WO2021232629A1

WO2021232629A1 - Sitting posture detection method, neck massage instrument, and computer-readable storage medium

Info

Publication number: WO2021232629A1
Application number: PCT/CN2020/114850
Authority: WO
Inventors: 刘杰; 莫之特; 张雨微
Original assignee: 未来穿戴技术有限公司
Priority date: 2020-05-22
Filing date: 2020-09-11
Publication date: 2021-11-25
Also published as: CN112089971B; CN112089971A

Abstract

A sitting posture detection method based on a neck massage instrument, a sitting posture detection method based on a terminal device, a neck massage instrument, and a computer storage medium. The sitting posture detection method based on a neck massage instrument comprises: a neck massage instrument collecting neck shape information of a user, and generating sitting posture information on the basis of the neck shape information (S120); sending the sitting posture information to a terminal device, so that the terminal device detects the sitting posture information to obtain a detection result, and returns the detection result to the neck massage instrument (S140); and acquiring the detection result returned by the terminal device, and giving a sitting posture prompt according to the detection result (S160). By means of the neck massage instrument provided by the method, a sitting posture prompt can be given to a user, thereby reducing the risk of harm to the user's health caused by an improper sitting posture.

Description

Sitting posture detection method, neck massage instrument and computer readable storage medium

This application claims the priority of the Chinese patent application filed with the Chinese Patent Office on May 22, 2020, the application number is 202010442527.5, and the application title is "Sitting posture detection method, neck massager, and computer-readable storage medium", and its entire content Incorporated in this application by reference.

Technical field

This application relates to the technical field of neck massagers, in particular to a sitting posture detection method based on a neck massager, a sitting posture detection method based on a terminal device, a neck massager, and a computer-readable storage medium.

Background technique

In recent years, diseases related to the cervical spine have become a widespread problem all over the world. According to statistics, about 20% of people in the world have pain related to the cervical spine.

With the increase in the frequency of use of terminal devices such as mobile phones and computers, bad habits have also increased the health risks of the cervical spine.

Summary of the invention

The technical problem mainly solved by this application is to provide a sitting posture detection method based on a neck massager, which can remind users of sitting posture and reduce the risk of damage to their own health due to improper sitting posture.

In order to solve the above technical problems, a technical solution adopted in this application is to provide a sitting posture detection method based on a neck massager. The method includes: the neck massager collects the user’s neck shape information and based on the neck shape information Generate sitting posture information; send the sitting posture information to the terminal device so that the terminal device detects the sitting posture information and obtains the detection result, and returns the detection result to the neck massager; obtains the detection result returned by the terminal device, and performs sitting posture according to the detection result remind.

Among them, the neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information, including: the neck massager uses multiple pressure sensors to collect multiple pressure information; combines multiple pressure information to generate the neck Part morphology information; generating sitting posture information based on neck morphology information; wherein the neck massager includes a massager body, and a plurality of pressure sensors are arranged at intervals on the side of the massager body that is close to the human body.

Wherein, the method further includes: obtaining neck shape information collected when the user is in a standard sitting posture, and generating standard sitting posture information based on the neck shape information; sending the standard sitting posture information to the terminal device, so that the terminal device obtains the information according to the standard sitting posture information Standard sitting data.

Among them, the sitting posture information is sent to the terminal device, so that the terminal device detects the sitting posture information and obtains the detection result, and returns the detection result to the neck massager, including: sending the sitting posture information to the terminal device so that the terminal device can determine the sitting posture The information is compared with the standard sitting posture data in the terminal device to obtain the detection result, and the detection result is returned to the neck massager.

Among them, obtaining the detection result returned by the terminal device and reminding the sitting posture according to the detection result includes: obtaining the detection result returned by the terminal device; and when the detection result indicates that the current sitting posture is a bad sitting posture, a sitting posture reminder is given.

Among them, the neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information, including: the neck massager sends a request to the user to enable the sitting posture detection function; judging whether an instruction to enable the sitting posture detection function is obtained ; When the user's instruction to enable the sitting posture detection function is obtained, the step of performing the neck massager to collect neck shape information, and generating sitting posture information based on the sitting posture information.

Wherein, the method further includes: acquiring state data of the user, the state data including movement data and/or physiological data; determining the current posture of the user according to the movement data and/or physiological data, the current posture includes: sitting posture; when the user is sitting At the time, the neck massager sends the user a request to enable the sitting posture detection function.

Wherein, the method further includes: obtaining the user's identity information; sending the identity information to the terminal device, so that the terminal device obtains the user's personality data according to the identity information, and obtains sitting posture suggestions according to the personality data; obtaining the sitting posture suggestions returned by the terminal device, And according to the sitting posture recommendations for health reminders.

Wherein, the method further includes: controlling the camera of the terminal device to obtain the user's image information, the image information includes the user's head image and neck image; sending the sitting posture information to the terminal device, so that the terminal device can detect the sitting posture information and obtain The detection result, the detection result is returned to the neck massager, including: sending the sitting posture information to the terminal device, so that the terminal device combines the sitting posture information and the image information to perform the detection and obtain the detection result, and return the detection result to the neck massager .

Among them, the sitting posture information is sent to the terminal device so that the terminal device detects the sitting posture information and the image information and obtains the detection result, and returns the detection result to the neck massager, including: sending the sitting posture information to the terminal device to make the terminal The device analyzes the tilt of the user's head relative to the neck according to the sitting posture information, and analyzes the image information to obtain the current distance between the user's head and the camera, and integrates the tilt and the current distance to obtain the detection result, and returns the detection result to Neck massager.

In order to solve the above technical problems, a technical solution adopted in this application is to provide a method for detecting sitting posture based on a terminal device. The method includes: the terminal device receives sitting posture information sent by a neck massager; and detects and obtains the sitting posture information. Result: The test result is returned to the neck massager.

In order to solve the above technical problems, another technical solution adopted in this application is to provide a neck massager, which includes: a massager body, a massage component, and a control circuit; the massage component is arranged on the massager body, The massage component is used for massaging the neck of the human body; the communication circuit is arranged on the body of the massage device to establish a communication connection with the terminal device; the control circuit is arranged on the body of the massage device, and the control circuit is electrically coupled to the massage component and the communication circuit, The control circuit is used to control the massage component and the communication circuit to realize the steps of the above-mentioned sitting posture detection method based on the neck massager.

In order to solve the above technical problem, another technical solution adopted in this application is to provide a computer-readable storage medium, which is used to store program data, and when the program data is executed by a processor, it is used to realize the above-mentioned sitting posture. Steps of the detection method.

The beneficial effects of the present application are: different from the prior art, the sitting posture detection method based on the neck massager of the present application collects the user’s neck shape information and generates sitting posture information based on the neck shape information; Send to the terminal device so that the terminal device detects the sitting posture information and obtains the detection result, and returns the detection result to the neck massager; obtains the detection result returned by the terminal device, and reminds the sitting posture based on the detection result; thus, it can detect the user in real time The neck shape information of the user and the detection result of the user’s sitting posture are obtained, and since the detection result can indicate the user’s sitting posture, the neck massager can remind the user of the sitting posture based on the detection result after obtaining the detection result returned by the terminal device. Reduce the risk of damage to your health due to improper sitting posture.

Description of the drawings

In order to more clearly describe the technical solutions in the embodiments of the present application, the following will briefly introduce the drawings that need to be used in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present application. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without creative work.

Fig. 1 is a schematic structural diagram of an embodiment of a neck massager according to the present application;

2 is a schematic diagram of internal control of an embodiment of the neck massager of the present application;

3 is a schematic flowchart of a first embodiment of a sitting posture detection method based on a neck massager according to the present application;

4 is a schematic flowchart of a second embodiment of a sitting posture detection method based on a neck massager in this application;

Fig. 5 is a schematic flowchart of a third embodiment of a sitting posture detection method based on a neck massager in this application;

6 is a schematic flowchart of a fourth embodiment of a sitting posture detection method based on a neck massager in this application;

FIG. 7 is a schematic flowchart of a fifth embodiment of a sitting posture detection method based on a neck massager according to the present application;

8 is a schematic flowchart of a sixth embodiment of a sitting posture detection method based on a neck massager according to the present application;

FIG. 9 is a schematic flowchart of an embodiment of a sitting posture detection method based on a terminal device according to the present application;

Fig. 10 is a schematic diagram of an embodiment of a computer-readable storage medium of the present application.

Detailed ways

The technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. It can be understood that the specific embodiments described here are only used to explain the application, but not to limit the application. In addition, it should be noted that, for ease of description, the drawings only show a part of the structure related to the present application instead of all of the structure. Based on the embodiments in this application, all other embodiments obtained by those of ordinary skill in the art without creative work shall fall within the protection scope of this application.

The reference to "embodiments" herein means that a specific feature, structure, or characteristic described in conjunction with the embodiments may be included in at least one embodiment of the present application. The appearance of the phrase in various places in the specification does not necessarily refer to the same embodiment, nor is it an independent or alternative embodiment mutually exclusive with other embodiments. Those skilled in the art clearly and implicitly understand that the embodiments described herein can be combined with other embodiments.

Please refer to FIG. 1, which is a schematic structural diagram of an embodiment of a neck massager according to the present application. Fig. 2 is a schematic diagram of internal control of an embodiment of the neck massager of the present application.

In recent years, due to work and poor living habits and other reasons, the incidence of cervical spondylosis has shown a younger trend, and more and more people are troubled by cervical spondylosis. The neck massager has a better relaxing and soothing effect on the neck muscles, so it is favored by many users.

As shown in FIG. 1, the neck massager 100 may include a massager body 10, a massage component 20, a sensor 30, a communication circuit 40 and a control circuit 50.

The massage instrument body 10 includes an elastic connecting arm 11, a first handle 12 and a second handle 13. The first handle 12 and the second handle 13 are connected to both ends of the elastic connecting arm 11.

The massage component 20 is arranged on the massage instrument body 10, and the massage component 20 is used for massaging the neck of the human body. The massage assembly 20 may include an electrode sheet 21 and an electric pulse generating device 22 electrically connected to the electrode sheet 21. The electrode sheet 21 can be arranged on the outer layer of the elastic connecting arm 11, and the electric pulse generator 22 can transmit the pulse current to the nervous system and blood vessels under the skin through the electrode sheet 21 in the electrode assembly to achieve a massage effect.

The sensor 30 is arranged on the body 10 of the massager.

The communication circuit 40 is arranged on the massager body 10, and the communication circuit 40 is used to establish a communication connection with the terminal device. The communication circuit 40 may be a wireless communication circuit 40, such as a 4G mobile communication circuit 40, to realize 4G data communication.

The control circuit 50 is disposed on the massage device body 10, and the control circuit 50 is electrically coupled to the massage assembly 20, the sensor 30 and the communication circuit 40. The control circuit 50 is used to control the massage assembly 20, the sensor 30, and the communication circuit 40 to perform specific steps. The control circuit 50 can be arranged inside the elastic connecting arm 11.

The control circuit 50 may be an integrated circuit chip with signal processing capability. The control circuit 50 may also be a general-purpose processor, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a field programmable gate array (FPGA) or other programmable logic device, a discrete gate or transistor logic device, a discrete hardware component .

In an embodiment, the sensor 30 may be a pressure sensor 30.

For example, the pressure sensor 30 may include a first pressure sensor 31, a second pressure sensor 32, and a third pressure sensor 33. The first pressure sensor 31 is disposed on the inner side of the first handle 12 (the side in contact with the user when worn), The second pressure sensor 32 is arranged on the inner side of the second handle 13, and the third pressure sensor 33 is arranged on the inner side of the elastic connecting arm 11. The pressure signals detected by the first pressure sensor 31 and the second pressure sensor 32 are used to reflect the degree and duration of the user twisting the neck left and right. The pressure signal detected by the third pressure sensor 33 is used to reflect the degree and duration of the user twisting the neck back (moving the head toward the back).

In an embodiment, the elastic connecting arm 11 may include a first side arm 11a, a second side arm 11b, and a connecting arm 11c.

One end of the first side arm 11a is fixedly connected to the first handle 12, and the other end is connected to a section of the connecting arm 11c; one end of the second side arm 11b is fixedly connected to the second handle 13, and the other end is connected to another section of the connecting arm 11c . The first pressure sensor 31 may be provided on the inner side of the first side arm 11a, the second pressure sensor 32 may be provided on the inner side of the second side arm 11b, and the third pressure sensor 33 may be provided on the inner side of the connecting arm 11c.

In an embodiment, the sensor 30 may include a pressure sensor 30, an acceleration sensor (not shown), a speed sensor (not shown), a gravity sensor (not shown), an airflow sensor (not shown), and a camera (not shown). Show) one or more combinations. For example, the sensor 30 may include a pressure sensor 30, an acceleration sensor (not shown), a speed sensor (not shown), a gravity sensor (not shown), an airflow sensor (not shown), and a camera to use the pressure sensor 30 to obtain The degree and duration of the user’s neck twisting during exercise; use acceleration sensors (not shown) and speed sensors (not shown) to obtain the speed and urgency of the user’s body movement during exercise; use airflow sensors (not shown) and cameras ( Figure not shown) Obtain the airflow velocity in the air and the current environment.

In one embodiment, the neck massager 100 may further include an air bag (not shown), an inflation valve (not shown), a magnetic field microwave probe (not shown), and a magnetic field microwave sensor (not shown). The pressure sensor 30 and the magnetic field microwave probe can be pushed close to the neck of the human body by the expansion of the airbag. The pressure sensor 30 detects the inflation air pressure during the process of inflating the airbag by the inflation valve; the pressure sensor 30 is electrically connected to the inflation valve, and when the pressure sensor 30 detects that the inflation air pressure reaches a predetermined value, the inflation is stopped and a signal of successful adhesion is sent to the magnetic field. The microwave probe triggers the magnetic field microwave probe and the magnetic field microwave sensor to obtain the user's neck shape information.

In an embodiment, the sensor 30 may further include a displacement sensor (not shown) to measure the displacement data of the neck.

In an embodiment, the sensor 30 may also include a pulse measuring device (not shown), a global positioning system (GPS, Global Positioning System) (not shown), an ultraviolet detector (not shown), and an exercise calculator (not shown) Not shown), can measure human heart rate, sweat, human body and outside temperature, sleep, calories, GPS, blood pressure, and external ultraviolet intensity. More comprehensive data explains human health. The measurement principle is the same as that of daily medical instruments. , The pulse measuring device can be set on the inner side of the first handle 12 or the second handle 13, the GPS locator and the exercise calculator can be set inside the elastic connecting arm 11, and the ultraviolet detector can be arranged on the outer side of the elastic connecting arm 11. Above, detect the UV intensity in the environment.

In an embodiment, the neck massager 100 may further include a voice function system 60, and the voice function system 60 is electrically coupled to the control circuit 50. The voice function system 60 may include one or more of an external speaker (not shown), a voice collector (not shown), and a walkie-talkie (not shown), so as to realize voice external reproduction, voice collection, and voice Dialogue and other operations.

The neck massager 100 realizes the wearing of the neck massager 100 through the deformation of the elastic connecting arm 11, so that the neck massager 100 can be well adapted to the size of the neck without damaging the electric pulse generator 22, and with the help of the first handle 12, The downward gravitational action of the second handle 13, the electric pulse generator 22 and the battery (not shown) makes the electrode sheet 21 fit the neck well and comfortably without causing irritation; in addition, the deformation of the elastic connecting arm 11 It relies on its own shape change rather than the greater elastic force of the spring. Therefore, the elastic force of the first handle 12 and the second handle 13 clamped on the neck as a whole is softer and more comfortable.

It should be noted that, in this embodiment, "inner side" refers to when the user wears the neck massager 100, the neck massager 100 and its components and the side close to the human body; "outside" refers to when the user wears the neck massager 100 , The side of the neck massager 100 and its components away from the human body.

The neck massager 100 of this embodiment can be used to implement the motion detection method of any of the following embodiments. The neck massager 100 may further include a memory 70 electrically coupled to the control circuit 50. The memory 70 is used to store program data, and the control circuit 50 is used to execute the program data to implement the sitting posture detection method in any of the following embodiments.

Based on this, this application provides a sitting posture detection method based on a neck massager. Please refer to FIG. 3, which is a schematic flowchart of a first embodiment of a sitting posture detection method according to the present application.

In this embodiment, the sitting posture detection method based on the neck massager includes:

S120: The neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information.

In one embodiment, the neck massager may use sensors to collect the user's neck shape information.

In an embodiment, the sensor may be one or a combination of an acceleration sensor, a speed sensor, a gravity sensor, an airflow sensor, and a pressure sensor. For example, the sensor may include an acceleration sensor, a speed sensor, a gravity sensor, an airflow sensor, and a pressure sensor; or, the sensor may only include a pressure sensor; or, the sensor may include a pressure sensor, an acceleration sensor, and a speed sensor.

Among them, the neck shape information is collected by the sensor, and the collection time and sleep time of the sensor can be set at intervals. For example, the neck shape information is collected for 40s every minute and sleeps for 20s to reduce the power consumption of the neck massager.

In one embodiment, the neck massager 100 may further include an air bag (not shown), an inflation valve (not shown), a magnetic field microwave probe (not shown), and a magnetic field microwave sensor (not shown). The sensor 30 and the magnetic field microwave probe can be pushed close to the neck of the human body by the expansion of the airbag. The pressure sensor 30 detects the inflation air pressure during the process of inflating the airbag by the inflation valve; the pressure sensor 30 is electrically connected to the inflation valve, and when the pressure sensor 30 detects that the inflation air pressure reaches a predetermined value, the inflation is stopped and a signal of successful adhesion is sent to the magnetic field. The microwave probe triggers the magnetic field microwave probe and the magnetic field microwave sensor to obtain the user's neck shape information.

The sitting posture information is generated based on the collected neck shape information. It can be a data model that has been established to automatically generate sitting posture information based on the collected neck shape information to reflect the user’s sitting posture state; it can also be a combination of the collected information. After data processing of one or more kinds of neck shape information, it is used as sitting posture information, and the sitting posture information is sent to the terminal device. The terminal device uses the established data model to generate sitting posture data based on the sitting posture information to reflect the user’s sitting posture state .

S140: Send the sitting posture information to the terminal device, so that the terminal device detects the sitting posture information and obtains the detection result, and returns the detection result to the neck massager.

The terminal device can be, for example, a mobile phone, a computer, a smart wearable device, etc., or a server.

The neck massager can establish a connection with the terminal device in a preset manner through the internal communication circuit. Among them, the preset mode may be a Bluetooth connection, a WIFI connection, a cellular connection, or other connection modes. The neck massager can also choose different ways to connect in different situations according to the priority order of the connection methods. For example, when it is detected that there is a network state, the WIFI connection can be tried first, and when it is detected that there is no network or the network state is unstable, the Bluetooth connection can be tried first.

The neck massager sends the neck motion information to the terminal device, so that the terminal device performs the operation of detecting the sitting posture information and obtaining the detection result, so that the neck massager is not restricted by its own hardware structure and data processing capabilities. The sitting posture detection function is realized by interacting with the terminal device.

The terminal device detects the sitting posture information, for example, it can compare the sitting posture information after data processing with the standard sitting posture data selected by the user on the terminal device to obtain the comparison result; it can also be the sitting posture information and the standard sitting posture data. Compare the general sitting posture data obtained from the data to obtain the comparison result; or compare the sitting posture duration obtained by analyzing multiple sitting posture information received continuously with the preset duration to obtain the comparison result; It is to comprehensively analyze the user's sitting posture information and the user's physiological data collected in the past (such as the health status of the cervical spine, other chronic diseases, special reminders, etc.) to obtain the detection result.

After the terminal device detects the sitting posture information, the obtained detection result may include at least one of an evaluation result of the health state of the cervical spine, an evaluation result of whether the sitting posture is correct, and a calculation result of the sitting posture duration.

S160: Obtain the detection result returned by the terminal device, and give a sitting posture reminder according to the detection result.

The neck massager may be provided with a voice function system, which may include one or more of a loudspeaker, a voice collector, and an intercom to achieve voice loudspeaker, voice collection, voice dialogue and other operations. The sitting posture reminder based on the detection result can be to use the voice function system to broadcast the detection result. For example, it can be: "You are currently sitting incorrectly, please pay attention to adjustment", or "You have been sitting for more than an hour, please pay attention to adjustment". Because the neck massager is worn close to the ears when in use, it can reduce the noise pollution caused by the voice broadcast to the external environment compared to the way the mobile phone is placed outside. Compared with wearing headphones, users will feel more comfortable and safer when going out and walking. high. And because the body of the neck massager fits the surface of the human body, when the safety reminder is made by voice broadcast, the target voice can also be transmitted to the user's ears by means of bone conduction.

The sitting posture reminder can also be performed by a specific vibration mode or a way of increasing the pulse current. For example, when the user is sitting improperly, such as leaning forward, the user can be reminded to relax by a specific vibration mode or increase the pulse current to avoid damage to their own health.

After receiving the sitting posture reminder, the user can correct the sitting posture or perform stretching activities according to the reminder to reduce the risk of damage to their own health due to improper sitting posture (such as tilting the head, probing the neck, or sitting for a long time).

In the sitting posture detection method based on the neck massager in this embodiment, the user’s neck shape information is collected and the sitting posture information is generated based on the neck shape information; the sitting posture information is sent to the terminal device so that the terminal device can perform Detect and obtain the detection result, return the detection result to the neck massager; obtain the detection result returned by the terminal device, and remind the sitting posture based on the detection result; thus, it can detect the user's neck shape information in real time and obtain the detection result of the user's sitting posture And because the detection result can indicate the user's sitting posture, after the neck massager obtains the detection result returned by the terminal device, it can remind the user of the sitting posture based on the detection result, reducing the risk of damage to their own health due to improper sitting posture.

Please refer to FIG. 4, which is a schematic flowchart of a second embodiment of a sitting posture detection method based on a neck massager in this application.

The second embodiment of the sitting posture detection method based on the neck massager of the present application is based on the first embodiment of the sitting posture detection method based on the neck massager of the present application, so the same steps in this embodiment and the first embodiment will not be repeated. The description in the first embodiment can be referred to.

In this embodiment, the sitting posture detection method based on the neck massager may include:

S210: Acquire neck shape information collected when the user is in a standard sitting posture, and generate standard sitting posture information based on the neck shape information.

The standard sitting posture can be: the subject sits on a plane adjusted to the height of the fibular head, the head is positioned at the eye and ear plane, the eyes look straight ahead, the left and right thighs are roughly parallel, the knees are bent roughly at a right angle, and the feet are flat. Put your hands on the ground, gently place your hands on your thighs, and keep your upper body straight (that is, keep your neck, chest, and waist straight).

In a specific embodiment, the neck massager can use the voice function system to verbally broadcast the detection results to prompt the user to assume a standard sitting posture, for example: "please assume a standard sitting posture after the beep sounds", or through voice Broadcast the essentials of the standard sitting posture. And after a preset time (for example, 3s, 5s, 10s) has passed, the neck shape information collected when the user is in a standard sitting posture can be obtained.

In a specific implementation, the neck massager can also send a request to a terminal device, such as a mobile phone. After the neck massager communicates with the user's mobile phone through a communication circuit, the mobile phone can be connected to the neck massager. Interactive. For example, the user can use the application on the mobile phone to manage the neck massager, after associating the neck massager worn by the user, choose to play the standard sitting posture demonstration video in the application, and guide the user in the form of video explanation and display In a standard sitting posture.

In an application scenario, when the terminal device is a device with a camera such as a mobile phone or a computer, the camera of the terminal device can also be used to take a user's image, and image information can be obtained after image processing (the image information includes the user's head image and Neck image), standard image data can be obtained after image processing of image information.

Acquire neck shape information collected when the user is in a standard sitting posture, such as pressure information detected by multiple pressure sensors, or magnetic field microwave probes and magnetic field microwave sensors to detect magnetic field microwaves, as neck shape information, and based on neck shape The information generates standard sitting posture information.

S220: Send the standard sitting posture information to the terminal device, so that the terminal device obtains the standard sitting posture data according to the standard sitting posture information.

After the neck massager sends the standard sitting posture information to the terminal device, step S230 may be performed: the neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information.

In one embodiment, step S140: sending the sitting posture information to the terminal device, so that the terminal device detects the sitting posture information and obtains the detection result, and returns the detection result to the neck massager, which may include:

S240: Send the sitting posture information to the terminal device, so that the terminal device compares the sitting posture information with the standard sitting posture data in the terminal device to obtain a detection result, and returns the detection result to the neck massager.

In one embodiment, the terminal device may first perform data processing on the sitting posture information to obtain the sitting posture data, and then input the sitting posture data into the trained model and compare it with the standard sitting posture data to obtain the detection result. The detection result may be, for example, The difference between the sitting posture data and the standard sitting posture data (the difference can be variance, standard deviation, etc.). If the difference exceeds the preset range, the detection result of "current improper sitting posture" can be obtained. If the difference does not exceed the preset range, Then, the detection result of "the current sitting posture is acceptable" can be obtained.

In one embodiment, step S160: obtaining the detection result returned by the terminal device, and performing a sitting posture reminder according to the detection result, which may include:

S250: Obtain the detection result returned by the terminal device.

S260: When the detection result indicates that the current sitting posture is a bad sitting posture, a sitting posture reminder is performed.

In one embodiment, the detection result returned by the terminal device may include voice information. After obtaining the detection result returned by the terminal device, the neck massager may parse the detection result and perform semantic recognition to determine whether the detection result contains a representation Information that the difference between the real-time sitting data and the standard sitting data exceeds the preset range, if included, indicates that the current sitting posture is a bad sitting posture, and the user can be reminded of the sitting posture based on the voice information. If it is not included, it may not be reminded so as not to cause excessive interference to users.

The detection result can also contain identification information, for example, "current sitting posture is inappropriate", "current sitting posture is acceptable", etc., so that the neck massager can quickly identify whether the test result contains the current sitting posture as a bad sitting posture after receiving the test result information.

In one embodiment, step S260: when the detection result indicates that the current sitting posture is a bad sitting posture, a sitting posture reminder may include:

When the detection result indicates that the current sitting posture is a bad sitting posture, the standard sitting posture essentials are played again using the speaker to correct the user's actions.

In one embodiment, the detection result returned by the terminal device may include voice information, and when the detection result indicates that the current sitting posture is a bad sitting posture, the voice information includes a voice explanation of standard sitting posture essentials.

In other embodiments, step S140 may further include: sending the sitting posture information to the terminal device, so that the terminal device detects the sitting posture duration according to a plurality of consecutively received sitting posture information and obtains the detection result, and returns the detection result to Neck massager.

Step S160: Obtain the detection result returned by the terminal device, and perform a sitting posture reminder based on the detection result, which may include:

Obtain the detection result returned by the terminal device.

When the detection result indicates that the sitting posture lasts too long, a sitting posture reminder is issued.

In one embodiment, the detection result returned by the terminal device may include voice information. After obtaining the detection result returned by the terminal device, the neck massager may parse the detection result and perform semantic recognition to determine whether the detection result contains a representation The sitting posture lasts too long (for example, more than 30min or 1h, etc.). If it is included, it means the sitting posture lasts too long, and the user can be reminded of the sitting posture based on the voice information. If it is not included, it may not be reminded so as not to cause excessive interference to users.

The detection result can also contain identification information, for example, "the sitting posture lasts a long time", "the sitting posture lasts longer than the healthy value", etc., so that the neck massager can quickly identify whether the test result contains the user sitting posture after receiving the test result The duration is too long.

Please refer to FIG. 5. FIG. 5 is a schematic flowchart of a third embodiment of a sitting posture detection method based on a neck massager according to the present application.

The third embodiment of the sitting posture detection method based on the neck massager of the present application is based on the first embodiment of the sitting posture detection method based on the neck massager of the present application, so the same steps in this embodiment and the first embodiment will not be repeated. The description in the first embodiment can be referred to.

In this embodiment, the sitting posture detection method based on the neck massager further includes:

S310: Acquire status data of the user, where the status data includes movement data and/or physiological data.

The neck massager can use the sensor to obtain the user's state data according to the set period, for example, set the collection time and sleep time of the sensor at intervals, for example, collect 40s of neck shape information every minute and sleep for 20s.

S320: Determine the current posture of the user according to the movement data and/or the physiological data, and the current posture includes a sitting posture.

The movement data may be at least one of displacement data, velocity data, or acceleration data of the user in a continuous set number of sampling periods.

The physiological data may be at least one of heart rate data, pulse data, etc. of the user in a continuous set number of sampling periods.

When the user is in a sitting posture, step S330 may be performed. When the user is in a non-sitting posture, step S310 may be returned to.

S330: The neck massager sends a request for enabling the sitting posture detection function to the user.

The neck massager sends a request to the user to enable the sitting posture detection function, which may be a voice through a speaker asking the user whether to enable the sitting posture detection function.

In one embodiment, the user can send an instruction to enable the sitting posture detection function to the neck massager by pressing a function key on the massager.

In other embodiments, the user may use voice control, for example, to send out the voice message "Start sitting posture detection" to send an instruction to enable the sitting posture detection function to the neck massager.

S340: Determine whether an instruction to enable the sitting posture detection function is acquired.

When an instruction to enable the sitting posture detection function is obtained, step S120 may be executed. When the instruction to enable the sitting posture detection function is not obtained, return to step S310.

In other embodiments, the user may also set a specific time period, such as work time or study time. During the specific time period, after the user wears the neck massager, the neck massager automatically activates the sitting posture detection function.

In one embodiment, when the sitting posture detection function of the neck massager has been enabled, when the user’s current posture is determined to be non-sitting based on the movement data and/or physiological data of a set number of consecutive sampling periods, It can be by sending a voice through a loudspeaker to ask the user whether to turn off the sitting position detection function, or automatically turn off the sitting position detection function.

This embodiment can be combined with the first embodiment to the second embodiment of the sitting posture detection method based on the neck massager of the present application.

Please refer to FIG. 6, which is a schematic flowchart of a fourth embodiment of a sitting posture detection method based on a neck massager in this application.

S410: Obtain the identity information of the user.

In one embodiment, the body of the neck massager may be provided with a biological information recognition module (such as fingerprint recognition) to obtain the identity information of the user currently wearing the neck massager.

S420: Send the identity information to the terminal device, so that the terminal device obtains the user's personality data according to the identity information, and obtains sitting posture suggestions according to the personality data.

In an embodiment, the neck massager can collect the user’s neck shape information and obtain the user’s identity information at the same time each time the user is in a sitting state or after the sitting position detection function is determined to be enabled, and then combine the sitting posture information with the identity information Send to the terminal device.

The terminal device obtains the user's personality data according to the identity information. The personality data can be, for example, the user's occupation, neck health status (such as good, rigid, or reverse bow), spine health status, and the like. The user can input personality data into the neck massager or terminal device in advance.

In an application scenario, the neck massager can interact with the user through the voice function system and ask the user about the state of the cervical spine, for example, "Is there any rigidity, reversal, or lateral curvature of the cervical spine?" The user's voice information is semantically recognized. For example, when keywords such as "stiffness", "reverse bow", or "scoliosis" appear in the user's voice information, they are used as the user's cervical spine health data.

In an application scenario, the user can also upload the hospital diagnosis certificate to the terminal device, or enter key information under the prompt of the terminal device, so that the terminal device can directly understand the user's personality data.

In an application scenario, the personality data may be, for example, that the health state of the neck is rigid, and the sitting posture recommendation may be "avoid bowing or probing the neck" or "moving the neck every 30 minutes".

S430: Obtain the sitting posture suggestions returned by the terminal device, and give health reminders based on the sitting posture suggestions.

In an embodiment, the sitting posture suggestions returned by the terminal device may include voice information. The health reminder of the neck massager according to the sitting posture suggestion may be to broadcast the voice information to the user.

This embodiment can be combined with the first embodiment to the third embodiment of the sitting posture detection method based on the neck massager of the present application.

Please refer to FIG. 7 in combination. FIG. 7 is a schematic flowchart of a fifth embodiment of a sitting posture detection method based on a neck massager according to the present application.

The fifth embodiment of the sitting posture detection method based on the neck massager of the present application is based on the first embodiment of the sitting posture detection method based on the neck massager of the present application, so the same steps in this embodiment and the first embodiment will not be repeated. The description in the first embodiment can be referred to.

In this embodiment, step S120: the neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information, which may include:

S510: The neck massager uses multiple pressure sensors to collect multiple pressure information.

Wherein, the neck massager includes a massager body, and a plurality of pressure sensors can be arranged at intervals on the side of the massager body that is close to the human body. The displacement sensor can be arranged on the body of the massager.

Among them, multiple refers to two or more.

S520: Combine multiple pieces of pressure information to generate neck shape information.

S530: Generate sitting posture information based on the neck shape information.

The sitting posture information is generated based on the neck shape information. The neck massager can generate the user's real-time sitting posture information based on the real-time detected neck shape information to directly reflect or enable the terminal device to analyze the user's sitting posture state at a certain moment, for example, Head down, head tilt, neck probe, etc.; it can also be that the neck massager generates sitting posture information based on multiple neck shape information detected in one detection cycle or multiple detection cycles to directly reflect or enable the terminal device to analyze the user’s The sitting state during this period, for example, continuous head down, continuous head tilt, continuous neck probing, continuous swinging, etc.; different neck shape information can also be assigned different weights to generate sitting posture information.

In one embodiment, the neck massager may include a first handle, a second handle, and an elastic connecting arm connecting the first handle and the second handle, and the plurality of pressure sensors at least include a first pressure sensor, a second pressure sensor, and The third pressure sensor, the first pressure sensor is arranged on the side of the first handle that is close to the human body, the second pressure sensor is arranged on the side of the second handle that is close to the human body, and the third pressure sensor is arranged on the elastic connecting arm The upper is used to be close to the side of the human body. Before sitting posture detection, the neck massager can obtain multiple standard pressure information collected when the user is in a standard sitting posture through multiple pressure sensors as neck shape information, and generate standard sitting posture information based on the multiple standard pressure information. When the user is in a standard sitting posture, the body is upright, the head is upright, and the cervical spine is in a healthy state. After the sitting posture detection function is enabled, the neck massager will lead to changes in the head posture if the sitting posture is adjusted. When the head posture changes, the pressure exerted by the user’s neck on multiple pressure sensors will also change, resulting in different combinations of pressure information. The user's sitting posture information is generated based on the combination of pressure information detected in real time to reflect the user's sitting posture state.

This embodiment can be combined with the first embodiment to the fourth embodiment of the sitting posture detection method based on the neck massage instrument of the present application.

Please refer to FIG. 8 in combination. FIG. 8 is a schematic flowchart of a sixth embodiment of a sitting posture detection method based on a neck massager according to the present application.

The sixth embodiment of the sitting posture detection method based on the neck massager of the present application is based on the first embodiment of the sitting posture detection method based on the neck massager of the present application, so the same steps in this embodiment and the first embodiment will not be repeated. The description in the first embodiment can be referred to.

S610: Control the camera of the terminal device to obtain the user's image information, the image information includes the user's head image and neck image.

The terminal device may be a device integrated with a camera component such as a mobile phone or a computer.

S620: The neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information.

As shown in the figure, step S610 can be executed before step S620, or simultaneously with step S620, and can also be executed after step S620 and before step S630.

The above step S140: sending the sitting posture information to the terminal device, so that the terminal device detects the sitting posture information and obtains the detection result, and returns the detection result to the neck massager:

S630: Send the sitting posture information to the terminal device, so that the terminal device performs detection in combination with the sitting posture information and the image information and obtains the detection result, and returns the detection result to the neck massager.

In an embodiment, step S630 may include:

The sitting posture information is sent to the terminal device, so that the terminal device can analyze the tilt degree of the user's head relative to the neck based on the sitting posture information, and obtain the current distance between the user's head and the camera based on the analysis of the image information, and integrate the degree of tilt and current The distance test result is obtained, and the test result is returned to the neck massager.

In an application scenario, the terminal device can be a computer. The computer's camera is used to take a picture of the user to obtain image information including the user's current head image and neck image. The computer can calculate the current face area of the current face image in the target image. ; According to the current face area and the preset standard face area, calculate the current distance of the user's face from the camera, and determine whether the current distance is less than the preset shortest distance; if it is less, it means that the user is leaning forward. This method can effectively remind staff who use computers in the office to sit and reduce the risk of damage to their health due to improper sitting.

The neck massager can detect whether there is a standard face area stored in the memory every time the sitting posture detection function is turned on. If it is not stored, the neck massager needs to obtain the standard face area corresponding to the current user.

In one embodiment, the computer can first obtain the identity information of the current user of the neck massager. The neck massager can search the memory for the standard face area matching the identity information. If it is not found, it can be determined that the current user is not stored. The user’s standard face area; therefore, the neck massager can obtain the current user’s identity information and calculate the current user’s standard face area. The computer can store the current user’s personal information and standard face area in the memory of the wearable device. middle.

The computer can also output prompt information, which is used to prompt the user to take a standard image containing the user's face in a standard sitting state. When the user-triggered photographing instruction is detected, the neck massager controls the computer's camera to take a picture of the user and obtain a standard image. The computer can recognize the user's standard facial image from the standard image through facial recognition technology.

This embodiment may be combined with the first embodiment to the fifth embodiment of the sitting posture detection method based on the neck massager of the present application.

Please refer to FIG. 9 in combination. FIG. 9 is a schematic flowchart of an embodiment of a sitting posture detection method based on a terminal device according to the present application.

In this embodiment, the sitting posture detection method based on the terminal device includes:

S720: The terminal device receives the sitting posture information sent by the neck massager.

Among them, the sitting posture information is generated by collecting the user's neck shape information based on the neck massager.

S740: Detect sitting posture information and obtain a detection result.

S760: Return the test result to the neck massager.

This embodiment uses the terminal device as the main body of execution. For more steps and content, please refer to the first embodiment to the sixth embodiment of the sitting posture detection method based on a neck massager in this application, which will not be repeated here.

Please refer to FIG. 10, which is a schematic diagram of an embodiment of a computer-readable storage medium of the present application.

The computer-readable storage medium 200 is used to store program data 210, and when the program data 210 is executed by a processor, it is used to implement the following methods:

The neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information;

Send the sitting posture information to the terminal device so that the terminal device can detect the sitting posture information and obtain the detection result, and return the detection result to the neck massager;

Obtain the detection result returned by the terminal device, and give a sitting posture reminder based on the detection result.

When the program data 210 is executed by the processor, it can also be used to implement the following methods:

The terminal device receives the sitting posture information sent by the neck massager;

Detect sitting posture information and get the detection result;

Return the test result to the neck massager.

It can be understood that the computer-readable storage medium 200 in this embodiment can be applied to a server, and the specific implementation can refer to the above-mentioned embodiment, which will not be repeated here.

In the several implementation manners provided in this application, it should be understood that the disclosed method and device may be implemented in other ways. For example, the device implementation described above is only illustrative, for example, the division of modules or units is only a logical function division, and there may be other divisions in actual implementation, for example, multiple units or components can be combined or It can be integrated into another system, or some features can be ignored or not implemented.

The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, they may be located in one place, or they may be distributed on multiple network units. Some or all of the units may be selected according to actual needs to achieve the objectives of the solutions of this embodiment.

In addition, the functional units in the various embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units may be integrated into one unit. The above-mentioned integrated unit can be implemented in the form of hardware or software functional unit.

If the integrated units in the other embodiments described above are implemented in the form of software functional units and sold or used as independent products, they can be stored in a computer readable storage medium. Based on this understanding, the technical solution of the present application essentially or the part that contributes to the existing technology or all or part of the technical solution can be embodied in the form of a software product, and the computer software product is stored in a storage medium , Including several instructions to make a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor (processor) execute all or part of the methods in the various embodiments of the present application. The aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disks or optical disks and other media that can store program codes. .

The sitting posture detection method based on the neck massager provided in this application collects the user’s neck shape information, and generates sitting posture information based on the neck shape information; sends the sitting posture information to the terminal device so that the terminal device can perform the sitting posture information Detect and obtain the detection result, return the detection result to the neck massager; obtain the detection result returned by the terminal device, and remind the sitting posture based on the detection result; thus, it can detect the user's neck shape information in real time and obtain the detection result of the user's sitting posture And because the detection result can indicate the user's sitting posture, after the neck massager obtains the detection result returned by the terminal device, it can remind the user of the sitting posture based on the detection result, reducing the risk of damage to their own health due to improper sitting posture.

The above are only implementations of this application, and do not limit the scope of this application. Any equivalent structure or equivalent process transformation made using the content of the description and drawings of this application, or directly or indirectly applied to other related technical fields, The same reasoning is included in the scope of patent protection of this application.

Claims

A sitting posture detection method based on a neck massager includes:

The neck massager collects the user's neck shape information, and generates sitting posture information based on the neck shape information;

Sending the sitting posture information to a terminal device, so that the terminal device detects the sitting posture information and obtains a detection result, and returns the detection result to the neck massager;

Obtain the detection result returned by the terminal device, and perform a sitting posture reminder according to the detection result.
The sitting posture detection method according to claim 1, wherein:

The neck massager collects the neck shape information of the user, and generates sitting posture information based on the neck shape information, including:

The neck massager uses a plurality of pressure sensors to collect a plurality of pressure information;

Combining the multiple pressure information to generate neck shape information;

Generating sitting posture information based on the neck shape information;

Wherein, the neck massager includes a massager body, and the plurality of pressure sensors are arranged at intervals on the side of the massager body that is used to be close to the human body.
The sitting posture detection method according to claim 1, wherein:

The neck massager collects the neck shape information of the user, and generates sitting posture information based on the neck shape information, including:

The neck massager uses sensors to collect the user's neck shape information at intervals;

Using the data model, sitting posture information is generated based on the collected neck shape information.
The sitting posture detection method according to claim 3, wherein the sensor includes at least one of an acceleration sensor, a speed sensor, a gravity sensor, an airflow sensor, and a pressure sensor.
The sitting posture detection method according to claim 1, further comprising:

Acquiring neck shape information collected when the user is in a standard sitting posture, and generating standard sitting posture information based on the neck shape information;

The standard sitting posture information is sent to the terminal device, so that the terminal device obtains the standard sitting posture data according to the standard sitting posture information.
The sitting posture detection method according to claim 5, wherein:

The sending the sitting posture information to a terminal device so that the terminal device can detect the sitting posture information and obtain a detection result, and returning the detection result to the neck massager includes:

The sitting posture information is sent to the terminal device, so that the terminal device compares the sitting posture information with the standard sitting posture data in the terminal device to obtain a detection result, and returns the detection result to the neck Massage instrument.
The sitting posture detection method according to claim 1, wherein:

The acquiring the detection result returned by the terminal device and performing a sitting posture reminder according to the detection result includes:

Acquiring the detection result returned by the terminal device;

When the detection result indicates that the current sitting posture is a bad sitting posture, a sitting posture reminder is performed.
The sitting posture detection method according to claim 1, wherein the neck massager collecting the user's neck shape information and generating sitting posture information based on the neck shape information comprises:

The neck massager sends a request to enable the sitting posture detection function to the user;

Determine whether an instruction to enable the sitting posture detection function is obtained;

When the user's instruction to enable the sitting posture detection function is obtained, the step of collecting neck shape information by the neck massager and generating sitting posture information based on the sitting posture information is executed.
The sitting posture detection method according to claim 8, further comprising:

Acquiring status data of the user, where the status data includes mobile data and/or physiological data;

Determine the current posture of the user according to the movement data and/or the physiological data, where the current posture includes: a sitting posture;

When the user is in a sitting posture, a step of the neck massager sending a request to enable the sitting posture detection function to the user is performed.
The sitting posture detection method according to claim 1, further comprising:

Obtaining the identity information of the user;

Sending the identity information to the terminal device, so that the terminal device obtains personality data of the user according to the identity information, and obtains sitting posture suggestions according to the personality data;

Obtain the sitting posture suggestion returned by the terminal device, and give a health reminder according to the sitting posture suggestion.
The sitting posture detection method according to claim 1, further comprising:

Controlling the camera of the terminal device to obtain the image information of the user, the image information including the head image and the neck image of the user;

The sending the sitting posture information to a terminal device so that the terminal device can detect the sitting posture information and obtain a detection result, and returning the detection result to the neck massager includes:

The sitting posture information is sent to a terminal device, so that the terminal device performs detection in combination with the sitting posture information and the image information and obtains a detection result, and returns the detection result to the neck massager.
The sitting posture detection method according to claim 11, wherein the sitting posture information is sent to a terminal device, so that the terminal device combines the sitting posture information and the image information to perform detection and obtain the detection result, and then The test result is returned to the neck massager, including:

The sitting posture information is sent to the terminal device, so that the terminal device analyzes the degree of inclination of the user's head relative to the neck according to the sitting posture information, and obtains the relationship between the user's head and the neck according to the image information analysis. The current distance between the cameras is combined with the inclination degree and the current distance to obtain a detection result, and the detection result is returned to the neck massager.
A method for detecting sitting posture based on terminal equipment includes:

Receiving, by the terminal device, sitting posture information sent by a neck massager, where the sitting posture information is generated by the neck massager based on collected neck shape information of the user;

Detecting the sitting posture information and obtaining a detection result;

The detection result is returned to the neck massager, so that the neck massager performs a sitting posture reminder according to the detection result.
The sitting posture detection method according to claim 13, wherein the detection result includes at least one of an evaluation result of the health state of the cervical spine, an evaluation result of whether the sitting posture is correct, and a calculation result of the sitting posture duration.
The sitting posture detection method according to claim 13, wherein the returning the detection result to the neck massager so that the neck massager will remind the sitting posture according to the detection result comprises: vibrating Mode or increase the pulse current for sitting reminder.
The sitting posture detection method according to claim 13, wherein the method further comprises:

Acquiring image information of the user through a camera, where the image information includes a head image and a neck image of the user;

The detecting the sitting posture information and obtaining the detection result includes:

According to the analysis of the sitting posture information, the tilt degree of the user's head relative to the neck is obtained;

According to image information analysis, the current distance between the user's head and the camera of the terminal device is obtained, and the detection result is obtained by combining the tilt degree and the current distance.
A neck massager, including:

The body of the massager;

The massage component is arranged on the body of the massager, and the massage component is used to massage the neck of the human body;

The communication circuit is arranged on the body of the massager and is used to establish a communication connection with the terminal device;

A control circuit is arranged on the body of the massage instrument, the control circuit is electrically coupled to the massage assembly and the communication circuit, and the control circuit is used to control the massage assembly and the communication circuit to achieve The steps in the sitting posture detection method based on the neck massager described in any one of 1-12 are required.
The neck massager according to claim 17, further comprising a sensor arranged on the body of the massager;

The body of the massager includes an elastic connecting arm, a first handle and a second handle; wherein the first handle and the second handle are connected to two ends of the elastic connecting arm.
The neck massage apparatus according to claim 18, wherein the sensor includes a pressure sensor; the pressure sensor includes a first pressure sensor, a second pressure sensor, and a third pressure sensor, wherein the first pressure sensor is disposed at On the inner side of the first handle, the second pressure sensor is arranged on the inner side of the second handle, and the third pressure sensor is arranged on the inner side of the elastic connecting arm.
A computer-readable storage medium storing program data, and when the program data is executed by a processor, it is used to implement the sitting posture detection method according to any one of claims 1-16.