 2, acquiring human face image data by the input end of the human face recognition module 1, transmitting the human face image data to the control center, recognizing corresponding personnel information by the control center through comparing the databases, storing the height and body temperature data into corresponding personnel ID databases in an associated manner, and outputting the health state detection result of the detected personnel by the control center after comparing the stored data with the health standard database.
In another example, as shown in fig. 2, the input ends of the face recognition module 1 and the body temperature detection module 2 point to the measured human body, and are driven by the driving unit 5 to rotate along a vertical plane. And the control center sends an adjusting instruction to the driving unit 5 according to the actual height data, and drives the face recognition module 1 and the body temperature detection module 2 to rotate by corresponding angles so as to align to the forehead of the detected human body. The scheme has the speed of finishing face recognition and body temperature detection in second level, and has the characteristics of no contact, high accuracy, safety and stability. Also, this manner is merely an illustration of a preferred example, but not limited thereto. In the implementation of the invention, the mode can be implemented according to the requirements of users.
One implementation manner of the face recognition module 1 and the body temperature detection module 2 in the above scheme is as follows: the face recognition module 1 is a face image recognition device and comprises a visible light camera for collecting face images, and the visible light camera is arranged independently or integrally with the face image recognition device 1; the body temperature detection module 2 is an infrared thermal imaging temperature measuring device and comprises an infrared camera for collecting the temperature of a human body; the infrared camera is arranged independently or integrally with the infrared thermal imaging temperature measuring device. The scheme has the characteristics of high accuracy, high safety and good stability. Particularly, the visible light camera and the infrared camera are respectively and independently arranged, and the control center controls the driving unit to directly drive, so that the weight of the movable unit is further reduced, and the response flexibility and the rapidity of the system are improved.
One implementation of the height detection module 3 in the above scheme is as follows: the height detection module 3 is any one of an ultrasonic height measuring instrument, an image height measuring instrument or an infrared height measuring instrument. The scheme can be flexibly combined, and the system cost is reduced.
One implementation of the driving unit 5 in the above scheme is as follows: the driving unit 5 is a high-precision stepping motor, and the adoption of the scheme can accurately control and adjust the heights of the input ends of the face recognition module and the body temperature detection module, so that the input ends accurately point to the face forehead part of the detected human body, the measurement error is avoided, and the face recognition success rate is improved.
One implementation manner of the health detection system adaptive to height in the above scheme is as follows: further comprising: the weight detection module 6, the weight detection module 6 set up in the ground that height detection module 3 corresponds. By adopting the scheme, the weight can be synchronously measured when the height is measured, and data is provided for comprehensive judgment and evaluation of the health state.
One implementation manner of the health detection system adaptive to height in the above scheme is as follows: further comprising: the blood pressure detection module, the human body component detection and analysis module, the human body heart rate detection module and the human body blood oxygen detection module; the blood pressure detection module, the human body component detection and analysis module, the human body heart rate detection module and the human body blood oxygen detection module are arranged in the middle of the bracket 4. By adopting the scheme, various physiological index data of the human body can be synchronously measured, and data is provided for comprehensive judgment and evaluation of the health state.
One implementation manner of the health detection system adaptive to height in the above scheme is as follows: the human face recognition module body temperature detection module height detection module weight detection module blood pressure detection module human composition detection analysis module human rhythm of heart detection module with human blood oxygen detection module adopts 2G, 3G, 4G, 5G, WIFI, NB-IOT, loRa, zigBee or bluetooth network, infrared induction with control center realizes data intercommunication. By adopting the scheme, all parts of the system can be interconnected and intercommunicated in a common wireless mode, and the system is convenient to expand.
One implementation manner of the use method of the self-height-adaptive health detection system in the scheme is as follows: the health state detection result comprises height, weight, fat content, muscle content, bone content, body quality index, moisture content, body type judgment, blood pressure, heart rate and blood oxygen index. By adopting the scheme, the system can provide the comprehensive condition of the health state of the user in real time, and the user experience is improved.
One implementation manner of the use method of the self-height-adaptive health detection system in the scheme is as follows: also comprises the following steps of (1) preparing,
step five: displaying the detection result of the health state of the personnel, and synchronously pushing the detection result to the registered mobile terminal client and other data sharing terminals of the personnel to be detected;
step six: the control center identifies corresponding personnel information by comparing the databases, stores the personnel arrival information and the time data into the corresponding personnel ID database in an associated manner, and records the attendance and card punching conditions of the personnel;
by adopting the scheme, the detection result can be timely notified to the user or transmitted to each data statistical analysis system, so that each system can be conveniently called, and the attendance checking and card punching functions are considered.
The number of apparatuses and the scale of the process described herein are intended to simplify the description of the present invention. Applications, modifications and variations of the present invention will be apparent to those skilled in the art.
As described above, according to the invention, the working height is automatically adjusted according to different body heights, and the forehead part of the human face at the fixed point position is shot to acquire the data of human face recognition and body temperature, so that the error of infrared temperature measurement can be effectively avoided, and the success rate of human face recognition is improved; due to the adoption of the comprehensive detection method, the human health index data can be comprehensively acquired in real time, the user experience is improved, and the method has the characteristics of high accuracy, safety and stability.
While embodiments of the invention have been disclosed above, it is not intended to be limited to the uses set forth in the specification and examples. It can be applied to all kinds of fields suitable for the present invention. Additional modifications will readily occur to those skilled in the art. It is therefore intended that the invention not be limited to the exact details and illustrations described and illustrated herein, but fall within the scope of the appended claims and equivalents thereof.
Claims (12)
1. A height-adaptive health detection system, comprising: the body temperature detection system comprises a face recognition module, a body temperature detection module, a control center, an input module and a height detection module; the human face recognition module and the body temperature detection module are connected to a support vertical to the ground, and the height detection module is arranged at one end of a telescopic rod extending along the horizontal direction at the top of the support; the control center controls the driving unit to drive the input ends of the face recognition module and the body temperature detection module to point to the forehead of the detected face.
2. The height-adaptive health detection system of claim 1, wherein the input ends of the face recognition module and the body temperature detection module are directed to the measured human body, and are driven by the driving unit to move vertically or horizontally along the support.
3. The height-adaptive health detection system of claim 1, wherein the input ends of the face recognition module and the body temperature detection module are directed to the measured human body and driven by the driving unit to rotate along a vertical plane.
4. The height-adaptive health detection system of claim 1, wherein the face recognition module is a face image recognition device comprising a visible light camera for acquiring a face image; the visible light camera is arranged independently or integrally with the face image recognition device; the body temperature detection module is an infrared thermal imaging temperature measuring device and comprises an infrared camera for collecting the temperature of a human body; the infrared camera is arranged independently or integrally with the infrared thermal imaging temperature measuring device.
5. The height-adaptive health detection system of claim 1, wherein the height detection module is any one of an ultrasonic height measurement instrument, an image height measurement instrument or an infrared height measurement instrument.
6. The height-adaptive health detection system of claim 1, wherein said drive unit is a high precision stepper motor.
7. The height-adaptive health detection system of claim 1, further comprising: the weight detection module is arranged on the ground corresponding to the height detection module.
8. The height-adaptive health detection system of claim 1, further comprising: the blood pressure detection module, the human body component detection and analysis module, the human body heart rate detection module and the human body blood oxygen detection module; the blood pressure detection module, the human body component detection and analysis module, the human body heart rate detection module and the human body blood oxygen detection module are arranged in the middle of the bracket.
9. The height-adaptive health detection system of claim 8, wherein the face recognition module, the body temperature detection module, the height detection module, the weight detection module, the blood pressure detection module, the body composition detection and analysis module, the body heart rate detection module and the body blood oxygen detection module adopt 2G, 3G, 4G, 5G, WIFI, NB-IOT, LoRa, ZigBee or bluetooth network, and infrared sensing to realize data intercommunication with the control center.
10. Use of an adaptive height health detection system according to any of claims 1 to 9, comprising the steps of:
firstly, initializing a system, wherein the control center allocates a unique personnel ID for a tested personnel and stores the unique personnel ID in a system database, and facial image information, height-to-head ratio data and health standards of the personnel are input through the input module and stored in the system database;
secondly, a person to be detected stands under the height detection module and faces to the input ends of the face recognition module and the body temperature detection module, the height detection module measures and obtains height data of a human body in real time and transmits the height data to the control center, and the control center records and stores the height data and determines the actual height of the forehead part of the human body away from the ground according to the height and head length ratio data;
thirdly, the control center sends an adjusting instruction to the driving unit according to the actual height data, and drives the input ends of the face recognition module and the body temperature detection module to accurately position and point to the forehead of the detected face;
and fourthly, acquiring human face and body temperature data by the input end of the body temperature detection module, acquiring human face image data by the input end of the human face recognition module, transmitting the human face and body temperature data to the control center, recognizing corresponding personnel information by the control center through a comparison database, storing the height and body temperature data into a corresponding personnel ID database in an associated manner, and outputting a personnel health state detection result after comparing the stored data with a health standard database by the control center.
11. The method of claim 10, wherein the health status test result comprises height, weight, fat content, muscle content, bone content, body mass index, moisture content, body type determination, and blood pressure, heart rate, or blood oxygen index.
12. The method of using an adaptive height health detection system according to claim 10, further comprising,
step five: displaying the detection result of the health state of the personnel, and synchronously pushing the detection result to the registered mobile terminal client and other data sharing terminals of the personnel to be detected;
step six: the control center identifies corresponding personnel information by comparing the databases, stores the personnel arrival information and the time data into the corresponding personnel ID database in an associated manner, and records the attendance and card punching conditions of the personnel.
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