CN114765642A - Mobile phone with user state testing function - Google Patents

Mobile phone with user state testing function Download PDF

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Publication number
CN114765642A
CN114765642A CN202110039421.5A CN202110039421A CN114765642A CN 114765642 A CN114765642 A CN 114765642A CN 202110039421 A CN202110039421 A CN 202110039421A CN 114765642 A CN114765642 A CN 114765642A
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CN
China
Prior art keywords
mobile phone
user
state
testing function
function
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CN202110039421.5A
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Chinese (zh)
Inventor
周星
周泰立
徐华苹
王玉娥
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Guangzhou T K Medical Instrument Co ltd
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Guangzhou T K Medical Instrument Co ltd
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Priority to CN202110039421.5A priority Critical patent/CN114765642A/en
Priority to PCT/CN2022/071158 priority patent/WO2022152095A1/en
Publication of CN114765642A publication Critical patent/CN114765642A/en
Pending legal-status Critical Current

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets
    • H04M1/0202Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
    • H04M1/026Details of the structure or mounting of specific components
    • H04M1/0264Details of the structure or mounting of specific components for a camera module assembly
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72448User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions
    • H04M1/72454User interfaces specially adapted for cordless or mobile telephones with means for adapting the functionality of the device according to specific conditions according to context-related or environment-related conditions
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/725Cordless telephones

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • General Engineering & Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Theoretical Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Environmental & Geological Engineering (AREA)
  • Eye Examination Apparatus (AREA)
  • Telephone Function (AREA)

Abstract

The mobile phone with the user state testing function comprises a user state detection system, wherein the user state detection system comprises an information acquisition system and an analysis feedback system; the information acquisition system can acquire the state information of a user of the mobile phone and transmit the state information to the analysis feedback system, the analysis feedback system analyzes the information and then judges whether the use state of the user is scientific and healthy, and prompts or operates and intervenes the mobile phone according to the analysis result so as to prevent the user from taking an incorrect use posture of the mobile phone for a long time and avoid the bad phenomena of visual deterioration, cervical spondylosis and the like. The information acquisition system is externally connected to the mobile phone with the user state testing function, or is internally arranged on the mobile phone with the user state testing function, or shares the camera system of the mobile phone with the user state testing function. The analysis feedback system is a functional module built in the mobile phone with the user state testing function or a software system which can be downloaded on the mobile phone with the user state testing function.

Description

Mobile phone with user state testing function
Technical Field
The invention relates to a mobile phone, in particular to a mobile phone with a user state testing function.
Background
With the development of science and technology, mobile phones become an indispensable part of people's daily work and life, and bring great convenience to people's work and life.
Under normal conditions, the mobile phone is required to be 30-40cm away from human eyes when in use, but as the daily use time of the mobile phone is increasingly prolonged, the distance between the mobile phone and the human eyes is unconsciously closer and closer, and due to incorrect use states such as incorrect posture, too close distance and too long use time, more and more health problems such as myopia, cervical spondylosis, over-fatigue and the like are brought to people when the mobile phone is used for a long time.
Especially, as the mobile phone is increasingly popularized in teenager groups, the harm of the health problem is increasingly highlighted. Although the existing mobile phone is expected to protect the eye health of a user by means of an eye protection mode, a blue light filtering mode, a teenager mode and the like, no way is available for warning and intervening on factors which bring eye unhealthy people due to too close distance, incorrect posture and the like, and therefore further improvement on the existing mobile phone is needed.
Disclosure of Invention
The mobile phone with the user state testing function is provided with the user state detection system, and when the user state detection system detects that the user is in a state of too close distance, eye fatigue, incorrect cervical vertebra posture and the like, the mobile phone can be used for warning or intervening operation in time through information feedback.
The invention relates to a mobile phone with user state detection function, which is characterized in that: the mobile phone 100 with the user state testing function comprises a user state detection system 2;
A. the user state detection system 2 comprises an information acquisition system 21 and an analysis feedback system 22;
B. the information acquisition system 21 can acquire the state information of the user of the mobile phone and transmit the acquired information to the analysis feedback system 22, and the analysis feedback system 22 analyzes the information and then judges whether the use state of the user is scientific and healthy, and prompts or intervenes in operation on the mobile phone 100 with the user state test function according to the analysis result.
The information acquisition system 21 can carry out information acquisition to the user state of user's eyes, cervical vertebra etc. position, analysis feedback system 22 can judge whether scientific, healthy user's user state after the data of gathering carry out the analysis, when appearing too near, use eye fatigue, cervical vertebra posture incorrect, cell-phone screen light intensity is improper etc. improper cell-phone service conditions, can in time be right cell-phone 100 with user state test function carries out the warning and the suggestion of form such as sound, image, characters, can also take modes such as black screen, splash screen, automatic shutdown to right under the specific condition cell-phone 100 with user state test function carries out the operation intervention to prevent that the user from taking improper cell-phone service posture for a long time, avoid causing bad phenomena such as visual deterioration, appearance cervical vertebra disease.
The mobile phone user state information which can be collected by the information collection system 21 comprises the distance between eyes and the mobile phone, and/or a pupil (300) image, and/or an eyelid image, and/or the face posture of the user, so as to achieve the purpose of protecting the eyesight of the user. The mobile phone 100 with the user state testing function of the invention effectively avoids the vision loss caused by the long-time incorrect posture of the user, and effectively protects the vision of the user by warning or operating intervention on the mobile phone.
The state information of the mobile phone user, which can be acquired by the information acquisition system 21, includes a head posture and/or a body posture, so as to protect the cervical vertebra of the user. When the head or body posture is incorrect, such as long-time head lowering and head side lowering, the cervical vertebra of the user is in an unhealthy posture, and various cervical vertebra diseases are easily caused after the cervical vertebra of the user is in the incorrect posture for a long time.
The information acquisition system 21 of the user status detection system 2 is externally connected to the mobile phone 100 with the user status test function, or is internally installed in the mobile phone 100 with the user status test function, or shares the camera system of the mobile phone 100 with the user status test function.
The information acquisition system 21 may be an independent device externally connected to the mobile phone 100 with the user status test function, or may be a functional module integrated on the mobile phone 100 with the user status test function, and in practical applications, it is the simplest and most effective setting manner to directly share the camera system of the mobile phone 100 with the user status test function.
The user condition detection system 2 is an eye condition testing system 201. The eye state testing system 201 can collect and analyze eye state information related to eye health, such as distance between a mobile phone screen and a pupil 300, whether light intensity of the mobile phone screen is appropriate, whether eyes are tired, and the like, in the use process of the mobile phone, and can warn and prompt the mobile phone or perform operation intervention on the mobile phone, so that the purpose of protecting the eyesight of a user is achieved.
The information acquisition system 21 of the eye state testing system 201 is arranged on the mobile phone 100 with the user state testing function. The information acquisition system 21 may be disposed on the mobile phone 100 with the user status test function in a form of external connection, integration or sharing of a camera of the mobile phone.
The information acquisition system 21 of the eye state testing system 201 is a camera mechanism 21-1, and/or an electromagnetic wave radar ranging mechanism 21-2, and/or a laser ranging mechanism, and/or an infrared ranging mechanism, and/or a light intensity detection sensor, and/or a gyroscope sensor. In practical applications, a person skilled in the art may design different information acquisition modes and systems according to needs, without departing from the scope of protection of the present application.
The information acquisition system 21 is the camera shooting mechanism 21-1, and the camera shooting mechanism 21-1 at least comprises 1 camera 21-11. The cameras 21-11 can be external cameras, and more directly and simply are self-carried cameras of a shared mobile phone.
The camera mechanism 21-1 comprises 2 cameras 21-11. Due to the design of the 2 cameras 21-11, the distance H between the cameras 21-11 and the pupil 300 can be directly calculated by utilizing the distance L between the 2 cameras 21-11, and no additional input interpupillary distance is needed.
The 2 cameras 21-11 are the front cameras 21-11 of the mobile phone 100 with the user status testing function. The cameras 21-11 can directly adopt the front-facing cameras 21-11 of the mobile phone, no additional accessories are needed, the mobile phone can be better compatible with the existing mobile phone system, the practical application cost is lower, and the application range is wide.
The electromagnetic wave radar ranging mechanism 21-2 is a millimeter wave radar ranging mechanism 21-21. The millimeter wave radar ranging mechanism 21-21 has the advantages of small size and high precision, and particularly the precision of the millimeter wave radar ranging mechanism 21-21 in the 77GHz frequency band can reach 1 mm.
The analysis feedback system 22 comprises a data analysis system 22-1 and an information feedback system 22-2; the data analysis system 22-1 can analyze the collected user status information and determine whether the user's use status is scientific and healthy, and the information feedback system 22-2 prompts or intervenes in the operation of the mobile phone 100 with the user status test function according to the analysis result.
The analysis feedback system 22 is a functional module built in the mobile phone 100 with the user status test function or a software system that can be downloaded to the mobile phone 100 with the user status test function. The analysis feedback system 22 may be a functional module, or may be an independent software system, especially a downloadable software system, and only needs to download the software system to the mobile phone, and at the same time, the information acquisition system 21 shares the camera 21-11 of the mobile phone, so that the detection and analysis of the user state can be performed.
The data analysis system 22-1 employs artificial intelligence AI software for data analysis. The intelligent learning and powerful calculation and analysis functions of the artificial intelligence AI software can be used for rapidly and intelligently learning and analyzing all collected data, and the data analysis process is quicker and more effective.
The Artificial Intelligence (AI) software can be downloaded to the mobile phone 100 with the user status test function, and can calculate the distance H between the mobile phone 100 with the user status test function and the pupil 300, and/or analyze the degree of eye fatigue, and/or analyze whether the face irradiation light intensity of the user is appropriate, and/or analyze whether the cervical vertebra posture is correct. The Artificial Intelligence (AI) software can quickly analyze and determine one or more types of information as needed.
The information feedback system 22-2 is an alarm device 22-21 or a mobile phone use state control device 22-22.
The alarm device 22-21 is an audio alarm device 22-21-1, and/or a visual alarm device 22-21-2, and/or a data prompt device 22-21-3. In practical applications, a person skilled in the art can design different alarm devices according to needs, and the applicant does not list one by one here, but does not depart from the scope of protection of the present application.
The handling mode given by the mobile phone use state control device 22-22 is that the mobile phone screen sets time to be blank, or the mobile phone is dormant or the mobile phone is powered off. Of course, those skilled in the art can design different mobile phone operation intervention modes according to needs, and the applicant does not enumerate here one by one, but does not depart from the scope of protection of the present application.
The mobile phone 100 with the user status test function comprises a user status detection system 2; the user state detection system 2 is an eye state testing system 201, and the eye state testing system 201 comprises an information acquisition system 21 and an analysis feedback system 22; the information acquisition system 21 is the camera shooting mechanism 21-1, and the camera shooting mechanism 21-1 comprises 1 camera 21-11; the cameras 21 to 11 respectively collect images of 2 pupils 300 and transmit information to the analysis feedback system 22, the data analysis system 22-1 of the analysis feedback system 22 calculates a distance H between the mobile phone 100 with the user state test function and the pupils 300 based on a pupil distance value input by a user, and when the distance H between the mobile phone 100 with the user state test function and the pupils 300 is smaller than a set safety distance, the information feedback system 22-2 of the analysis feedback system 22 warns or intervenes in operation on the mobile phone 100 with the user state test function.
The mobile phone 100 with the user status test function comprises a user status detection system 2; the user state detection system 2 is an eye state testing system 201, and the eye state testing system 201 comprises an information acquisition system 21 and an analysis feedback system 22; the information acquisition system 21 is the camera shooting mechanism 21-1, and the camera shooting mechanism 21-1 comprises 1 camera 21-11; the camera 21-11 collects the pupil 300 image, the eyelid gesture, the facial expression and the light intensity respectively, and transmits the information to the analysis feedback system 22, the data analysis system 22-1 of the analysis feedback system 22 calculates the distance H between the mobile phone 100 with the user state test function and the pupil 300 based on the pupil distance value input by the user, and simultaneously judges whether the eye fatigue degree of the user and the face light intensity of the user are proper or not according to the collected pupil 300 size, eyelid gesture and the facial expression information, and transmits the analysis result to the information feedback system 22-2 of the analysis feedback system 22, when the distance H between the mobile phone 100 with the user state test function and the pupil 300 is smaller than the set safe distance, or the fatigue degree exceeds the set safe state, or the light intensity is improper, the information feedback system 22-2 of the analysis feedback system 22-2 tests the user state The handset 100 performs an alert or an operational intervention.
The mobile phone 100 with the user state testing function comprises a user state detection system 2; the user state detection system 2 is an eye state testing system 201, and the eye state testing system 201 comprises an information acquisition system 21 and an analysis feedback system 22; the information acquisition system 21 is the camera shooting mechanism 21-1, and the camera shooting mechanism 21-1 comprises 2 cameras 21-11; the cameras 21 to 11 respectively collect images of 2 pupils 300 and transmit information to the analysis feedback system 22, the data analysis system 22-1 of the analysis feedback system 22 calculates a distance H between the mobile phone 100 with the user state test function and the pupils 300 based on a distance L between the 2 cameras 21 to 11, and when the distance H between the mobile phone 100 with the user state test function and the pupils 300 is smaller than a set safety distance, the information feedback system 22-2 of the analysis feedback system 22 warns or intervenes in operation on the mobile phone 100 with the user state test function.
The mobile phone 100 with the user state testing function comprises a user state detection system 2; the user state detection system 2 is an eye state testing system 201, and the eye state testing system 201 comprises an information acquisition system 21 and an analysis feedback system 22; the information acquisition system 21 is the camera shooting mechanism 21-1, and the camera shooting mechanism 21-1 comprises 2 cameras 21-11; the cameras 21-11 respectively collect pupil 300 images, eyelid postures, facial expressions and light intensity, and transmit information to the analysis feedback system 22, the data analysis system 22-1 of the analysis feedback system 22 calculates the distance between the mobile phone 100 with the user state testing function and the pupil (300) based on the distance L between 2 cameras 21-11, and simultaneously judges the eye fatigue degree of the user by combining the collected pupil 300 size, eyelid postures and facial expression information, and transmits the analysis result to the information feedback system 22-2 of the analysis feedback system 22, and when the distance H between the mobile phone 100 with the user state testing function and the pupil 300 is smaller than a set safety distance, or the fatigue degree exceeds a set safety state, or the light intensity is inappropriate, the information feedback system 22-2 of the analysis feedback system 22 tests the user state The handset 100 performs an alert or an operational intervention.
The user status detecting system 2 is a cervical spine status testing system 202.
The information acquisition system 21 of the cervical vertebra state testing system 202 is a camera mechanism 21-1; the camera mechanism 21-1 at least comprises 1 camera 21-11.
The mobile phone 100 with the user state testing function comprises a user state detection system 2; the user state detection system 2 is a cervical vertebra state testing system 202, and the cervical vertebra state testing system 202 comprises an information acquisition system 21 and an analysis feedback system 22; the information acquisition system 21 is the camera mechanism 21-1, the camera 21-11 acquires the head posture and/or the body posture of the user and transmits the acquired information to the analysis feedback system 22, the analysis feedback system 22 judges whether the cervical vertebra posture of the user is correct in the use process of the mobile phone of the user through the head posture and/or the body posture, and when the cervical vertebra posture is not correct, the information feedback system 22-2 of the analysis feedback system 22 warns or intervenes in the operation of the mobile phone 100 with the user state testing function.
The user status detecting system 2 includes an eye status testing system 201 and a cervical vertebra status testing system 202.
The mobile phone 100 with the user status test function comprises a user status detection system 2; the user state detection system 2 comprises the eye state testing system 201 and the cervical vertebra state testing system 202; the eye state testing system (201) and the information acquisition system 21 of the cervical vertebra state testing system 202 are camera shooting mechanisms 21-1, the camera shooting mechanism 21-1 at least comprises 1 camera 21-11, the cameras 21-11 respectively acquire pupil 300 images, and/or eyelid postures, and/or light intensity, and/or facial expressions, and/or head postures, and/or body postures, and transmit the acquired information to the analysis feedback system 22, the analysis feedback system 22 calculates the distance between the mobile phone 100 with the user state testing function and the pupil 300, judges the fatigue degree of the user by combining the acquired pupil 300 size, eyelid posture and facial expression information, and judges whether the cervical vertebra posture of the user mobile phone is correct in the using process through the head posture and/or body posture, when the distance H between the mobile phone 100 with the user state testing function and the pupil 300 is smaller than a set safety distance, or the eye fatigue degree exceeds a set safety state, or the light intensity is not appropriate, or the cervical vertebra of the user is in an incorrect posture, the information feedback system 22-2 of the analysis feedback system 22 warns or intervenes in the operation of the mobile phone 100 with the user state testing function.
The user state detection system 2 of the mobile phone with the user state test function can be the eye state test system 201 or the cervical vertebra state test system 202 independently, and can also have the functions of the eye state test system 201 or the cervical vertebra state test system 202 simultaneously, and a certain use state of a user, such as the distance H between a mobile phone screen and a pupil, can be tested independently according to needs, so that the safety distance of the mobile phone in the use process is ensured; or testing the eye fatigue degree of the user to remind the user to control the use duration, and simultaneously testing a plurality of use states of the user according to the requirements, such as whether the distance between the mobile phone screen and the pupil is within the safe distance range, whether the eye fatigue state exists, whether the light intensity of the mobile phone is proper, whether the cervical vertebra posture is correct, and the like.
The mobile phone 100 with the user status test function has a history data memory function, and when the mobile phone 100 with the user status test function is powered on again, the mobile phone can automatically check whether the user status data is consistent with the stored correct use status data, and prompt the user through the analysis feedback system 22.
The mobile phone 100 with the user status testing function can preset the user status and determine whether the user status is scientific and healthy according to the preset status.
The mobile phone 100 with the user state testing function is marked as the 1 st state in a relatively close comfortable use range, and an image is shot as the 1 st state mark; at the far comfortable use range, denoted as state 2, an image is also taken as state 2 flag. Whether the mobile phone 100 with the user state testing function is in the 1 st state and the 2 nd state range or not can be automatically identified through comparison of state pictures, if the camera 21-11 of the mobile phone 100 with the user state testing function monitors that the distance between the mobile phone 100 with the user state testing function and human eyes is in the 1 st state and the 2 nd state, no alarm is given, and if the distance between the mobile phone 100 with the user state testing function and the human eyes is close to the 1 st state or far away from the 2 nd state, alarm prompt or operation intervention is carried out.
The mobile phone 100 with the user state testing function marks the maximum comfortable angle of the head inclining to the left side as the left inclination state 1, and takes an image as the state mark 1; marking the maximum comfortable angle of the head which inclines to the right side as a right-inclined state 2, and shooting an image as a state 2 mark; whether the mobile phone 100 is in the range of the left-leaning state 1 and the right-leaning state 2 can be automatically identified through comparison of the state pictures, if the camera 21-11 of the mobile phone 100 with the user state testing function monitors that the head inclination angle is in the left-leaning state 1 and the right-leaning state 2, no alarm is given, and if the head inclination angle exceeds the left-leaning state 1 or the right-leaning state 2, alarm prompt or operation intervention is carried out.
The mobile phone 100 with the user state test function marks the maximum comfort angle of the forward tilting head as the forward tilting 1 st state, and takes an image as the forward tilting 1 st state mark; marking the maximum comfortable angle of the head which leans backwards as a backward leaning state 2, and shooting an image as a backward leaning state 2 mark; whether the mobile phone is in the forward-leaning state 1 and the backward-leaning state 2 can be automatically identified through comparison of the state pictures, if the camera 21-11 of the mobile phone 100 with the user state testing function monitors that the head inclination angle is in the forward-leaning state 1 and the backward-leaning state 2, no alarm is given, and if the head inclination angle exceeds the forward-leaning state 1 or the backward-leaning state 2, alarm prompt or operation intervention is given.
The preset state of the mobile phone 100 with the user state testing function may be 1 single state in the preset states, or a combination of more than 1 state.
The preset state mode of the mobile phone 100 with the user state testing function can very conveniently judge whether the acquired image is out of the preset state by identifying the acquired image in real time, is very simple and convenient to use, and effectively ensures healthy use of the mobile phone.
The mobile phone with user status testing function of the present invention comprises a user status detection system 2, wherein the user status detection system 2 comprises an information acquisition system 21 and an analysis feedback system 22; the information acquisition system 21 can acquire the state information of the user of the mobile phone and transmit the acquired information to the analysis feedback system 22, the analysis feedback system 22 analyzes the information and then judges whether the use state of the user is scientific and healthy, and prompts or operates and intervenes the mobile phone 100 with the user state test function according to the analysis result, so that the user is prevented from taking an incorrect mobile phone use posture for a long time, and adverse phenomena such as visual deterioration, cervical spondylosis and the like are avoided. The information acquisition system 21 is externally connected to the mobile phone 100 with the user status test function, or is internally installed in the mobile phone 100 with the user status test function, or shares the camera system of the mobile phone 100 with the user status test function. The analysis feedback system 22 is a functional module built in the mobile phone 100 with the user status test function or a software system that can be downloaded to the mobile phone 100 with the user status test function.
Drawings
FIG. 1 is a schematic diagram of a mobile phone with a user status test function according to the present invention.
Fig. 1-1 a-a sectional view of fig. 1.
Fig. 1-2 is an enlarged view at B of fig. 1-1.
Fig. 1-3 are schematic structural diagrams of a mobile phone with user status test function according to the present invention, in which the analysis feedback system is a downloadable software system.
FIG. 2 is a schematic diagram of the usage status of the mobile phone with user status testing function of the present invention having 1 camera.
Fig. 2-1 is a schematic view of the geometric orientation of the camera to pupil distance of fig. 2.
FIG. 3 is a schematic diagram of the usage status of the mobile phone with user status testing function of the present invention having 2 cameras.
Fig. 3-1 is a schematic view of the geometric orientation of the camera to pupil distance of fig. 3.
FIG. 4 is a schematic diagram of the usage status of the mobile phone with user status testing function of the present invention externally connected to the millimeter wave radar ranging mechanism.
FIG. 5 is a schematic view showing the operation status of the mobile phone with user status testing function according to the present invention when the head is tilted.
FIG. 6 is a schematic diagram of the use status of the mobile phone with user status testing function of the present invention when the head is lowered.
In the above figures:
100 is the mobile phone with user status testing function of the present invention, 300 is the pupil; 201 is an eye state testing system, and 202 is a cervical vertebra state testing system.
2, a user state detection system, 21, an information acquisition system and 22, an analysis feedback system; 21-1 is a camera mechanism, 21-2 is an electromagnetic wave radar ranging mechanism, 22-1 is a data analysis system, and 22-2 is an information feedback system; 21-11 is a camera, 21-21 is a millimeter wave radar ranging mechanism, 22-21 is an alarm device, and 22-22 is a mobile phone use state control device; 22-21-1 is a sound alarm device, 22-21-2 is an image alarm device, and 22-21-3 is a data prompt device.
D is the interpupillary distance, L is the distance between the cameras, H is the distance between the cameras and the pupil, H1、H2Are respectively 2 camera horizontal lines C1C2The perpendicular distance from the pupil.
α1、α2Respectively being the connecting line CT between the camera and the pupil1、CT2And a double pupil horizontal line T1T2The included angle between them; theta is the angle between the extension line of the nose bridge and the connection line of the two shoulders, delta is the angle between the extension line of the head along the neck and the perpendicular bisector of the body, and gamma is1、γ2Respectively is a connecting line C between 2 cameras and the pupil1T1、C2T1Horizontal line C with camera1C2Angle between them, beta1、β2Respectively is a connecting line C between 2 cameras and the pupil1T2、C2T2Horizontal line C with camera1C2The included angle therebetween.
Detailed Description
Example 1: the mobile phone with user status testing function of the present invention containing 1 camera
Referring to fig. 1 to 2-1, the mobile phone with user status testing function of the present embodiment includes a user status detecting system 2.
The user status detection system 2 comprises an information acquisition system 21 and an analysis feedback system 22. The information acquisition system 21 can acquire the state information of the user of the mobile phone and transmit the acquired information to the analysis feedback system 22, and the analysis feedback system 22 analyzes the information and then judges whether the use state of the user is scientific and healthy, and prompts or intervenes in operation on the mobile phone 100 with the user state test function according to the analysis result.
In this embodiment, the user status detection system 2 is an eye status testing system 201. The mobile phone user status information that the information acquisition system 21 can acquire includes the distance between the eyes and the mobile phone, and/or the pupil (300) image, and/or the eyelid image, and/or the face posture of the user, so as to protect the eyesight of the user.
The information acquisition system 21 of the user status detection system 2 may be externally connected to the mobile phone 100 with the user status test function, or may be internally installed in the mobile phone 100 with the user status test function, or may share the camera system of the mobile phone 100 with the user status test function.
In this embodiment, the information acquisition system 21 is a camera mechanism 21-1, the camera mechanism 21-1 includes 1 camera 21-11, and the cameras 21-11 share the camera of the camera system of the mobile phone 100 with the user status testing function.
The analysis feedback system 22 comprises a data analysis system 22-1 and an information feedback system 22-2; the data analysis system 22-1 can analyze the collected user status information and determine whether the user's use status is scientific and healthy, and the information feedback system 22-2 prompts or intervenes in the operation of the mobile phone 100 with the user status test function according to the analysis result.
Referring to fig. 1 and 1-3, the analysis feedback system 22 may be a functional module built into the user condition testing enabled handset 100 or a software system downloadable on the user condition testing enabled handset 100. The analysis feedback system 22 may be a functional module, or may be an independent software system, especially a downloadable software system, and only the software system needs to be downloaded to the mobile phone, and the information acquisition system 21 shares the camera 21-11 of the mobile phone, so that the user state can be detected and analyzed.
The data analysis system 22-1 performs data analysis using artificial intelligence AI software. The intelligent learning and powerful calculation and analysis functions of the artificial intelligence AI software can be used for rapidly and intelligently learning and analyzing all collected data, and the data analysis process is quicker and more effective.
Referring to fig. 1 to 3, the Artificial Intelligence (AI) software can be downloaded to the mobile phone 100 with user status test function, and can calculate the distance H between the mobile phone 100 with user status test function and the pupil 300, and/or analyze the degree of eye fatigue, and/or analyze whether the light intensity of the face irradiation of the user is appropriate, and/or analyze whether the posture of the cervical vertebrae is correct. The Artificial Intelligence (AI) software can quickly perform data analysis and judgment on one or more types of information as needed.
The information feedback system 22-2 is an alarm device 22-21 or a mobile phone use state control device 22-22.
Referring to fig. 1, 3 and 4, the alarm device 22-21 is an audible alarm device 22-21-1, and/or a visual alarm device 22-21-2, and/or a data prompt device 22-21-3. In practical applications, a person skilled in the art can design different alarm devices according to needs, and the applicant does not list one by one here, but does not depart from the scope of protection of the present application.
Referring to fig. 6, the handling manner given by the mobile phone use state control device 22-22 is to set the time for the mobile phone to be blank, or the mobile phone to be dormant or the mobile phone to be powered off. Of course, those skilled in the art can design different mobile phone operation intervention modes according to needs, and the applicant does not enumerate here one by one, but does not depart from the scope of protection of the present application.
Referring to fig. 2-1, in this embodiment, a user firstly inputs the interpupillary distance D, the cameras 21 to 11 respectively collect images of 2 pupils 300 and transmit the information to the analysis feedback system 22, so as to respectively obtain the connecting lines CT between the cameras 21 to 11 and the pupils1、CT2And a double pupil horizontal line T1T2Angle alpha therebetween1、α2Through the following geometric calculation, the camera 21-11 and a double pupil horizontal line T1T2Vertical distance H therebetween:
∵H/T1E=tanα1,H/T2E=tanα2
∴T1E·tanα1=T2E·tanα2
∴T1E=T2E·tanα2/tanα1
∵T1E+T2E=D
∴T2E·tanα2/tanα1+T2E=D
∴T2E=D/(1+tanα2/tanα1)
∴H=D·tanα2/(1+tanα2/tanα1)
when the distance H between the mobile phone 100 with the user status testing function and the pupil 300 is smaller than the set safety distance, the information feedback system 22-2 of the analysis feedback system 22 performs warning or operation intervention on the mobile phone 100 with the user status test function, such as voice prompt through the voice alarm device 22-21-1, or image reminding is carried out through the image alarm device 22-21-2, or the actually measured distance is displayed on the screen of the mobile phone through the data prompt device 22-21-3, and a plurality of warning modes can work simultaneously, if the user still does not correct the user after a long-time warning, the information feedback system 22-2 will start the mobile phone use state control device 22-22, and perform operation intervention on the mobile phone 100 with the user state test function by using a black screen, or a dormant or power-off mode of the mobile phone.
Besides the detection and reminding of the eye distance, the camera 21-11 can also collect eyelid postures, facial expressions, light intensity and other information, analyze and judge the eye fatigue degree by analyzing the size of the through hole 300 and combining the collected eyelid postures and facial expressions, and can also determine whether the light intensity of the mobile phone screen is proper or not by analyzing the light intensity, and when the fatigue degree exceeds a set safety state or the light intensity is improper, the information feedback system 22-2 of the analysis feedback system 22 can also warn or intervene in the operation of the mobile phone 100 with the user state testing function.
Referring to fig. 5 and 6, the camera 21-11 may further collect a head posture and/or a body posture of the user, and transmit the collected information to the analysis feedback system 22, the analysis feedback system 22 determines whether the cervical vertebra posture of the user is correct in the use process of the mobile phone by using the head posture and/or the body posture, and when the cervical vertebra posture is incorrect, the information feedback system 22-2 of the analysis feedback system 22 warns or intervenes in the operation of the mobile phone 100 with the user state test function. So that the user status detecting system 2 constitutes a cervical spine status testing system 202.
Referring to fig. 5, the cameras 21 to 11 collect postures of the head and the body of the user, the analysis feedback system 22 measures and calculates an included angle θ between an extension line of the bridge of the nose and a connection line of two shoulders of the user, and when the included angle θ deviates from a set safety value range, the analysis feedback system 22 determines that the head has an excessive deviation, and then the mobile phone 100 with the user state testing function is warned or intervened in operation.
Referring to fig. 6, after the postures of the head and the body of the user are collected by the cameras 21 to 11, the analysis feedback system 22 measures and calculates an included angle δ between the head along the neck extension line and the body perpendicular bisector, and when the included angle δ deviates from a set safety value range, the analysis feedback system 22 determines that the head lowering amplitude is too large, namely, the mobile phone 100 with the user state testing function is warned or intervened in operation.
The user state detection system 2 of the mobile phone with the user state testing function of this embodiment may be the eye state testing system 201 or the cervical vertebra state testing system 202, or may also have the functions of the eye state testing system 201 or the cervical vertebra state testing system 202, and according to the requirement, may test a certain use state of the user, such as the distance H between the mobile phone screen and the pupil, separately, so as to ensure the safe distance of the mobile phone in the use process; or testing the eye fatigue degree of the user, reminding the user to control the use duration, and simultaneously testing a plurality of use states of the user according to the requirements, such as whether the distance between the mobile phone screen and the pupil is within the safe distance range, whether the eye fatigue state exists, whether the light intensity of the mobile phone is proper, whether the cervical vertebra posture is correct, and the like.
In this embodiment, the mobile phone 100 with the user status test function further has a history data memory function, and when the mobile phone 100 with the user status test function is powered on again, the mobile phone automatically checks whether the user status data is consistent with the stored correct use status data, and prompts the user through the analysis feedback system 22.
The mobile phone with the user state testing function of the embodiment is provided with the user state detection system 2, so that information collection can be carried out on the use states of the eyes, the cervical vertebrae and other parts of a user, the analysis feedback system 22 can analyze the collected data and then judge whether the use states of the user are scientific and healthy, when incorrect mobile phone use conditions such as too short distance, eye fatigue, incorrect cervical vertebra posture, inappropriate light intensity of a mobile phone screen and the like occur, the mobile phone 100 with the user state testing function can be timely warned and prompted in the forms of sound, images, characters and the like, and the mobile phone 100 with the user state testing function can be operated and intervened in specific situations in the modes such as black screen, flashing screen, automatic shutdown and the like, so that the user can be prevented from taking incorrect mobile phone use postures for a long time, and the vision decline, the occurrence of the eye sight and the physical signs can be avoided, Cervical spondylosis and other adverse phenomena occur.
Example 2: the mobile phone with user status testing function of the present invention comprising 2 cameras
Referring to fig. 3 and 3-1, the present embodiment is different from embodiment 1 in that, in the present embodiment, the image capturing mechanism 21-1 includes 2 cameras 21-11. The 2 cameras 21-11 are designed, so that the distance H between the cameras 21-11 and the pupil 300 can be directly calculated by utilizing the distance L between the 2 cameras 21-11, and no extra input interpupillary distance is required.
The 2 cameras 21-11 are the front cameras 21-11 of the mobile phone 100 with the user status testing function. The cameras 21-11 can directly adopt the front-facing cameras 21-11 of the mobile phone, no additional accessories are needed, the mobile phone can be better compatible with the existing mobile phone system, the practical application cost is lower, and the application range is wide.
Referring to fig. 3-1, the 2 cameras 21 to 11 respectively acquire the image of the 1 st pupil 300 and transmit the information to the analysis feedback system 22, so as to respectively obtain the 2 connecting lines C between the cameras 21 to 11 and the pupils1T1、C2T1A horizontal line C with the camera 21-111C2Angle gamma therebetween1、γ2The horizontal line C of the camera 21-11 can be calculated by the following geometric calculation1C2Perpendicular distance H from the pupil 300 1
∵H1/C1F=tanγ2,H1/C2F=tanγ1
∴C1F·tanγ2=C2F·tanγ1
∴C1F=C2F·tanγ1/tanγ2
∵C2F-C1F=L
∴C2F-C2F·tanγ1/tanγ2=L
∴C2F=L/(1-tanγ1/tanγ2)
∴H=L·tanγ1/(1-tanγ1/tanγ2)
Then, the 2 cameras 21 to 11 respectively acquire the image of the 2 nd pupil 300 and transmit the information to the analysis feedback system 22, so as to respectively obtain 2 connecting lines C between the cameras 21 to 11 and the pupils1T2、C2T2A horizontal line C with the camera 21-111C2Angle beta therebetween1、β2The horizontal line C of the camera 21-11 can be calculated by the following geometric calculation1C2Perpendicular distance H from the pupil 3002
∵H2/C1G=tanβ1,H2/C2G=tanβ2
∴C1G·tanβ1=C2G·tanβ2
∴C1G=C2G·tanβ2/tanβ1
∵C1G–C2G=L
∴C2G·tanβ2/tanβ1-C2G=L
∴C2G=L/(tanβ2/tanβ1-1)
∴H2=L·tanβ2/(tanβ2/tanβ1-1)
Will H1And H2The distance H between the camera 21-11 and the pupil 300 can be obtained by averaging.
According to the design scheme of the mobile phone double-camera with the user state testing function, the distance H between the cameras 21-11 and the pupil 300 can be calculated through the distance L between the 2 cameras 21-11, the user does not need to input the interpupillary distance D, the use process is more convenient, and the distance H calculated by the 2 cameras 21-11 is more convenient1And H2And the method also has a rechecking function, so that the correctness of the data is further ensured.
Certainly, the user status detection system 2 of the mobile phone with the user status test function in this embodiment may also be the eye status test system 201 or the cervical vertebra status test system 202 separately, or may also have the functions of the eye status test system 201 or the cervical vertebra status test system 202 simultaneously, and according to the needs, a certain use status of the user, such as the distance H between the mobile phone screen and the pupil, may be tested separately, so as to ensure the safe distance of the mobile phone in the use process; or testing the eye fatigue degree of the user to remind the user to control the use duration, and simultaneously testing a plurality of use states of the user according to the requirements, such as whether the distance between the mobile phone screen and the pupil is within the safe distance range, whether the eye fatigue state exists, whether the light intensity of the mobile phone is proper, whether the cervical vertebra posture is correct, and the like.
Example 3: the mobile phone with user status testing function of the present invention containing electromagnetic wave radar ranging mechanism
Referring to fig. 4, the difference between the present embodiment and embodiment 1 is that in the present embodiment, the information acquisition system 21 of the mobile phone 100 with the user status test function is an electromagnetic wave radar ranging mechanism 21-2.
In this embodiment, the electromagnetic wave radar ranging mechanism 21-2 is a millimeter wave radar ranging mechanism 21-21. The millimeter wave radar ranging mechanism 21-21 has the advantages of small size and high precision, and particularly the precision of the millimeter wave radar ranging mechanism 21-21 in the 77GHz frequency band can reach 1 mm.
The millimeter wave radar ranging mechanism 21-21 is an independent device externally connected to the mobile phone 100 with the user state testing function, and when in use, the millimeter wave radar ranging mechanism 21-21 is connected to the mobile phone 100 with the user state testing function, so that the distance between the mobile phone 100 with the user state testing function and the pupil 300 can be measured, and the millimeter wave radar ranging mechanism is very convenient and flexible to use.
The mobile phone 100 with the user status testing function of this embodiment may also be equipped with the camera 21-1, so that the distance between the mobile phone 100 with the user status testing function and the pupil 300 is measured, and the user status information such as eyelid posture, facial expression, light intensity, head posture, body posture, and the like may be collected and analyzed by the camera 21-1.
The applicant herein specifically exemplifies only two specific information acquisition systems, namely, the camera mechanism 21-1 and the electromagnetic wave radar distance measuring mechanism 21-2, and the information acquisition system 21 may also be a laser distance measuring mechanism, and/or an infrared distance measuring mechanism, and/or a light intensity detecting sensor, and/or a gyroscope sensor, and the applicant herein does not exemplify but does not depart from the scope of the present application.
The information acquisition system 21 may be a single information acquisition device, or may be a combination of multiple information acquisition devices, and those skilled in the art may design various combinations as needed, which is not illustrated herein by the applicant, but does not depart from the scope of the present application.
In addition, the mobile phone 100 with the user status testing function can preset the user status and determine whether the user status is scientific and healthy according to the preset status.
For example, the mobile phone 100 with the user status test function is marked as the 1 st status in a relatively close comfortable use range, and an image is taken as the 1 st status mark; at the far comfortable use range, denoted as state 2, an image is also taken as state 2 flag. Whether the mobile phone 100 with the user state testing function is in the range of the 1 st state and the 2 nd state can be automatically identified through comparison of state pictures, if the camera 21-11 of the mobile phone 100 with the user state testing function monitors that the distance between the mobile phone 100 with the user state testing function and human eyes is in the 1 st state and the 2 nd state, no alarm is given, and if the distance between the mobile phone 100 with the user state testing function and the human eyes is close to the 1 st state or far away from the 2 nd state, alarm prompt or operation intervention is carried out.
The mobile phone 100 with the user state testing function marks the maximum comfortable angle of the head inclining to the left side as the left inclination state 1, and takes an image as the state mark 1; marking the maximum comfortable angle of the head inclined to the right side as a right-inclined state 2, and shooting an image as a state 2 mark; whether the mobile phone 100 is in the range of the left-leaning state 1 and the right-leaning state 2 can be automatically identified through comparison of the state pictures, if the camera 21-11 of the mobile phone 100 with the user state testing function monitors that the head inclination angle is in the left-leaning state 1 and the right-leaning state 2, no alarm is given, and if the head inclination angle exceeds the left-leaning state 1 or the right-leaning state 2, alarm prompt or operation intervention is carried out.
The mobile phone 100 with the user state test function marks the maximum comfort angle of the forward tilting head as the forward tilting 1 st state, and takes an image as the forward tilting 1 st state mark; marking the maximum comfortable angle of the head which leans backwards as a backward leaning state 2, and shooting an image as a backward leaning state 2 mark; whether the mobile phone 100 is in the forward-leaning state 1 and the backward-leaning state 2 can be automatically identified through comparing the state pictures, if the camera 21-11 of the mobile phone 100 with the user state testing function monitors that the head inclination angle is in the forward-leaning state 1 and the backward-leaning state 2, no alarm is given, and if the head inclination angle exceeds the forward-leaning state 1 or the backward-leaning state 2, alarm prompt or operation intervention is carried out.
The preset state of the mobile phone 100 with the user state testing function may be 1 single state or a combination of more than 1 state.
The preset state mode of the mobile phone 100 with the user state testing function can very conveniently judge whether the mobile phone is in a preset state or not by identifying the acquired image in real time, particularly by using an Artificial Intelligence (AI) image identification technology, is very simple and convenient to use, and effectively ensures healthy use of the mobile phone.
It should be noted that structures disclosed and illustrated herein may be replaced by other structures having the same effect, and the described embodiments of the invention are not the only structures for carrying out the invention. Although preferred embodiments of the present invention have been shown and described herein, it will be understood by those skilled in the art that these embodiments are by way of example only and that numerous changes, modifications and substitutions may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (33)

1. Take user state to detect cell-phone of function, its characterized in that: the mobile phone (100) with the user state testing function comprises a user state detection system (2);
A. The user state detection system (2) comprises an information acquisition system (21) and an analysis feedback system (22);
B. the information acquisition system (21) can acquire the state information of the mobile phone user and transmit the acquired information to the analysis feedback system (22), the analysis feedback system (22) analyzes the information and then judges whether the use state of the user is scientific and healthy, and prompts or operation intervention is carried out on the mobile phone (100) with the user state test function according to the analysis result.
2. The mobile phone with user status testing function of claim 1, wherein: the mobile phone user state information which can be collected by the information collection system (21) comprises the distance between eyes and the mobile phone, and/or a pupil (300) image, and/or an eyelid image, and/or the face posture of the user, so that the purpose of protecting the eyesight of the user is achieved.
3. The mobile phone with user status testing function of claim 1, wherein: the state information of the mobile phone user, which can be acquired by the information acquisition system (21), comprises a head posture and/or a body posture so as to achieve the purpose of protecting the cervical vertebra of the user.
4. The mobile phone with user status testing function of claim 1, wherein: the information acquisition system (21) of the user state detection system (2) is externally connected to the mobile phone (100) with the user state test function, or is internally arranged on the mobile phone (100) with the user state test function, or shares the camera system of the mobile phone (100) with the user state test function.
5. The mobile phone with user status testing function of claim 2, wherein: the user condition detection system (2) is an eye condition testing system (201).
6. The mobile phone with user status testing function of claim 5, wherein: the information acquisition system (21) of the eye state testing system (201) is arranged on the mobile phone (100) with the user state testing function.
7. The mobile phone with user status testing function of claim 6, wherein: the information acquisition system (21) of the eye state testing system (201) is a camera shooting mechanism (21-1), and/or an electromagnetic wave radar ranging mechanism (21-2), and/or a laser ranging mechanism, and/or an infrared ranging mechanism, and/or a light intensity detection sensor, and/or a gyroscope sensor.
8. The mobile phone with user status testing function of claim 7, wherein: the information acquisition system (21) is the camera shooting mechanism (21-1), and the camera shooting mechanism (21-1) at least comprises 1 camera (21-11).
9. The mobile phone with user status testing function of claim 8, wherein: the camera shooting mechanism (21-1) comprises 2 cameras (21-11).
10. The mobile phone with user status testing function of claim 9, wherein: the 2 cameras (21-11) are the front cameras (21-11) of the mobile phone (100) with the user state testing function.
11. The mobile phone with user status testing function of claim 7, wherein: the electromagnetic wave radar ranging mechanism (21-2) is a millimeter wave radar ranging mechanism (21-21).
12. The mobile phone with user status testing function of claim 1, wherein: the analysis feedback system (22) comprises a data analysis system (22-1) and an information feedback system (22-2); the data analysis system (22-1) can analyze the collected user state information and judge whether the use state of the user is scientific and healthy, and the information feedback system (22-2) prompts or intervenes in operation on the mobile phone (100) with the user state test function according to the analysis result.
13. The mobile phone with user status testing function of claim 12, wherein: the analysis feedback system (22) is a functional module built in the mobile phone (100) with the user state testing function or a software system which can be downloaded on the mobile phone (100) with the user state testing function.
14. The mobile phone with user status testing function of claim 12, wherein: the data analysis system (22-1) adopts Artificial Intelligence (AI) software to analyze data.
15. The mobile phone with user status testing function of claim 14, wherein: the Artificial Intelligence (AI) software can be downloaded on the mobile phone (100) with the user state testing function, and can calculate the distance (H) between the mobile phone (100) with the user state testing function and the pupil (300), and/or analyze the eye fatigue degree, and/or analyze whether the face irradiation light intensity of the user is proper, and/or analyze whether the cervical vertebra posture is correct.
16. The mobile phone with user status testing function of claim 13, wherein: the information feedback system (22-2) is an alarm device (22-21) or a mobile phone use state control device (22-22).
17. The mobile phone with user status testing function of claim 16, wherein: the alarm device (22-21) is an acoustic alarm device (22-21-1), and/or an image alarm device (22-21-2), and/or a data prompt device (22-21-3).
18. The mobile phone with user status testing function of claim 16, wherein: the handling mode given by the mobile phone use state control device (22-22) is that the screen of the mobile phone is set for time to be blank, or the mobile phone is dormant or the mobile phone is powered off.
19. The mobile phone with user status testing function of claim 8, wherein: the mobile phone (100) with the user state testing function comprises a user state detection system (2); the user state detection system (2) is an eye state testing system (201), and the eye state testing system (201) comprises an information acquisition system (21) and an analysis feedback system (22); the information acquisition system (21) is the camera shooting mechanism (21-1), and the camera shooting mechanism (21-1) comprises 1 camera (21-11); the camera (21-11) respectively collects images of 2 pupils (300) and transmits information to the analysis feedback system (22), the data analysis system (22-1) of the analysis feedback system (22) calculates the distance (H) between the mobile phone (100) with the user state testing function and the pupils (300) based on a pupil distance value input by a user, and when the distance (H) between the mobile phone (100) with the user state testing function and the pupils (300) is smaller than a set safety distance, the information feedback system (22-2) of the analysis feedback system (22) warns or intervenes in operation on the mobile phone (100) with the user state testing function.
20. The mobile phone with user status testing function of claim 8, wherein: the mobile phone (100) with the user state testing function comprises a user state detection system (2); the user state detection system (2) is an eye state testing system (201), and the eye state testing system (201) comprises an information acquisition system (21) and an analysis feedback system (22); the information acquisition system (21) is the camera shooting mechanism (21-1), and the camera shooting mechanism (21-1) comprises 1 camera (21-11); the camera (21-11) respectively collects images of pupils (300), eyelid postures, facial expressions and light intensity and transmits information to the analysis feedback system (22), a data analysis system (22-1) of the analysis feedback system (22) calculates the distance (H) between the mobile phone (100) with the user state test function and the pupils (300) based on a pupil distance value input by a user, judges whether the eye fatigue degree of the user and the facial light intensity of the user are proper or not by combining the collected information of the sizes of the pupils (300), the eyelid postures and the facial expressions, and transmits an analysis result to an information feedback system (22-2) of the analysis feedback system (22), and when the distance (H) between the mobile phone (100) with the user state test function and the pupils (300) is smaller than a set safe distance, Or the fatigue degree exceeds the set safety state, or the light intensity is not appropriate, the information feedback system (22-2) of the analysis feedback system (22) warns or intervenes in the operation of the mobile phone (100) with the user state testing function.
21. The mobile phone with user status testing function of claim 9, wherein: the mobile phone (100) with the user state testing function comprises a user state detection system (2); the user state detection system (2) is an eye state testing system (201), and the eye state testing system (201) comprises an information acquisition system (21) and an analysis feedback system (22); the information acquisition system (21) is the camera shooting mechanism (21-1), and the camera shooting mechanism (21-1) comprises 2 cameras (21-11); the camera (21-11) respectively collects images of 2 pupils (300) and transmits information to the analysis feedback system (22), the data analysis system (22-1) of the analysis feedback system (22) calculates the distance (H) between the mobile phone (100) with the user state testing function and the pupils (300) based on the distance (L) between the 2 cameras (21-11), and when the distance (H) between the mobile phone (100) with the user state testing function and the pupils (300) is smaller than a set safety distance, the information feedback system (22-2) of the analysis feedback system (22) warns or intervenes in operation on the mobile phone (100) with the user state testing function.
22. The mobile phone with user status testing function of claim 9, wherein: the mobile phone (100) with the user state testing function comprises a user state detection system (2); the user state detection system (2) is an eye state testing system (201), and the eye state testing system (201) comprises an information acquisition system (21) and an analysis feedback system (22); the information acquisition system (21) is the camera shooting mechanism (21-1), and the camera shooting mechanism (21-1) comprises 2 cameras (21-11); the cameras (21-11) respectively collect pupil (300) images, eyelid postures, facial expressions and light intensity and transmit information to the analysis feedback system (22), the data analysis system (22-1) of the analysis feedback system (22) calculates the distance (H) between the mobile phone (100) with the user state test function and the pupil (300) based on the distance (L) between 2 cameras (21-11), meanwhile, the eye fatigue degree of a user is judged by combining the collected pupil (300) size, eyelid postures and facial expressions, the analysis result is transmitted to the information feedback system (22-2) of the analysis feedback system (22), and when the distance (H) between the mobile phone (100) with the user state test function and the pupil (300) is smaller than a set safety distance, Or the fatigue degree exceeds the set safety state, or the light intensity is not appropriate, the information feedback system (22-2) of the analysis feedback system (22) warns or intervenes in the operation of the mobile phone (100) with the user state testing function.
23. The mobile phone with user status testing function of claim 3, wherein: the user state detection system (2) is a cervical vertebra state testing system (202).
24. The mobile phone with user status testing function of claim 23, wherein: the information acquisition system (21) of the cervical vertebra state testing system (202) is a camera shooting mechanism (21-1); the camera shooting mechanism (21-1) at least comprises 1 camera (21-11).
25. The mobile phone with user status testing function of claim 24, wherein: the mobile phone (100) with the user state testing function comprises a user state detection system (2); the user state detection system (2) is a cervical vertebra state testing system (202), and the cervical vertebra state testing system (202) comprises an information acquisition system (21) and an analysis feedback system (22); the information acquisition system (21) is the camera mechanism (21-1), the camera (21-11) acquires the head posture and/or the body posture of the user and transmits the acquired information to the analysis feedback system (22), the analysis feedback system (22) judges whether the cervical vertebra posture of the user in the use process of the mobile phone is correct or not according to the head posture and/or the body posture, and when the user is in an incorrect posture, the information feedback system (22-2) of the analysis feedback system (22) warns or intervenes in operation of the mobile phone (100) with the user state testing function.
26. The mobile phone with user status testing function of claim 1, wherein: the user state detection system (2) comprises an eye state testing system (201) and a cervical vertebra state testing system (202).
27. The cellular phone with user status testing function of claim 26, wherein: the mobile phone (100) with the user state testing function comprises a user state detection system (2); the user state detection system (2) comprises the eye state testing system (201) and the cervical vertebra state testing system (202); the eye state testing system (201) and the information acquisition system (21) of the cervical vertebra state testing system (202) are camera shooting mechanisms (21-1), the camera shooting mechanism (21-1) at least comprises 1 camera (21-11), the cameras (21-11) respectively acquire pupil (300) images, and/or eyelid postures, and/or light intensity, and/or facial expressions, and/or head postures, and/or body postures, and transmit the acquired information to the analysis feedback system (22), the analysis feedback system (22) calculates the distance between the mobile phone (100) with the user state testing function and the pupil (300), judges the fatigue degree of the user by combining the acquired pupil (300) size, eyelid posture and facial expression information, and judges whether the cervical vertebra posture of the user in the use process of the mobile phone is correct by the head posture and/or body posture, when the distance (H) between the mobile phone (100) with the user state testing function and the pupil (300) is smaller than a set safety distance, or the eye fatigue degree exceeds a set safety state, or the light intensity is not proper, or the cervical vertebra of the user is in an incorrect posture, the information feedback system (22-2) of the analysis feedback system (22) warns or intervenes in the operation of the mobile phone (100) with the user state testing function.
28. The mobile phone with user status testing function of claim 1, wherein: the mobile phone (100) with the user state testing function has a historical data memory function, when the mobile phone (100) with the user state testing function is started again, whether the user state data is consistent with the stored correct use state data or not can be automatically checked, and the analysis feedback system (22) prompts the user.
29. The mobile phone with user status testing function of claim 1, wherein: the mobile phone (100) with the user state testing function can be used for presetting the user state and judging whether the user state is scientific and healthy according to the preset state.
30. The cellular phone with user status testing function of claim 29, wherein: the mobile phone (100) with the user state testing function is marked as the 1 st state in a relatively close comfortable use range, and an image is shot as the 1 st state mark; in the far comfortable use range, the 2 nd state is marked, and an image is also shot as the 2 nd state mark. Whether the mobile phone (100) with the user state testing function is in the 1 st state and the 2 nd state range or not can be automatically identified through comparison of state pictures, if the camera (21-11) of the mobile phone (100) with the user state testing function monitors that the distance between the mobile phone (100) with the user state testing function and the human eyes is in the 1 st state and the 2 nd state, no alarm is given, and if the distance between the mobile phone (100) with the user state testing function and the human eyes is close to the 1 st state or far away from the 2 nd state, alarm prompt or operation intervention is carried out.
31. The mobile phone with user status testing function of claim 29, wherein: the mobile phone (100) with the user state testing function marks the maximum comfortable angle of the head inclining towards the left side as a left-inclining state 1, and shoots an image as a state 1 mark; marking the maximum comfortable angle of the head inclined to the right side as a right-inclined state 2, and shooting an image as a state 2 mark; whether the head inclination angle is in the range of the left-inclined state 1 and the right-inclined state 2 can be automatically identified through comparison of the state pictures, if the head inclination angle is monitored to be in the left-inclined state 1 and the right-inclined state 2 by the camera (21-11) of the mobile phone (100) with the user state testing function, no alarm is given, and if the head inclination angle exceeds the left-inclined state 1 or the right-inclined state 2, alarm prompt or operation intervention is carried out.
32. The mobile phone with user status testing function of claim 29, wherein: the mobile phone (100) with the user state testing function marks the maximum comfort angle of the forward tilting head as the forward tilting 1 st state, and takes an image as the forward tilting 1 st state mark; marking the maximum comfortable angle of the head which leans backwards as a backward leaning state 2, and shooting an image as a backward leaning state 2 mark; whether the mobile phone is in the forward-leaning 1 st state and the backward-leaning 2 nd state can be automatically identified through comparison of state pictures, if the camera (21-11) of the mobile phone (100) with the user state testing function monitors that the head inclination angle is in the forward-leaning 1 st state and the backward-leaning 2 nd state, no alarm is given, and if the head inclination angle exceeds the forward-leaning 1 st state or the backward-leaning 2 nd state, alarm prompt or operation intervention is given.
33. The mobile phone with user status testing function of claim 29, wherein: the preset state of the mobile phone (100) with the user state test function comprises a combination of 1 or more than 1 state of claim 30 to claim 32.
CN202110039421.5A 2021-01-12 2021-01-12 Mobile phone with user state testing function Pending CN114765642A (en)

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