CN104375623A - Wearable intelligent device and electricity-saving control method thereof - Google Patents

Abstract

The invention provides an electricity-saving control method of a wearable intelligent device. The method includes the following steps that the wearable intelligent device is set to be in a real-time mode when a service App is started and a foreground works; the wearable intelligent device is set to be in a normal mode when the service App is stopped and a background works; in the real-time mode or the normal mode, the wearable intelligent device acquires current time and position information, and whether heart rate data are found or not is detected; when it is judged that the current time is in the preset sleeping time segment, the position information does not change and the received heart rate data are normal, the wearable intelligent device is automatically switched into a sleep electricity-saving mode; when it is judged that the current time is not in the preset sleeping time segment or the position information changes, the wearable intelligent device is automatically switched into the normal mode from the sleep electricity-saving mode. The invention further provides the wearable intelligent device. Through the method, the power consumption of the wearable intelligent device can be reduced, and the stand-by time can be effectively prolonged.

Description

A kind of wearable intelligent equipment and power-saving control method thereof

Technical field

The present invention relates to wearable intelligent equipment technical field, particularly a kind of wearable intelligent equipment and power-saving control method thereof.

Background technology

Wearable intelligent equipment is the main R&D direction of current smart machine.As the one of wearable intelligent equipment, wearable intelligent equipment, also referred to as wrist passometer, has the function of the basic passometers such as meter step.

Current existing wearable intelligent equipment, the information transmission collected by wearable intelligent equipment by GPRS timing is to server.Timed interval is shorter, then the App of mobile terminal holds the real-time property seen, but battery standby time can be shorter.Otherwise enough long in order to ensure battery standby time, fixed time interval is elongated, then App end data real-time can be caused to be deteriorated.

Summary of the invention

Object of the present invention is intended at least solve one of described technological deficiency.

For this reason, one object of the present invention is the power-saving control method proposing a kind of wearable intelligent equipment, and the method can reduce the power consumption of wearable intelligent equipment, effective prolongs standby time.

To achieve these goals, the embodiment of one aspect of the present invention provides a kind of power-saving control method of wearable intelligent equipment, comprises the steps:

Arrange the service App of described wearable intelligent equipment in mobile terminal start and foreground time, be in real-time mode, under described real-time mode, described wearable intelligent equipment sends data every the first Preset Time to server, wherein, described service App is installed in described mobile terminal, start for the instruction according to user, close or background work, communicate with described server, with by the mode of operation of wearable intelligent equipment described in described server controls and obtain the data that described wearable intelligent equipment collects;

Described wearable intelligent equipment is set when described service App closedown or background work, be in normal mode, under described normal mode, described wearable intelligent equipment sends data every the second Preset Time to described server, wherein, the duration of described first Preset Time is less than the duration of described second Preset Time;

Under described real-time mode or normal mode, described wearable intelligent equipment obtains current time and positional information, detects whether find heart rate data;

When judging that described current time is in section default length of one's sleep, positional information is unchanged and the heart rate data received is normal, described wearable intelligent equipment automatically switches to sleep energy-saving mode;

When judge described current time be not in default length of one's sleep section or positional information change time, described wearable intelligent equipment switches to described normal mode by sleep energy-saving mode automatically.

In one embodiment of the invention, described service App is when starting, and at described server registration request real-time mode, described wearable intelligent equipment, after the real-time mode request receiving the transmission of described server, switches to real-time mode;

Described service App, when closedown or background work, sends normal mode handoff request to described server, and described wearable intelligent equipment, after the real-time mode receiving the transmission of described server cancels request, switches to normal mode.

In yet another embodiment of the present invention, described first Preset Time is 10 seconds ~ 30 seconds, and described second Preset Time is 1 minute ~ 2 minutes.

In yet another embodiment of the present invention, the data that described wearable intelligent equipment sends to described server, comprising: temporal information, heart rate data and positional information that described wearable intelligent equipment Inspection is arrived.

In yet another embodiment of the present invention, under described sleep energy-saving mode, described wearable intelligent equipment sends data every the 3rd Preset Time to described server, and close the positioning equipment of described wearable intelligent equipment, wherein, the duration of described 3rd Preset Time is greater than the duration of described second Preset Time.

In another embodiment of the present invention, also comprise the steps:

Under described real-time mode or normal mode, described wearable intelligent equipment detect do not find heart rate data time, automatically switch to and non-ly wear energy-saving mode, described non-wear energy-saving mode under, described wearable intelligent equipment notifies that described server bracelet takes information, and after transmission temporal information and positional information, close positioning equipment and the communication facilities of described wearable intelligent equipment;

Described wearable intelligent equipment by detect do not find heart rate data to detection find heart rate data time, automatically switch to normal mode by non-energy-saving mode of wearing.

In one embodiment of the invention, also comprise the steps:

Under described real-time mode or normal mode, described wearable intelligent equipment is when detecting that heart rate data exceedes heart rate threshold, automatically switch to alarm mode, under described alarm mode, described wearable intelligent equipment sends data every described first Preset Time to described server, and notifies that described server sends pushed information and note to mobile terminal;

Described wearable intelligent equipment, after detecting that warning is processed, switches to described normal mode by described alarm mode automatically.

According to the power-saving control method of the wearable intelligent equipment of the embodiment of the present invention, according to the duty of the service App of mobile terminal, real-time mode and normal mode these two kinds to send pattern from information to server is set, thus can when serving App and being in backstage or closed condition, data are sent to server with lower frequency, reduce power consumption, reach the object of economize on electricity.In addition, the present invention follows up the data such as the time that detects, position and heart rate further, judge whether user is in sleep, the non-state such as to wear, namely wearable intelligent equipment is in the not busy state of work, now close the partial function of wearable intelligent equipment, thus power consumption can be reduced further, save electricity consumption, effective prolongation bracelet stand-by time, can ensure that the App user of mobile terminal can view the information of wearable intelligent equipment wearer in real time further.

For this reason, another object of the present invention is to propose a kind of wearable intelligent equipment applying above-mentioned power-saving control method, and this wearable intelligent equipment power dissipation is low, can effective prolongs standby time.

To achieve these goals, the present invention's embodiment on the other hand provides a kind of wearable intelligent equipment applying the power-saving control method of above-described embodiment, comprising: timer, for acquisition time information; Heart rate detector, for obtaining the heart rate data of wearer; Body posture sensor, for obtaining the body posture data of described wearer; Positioning equipment, for obtaining current geographic position information; Communication facilities, for being communicated with mobile terminal by GPRS communication pattern, service App is installed in described mobile terminal, start for the instruction according to user, close or background work, communicate with described server, with by the mode of operation of wearable intelligent equipment described in described server controls and obtain the data that described wearable intelligent equipment collects; Controller, described controller is connected to described timer, heart rate detector, body posture sensor, positioning equipment and communication facilities, for start at described service App and foreground time, described wearable intelligent equipment is set and is in real-time mode, when described service App closedown or background work, arrange described wearable intelligent equipment and be in normal mode, under described real-time mode, described wearable intelligent equipment sends data every the first Preset Time to server; Under described normal mode, described wearable intelligent equipment sends data every the second Preset Time to described server, wherein, the duration of described first Preset Time is less than the duration of described second Preset Time, and described controller is also for receiving described temporal information, heart rate data, body posture data and geographical location information, and when judging according to described temporal information that current time is in section default length of one's sleep, positional information is unchanged and the heart rate data received is normal, controlling described wearable intelligent equipment and automatically switching to sleep energy-saving mode; When judge current time be not in default length of one's sleep section or positional information change time, control described wearable intelligent equipment and automatically switch to described normal mode by sleep energy-saving mode.

In one embodiment of the invention, under described real-time mode or normal mode, described controller is when the heart rate data do not received from described heart rate detector being detected, automatically switch to and non-ly wear energy-saving mode, under described non-wearing regime, described controller notifies that described server bracelet takes information, and after transmission temporal information and positional information, closes described positioning equipment and communication facilities; Described controller by detect do not find heart rate data to detection find heart rate data time, automatically switch to normal mode by non-energy-saving mode of wearing.

In another embodiment of the present invention, under described real-time mode or normal mode, described controller is when detecting that heart rate data exceedes heart rate threshold, automatically switch to alarm mode, under described alarm mode, described controller sends data every described first Preset Time to described server, and notifies that described server sends pushed information and note to mobile terminal; Described controller, after detecting that warning is processed, switches to described normal mode by described alarm mode automatically.

According to the wearable intelligent equipment of the above-mentioned power-saving control method of the application of the embodiment of the present invention, according to the duty of the service App of mobile terminal, real-time mode and normal mode these two kinds to send pattern from information to server is set, thus can when serving App and being in backstage or closed condition, data are sent to server with lower frequency, reduce power consumption, reach the object of economize on electricity.In addition, the present invention follows up the data such as the time that detects, position and heart rate further, judge whether user is in sleep, the non-state such as to wear, namely wearable intelligent equipment is in the not busy state of work, now close the partial function of wearable intelligent equipment, thus power consumption can be reduced further, save electricity consumption, effective prolongation bracelet stand-by time, can ensure that the App user of mobile terminal can view the information of wearable intelligent equipment wearer in real time further.

The aspect that the present invention adds and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the process flow diagram of the power-saving control method of wearable intelligent equipment according to the embodiment of the present invention;

Fig. 2 is the schematic diagram of the power-saving control method of wearable intelligent equipment according to the embodiment of the present invention;

Fig. 3 is the structural drawing of the wearable intelligent equipment according to embodiment of the present invention application power-saving control method.

Embodiment

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the present invention, and can not limitation of the present invention be interpreted as.

The embodiment of the present invention provides a kind of power-saving control method of wearable intelligent equipment.Wherein, wearable intelligent equipment is such as Intelligent bracelet etc.

As shown in Figure 1, the power-saving control method of the wearable intelligent equipment of the embodiment of the present invention, comprises the steps:

Step S1, arrange the service App of wearable intelligent equipment in mobile terminal start and foreground time, be in real-time mode.Under real-time mode, wearable intelligent equipment sends data every the first Preset Time to server.Wherein, the first Preset Time is 10 seconds ~ 30 seconds.Preferably, the first Preset Time is 10 seconds.Wherein, service App is installed in mobile terminal, starts, closes or background work, communicate with server for the instruction according to user, with the data collected by mode of operation and the acquisition wearable intelligent equipment of server controls wearable intelligent equipment.Wherein, the user of mobile terminal can be wearer oneself, guardian or friends and family, thus can obtain the data of wearable intelligent equipment collection in time, and controls the mode of operation of wearable intelligent equipment.

Particularly, App is served when starting, at server registration request real-time mode.Server, according to the instruction of service App, sends real-time mode request to wearable intelligent equipment.Wearable intelligent equipment, after the real-time mode request receiving server transmission, switches to real-time mode.That is, under real-time mode, wearable intelligent equipment sends a secondary data to server every 10 seconds.Wherein, wearable intelligent device-to-server sends it and all data detected, comprises temporal information, heart rate data and positional information etc.Above-mentioned data are sent to the service App of mobile terminal by server, check for user.

Step S2, arranging wearable intelligent equipment when serving App closedown or background work, being in normal mode.In the normal mode, wearable intelligent equipment sends data every the second Preset Time to server.Wherein, the duration of the first Preset Time is less than the duration of the second Preset Time.Wherein, the second Preset Time is 1 minute ~ 2 minutes.Preferably, the second Preset Time is 2 minutes.

Service App, when closedown or background work, sends normal mode handoff request to server.Server, according to the instruction of service App, sends real-time mode to wearable intelligent equipment and cancels request.Wearable intelligent equipment, after the real-time mode receiving server transmission cancels request, switches to normal mode.In the normal mode, the every 2 points of clockwise servers of wearable intelligent equipment send a secondary data.Wherein, wearable intelligent device-to-server sends it and all data detected, comprises temporal information, heart rate data and positional information etc.Above-mentioned data are sent to the service App of mobile terminal by server, check for user.It should be noted that the data that wearable intelligent device-to-server sends comprise: temporal information, heart rate data and positional information that wearable intelligent equipment Inspection is arrived.

The host-host protocol of data acquisition is sent to wearable intelligent device-to-server below and data content is described.

First, the data of wearable intelligent equipment and server are transmitted and are adopted Http Data Transport Protocol.Wherein, HTTP (HyperText Transfer Protocol; HTML (Hypertext Markup Language)) be one based on the agreement of request with response modes, stateless, application layer; often based on the connected mode of TCP; a kind of mechanism of lasting connection is provided in HTTP1.1 version; most Web exploitations is all the Web application be structured on http protocol.Http request is made up of three parts, respectively: request line, message header, request text.In reception with after explaining request message, server returns a http response message.Http response is also made up of three parts, respectively: statusline, message header, response text.

(1) uploading data host-host protocol

GET method in Http request: when inputting the mode accessed web page of network address in the address field of browser, browser adopts GET method to server Gains resources, such as, GET/form.html HTTP/1.1 (CRLF).The size of data length not restriction that Http Get method is submitted to, and usual each browser itself has maximum length to limit to address field URL length.POST method requires that requested server accepts to be attached to request data below, is usually used in submission form.

In an embodiment of the present invention, wearable intelligent device-to-server uploading data adopts GET mode, and form is as follows:

http://URL/Set？wearableId＝id&Para1＝value1&Para2＝value2

Rreturn value meaning is as follows:

Access rreturn value: mode of operation

0: success

1: error code 1

……

N: error code n

(2) download data transmissions agreement

The GET method of wearable intelligent equipment from server downloading data also adopts Http to ask, represent after URL want the parameter of acquired value, form is as follows:

Wherein, resource content returns the value of asked parameter with Json string type, such as:

" wearableId ": " unique sign ", " type ": " 3 ", " power ": " 5 ", " hearts ": " ", " sports ": " "

In an embodiment of the present invention, in order to reduce wearable intelligent equipment to the connection of server and access times, the upload and download operation of data can be completed by an agreement, comprise the data that needs are uploaded in the URL wherein asked, in the resource content returned, comprise the data that needs are updated the equipment.Form is as follows:

http://URL/Comm？wearableId＝id&Para1＝value1&Para2＝value2

Access rreturn value:

Http rreturn value, comprises statusline, message header, response text.Wherein respond text returns asked parameter value with Json string type.

Below the content and form of transmitting data between wearable intelligent equipment and server are described.It should be noted that, wearable intelligent equipment retains the data being no more than 5 days, the data before 5 days are no longer uploaded.

Table 1 shows data content and the form that wearable intelligent equipment sends to server.

Table 1

It should be noted that, the timing time of meter step data amount can be increased as required.Namely.Current meter step data is the meter step number amount to current time from what moment.

Such as, sport=700|14|09|05|12|23 from September 5th, 14 12:23 to current time, meter step number amount is 700 steps.

Table 2 shows server to the content of wearable intelligent equipment sending data and form.

Table 2

In summary, wearable intelligent device-to-server transmission information pattern comprises: real-time mode and normal mode two kinds.Data transmission frequency under real-time mode is higher than the data transmission frequency under normal mode.This is because service App is initiatively started by user, and representing that user wishes can the data that gathers during this period of time of detailed grasp wearable intelligent equipment.And when service App closedown or when going to backstage, then represent that user needs relative to initiatively starting lower reduction to the transmission of data, therefore switch to normal mode, wearable intelligent equipment adopts lower frequency to server transmission data, also reduction power consumption can be reached, the object of economize on electricity.

In one embodiment of the invention, the order of step S1 and step S2 can be understood as recurrence relation:

At first, service App is in closed condition, and now wearable intelligent equipment adopts normal mode.Then, when user starts service App, wearable intelligent equipment enters real-time mode.Thereafter, when service App closes by user again or when going to backstage, wearable intelligent equipment enters normal mode again.That is, according to the duty of service App, wearable intelligent equipment switches between normal mode and real-time mode.

Step S3, under real-time mode or normal mode, wearable intelligent equipment obtains current time and positional information, detects whether find heart rate data.

In wearable intelligent equipment, be integrated with timer, Cardiotacs, body posture sensor, positioning equipment, communication facilities etc., the positional information of current time information and wearer, heart rate data etc. can be gathered.

Step S4, when judging that current time is in section default length of one's sleep, positional information is unchanged and the heart rate data received is normal, wearable intelligent equipment automatically switches to sleep energy-saving mode.

Under sleep energy-saving mode, wearable intelligent equipment sends data every the 3rd Preset Time to server, and close the positioning equipment (GPS device) of wearable intelligent equipment, thus the power consumption of wearable intelligent equipment can be reduced, reach the object of economize on electricity.

Wherein, the duration of the 3rd Preset Time is greater than the duration of the second Preset Time.Such as, the 3rd Preset Time is 30 minutes.

Particularly, wearable intelligent equipment judges to be in section default length of one's sleep according to current time, such as, current time is 22 points, the length of one's sleep, section was preset as 13 point ~ 15 point (midday rest), point 21 points ~ next day 7 (night sleep), then can judge that current time has been in the section length of one's sleep.Further, according to the heart rate data detected, wearable intelligent equipment judges that the heart rate data of wearer is normal, according to the positional information detected, heart rate stabilization, judges that the position of user does not change, then comprehensively above-mentioned 3 can think that wearer enters sleep state.

It should be noted that, above-mentioned heart rate data is normal, and can be understood as the heart rate stabilization of wearer, namely heart rate is without large change.Such as, when wearer is old man, the data due to the normal cardiac rate of old man are on the low side, although detect that heart rate data is on the low side relative to critical field, as long as meet heart rate without large change, can think that the heart rate data detected is normal.

Wearable intelligent equipment automatically switches to sleep energy-saving mode, and every 30 points of clockwise servers send a secondary data, and data content and form, with above-mentioned normal mode and real-time mode, repeat no more.

Step S5, when judge current time be not in default length of one's sleep section or positional information change time, wearable intelligent equipment switches to normal mode by sleep energy-saving mode automatically.

Particularly, when meeting at least one condition following, wearable intelligent equipment switches to normal mode by energy-saving mode of sleeping automatically:

(1) when wearable intelligent equipment judges not to be in section default length of one's sleep according to current time, then normal mode is switched to by sleep energy-saving mode.Such as, current time is 7: 20, and the non-sleep time period is preset as 7 point ~ 13 points, 15 point ~ 21 points, then can judge that current time is not in section default length of one's sleep.

(2) when wearable intelligent equipment judges the change in location of user according to the positional information detected, wearable intelligent equipment switches to normal mode by sleep energy-saving mode automatically.It should be noted that, have significant change when above-mentioned change in location refers to the position of current time and previous 30 minutes, body posture data and the positional information of the wearer that can be detected by body posture sensor and positioning equipment are judged.

(3) when wearable intelligent equipment has significant change according to the heart rate data detected, wearable intelligent equipment switches to normal mode by sleep energy-saving mode automatically.It should be noted that, heart rate data when above-mentioned heart rate significant change refers to the heart rate data of current time and previous 30 minutes has significant change, and the heart rate data that can be detected by Cardiotacs is judged.

In one embodiment of the invention, with reference to figure 2, under real-time mode or normal mode, wearable intelligent equipment detect do not find heart rate data time, then can judge that user has taken wearable intelligent equipment, automatically switch to and non-ly wear energy-saving mode.

Further, under real-time mode or normal mode, wearable intelligent equipment when detecting that in preset duration, positional information does not change all the time, then can judge that user has taken wearable intelligent equipment, automatically switches to non-ly to wear energy-saving mode.Such as, wearable intelligent equipment Inspection, in 1 hour or longer time, when positional information does not change all the time, then judges that user has taken wearable intelligent equipment, automatically switches to and non-ly wears energy-saving mode.

Non-wear energy-saving mode under, wearable intelligent equipment announcement server bracelet is taken information, and after transmission temporal information and positional information, close positioning equipment (GPS device) and communication facilities (GPRS communication facilities), only retain heart rate detector, thus the power consumption of wearable intelligent equipment can be reduced, reach the object of economize on electricity.

Non-wear energy-saving mode under, wearable intelligent equipment sends data every the 3rd Preset Time to server, and closes wearable intelligent equipment wherein, and the duration of the 3rd Preset Time is greater than the duration of the second Preset Time.Such as, the 3rd Preset Time is 30 minutes.

Wearable intelligent equipment by detect do not find that heart rate data finds heart rate data to detection time, then can judge that wearable intelligent equipment is worn by the user, then automatically switch to normal mode by non-energy-saving mode of wearing.

In another embodiment of the present invention, under real-time mode or normal mode, wearable intelligent equipment, when detecting that heart rate data exceedes heart rate threshold, automatically switches to alarm mode.Under alarm mode, wearable intelligent equipment sends data every the first Preset Time to server, and announcement server sends pushed information and note to mobile terminal.The user of mobile terminal can be wearer oneself, guardian or friends and family, thus knows the health problem of wearer in time.The user of mobile terminal, after knowing above-mentioned information, receives information to server feedback, and server sends to wearable intelligent equipment processed instruction of reporting to the police further.Wearable intelligent equipment, after detecting that warning is processed, switches to normal mode by alarm mode automatically.

The power-saving control method of the wearable intelligent equipment of the embodiment of the present invention, according to the duty of the service App of mobile terminal, real-time mode and normal mode these two kinds to send pattern from information to server is set, thus can when serving App and being in backstage or closed condition, data are sent to server with lower frequency, reduce power consumption, reach the object of economize on electricity.In addition, the present invention follows up the data such as the time that detects, position and heart rate further, judge whether user is in sleep, the non-state such as to wear, namely wearable intelligent equipment is in the not busy state of work, now close the partial function of wearable intelligent equipment, thus power consumption can be reduced further, save electricity consumption, effective prolongation bracelet stand-by time, can ensure that the App user of mobile terminal can view the information of wearable intelligent equipment wearer in real time further.

The embodiment of the present invention also proposes a kind of wearable intelligent equipment applying the power-saving control method of above-described embodiment.

As shown in Figure 3, the wearable intelligent equipment of the embodiment of the present invention comprises: timer 1, heart rate detector 2, body posture sensor 3, positioning equipment 4, communication facilities 5 and controller 6.Controller 6 is connected to timer 1, heart rate detector 2, body posture sensor 3, positioning equipment 4 and communication facilities 5.

Particularly, timer 1 is for acquisition time information.Heart rate detector 2 is for obtaining the heart rate data of wearer.Body posture sensor 3 is for obtaining the body posture data of wearer.Positioning equipment 4 is for obtaining current geographic position information.Communication facilities 5 is for communicating with extraneous mobile terminal by GPRS communication pattern.Service App is installed in mobile terminal, starts for the instruction according to user, close or background work, communicate with server, with the data collected by mode of operation and the acquisition wearable intelligent equipment of server controls wearable intelligent equipment.Wherein, the user of mobile terminal can be wearer oneself, guardian or friends and family, thus can obtain the data of wearable intelligent equipment collection in time, and controls the mode of operation of wearable intelligent equipment.

Controller 6 for serve App start and foreground time, wearable intelligent equipment is set and is in real-time mode.Under real-time mode, wearable intelligent equipment sends data every the first Preset Time to server.Wherein, the first Preset Time is 10 seconds ~ 30 seconds.Preferably, the first Preset Time is 10 seconds.

Particularly, App is served when starting, at server registration request real-time mode.Server, according to the instruction of service App, sends real-time mode request to controller 6.Controller 6, after the real-time mode request receiving server transmission, switches to real-time mode.That is, under real-time mode, controller 6 sends a secondary data to server every 10 seconds.Wherein, controller 6 sends it to server and all data detected, comprises temporal information, heart rate data and positional information etc.Above-mentioned data are sent to the service App of mobile terminal by server, check for user.

When serving App closedown or background work, controller 6 arranges wearable intelligent equipment and is in normal mode.In the normal mode, wearable intelligent equipment sends data every the second Preset Time to server.Wherein, the duration of the first Preset Time is less than the duration of the second Preset Time.Wherein, the second Preset Time is 1 minute ~ 2 minutes.Preferably, the second Preset Time is 2 minutes.

Service App, when closedown or background work, sends normal mode handoff request to server.Server, according to the instruction of service App, sends real-time mode to controller 6 and cancels request.Controller 6, after the real-time mode receiving server transmission cancels request, switches to normal mode.In the normal mode, the every 2 points of clockwise servers of controller 6 send a secondary data.Wherein, controller 6 sends it to server and all data detected, comprises temporal information, heart rate data and positional information etc.Above-mentioned data are sent to the service App of mobile terminal by server, check for user.It should be noted that the data that wearable intelligent device-to-server sends comprise: temporal information, heart rate data and positional information that wearable intelligent equipment Inspection is arrived.

The data of wearable intelligent equipment and server are transmitted and are adopted Http Data Transport Protocol.Wherein, HTTP (HyperTextTransfer Protocol; HTML (Hypertext Markup Language)) be one based on the agreement of request with response modes, stateless, application layer; often based on the connected mode of TCP; a kind of mechanism of lasting connection is provided in HTTP1.1 version; most Web exploitations is all the Web application be structured on http protocol.Http request is made up of three parts, respectively: request line, message header, request text.In reception with after explaining request message, server returns a http response message.Http response is also made up of three parts, respectively: statusline, message header, response text.

(1) uploading data host-host protocol

GET method in Http request: when inputting the mode accessed web page of network address in the address field of browser, browser adopts GET method to server Gains resources, such as, GET/form.html HTTP/1.1 (CRLF).The size of data length not restriction that Http Get method is submitted to, and usual each browser itself has maximum length to limit to address field URL length.POST method requires that requested server accepts to be attached to request data below, is usually used in submission form.

In an embodiment of the present invention, wearable intelligent device-to-server uploading data adopts GET mode, and form is as follows:

http://URL/Set？wearableId＝id&Para1＝value1&Para2＝value2

Rreturn value meaning is as follows:

Access rreturn value: mode of operation

0: success

1: error code 1

……

N: error code n

(2) download data transmissions agreement

The GET method of wearable intelligent equipment from server downloading data also adopts Http to ask, represent after URL want the parameter of acquired value, form is as follows:

Wherein, resource content returns the value of asked parameter with Json string type, such as:

" wearableId ": " unique sign ", " type ": " 3 ", " power ": " 5 ", " hearts ": " ", " sports ": " "

In an embodiment of the present invention, in order to reduce wearable intelligent equipment to the connection of server and access times, the upload and download operation of data can be completed by an agreement, comprise the data that needs are uploaded in the URL wherein asked, in the resource content returned, comprise the data that needs are updated the equipment.Form is as follows:

http://URL/Comm？wearableId＝id&Para1＝value1&Para2＝value2

Access rreturn value:

Http rreturn value, comprises statusline, message header, response text.Wherein respond text returns asked parameter value with Json string type.

Below the content and form of transmitting data between wearable intelligent equipment and server are described.It should be noted that, wearable intelligent equipment retains the data being no more than 5 days, the data before 5 days are no longer uploaded.Table 1 shows data content and the form that wearable intelligent equipment sends to server.It should be noted that, the timing time of meter step data amount can be increased as required.Namely.Current meter step data is the meter step number amount to current time from what moment.Such as, sport=700|14|09|05|12|23 from September 5th, 14 12:23 to current time, meter step number amount is 700 steps.Table 2 shows server to the content of wearable intelligent equipment sending data and form.

In summary, wearable intelligent device-to-server transmission information pattern comprises: real-time mode and normal mode two kinds.Data transmission frequency under real-time mode is higher than the data transmission frequency under normal mode.This is because service App is initiatively started by user, and representing that user wishes can the data that gathers during this period of time of detailed grasp wearable intelligent equipment.And when service App closedown or when going to backstage, then represent that user needs relative to initiatively starting lower reduction to the transmission of data, therefore switch to normal mode, wearable intelligent equipment adopts lower frequency to server transmission data, also reduction power consumption can be reached, the object of economize on electricity.

Controller 6 is also for receiving time information, heart rate data, body posture data and geographical location information, and when the temporal information detected according to timer 1 judges that current time is in section default length of one's sleep, positional information is unchanged and the heart rate data received is normal, control wearable intelligent equipment and automatically switch to sleep energy-saving mode; When judge current time be not in default length of one's sleep section or positional information change time, control wearable intelligent equipment and automatically switch to normal mode by sleep energy-saving mode.

It should be noted that, above-mentioned heart rate data is normal, and can be understood as the heart rate stabilization of wearer, namely heart rate is without large change.Such as, when wearer is old man, the data due to the normal cardiac rate of old man are on the low side, although detect that heart rate data is on the low side relative to critical field, as long as meet heart rate without large change, can think that the heart rate data detected is normal.

Under sleep energy-saving mode, controller 6 sends data every the 3rd Preset Time to server, and closes the positioning equipment (GPS device) of wearable intelligent equipment, thus can reduce the power consumption of wearable intelligent equipment, reaches the object of economize on electricity.Wherein, the duration of the 3rd Preset Time is greater than the duration of the second Preset Time.Such as, the 3rd Preset Time is 30 minutes.

Particularly, when meeting at least one condition following, wearable intelligent equipment switches to normal mode by energy-saving mode of sleeping automatically:

(1) when controller 6 judges not to be in the default section length of one's sleep according to current time, then normal mode is switched to by sleep energy-saving mode.

(2) when controller 6 judges the change in location of user according to the positional information detected, automatically normal mode is switched to by sleep energy-saving mode.It should be noted that, have significant change when above-mentioned change in location refers to the position of current time and previous 30 minutes, body posture data and the positional information of the wearer that can be detected by body posture sensor 3 and positioning equipment 4 are judged.

(3) when controller 6 has significant change according to the heart rate data detected, automatically normal mode is switched to by sleep energy-saving mode.It should be noted that, heart rate data when above-mentioned heart rate significant change refers to the heart rate data of current time and previous 30 minutes has significant change, and the heart rate data that can be detected by Cardiotacs 2 is judged.

In one embodiment of the invention, under real-time mode or normal mode, controller 6 when the heart rate data do not received from heart rate detector 2 being detected, then can judge that user has taken wearable intelligent equipment, automatically switches to non-ly to wear energy-saving mode.Further, under real-time mode or normal mode, controller 6 when detecting that in preset duration, positional information does not change all the time, then can judge that user has taken wearable intelligent equipment, automatically switches to non-ly to wear energy-saving mode.Such as, wearable intelligent equipment Inspection, in 1 hour or longer time, when positional information does not change all the time, then judges that user has taken wearable intelligent equipment, automatically switches to and non-ly wears energy-saving mode.

Non-wear energy-saving mode under, controller 6 announcement server bracelet takes information, and after transmission temporal information and positional information, close positioning equipment 4 and communication facilities 5, only retain heart rate detector 2, thus the power consumption of wearable intelligent equipment can be reduced, reach the object of economize on electricity.Controller 6 by detect do not find heart rate data to detection find heart rate data time, automatically switch to normal mode by non-energy-saving mode of wearing.

Non-wear energy-saving mode under, controller 6 sends data every the 3rd Preset Time to server, and closes wearable intelligent equipment wherein, and the duration of the 3rd Preset Time is greater than the duration of the second Preset Time.Such as, the 3rd Preset Time is 30 minutes.

In yet another embodiment of the present invention, under real-time mode or normal mode, controller 6, when detecting that heart rate data exceedes heart rate threshold, automatically switches to alarm mode.Under alarm mode, controller 6 sends data every the first Preset Time to server, and announcement server sends pushed information and note to mobile terminal.Controller 6, after detecting that warning is processed, switches to normal mode by alarm mode automatically.

In one embodiment of the invention, wearable intelligent equipment is such as Intelligent bracelet etc.

The wearable intelligent equipment of the above-mentioned power-saving control method of application of the embodiment of the present invention, according to the duty of the service App of mobile terminal, real-time mode and normal mode these two kinds to send pattern from information to server is set, thus can when serving App and being in backstage or closed condition, data are sent to server with lower frequency, reduce power consumption, reach the object of economize on electricity.In addition, the present invention follows up the data such as the time that detects, position and heart rate further, judge whether user is in sleep, the non-state such as to wear, namely wearable intelligent equipment is in the not busy state of work, now close the partial function of wearable intelligent equipment, thus power consumption can be reduced further, save electricity consumption, effective prolongation bracelet stand-by time, can ensure that the App user of mobile terminal can view the information of wearable intelligent equipment wearer in real time further.

In the description of this instructions, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention above, be understandable that, above-described embodiment is exemplary, can not be interpreted as limitation of the present invention, those of ordinary skill in the art can change above-described embodiment within the scope of the invention when not departing from principle of the present invention and aim, revising, replacing and modification.Scope of the present invention is by claims extremely equivalency.

Claims (10)

1. a power-saving control method for wearable intelligent equipment, is characterized in that, comprises the steps:

Arrange described wearable intelligent equipment mobile terminal service App start and foreground time, be in real-time mode, under described real-time mode, described wearable intelligent equipment sends data every the first Preset Time to server, wherein, described service App is installed in described mobile terminal, start for the instruction according to user, close or background work, communicate with described server, with by the mode of operation of wearable intelligent equipment described in described server controls and obtain the data that described wearable intelligent equipment collects;

Described wearable intelligent equipment is set when described service App closedown or background work, be in normal mode, under described normal mode, described wearable intelligent equipment sends data every the second Preset Time to described server, wherein, the duration of described first Preset Time is less than the duration of described second Preset Time;

Under described real-time mode or normal mode, described wearable intelligent equipment obtains current time and positional information, detects whether find heart rate data;

When judging that described current time is in section default length of one's sleep, positional information is unchanged and the heart rate data received is normal, described wearable intelligent equipment automatically switches to sleep energy-saving mode;

When judge described current time be not in default length of one's sleep section or positional information change time, described wearable intelligent equipment switches to described normal mode by sleep energy-saving mode automatically.

2. wearable intelligent equipment power-saving control method as claimed in claim 1, it is characterized in that, described service App start time, at described server registration request real-time mode, described wearable intelligent equipment, after the real-time mode request receiving the transmission of described server, switches to real-time mode;

Described service App, when closedown or background work, sends normal mode handoff request to described server, and described wearable intelligent equipment, after the real-time mode receiving the transmission of described server cancels request, switches to normal mode.

3. wearable intelligent equipment power-saving control method as claimed in claim 1, it is characterized in that, described first Preset Time is 10 seconds ~ 30 seconds, and described second Preset Time is 1 minute ~ 2 minutes.

4. wearable intelligent equipment power-saving control method as claimed in claim 1, it is characterized in that, the data that described wearable intelligent equipment sends to described server, comprising: temporal information, heart rate data and positional information that described wearable intelligent equipment Inspection is arrived.

5. wearable intelligent equipment power-saving control method as claimed in claim 1, it is characterized in that, under described sleep energy-saving mode, described wearable intelligent equipment sends data every the 3rd Preset Time to described server, and close the positioning equipment of described wearable intelligent equipment, wherein, the duration of described 3rd Preset Time is greater than the duration of described second Preset Time.

6. wearable intelligent equipment power-saving control method as claimed in claim 1, is characterized in that, also comprise the steps:

Under described real-time mode or normal mode, described wearable intelligent equipment detect do not find heart rate data time, automatically switch to and non-ly wear energy-saving mode, described non-wear energy-saving mode under, described wearable intelligent equipment notifies that described server bracelet takes information, and after transmission temporal information and positional information, close positioning equipment and the communication facilities of described wearable intelligent equipment;

Described wearable intelligent equipment by detect do not find heart rate data to detection find heart rate data time, automatically switch to normal mode by non-energy-saving mode of wearing.

7. the power-saving control method of wearable intelligent equipment as claimed in claim 1, is characterized in that, also comprise the steps:

Under described real-time mode or normal mode, described wearable intelligent equipment is when detecting that heart rate data exceedes heart rate threshold, automatically switch to alarm mode, under described alarm mode, described wearable intelligent equipment sends data every described first Preset Time to described server, and notifies that described server sends pushed information and note to described mobile terminal;

Described wearable intelligent equipment, after detecting that warning is processed, switches to described normal mode by described alarm mode automatically.

8. application rights requires a wearable intelligent equipment for power-saving control method described in any one of 1-7, it is characterized in that, comprising:

Timer, for acquisition time information;

Heart rate detector, for obtaining the heart rate data of wearer;

Body posture sensor, for obtaining the body posture data of described wearer;

Positioning equipment, for obtaining current geographic position information;

Communication facilities, for being communicated with mobile terminal by GPRS communication pattern, service App is installed in described mobile terminal, start for the instruction according to user, close or background work, communicate with described server, with by the mode of operation of wearable intelligent equipment described in described server controls and obtain the data that described wearable intelligent equipment collects;

Controller, described controller is connected to described timer, heart rate detector, body posture sensor, positioning equipment and communication facilities, for start at described service App and foreground time, described wearable intelligent equipment is set and is in real-time mode, when described service App closedown or background work, arrange described wearable intelligent equipment and be in normal mode, under described real-time mode, described wearable intelligent equipment sends data every the first Preset Time to server; Under described normal mode, described wearable intelligent equipment sends data every the second Preset Time to described server, wherein, the duration of described first Preset Time is less than the duration of described second Preset Time, and described controller is also for receiving described temporal information, heart rate data, body posture data and geographical location information, and when judging according to described temporal information that current time is in section default length of one's sleep, positional information is unchanged and the heart rate data received is normal, controlling described wearable intelligent equipment and automatically switching to sleep energy-saving mode; When judge current time be not in default length of one's sleep section or positional information change time, control described wearable intelligent equipment and automatically switch to described normal mode by sleep energy-saving mode.

9. wearable intelligent equipment as claimed in claim 8, it is characterized in that, under described real-time mode or normal mode, described controller is when the heart rate data do not received from described heart rate detector being detected, automatically switch to and non-ly wear energy-saving mode, under described non-wearing regime, described controller notifies that described server bracelet takes information, and after transmission temporal information and positional information, close described positioning equipment and communication facilities;

Described controller by detect do not find heart rate data to detection find heart rate data time, automatically switch to normal mode by non-energy-saving mode of wearing.

10. wearable intelligent equipment as claimed in claim 8, it is characterized in that, under described real-time mode or normal mode, described controller is when detecting that heart rate data exceedes heart rate threshold, automatically switch to alarm mode, under described alarm mode, described controller sends data every described first Preset Time to described server, and notifies that described server sends pushed information and note to mobile terminal;

Described controller, after detecting that warning is processed, switches to described normal mode by described alarm mode automatically.