WO2018059539A1

WO2018059539A1 - Work fatigue warning method, apparatus, and system

Info

Publication number: WO2018059539A1
Application number: PCT/CN2017/104304
Authority: WO
Inventors: 高帅
Original assignee: 中兴通讯股份有限公司
Priority date: 2016-09-30
Filing date: 2017-09-29
Publication date: 2018-04-05
Also published as: CN107886686A; CN107886686B

Abstract

A work fatigue warning method, apparatus, and system, the method comprising: acquiring in real time fatigue state data of the user, the fatigue state data comprising: at least one of wrist fatigue state data and waist fatigue state data; and when the fatigue state data satisfies a preset fatigue condition, then issuing a fatigue warning to the user.

Description

Work fatigue reminding method, device and system

Technical field

The present disclosure relates to the field of wearable device technology, for example, to a work fatigue reminding method, apparatus and system.

Background technique

As the work pressure continues to increase, many office workers have long-term office work, and long-term attention to the computer screen is very harmful to the eyes. For example, some programmers work without a blink of an eye for several hours, causing eye acid and mosquitoes. In addition, prolonged use of the mouse is prone to wrist numbness and may cause "mouse hand" and the like.

In the case of eye fatigue, the user usually sets the time to rest the eyes according to the system time of the personal computer (PC) or the mobile terminal. After the eyes are rested for a period of time, the settings are made manually or automatically. Cycle the PC or mobile terminal to the next time. For the case of using the mouse for a long time, it is usually relieved by purchasing a mouse that conforms to the human body configuration or using a mouse pad that protects the wrist. However, the above method does not effectively alleviate the user's work fatigue state in time.

Summary of the invention

The present disclosure provides a work fatigue reminding method, device and system, which can monitor the fatigue state of the user, promptly remind the user of fatigue, relieve the fatigue state of the user, and can improve the accuracy of the monitoring.

The present disclosure provides a work fatigue reminding method, which may include:

Acquiring the fatigue state data of the user in real time; the fatigue state data includes at least one of fatigue state data of the wrist and fatigue state data of the waist;

When the fatigue state data satisfies a preset fatigue condition, the user is prompted for fatigue.

Optionally, the acquiring the fatigue state data of the user in real time includes: acquiring fatigue state data of the wrist of the user in real time; wherein the fatigue state data of the wrist includes a distance between the wrist and the mouse, and a rotation angle of the wrist ;

Satisfying the preset fatigue condition may include: the duration of the user's wrist remaining within the set activity range reaches a first preset time threshold; the setting the activity range includes: when the user uses the mouse, the user The range of distance between the wrist and the mouse and the range of angles of rotation of the user's wrist.

Optionally, the acquiring the fatigue state data of the user in real time includes: acquiring lumbar fatigue state data of the user in real time; wherein the lumbar fatigue state data includes posture data of the waist;

Satisfying the preset fatigue condition may include: the length of the user's waist remaining in the fixed posture reaches a second preset time threshold.

Optionally, the performing fatigue reminding to the user includes performing fatigue reminding on the user by using at least one of a text reminder, a vibration reminder, and a voice reminder. Optionally, the acquiring the fatigue state data of the user in real time further includes: acquiring fatigue state data of the eye of the user in real time; wherein the fatigue state data of the eye includes a potential difference between the cornea and the retina;

Satisfying the preset fatigue condition may include that the potential difference between the cornea and the retina of the user falls within a preset potential difference range.

The present disclosure also provides a work fatigue reminding device, which may include: a data acquisition module configured to: acquire fatigue state data of the user in real time; wherein the fatigue state data includes: fatigue state data of the wrist and fatigue state data of the waist at least one;

The fatigue reminding module is configured to: when the fatigue state data meets a preset fatigue condition, perform fatigue reminding to the user.

Optionally, the data obtaining module is configured to: acquire fatigue state data of the wrist of the user in real time; wherein the fatigue state data of the wrist includes a distance between the wrist and the mouse, and a rotation angle of the wrist;

The fatigue reminding module is configured to: when the duration of the user's wrist is within the set active range reaches a first preset time threshold, the user is fatigued; the set activity range includes: The range of the distance between the wrist of the user and the mouse and the range of angles of rotation of the wrist of the user when the user uses the mouse.

Optionally, the data obtaining module is configured to: acquire lumbar fatigue state data of the user in real time; wherein the lumbar fatigue state data includes posture data of a waist;

The fatigue reminding module is configured to: when the length of the user's waist is maintained in the fixed posture reaches a second preset time threshold, the user is fatigued.

Optionally, the fatigue reminding module is further configured to: perform fatigue reminding on the user by using at least one of a text reminder, a vibration reminder, and a sound reminder.

Optionally, the data acquiring module is further configured to: acquire fatigue state data of the eye of the user in real time; wherein the fatigue state data of the eye includes a potential difference between the cornea and the retina;

The fatigue reminding module is further configured to: when the potential difference between the cornea and the retina of the user falls within a preset potential difference range, the user is fatigued.

The present disclosure also provides a work fatigue reminding system, comprising: a monitoring device and any one of the above work fatigue reminding devices, wherein the monitoring device is configured to monitor user fatigue state data in real time.

The present disclosure also provides a computer readable storage medium storing computer executable instructions for performing any of the methods described above.

The present disclosure also provides a reminder device comprising one or more processors, a memory, and one or more programs, the one or more programs being stored in a memory when executed by one or more processors , perform any of the above methods.

The present disclosure also provides a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions, when the program instructions are executed by a computer, Having the computer perform any of the methods described above.

The disclosure can realize that the user is in a work fatigue state according to the monitoring information acquired in real time, and the user is reminded of the work fatigue to alleviate the fatigue state of the user.

DRAWINGS

FIG. 1a is a flowchart of a work fatigue reminding method according to an embodiment of the present invention;

FIG. 1b is a flowchart of a work fatigue reminding method provided by an embodiment; FIG.

2a is a schematic structural diagram of a work fatigue reminding device according to an embodiment of the present invention;

2b is a schematic structural diagram of a work fatigue reminding system provided by an embodiment;

2c is a schematic structural diagram of a monitoring apparatus according to an embodiment;

3 is a flow chart of a work fatigue reminding method provided by an embodiment;

FIG. 4 is a schematic structural diagram of hardware of a reminder device according to an embodiment.

detailed description

An embodiment provides a work fatigue reminding method, which can be applied to a fatigue reminding device. As shown in FIG. 1a, the method can include steps 100-200.

In step 100, the user's fatigue state data is acquired in real time; the fatigue state data includes at least one of fatigue state data of the wrist and fatigue state data of the waist.

In step 200, when the fatigue state data meets a preset fatigue condition, the user is prompted for fatigue.

For example, the fatigue state data of the wrist of the user may be acquired in real time; wherein the fatigue state data of the wrist includes a distance between the wrist and the mouse, and a rotation angle of the wrist; and satisfying the preset fatigue condition includes: the user The wrist is kept within the set activity range for a first preset time threshold; the set activity range includes: a distance range between the user's wrist and the mouse when the user uses the mouse, and the The range of angles of rotation of the user's wrist.

For another example, the waist fatigue state data of the user may be acquired in real time; wherein the waist fatigue state data includes posture data of the waist; and satisfying the preset fatigue condition includes: the length of the user's waist remaining in the fixed posture reaches the first Two preset time thresholds.

The fatigue state data of the eye of the user may also be acquired in real time; wherein the fatigue state data of the eye includes a potential difference between the cornea and the retina; and satisfying the preset fatigue condition includes: the user's cornea The potential difference between the retina and the retina falls within a preset range of potential differences.

The performing fatigue reminding to the user may include: performing fatigue reminding on the user by using at least one of a text reminder, a vibration reminder, and a sound reminder.

An embodiment provides a work fatigue reminding method, which can be applied to a fatigue reminding system. As shown in FIG. 1b, the method can include the following steps:

In step 110, the user's fatigue state data is monitored in real time by the monitoring device.

Wherein, the monitoring device may include at least one of a wrist monitoring device and a waist monitoring device.

For example, the wrist monitoring device can include a distance sensor and a gyroscope. The wrist monitoring device may be a wristband type monitoring device, and the wrist monitoring device may monitor the posture of the user's wrist to determine whether the user uses the mouse for a long time. Wherein the user is the use of the terminal By.

The real-time monitoring of the user's fatigue state data by the monitoring device may include: real-time collecting the distance between the user's wrist and the mouse through the distance sensor in the wrist monitoring device, and real-time collecting by the gyroscope in the wrist monitoring device The angle of rotation of the user's wrist.

The waist monitoring device can include a position sensor. The waist monitoring device can monitor the posture of the user's waist to determine whether the user is working at a desk for a long time.

Monitoring the user's fatigue state data in real time by the monitoring device may include acquiring the posture data of the user's waist in real time through the position sensor in the waist monitoring device.

In step 120, if the fatigue state data satisfies the fatigue condition of the preset monitoring device, the user is prompted for fatigue.

For example, when the monitoring device is a wrist monitoring device, satisfying the fatigue condition of the preset wrist monitoring device may include: the duration of the user's wrist remaining within the set active range reaches a first preset time threshold; The setting activity range includes a range of a distance between the wrist of the user and the mouse when the user uses the mouse, and a range of a rotation angle of the wrist of the user. The fatigue condition of the preset wrist monitoring device is used to determine whether the user uses the mouse for a long time.

In this embodiment, the user may use the mouse for a long time under a long working condition. When the user is using the mouse, the distance between the user's wrist and the mouse will remain within a certain distance. If the distance between the two is too large, the user no longer uses the mouse. When the user normally uses the mouse, the user's wrist will also remain within a certain range of rotation angles. If there is a sharp rotation, the user no longer uses the mouse.

The user can use the mouse to set the distance range between the wrist and the mouse to a preset distance range, and set the rotation angle range of the user's wrist to the preset angle range, and the distance between the user's wrist and the mouse will be pre- Set within the distance range, and the user's wrist rotation angle is at a preset rotation In the range of angles, it means that the user uses the mouse to time the time when the user uses the mouse. When the time when the user continues to use the mouse reaches the first preset time threshold, the fatigue reminder is performed. If the distance between the user's wrist and the mouse is too large, or the user's wrist is sharply rotated, the user no longer uses the mouse to reset the time of the above timer to zero.

When the monitoring device is a lumbar monitoring device, the fatigue condition of the preset monitoring device is met, including: the length of the user's waist remaining in the fixed posture reaches a second preset time threshold.

The fatigue condition of the preset lumbar monitoring device is used to determine whether the user is working at a desk for a long time. In the embodiment, the user may have a certain posture of the waist when the user is working for a long time, and time the user's waist is in a certain posture. When the time of the time reaches the second preset time threshold, the user is Fatigue reminder.

Optionally, the performing fatigue reminding to the user includes: performing fatigue reminding by at least one of a text reminder, a vibration reminder, and a voice reminder.

For example, the text reminder information may be sent to the terminal, and the fatigue reminder may be displayed to the user through the terminal screen, and the fatigue reminder may also send the vibration or sound reminding information to the terminal. The fatigue reminding device can also send at least one kind of reminding information of a text reminder, a vibration reminder or a sound reminder to the monitoring device, and perform corresponding text reminding, vibration reminding and sound reminding to the user through the monitoring device.

When it is determined that the user is in a fatigue state, the user may display a fatigue reminder through the terminal display to suggest that the user take a break, and may also send a reminder message to the monitoring device, and the monitoring device performs a fatigue reminder according to the reminder information, for example: monitoring The device vibrates or the monitoring device sounds an alarm.

Optionally, the monitoring device may further include: an eye monitoring device.

The eye monitoring device may include an eye potential sensor.

The wrist monitoring device may be a glasses-type monitoring device, and the monitoring device monitors in real time. The fatigue state data of the user includes: collecting, by the eye potential sensor in the eye monitoring device, a potential difference between the cornea and the retina of the user in real time. The user's eye potential difference is different between waking and fatigue.

Satisfying the fatigue condition of the preset monitoring device includes: the potential difference between the cornea and the retina of the user falls within a preset potential difference range.

In this embodiment, the potential difference between the cornea and the retina of the user when the user is in a fatigue state may be set to a preset potential difference range, when the potential difference between the cornea and the retina of the user falls within a preset potential difference. In the scope, the user is reminded of fatigue.

In this embodiment, data transmission can be performed between the terminal and the monitoring device by any of the following methods: Wireless Fidelity (Wi-Fi) connection, Bluetooth connection, and Radio Frequency Identification (RFID). )connection.

By adopting the solution of the above embodiment, it is possible to solve the problem that the manner of artificially setting the timing, the behavior of purchasing the mouse and the mouse pad cannot perform the fatigue reminding in time. For example, when the user is reminded to set the timing, the difference is different between different users. If different users use the same computer, each user needs to manually set the computer again. On the other hand, There may be cases where the user leaves the seat due to temporary problems, but the timer is still timing. For another example, the behavior of purchasing a mouse or a mouse pad cannot remind the user. The foregoing embodiment can automatically determine whether the user is in a work fatigue state according to the monitoring information acquired in real time, and perform a work fatigue reminder on the user to effectively alleviate the user's fatigue state.

In this embodiment, the monitoring device may further include any one, two or all of the wrist monitoring device, the lumbar monitoring device and the eye monitoring device, and may further include monitoring devices of other parts, such as a monitoring device or a neck of the back. The monitoring device and the like can monitor the posture data of the corresponding part.

An embodiment provides a work fatigue reminding device. As shown in FIG. 2a, the device may include: a data acquiring module 201, which may be configured to: acquire fatigue state data of the user in real time; wherein the fatigue state data includes: fatigue of the wrist At least one of status data and fatigue state data of the waist.

The fatigue reminding module 202 may be configured to: when the fatigue state data meets a preset fatigue condition, perform fatigue reminding to the user.

Optionally, the data obtaining module 201 is configured to: acquire fatigue state data of the wrist of the user in real time; wherein the fatigue state data of the wrist includes a distance between the wrist and the mouse, and a rotation angle of the wrist.

The fatigue reminding module 202 may be further configured to: when the duration of the user's wrist is within the set active range reaches a first preset time threshold, the user is fatigued; the set activity range The range includes a distance between the wrist of the user and the mouse and a range of a rotation angle of the wrist of the user when the user uses the mouse.

Optionally, the data obtaining module 201 is configured to: acquire lumbar fatigue state data of the user in real time; wherein the lumbar fatigue state data includes posture data of the waist.

The fatigue reminding module 202 may further be configured to: when the length of the user's waist is maintained in the fixed posture reaches a second preset time threshold, the user is fatigued.

Optionally, the data obtaining module 201 is further configured to: acquire fatigue state data of the eye of the user in real time; wherein the fatigue state data of the eye includes a potential difference between the cornea and the retina.

The fatigue reminding module 202 can also be configured to: when the potential difference between the cornea and the retina of the user falls within a preset potential difference range, the user is fatigued.

The fatigue reminding module 202 may be further configured to: perform fatigue reminding on the user by using at least one of a text reminder, a vibration reminder, and a voice reminder.

An embodiment further provides a work fatigue reminding system, as shown in FIG. 2b, the system may include: a monitoring device 100 and a work fatigue reminding device 200, wherein the monitoring device 100 includes: a wrist monitoring device and a waist monitoring device At least one of them is set to: collect the user's fatigue state data in real time.

The structure of the work fatigue reminding device 200 is as shown in FIG. 2a, and may include a data acquisition module 201 and a fatigue reminding module 202. The data acquisition module 201 is configured to acquire the fatigue state data of the user collected by the monitoring device 100 in real time. The fatigue reminding module 202 is configured to provide a fatigue reminder to the user if the fatigue state data satisfies the preset fatigue condition.

The structure of the monitoring device 100 is as shown in FIG. 2c. The monitoring device 100 may include at least one of a wrist monitoring device 3110 and a waist monitoring device 3120.

The wrist monitoring device 3110 can include a distance sensor 3112 and a gyroscope 3114. The wrist monitoring device 3110 is configured to monitor the posture of the user's wrist to determine whether the user uses the mouse for a long time.

The wrist monitoring device 3110 is configured to collect the distance between the user's wrist and the mouse in real time through the distance sensor 3112 in the wrist monitoring device 3110, and collect the rotation angle of the user's wrist in real time through the gyroscope 3114 in the wrist monitoring device 3110. .

The waist monitoring device 3120 can include a position sensor 3122. The waist monitoring device 3120 is configured to monitor the posture of the user's waist to determine whether the user is working at a desk for a long time.

The waist monitoring device 3120 is configured to collect the posture data of the user's waist in real time through the position sensor 3122 in the waist monitoring device 3120.

For example, the fatigue condition of the wrist monitoring device 3110 may include: the duration of the user's wrist being kept within the set active range reaches a first preset time threshold; the setting the activity range may include: the user is at The range of the distance between the user's wrist and the mouse and the angle of rotation of the user's wrist when using the mouse. The fatigue condition of the preset wrist monitoring device 3110 is used to determine whether the user uses the mouse for a long time.

The fatigue reminding module 202 can also be configured to: when the length of the wrist of the user is kept within the set active range reaches a first preset time threshold, the user is fatigued.

In this embodiment, the user may experience the use of the mouse for a long time under a long working condition. When the user is using the mouse, the distance between the user's wrist and the mouse will remain within a certain distance. If the distance between the two is too large, the user no longer uses the mouse. When the user uses the mouse, the user's wrist will also remain within a certain range of rotation angles. If there is a sharp rotation, the user no longer uses the mouse.

The fatigue condition of the waist monitoring device 3120 may include that the user's waist is maintained in the fixed posture for a second predetermined time threshold. The fatigue condition of the preset lumbar monitoring device 3120 is used to determine whether the user is working at a desk for a long time. In the present embodiment, the user may have a certain posture in the waist while working for a long period of time.

Optionally, the fatigue reminding module 202 is further configured to: alert the user by using at least one of a text reminder, a vibration reminder, and a voice reminder.

For example, the reminder information may be sent to the terminal, and the fatigue reminder may be displayed to the user through the terminal screen, and the monitoring device 100 may be controlled to perform vibration or sound reminding by sending the reminder information to the monitoring device 100, or perform sound reminding while vibrating. Resist the user with fatigue.

When it is determined that the user is in a fatigue state, the user may display a fatigue reminder through the terminal display to suggest that the user take a break, or may send a reminder message to the monitoring device 100, and the monitoring device 100 The fatigue reminder is performed according to the reminder information, for example, the monitoring device 100 performs vibration, or the monitoring device 100 emits an alarm sound.

Optionally, the monitoring device 100 may further include: an eye monitoring device 3130. The eye monitoring device 3130 can include an eye potential sensor 3132.

The eye monitoring device 3130 can also be configured to acquire a potential difference between the cornea and the retina of the user's eye through the eye potential sensor 3132 in the eye monitoring device 3130. The user's eye potential difference is different between waking and fatigue.

The fatigue reminding module 202 can also be configured to: the potential difference between the cornea and the retina of the user falls within a preset potential difference range, and the user is fatigued.

In this embodiment, data transmission can be performed between the terminal and the monitoring device by any of the following methods: Wi-Fi, Bluetooth, and RFID.

An embodiment provides a work fatigue reminder system, as shown in FIG. 2b, the system may include: a monitoring device 100 and a work fatigue reminder device 200. The monitoring device 100 may include at least one of a wrist monitoring device, a waist monitoring device, and an eye monitoring device.

For example, the monitoring device 100 includes a wrist monitoring device, a waist monitoring device, and an eye monitoring device. One embodiment provides a working fatigue reminding method. As shown in FIG. 3, the method may include steps 310-350.

In step 310, the user wears a wrist monitoring device, a lumbar monitoring device, and an eye monitoring device, and activates a work fatigue reminder device on the terminal.

In step 320, the work fatigue reminding device performs initial setting on the wrist monitoring device, the lumbar monitoring device, and the eye monitoring device, and respectively sets the fatigue conditions of each monitoring device.

For example, the fatigue condition of the wrist monitoring device may include: the duration of the user's wrist being kept within the set activity range reaches a first preset time threshold; the setting activity range includes: the user is in normal use The range of the distance between the user's wrist and the mouse and the angle of rotation of the user's wrist when the mouse is over.

The fatigue condition of the lumbar monitoring device may include that the user's waist is maintained in the fixed posture for a second predetermined time threshold.

The fatigue condition of the eye monitoring device may include a potential difference between the cornea of the user's eye and the retina when the user is in a fatigue state.

In step 330, the wrist state data, the waist state data, and the eye state data are monitored in real time by the wrist monitoring device, the lumbar monitoring device, and the eye monitoring device.

The wrist monitoring device, the lumbar monitoring device, and the eye monitoring device transmit the wrist state data, the waist state data, and the eye state data monitored in real time to the work fatigue reminding device.

In step 340, the work fatigue reminding device determines whether the status data obtained by each monitoring device satisfies the fatigue condition of the corresponding monitoring device.

At step 350: when the status data obtained by all the monitoring devices meet the fatigue condition of the corresponding monitoring device, the terminal, the wrist monitoring device, the lumbar monitoring device, and the eye monitoring device provide a fatigue reminder to the user.

Optionally, when the state data obtained by the at least one of the wrist monitoring device, the lumbar monitoring device, and the eye monitoring device meets the fatigue condition of the corresponding monitoring device, the user may also be fatigued, for example, by corresponding monitoring. The device provides a fatigue reminder to the user. When the state data obtained by the wrist monitoring device satisfies the corresponding fatigue condition, the wrist monitoring device vibrates; if the state data obtained by the plurality of monitoring devices meets the corresponding fatigue condition, the corresponding multiple monitoring is performed. The device can vibrate and can also sound a reminder.

Optionally, the performing the fatigue reminding to the user may include: reminding the user by using at least one of a text reminder, a vibration reminder, and a sound reminder.

For example, the reminder information may be sent to the terminal, and the fatigue reminder may be displayed to the user through the terminal screen. By sending a reminder message to the monitoring device, the monitoring device can be controlled to perform vibration, or a sound reminder, or a sound reminder can be performed while vibrating, thereby realizing a fatigue reminder to the user.

When it is determined that the user is in a fatigue state, the user may display a fatigue reminder through the terminal display to suggest that the user take a break, or may send a reminder message to the monitoring device, and the monitoring device performs a fatigue reminder according to the reminder information. For example, the monitoring device vibrates or the monitoring device emits an alarm sound.

In this embodiment, the user can automatically determine whether the user is in a work fatigue state according to the monitoring information acquired in real time, and provide a work fatigue reminder to the user.

The embodiment further provides a computer readable storage medium storing computer executable instructions for performing any of the above methods.

As shown in FIG. 4, it is a hardware structure diagram of a reminder device provided by this embodiment. As shown in FIG. 4, the reminder device includes: a processor 410 and a memory 420; and a communication interface. (Communications Interface) 430 and bus 440.

The processor 410, the memory 420, and the communication interface 430 can complete communication with each other through the bus 440. Communication interface 430 can be used for information transmission. Processor 410 can invoke logic instructions in memory 420 to perform any of the methods of the above-described embodiments.

The memory 420 may include a storage program area and a storage data area, and the storage program area may store an operating system and an application required for at least one function. The storage data area can store data and the like created according to the use of the reminder device. Further, the memory may include, for example, a volatile memory of a random access memory, and may also include a non-volatile memory. For example, at least one disk storage device, flash memory device, or other non-transitory solid state storage device.

In addition, when the logic instructions in the above memory 420 can be implemented in the form of a software functional unit and sold or used as a stand-alone product, the logic instructions can be stored in a computer readable storage. In the storage medium. The solution of the present disclosure may be embodied in the form of a computer software product, which may be stored in a storage medium, including instructions for causing a computer device (which may be a personal computer, server, or network device, etc.) to perform All or part of the steps of the method described in this embodiment.

The storage medium may be a non-transitory storage medium or a transitory storage medium. The non-transitory storage medium may include: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like, which can store program codes. medium.

All or part of the processes provided in the above embodiments may be completed by a computer program indicating related hardware, and the program may be stored in a non-transitory computer readable storage medium, and when the program is executed, may include The flow of an embodiment of the above method.

Industrial applicability

The work fatigue reminding method, device and system provided by the present disclosure can automatically determine whether the user is in a work fatigue state according to the monitoring information acquired in real time, and promptly notify the user of work fatigue to relieve the user's fatigue state.

Claims

A work fatigue reminding method includes:

Acquiring the fatigue state data of the user in real time; the fatigue state data includes at least one of fatigue state data of the wrist and fatigue state data of the waist;

When the fatigue state data satisfies a preset fatigue condition, the user is prompted for fatigue.
The method according to claim 1, wherein the obtaining the fatigue state data of the user in real time comprises: acquiring fatigue state data of the wrist of the user in real time; wherein the fatigue state data of the wrist comprises between the wrist and the mouse Distance, and the angle of rotation of the wrist;

Satisfying the preset fatigue condition includes: the duration of the user's wrist remaining within the set activity range reaches a first preset time threshold; the setting activity range includes: when the user uses the mouse, the user's The range of distance between the wrist and the mouse and the range of angles of rotation of the user's wrist.
The method according to claim 1 or 2, wherein the obtaining the fatigue state data of the user in real time comprises: acquiring the waist fatigue state data of the user in real time; wherein the waist fatigue state data comprises posture data of the waist;

Satisfying the preset fatigue condition includes: the length of the user's waist remaining in the fixed posture reaches the second preset time threshold.
The method according to claim 1, 2 or 3, wherein the performing the fatigue reminding to the user comprises: performing fatigue reminding to the user by at least one of a text reminder, a vibrating reminder, and a sound reminder.
The method according to claim 1, 2 or 3, wherein the obtaining the fatigue state data of the user in real time further comprises: acquiring fatigue state data of the eye of the user in real time; wherein the fatigue state data of the eye Including the potential difference between the cornea and the retina;

Satisfying the preset fatigue condition includes that the potential difference between the cornea and the retina of the user falls within a preset potential difference range.
A work fatigue reminding device includes:

The data acquisition module is configured to: acquire fatigue state data of the user in real time; wherein the fatigue state data includes: at least one of fatigue state data of the wrist and fatigue state data of the waist;

The fatigue reminding module is configured to: when the fatigue state data meets a preset fatigue condition, perform fatigue reminding to the user.
The device according to claim 6, wherein the data acquisition module is configured to: acquire fatigue state data of the wrist of the user in real time; wherein the fatigue state data of the wrist includes a distance between the wrist and the mouse, And the angle of rotation of the wrist;

The fatigue reminding module is configured to: when the duration of the user's wrist is within the set active range reaches a first preset time threshold, the user is fatigued; the set activity range includes: The range of the distance between the wrist of the user and the mouse and the range of angles of rotation of the wrist of the user when the user uses the mouse.
The apparatus according to claim 6 or 7, wherein the data acquisition module is configured to: acquire lumbar fatigue state data of the user in real time; wherein the lumbar fatigue state data includes posture data of a waist;

The fatigue reminding module is configured to: when the length of the user's waist is maintained in the fixed posture reaches a second preset time threshold, the user is fatigued.
The device according to claim 6, 7 or 8, wherein the fatigue reminding module is further configured to: perform fatigue reminding on the user by at least one of a text reminder, a vibration reminder, and a voice reminder.
The apparatus according to claim 7, 8 or 9, wherein the data acquisition module is further configured to: acquire fatigue state data of the eye of the user in real time; wherein the fatigue state data of the eye includes a cornea of the eye Potential difference between the retina and the retina;

The fatigue reminding module is further configured to: when the potential difference between the cornea and the retina of the user falls within a preset potential difference range, the user is fatigued.
A work fatigue reminding system, comprising: a monitoring device and a fatigue reminding device; wherein

The monitoring device includes at least one of a wrist monitoring device and a waist monitoring device, and is configured to: collect fatigue state data of the user in real time, wherein the fatigue state data includes: fatigue state data of the wrist and fatigue state data of the waist At least one;

The work fatigue reminding device includes a data acquisition module and a fatigue reminding module;

The data acquisition module is configured to acquire the fatigue state data of the user collected by the monitoring device in real time;

The fatigue reminding module is configured to perform fatigue reminding to the user when the fatigue state data satisfies a preset fatigue condition.
The system of claim 11 wherein

The wrist monitoring device includes: a distance sensor and a gyroscope;

The wrist monitoring device is configured to: collect, by the distance sensor, a distance between the wrist of the user and the mouse in real time, and collect, in real time, a rotation angle of the wrist of the user by the gyroscope;

The data acquisition module is configured to: acquire the fatigue state data of the wrist of the user collected by the wrist monitoring device in real time; wherein the fatigue state data of the wrist includes a distance between the wrist and the mouse, and a rotation of the wrist angle;

The fatigue reminding module is configured to: when the length of the wrist of the user is kept within the set active range reaches a first preset time threshold, the user is fatigued; wherein the set activity range includes: The range of the distance between the user's wrist and the mouse when the user uses the mouse and the range of the angle of rotation of the user's wrist.
The system of claim 11 or 12, wherein the waist monitoring device comprises: a position sensor;

The waist monitoring device is configured to: acquire, by the position sensor, posture data of the waist of the user in real time;

The data acquisition module is configured to: acquire the waist fatigue state data of the user collected by the waist monitoring device in real time; wherein the waist fatigue state data includes posture data of the waist;

The fatigue reminding module is configured to: when the length of the user's waist is maintained in the fixed posture reaches a second preset time threshold, the user is fatigued.
The system according to claim 11, 12 or 13, wherein the fatigue reminding module is further configured to: perform fatigue reminding to the user by at least one of a text reminder, a vibration reminder, and a voice reminder.
The system of claim 11, 12 or 13, wherein said monitoring device further comprises: an eye monitoring device;

The eye monitoring device includes: an eye potential sensor;

The eye monitoring device is configured to: acquire, by the eye potential sensor, a potential difference between the cornea and the retina of the user in real time;

The data acquisition module is further configured to: acquire real-time fatigue state data of the eye of the user collected by the eye monitoring device; wherein the fatigue state data of the eye includes a potential difference between the cornea and the retina ;

The fatigue reminding module is further configured to: when the potential difference between the cornea and the retina of the user falls within a preset potential difference range, the user is fatigued.
A computer readable storage medium storing computer executable instructions for performing the method of any of claims 1-5.