CN110099371B - Eye use data monitoring method and eye nursing system - Google Patents

Abstract

The invention discloses an eye use data monitoring method, which comprises the following steps: monitoring eye use condition information of a user by a first mobile terminal; calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal; judging whether the first mobile terminal is required to send the link quality of the communication connection with the second mobile terminal or not by the eye use condition information receiving terminal based on the number of data packets which are being received by the current eye use condition information receiving terminal; if the eye use condition information needs to be sent, the eye use condition information receiving terminal sends a first notice to the first mobile terminal; transmitting, by the first mobile terminal, a link quality of a communication connection with the second mobile terminal to the eye use condition information receiving terminal; transmitting, by a first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal; transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal.

Description

Eye use data monitoring method and eye nursing system

Technical Field

The invention relates to the technical field of intelligent eye care, in particular to an eye data monitoring method and an eye care system.

Background

Office workers often experience dry, uncomfortable, and even photophobic eyes. The harm to eyes caused by gathering spirit and looking for a long time is great. Eye protection is to prevent or eliminate the situation, attention should be paid to eye care in daily life, and the key point of eye protection is to keep constant.

The prior art CN106200925B discloses a method and a device for controlling a mobile terminal, and the mobile terminal, wherein the method for controlling the mobile terminal includes the following steps: acquiring a face image; judging whether a user corresponding to the face image wears glasses or not according to the face image; and if the user wears the glasses, controlling the mobile terminal to enter a first eye protection mode. According to the control method and device of the mobile terminal and the mobile terminal, whether the user wears glasses is determined according to the face image, and the corresponding eye protection mode is set according to the condition that the user wears the glasses to remind the user, so that the user is reminded to protect eyesight, and the condition that the eyes are damaged due to overuse of the eyes is avoided or reduced.

In the prior art, CN106020481B is an implementation method of a handheld device with eye protection and blue light resistance, which includes the following steps: step S1: providing a handheld device, wherein the handheld device is provided with a blue light resistant APP for carrying out blue light parameter setting on a display screen according to different types of APPs; step S2: the blue light resisting APP sets blue light resisting indexes and blue light resisting execution distances of different types of APPs; step S3: the handheld device comprises a front-facing camera used for detecting the distance from a human face to a display screen, and when the front-facing camera detects the human face, the anti-blue-light APP enables an anti-blue-light protection mechanism. The handheld device is provided with the front camera capable of detecting the face distance, the blue light resisting index and the blue light resisting execution distance can be set through the blue light resisting APP, when the face distance is detected to be smaller than the set distance, the currently used APP and the blue light quantity generated by using the currently used APP are detected, and different blue light resisting eye protection mechanisms are started according to the use requirements of different APPs.

The prior art CN106681609B relates to the technical field of terminals, and in particular relates to a method and a device for adjusting screen brightness of a terminal device, and a terminal device. Wherein, the method comprises the following steps: the method comprises the steps of obtaining the distance between a screen of the terminal device and a user and the light intensity of the surrounding environment of the terminal device, and adjusting the screen brightness of the terminal according to the distance and the light intensity. Therefore, the screen brightness can be adjusted according to the current surrounding environment, and meanwhile, the screen brightness can be adjusted more accurately according to different distances between the user and the terminal equipment, so that eyes are effectively protected.

The above prior art, although all claim to be able to "protect" the eye, the essence of the above solution is to reduce the damage to the eye, as far as the so-called "protection" is only proposed in the sense of slowing down the eye damage. Since the above prior art cannot really realize no damage to eyes, the recording device is crucial to the radiation of eyes and the eye use history data of users (for example, when seeing ophthalmologists, doctors often ask our eye use habits, but we generally say that we don't know the specific eye use time, eye use mode and so on, which may cause difficulties for doctors to judge), and the prior art has not proposed how to transmit the eye use data.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

It is an object of the present invention to provide a method of eye data monitoring and an eye care system which overcome the disadvantages of the prior art.

In order to achieve the above object, the present invention provides an eye use data monitoring method, comprising the steps of:

monitoring eye use condition information of a user by a first mobile terminal;

establishing, by a first mobile terminal, a communication connection with a second mobile terminal, wherein the second mobile terminal is capable of transmitting a reference signal to the first mobile terminal after establishing the communication connection with the second mobile terminal;

calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal;

judging whether the first mobile terminal is required to send the link quality of the communication connection with the second mobile terminal or not by the eye use condition information receiving terminal based on the number of data packets which are being received by the current eye use condition information receiving terminal;

if the first mobile terminal is required to send the link quality of the communication connection with the second mobile terminal, sending a first notice to the first mobile terminal by the eye use condition information receiving terminal;

transmitting, by the first mobile terminal to the eye use condition information receiving terminal, a link quality of the communication connection with the second mobile terminal in response to receiving the first notification;

dividing, by the first mobile terminal, the monitored eye usage information of the user into a plurality of data packets;

transmitting, by the first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal;

transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal;

transmitting, by the second mobile terminal, the received remaining subset of data packets to the eye use condition information receiving terminal; and

and transmitting all the received data packet subsets to the eye use data monitoring platform by the eye use condition information receiving terminal.

In a preferred embodiment, calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal comprises the steps of:

receiving, by the first mobile terminal, a maximum allowed transmission power indicator from the eye use condition information receiving terminal, wherein the maximum allowed transmission power indicator is used to indicate a maximum transmission power at which the first mobile terminal transmits a signal to the other mobile terminal and a maximum transmission power at which the second mobile terminal transmits a signal to the other mobile terminal;

calculating, by the first mobile terminal, a maximum energy value of a signal received from the second mobile terminal based on the maximum allowed transmit power indicator;

calculating, by the first mobile terminal, a current energy value of a signal received from the second mobile terminal based on the reference signal;

and calculating the ratio of the current energy value to the maximum energy value by the first mobile terminal, and taking the ratio as the link quality.

In a preferred embodiment, the method for monitoring eye data comprises the following steps:

indicating a first threshold and a second threshold to a first mobile terminal by an eye use condition information receiving terminal;

in response to receiving the first threshold and the second threshold, the first mobile terminal judges whether the current ratio is greater than the first threshold or whether the ratio is lower than the second threshold;

and if the ratio is judged to be smaller than the first threshold and larger than the second threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal only when receiving the first notice.

In a preferred embodiment, the method for monitoring eye data comprises the following steps:

if the ratio is larger than the first threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal no matter whether the first notice is received or not;

transmitting, by the eye use condition information receiving terminal, a first maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality greater than a first threshold;

in response to receiving the first maximum transmit power adjustment indicator, increasing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to the other mobile terminals, and increasing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to the other mobile terminals.

In a preferred embodiment, the method for monitoring eye data comprises the following steps:

if the ratio is smaller than the second threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal no matter whether the first notice is received or not;

transmitting, by the eye use condition information receiving terminal, a second maximum transmission power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality less than a second threshold;

in response to receiving the second maximum transmit power adjustment indicator, the maximum transmit power for signals transmitted to other mobile terminals is reduced by the first mobile terminal, and the maximum transmit power for signals transmitted to other mobile terminals is reduced by the second mobile terminal.

The present invention also provides an eye care system comprising:

means for monitoring, by a first mobile terminal, eye usage information of a user;

means for establishing, by a first mobile terminal, a communication connection with a second mobile terminal, wherein the second mobile terminal is capable of transmitting a reference signal to the first mobile terminal after establishing the communication connection with the second mobile terminal;

means for calculating, by the first mobile terminal, a link quality of a communication connection with the second mobile terminal based on the reference signal;

means for determining, by the eye use condition information receiving terminal, whether the first mobile terminal is required to transmit a link quality of a communication connection with the second mobile terminal based on the number of packets being received by the current eye use condition information receiving terminal;

means for transmitting, by the eye use condition information receiving terminal, a first notification to the first mobile terminal if it is determined that the first mobile terminal is required to transmit the link quality of the communication connection with the second mobile terminal;

means for transmitting, by the first mobile terminal to the eye use condition information receiving terminal, a link quality of a communication connection with the second mobile terminal in response to receiving the first notification;

means for dividing, by the first mobile terminal, the monitored eye usage information of the user into a plurality of data packets;

means for transmitting, by the first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal;

for transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal;

means for transmitting, by the second mobile terminal, the received remaining subset of data packets to the eye usage information receiving terminal; and

means for transmitting, by the eye use condition information receiving terminal, all of the received data packet subsets to the eye use data monitoring platform.

In a preferred embodiment, calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal comprises the steps of:

receiving a maximum allowed transmission power indicator from the eye use condition information receiving terminal by the first mobile terminal, wherein the maximum allowed transmission power indicator is used for indicating the maximum transmission power of signals transmitted to other mobile terminals by the first mobile terminal and the maximum transmission power of signals transmitted to other mobile terminals by the second mobile terminal;

for calculating, by the first mobile terminal, a maximum energy value of a signal received from the second mobile terminal based on the maximum allowed transmit power indicator;

for calculating, by the first mobile terminal, a current energy value of a signal received from the second mobile terminal based on the reference signal;

for calculating the ratio of the current energy value to the maximum energy value by the first mobile terminal and taking the ratio as the link quality.

In a preferred embodiment, an eye care system comprises:

means for indicating, by the eye use condition information receiving terminal, a first threshold and a second threshold to the first mobile terminal;

a unit for judging whether the current ratio is larger than the first threshold or lower than the second threshold by the first mobile terminal in response to receiving the first threshold and the second threshold;

means for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal only upon receiving the first notification if the ratio is determined to be less than the first threshold and the ratio is greater than the second threshold.

In a preferred embodiment, an eye care system comprises:

a unit for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal, regardless of whether the first notification is received, if it is determined that the ratio is greater than the first threshold;

means for transmitting, by the eye use condition information receiving terminal, a first maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality greater than a first threshold;

means for increasing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and increasing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the first maximum transmit power adjustment indicator.

In a preferred embodiment, an eye care system comprises:

a unit for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal, regardless of whether the first notification is received, if it is determined that the ratio is smaller than the second threshold;

means for transmitting, by the eye use condition information receiving terminal, a second maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality less than a second threshold;

means for reducing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and reducing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the second maximum transmit power adjustment indicator.

Compared with the prior art, the eye data monitoring method and the eye care system have the following advantages: as mentioned above, the eye protection devices in the prior art mainly emphasize brightness adjustment of the devices such as mobile terminals or electric lamps, but neglect the collection of the time spent by eyes of users and the collection of the habits spent by eyes of users, and lack of such information can not achieve the purposes of intelligent medical treatment and remote medical treatment. In order to solve the problems in the prior art, the application provides an eye data monitoring method and an eye care system. The invention sends a first data packet subset of the plurality of data packets to the eye use condition information receiving terminal by a first mobile terminal; the step of transmitting by the first mobile terminal to said second mobile terminal a remaining subset of data packets of said plurality of data packets and associated therewith ensures a speed of information transfer and a full utilization of communication resources. The invention ensures that the mobile terminal can actively report the condition of the link quality being too poor or too good to the collecting terminal by designing the 'first threshold and the second threshold' and the design of the relevant steps, and the collecting terminal responds according to the reporting result in time, thereby improving the transmission stability, avoiding the waste of resources and simultaneously improving the flexibility of the system (compared with the mode that the mobile terminal can only passively respond to the notification and report).

Drawings

Fig. 1 is a flow chart of a method of eye data monitoring according to an embodiment of the present invention.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

Fig. 1 is a flow chart of a method of eye data monitoring according to an embodiment of the present invention. As shown in the figure, the eye data monitoring method of the present invention includes the steps of:

step 101: monitoring eye use condition information of a user by a first mobile terminal (such as a mobile phone, a tablet computer and a notebook computer);

step 102: establishing, by a first mobile terminal, a communication connection with a second mobile terminal (e.g., another mobile phone, a tablet computer, a laptop computer), wherein the second mobile terminal is capable of sending a reference signal to the first mobile terminal after the communication connection with the second mobile terminal is established;

step 103: calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal;

step 104: determining, by the eye use situation information receiving terminal (various devices similar to a base station function or devices similar to a home node B, home eNB) whether the first mobile terminal is required to transmit the link quality of the communication connection with the second mobile terminal based on the number of packets being received by the current eye use situation information receiving terminal;

step 105: if the first mobile terminal is required to send the link quality of the communication connection with the second mobile terminal, sending a first notice to the first mobile terminal by the eye use condition information receiving terminal;

step 106: transmitting, by the first mobile terminal to the eye use condition information receiving terminal, a link quality of the communication connection with the second mobile terminal in response to receiving the first notification;

step 107: dividing, by the first mobile terminal, the monitored eye usage information of the user into a plurality of data packets;

step 108: transmitting, by the first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal;

step 109: transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal;

step 110: transmitting, by the second mobile terminal, the received remaining subset of data packets to the eye use condition information receiving terminal; and

step 111: all the received data packet subsets are transmitted by the eye use situation information receiving terminal to an eye use data monitoring platform (e.g., a central server, a high computation speed computer, etc.). The eye data monitoring platform can store massive user eye information, and then whether the user eyes are safe or not, the probability of eye diseases of the user and the like can be obtained through big data analysis based on an artificial intelligence algorithm.

In a preferred embodiment, calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal comprises the steps of: receiving, by the first mobile terminal, a maximum allowed transmission power indicator from the eye use condition information receiving terminal, wherein the maximum allowed transmission power indicator is used to indicate a maximum transmission power at which the first mobile terminal transmits a signal to the other mobile terminal and a maximum transmission power at which the second mobile terminal transmits a signal to the other mobile terminal; calculating, by the first mobile terminal, a maximum energy value of a signal received from the second mobile terminal based on the maximum allowed transmit power indicator; calculating, by the first mobile terminal, a current energy value of a signal received from the second mobile terminal based on the reference signal; the ratio of the current energy value to the maximum energy value is calculated by the first mobile terminal (the lower the ratio is, the more terminals the second mobile terminal is communicating with), and the ratio is taken as the link quality.

In a preferred embodiment, the method for monitoring eye data comprises the following steps: indicating a first threshold and a second threshold to a first mobile terminal by an eye use condition information receiving terminal; in response to receiving the first threshold and the second threshold, the first mobile terminal judges whether the current ratio is greater than the first threshold or whether the ratio is lower than the second threshold; and if the ratio is judged to be smaller than the first threshold and larger than the second threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal only when receiving the first notice.

In a preferred embodiment, the method for monitoring eye data comprises the following steps: if the ratio is larger than the first threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal no matter whether the first notice is received or not; transmitting, by the eye use condition information receiving terminal, a first maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality greater than a first threshold; in response to receiving the first maximum transmit power adjustment indicator, increasing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to the other mobile terminals, and increasing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to the other mobile terminals.

In a preferred embodiment, the method for monitoring eye data comprises the following steps: if the ratio is smaller than the second threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal no matter whether the first notice is received or not; transmitting, by the eye use condition information receiving terminal, a second maximum transmission power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality less than a second threshold; in response to receiving the second maximum transmit power adjustment indicator, the maximum transmit power for signals transmitted to other mobile terminals is reduced by the first mobile terminal, and the maximum transmit power for signals transmitted to other mobile terminals is reduced by the second mobile terminal.

The present invention also provides an eye care system comprising: means for monitoring, by a first mobile terminal, eye usage information of a user; means for establishing, by a first mobile terminal, a communication connection with a second mobile terminal, wherein the second mobile terminal is capable of transmitting a reference signal to the first mobile terminal after establishing the communication connection with the second mobile terminal; means for calculating, by the first mobile terminal, a link quality of a communication connection with the second mobile terminal based on the reference signal; means for determining, by the eye use condition information receiving terminal, whether the first mobile terminal is required to transmit a link quality of a communication connection with the second mobile terminal based on the number of packets being received by the current eye use condition information receiving terminal; means for transmitting, by the eye use condition information receiving terminal, a first notification to the first mobile terminal if it is determined that the first mobile terminal is required to transmit the link quality of the communication connection with the second mobile terminal; means for transmitting, by the first mobile terminal to the eye use condition information receiving terminal, a link quality of a communication connection with the second mobile terminal in response to receiving the first notification; means for dividing, by the first mobile terminal, the monitored eye usage information of the user into a plurality of data packets; means for transmitting, by the first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal; for transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal; means for transmitting, by the second mobile terminal, the received remaining subset of data packets to the eye usage information receiving terminal; and means for transmitting, by the eye use condition information receiving terminal, the received subset of all data packets to the eye use data monitoring platform.

In a preferred embodiment, calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal comprises the steps of: receiving a maximum allowed transmission power indicator from the eye use condition information receiving terminal by the first mobile terminal, wherein the maximum allowed transmission power indicator is used for indicating the maximum transmission power of signals transmitted to other mobile terminals by the first mobile terminal and the maximum transmission power of signals transmitted to other mobile terminals by the second mobile terminal; for calculating, by the first mobile terminal, a maximum energy value of a signal received from the second mobile terminal based on the maximum allowed transmit power indicator; for calculating, by the first mobile terminal, a current energy value of a signal received from the second mobile terminal based on the reference signal; for calculating the ratio of the current energy value to the maximum energy value by the first mobile terminal and taking the ratio as the link quality.

In a preferred embodiment, an eye care system comprises: means for indicating, by the eye use condition information receiving terminal, a first threshold and a second threshold to the first mobile terminal; a unit for judging whether the current ratio is larger than the first threshold or lower than the second threshold by the first mobile terminal in response to receiving the first threshold and the second threshold; means for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal only upon receiving the first notification if the ratio is determined to be less than the first threshold and the ratio is greater than the second threshold.

In a preferred embodiment, an eye care system comprises: a unit for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal, regardless of whether the first notification is received, if it is determined that the ratio is greater than the first threshold; means for transmitting, by the eye use condition information receiving terminal, a first maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality greater than a first threshold; means for increasing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and increasing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the first maximum transmit power adjustment indicator.

In a preferred embodiment, an eye care system comprises: a unit for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal, regardless of whether the first notification is received, if it is determined that the ratio is smaller than the second threshold; means for transmitting, by the eye use condition information receiving terminal, a second maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving a link quality less than a second threshold; means for reducing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and reducing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the second maximum transmit power adjustment indicator.

The eye use condition information of the invention contains rich information, for example, when the mobile terminal is a mobile phone, a control program can be pre-installed in the mobile phone, once a client opens video APP, WeChat, QQ and other APPs (for example, music playing, motion monitoring APPs belong to APPs which do not need to use eyes), the mobile phone starts to monitor the ambient light intensity (which can be realized by using a front-mounted photoreceptor of the mobile phone), the screen brightness, the time length of using the APPs, and meanwhile, the mobile phone can report the information of the age, the gender, the eye disease history and the like of a user.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (2)

1. A method of monitoring eye data, comprising:

the eye data monitoring method comprises the following steps:

monitoring eye use condition information of a user by a first mobile terminal;

establishing, by a first mobile terminal, a communication connection with a second mobile terminal, wherein the second mobile terminal is capable of transmitting a reference signal to the first mobile terminal after establishing the communication connection with the second mobile terminal;

calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal;

judging whether the first mobile terminal is required to send the link quality of the communication connection with the second mobile terminal or not by the eye use condition information receiving terminal based on the number of data packets which are currently received by the eye use condition information receiving terminal;

if the first mobile terminal is judged to be required to send the link quality of the communication connection with the second mobile terminal, sending a first notice to the first mobile terminal by an eye use condition information receiving terminal;

transmitting, by the first mobile terminal to the eye use condition information receiving terminal, a link quality of the communication connection with the second mobile terminal in response to receiving the first notification;

dividing, by the first mobile terminal, the monitored eye usage information of the user into a plurality of data packets;

transmitting, by a first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal;

transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal;

transmitting, by the second mobile terminal, the received remaining subset of data packets to the eye use condition information receiving terminal; and

all the received data packet subsets are transmitted to the eye use data monitoring platform by the eye use situation information receiving terminal,

calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal comprises the steps of:

receiving, by a first mobile terminal, a maximum allowed transmission power indicator from the eye use condition information receiving terminal, wherein the maximum allowed transmission power indicator is used for indicating a maximum transmission power of a signal transmitted by the first mobile terminal to other mobile terminals and a maximum transmission power of a signal transmitted by a second mobile terminal to other mobile terminals;

calculating, by the first mobile terminal, a maximum energy value of a signal received from the second mobile terminal based on the maximum allowed transmit power indicator;

calculating, by the first mobile terminal, a current energy value of a signal received from the second mobile terminal based on the reference signal;

calculating, by the first mobile terminal, a ratio of the current energy value to the maximum energy value and taking the ratio as the link quality,

the eye data monitoring method comprises the following steps:

indicating a first threshold and a second threshold to the first mobile terminal by an eye use condition information receiving terminal; wherein the first threshold is greater than the second threshold;

in response to receiving the first threshold and the second threshold, the first mobile terminal determines whether the current ratio is greater than the first threshold or whether the ratio is lower than the second threshold;

if the ratio is smaller than the first threshold and the ratio is larger than the second threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal only when receiving the first notice,

the eye data monitoring method comprises the following steps:

if the ratio is judged to be larger than the first threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal no matter whether the first notice is received or not;

transmitting, by an eye use condition information receiving terminal, a first maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving the link quality greater than the first threshold;

increasing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and increasing, by the second mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the first maximum transmit power adjustment indicator,

the eye data monitoring method comprises the following steps:

if the ratio is judged to be smaller than the second threshold, the first mobile terminal sends the link quality to the eye use condition information receiving terminal no matter whether the first notice is received or not;

transmitting, by an eye use condition information receiving terminal, a second maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving the link quality less than the second threshold;

in response to receiving the second maximum transmit power adjustment indicator, reducing, by the first mobile terminal, a maximum transmit power for transmitting signals to the other mobile terminals, and reducing, by the second mobile terminal, the maximum transmit power for transmitting signals to the other mobile terminals.

2. An eye care system, characterized by:

the eye care system comprises:

means for monitoring, by a first mobile terminal, eye usage information of a user;

means for establishing, by a first mobile terminal, a communication connection with a second mobile terminal, wherein the second mobile terminal is capable of transmitting a reference signal to the first mobile terminal after establishing the communication connection with the second mobile terminal;

means for calculating, by the first mobile terminal, a link quality of a communication connection with the second mobile terminal based on the reference signal;

means for determining, by the eye use condition information receiving terminal, whether the first mobile terminal is required to transmit the link quality of the communication connection with the second mobile terminal based on the number of packets being received by the current eye use condition information receiving terminal;

means for sending, by an eye use condition information receiving terminal, a first notification to the first mobile terminal if it is determined that the first mobile terminal is required to send the link quality of the communication connection with the second mobile terminal;

means for transmitting, by the first mobile terminal to the eye use condition information receiving terminal, a link quality of the communication connection with the second mobile terminal in response to receiving the first notification;

means for dividing, by the first mobile terminal, the monitored eye usage information of the user into a plurality of data packets;

means for transmitting, by a first mobile terminal, a first subset of data packets of the plurality of data packets to the eye usage information receiving terminal;

for transmitting, by the first mobile terminal, a remaining subset of the plurality of data packets to the second mobile terminal;

means for transmitting, by the second mobile terminal, the received remaining subset of data packets to the eye usage information receiving terminal; and

means for transmitting, by the eye use condition information receiving terminal, all of the received subsets of data packets to the eye use data monitoring platform,

calculating, by the first mobile terminal, a link quality of the communication connection with the second mobile terminal based on the reference signal comprises the steps of:

the mobile terminal is used for receiving a maximum allowed transmission power indicator from the eye use condition information receiving terminal by the first mobile terminal, wherein the maximum allowed transmission power indicator is used for indicating the maximum transmission power of signals transmitted to other mobile terminals by the first mobile terminal and the maximum transmission power of signals transmitted to other mobile terminals by the second mobile terminal;

means for calculating, by the first mobile terminal, a maximum energy value of a signal received from the second mobile terminal based on the maximum allowed transmit power indicator;

for calculating, by the first mobile terminal, a current energy value of a signal received from the second mobile terminal based on the reference signal;

for calculating, by the first mobile terminal, a ratio of the current energy value to the maximum energy value and taking the ratio as the link quality,

the eye care system comprises:

means for indicating, by an eye use condition information receiving terminal, a first threshold and a second threshold to the first mobile terminal; wherein the first threshold is greater than the second threshold;

a unit, responsive to receiving the first threshold and the second threshold, for the first mobile terminal to determine whether the current ratio is greater than the first threshold or whether the ratio is lower than the second threshold;

means for transmitting, by the first mobile terminal, the link quality to the eye use condition information receiving terminal only upon receiving the first notification if it is determined that the ratio is less than the first threshold and the ratio is greater than the second threshold,

the eye care system comprises:

a unit configured to send, by the first mobile terminal, the link quality to the eye use condition information receiving terminal regardless of whether the first notification is received if it is determined that the ratio is greater than the first threshold;

means for transmitting, by an eye use condition information receiving terminal, a first maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving the link quality greater than the first threshold;

means for increasing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and increasing, by the second mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the first maximum transmit power adjustment indicator,

the eye care system comprises:

a unit configured to send, by the first mobile terminal, the link quality to the eye use condition information receiving terminal regardless of whether the first notification is received, if it is determined that the ratio is smaller than the second threshold;

means for transmitting, by an eye use condition information receiving terminal, a second maximum transmit power adjustment indicator to the first mobile terminal and the second mobile terminal in response to receiving the link quality less than the second threshold;

means for reducing, by the first mobile terminal, a maximum transmit power at which signals are transmitted to other mobile terminals, and reducing, by the second mobile terminal, the maximum transmit power at which signals are transmitted to other mobile terminals, in response to receiving the second maximum transmit power adjustment indicator.

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