CN105807918A - Control method, control device and wearable intelligent equipment - Google Patents
Control method, control device and wearable intelligent equipment Download PDFInfo
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- CN105807918A CN105807918A CN201610119490.6A CN201610119490A CN105807918A CN 105807918 A CN105807918 A CN 105807918A CN 201610119490 A CN201610119490 A CN 201610119490A CN 105807918 A CN105807918 A CN 105807918A
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- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/011—Arrangements for interaction with the human body, e.g. for user immersion in virtual reality
- G06F3/015—Input arrangements based on nervous system activity detection, e.g. brain waves [EEG] detection, electromyograms [EMG] detection, electrodermal response detection
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Abstract
The invention provides a control method, a control device and wearable intelligent equipment. The control method comprises the following steps: detecting the current heart rate of a user who wears the wearable intelligent equipment; obtaining a target historical heart rate in a plurality of continuous historical heart rates which are adjacent to the current heart rate and are detected before the current heart rate; calculating the absolute value of a difference value between the current heart rate and the target historical heart rate; and if the absolute value of the difference value is greater than a preset threshold value, switching the wearable intelligent equipment and/ or a terminal connected with the wearable intelligent equipment to a corresponding work state according to the current heart rate and the target historical heart rate. Through the technical scheme of the invention, the state of the wearable intelligent equipment or the terminal can be more intelligently switched so as to save the electric quantity of the wearable intelligent equipment or the terminal.
Description
Technical field
The present invention relates to technical field of electronic equipment, in particular to a kind of control method, a kind of control device and the wearable smart machine of one.
Background technology
At present, along with the raising of the development in epoch and people's living standard, the terminal such as wearable smart machine or mobile phone has become as indispensable a kind of instrument in people's life.But, the flying power of wearable smart machine battery is always up the pain spot of Consumer's Experience aspect, be research and development in one treat in break through Pinch technology.(such as sleep) when especially not using wearable smart machine or terminal as user, for often not realizing the state changing wearable smart machine or terminal, cause that a lot of electricity is wasted.
The following is the wearable smart machine in correlation technique or SOT state of termination conversion plan:
(1) timed power on/off: by arranging wearable smart machine or terminal corresponding timed power on/off option realizes the switching of wearable smart machine or the SOT state of termination.Its defect has: in fixing moment point switching on and shutting down, scene can only be used limited.
(2) artificial active switch machine: artificial active goes to switch the state of wearable smart machine or terminal, such as start, shutdown etc..Its defect has: need user's active switch machine, uses scene limited.
Therefore, how to switch the state of wearable smart machine or terminal more intelligently, thus the electricity saving wearable smart machine or terminal becomes problem demanding prompt solution.
Summary of the invention
The present invention is based on the problems referred to above, it is proposed that a kind of new technical scheme, it is possible to switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
In view of this, a first aspect of the present invention proposes a kind of control method, including: the Current heart rate of the user having wearable smart machine is dressed in detection;Obtain the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate detected before described Current heart rate;Calculate the absolute value of described Current heart rate and the difference of described target histories heart rate;If the absolute value of described difference is more than predetermined threshold value, then the size according to described Current heart rate and described target histories heart rate, described wearable smart machine and/or the terminal connected with described wearable smart machine are switched to corresponding duty.
In this technical scheme, when the changes in heart rate of user is relatively larger, illustrate that the state of user changes, such as, user is changed into sleep state by non-sleep state, or it is changed into non-sleep state by sleep state, then wearable smart machine and/or terminal are switched to the duty of correspondence, therefore, avoid user wearable smart machine or terminal when sleep and be still in normal duty, and switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
Certainly, wearable smart machine can also be sent to terminal the heart rate of the user detected, calculate the target histories heart rate in the Current heart rate of user and the preset time period before Current heart rate for terminal, and carry out the duty of switching terminal according to result of calculation.
In technique scheme, preferably, described described wearable smart machine and/or the terminal that is connected with described wearable smart machine are switched to the step of corresponding duty, specifically include: if described Current heart rate is less than described target histories heart rate, then described wearable smart machine and/or described terminal are switched to off-mode or resting state;If described Current heart rate is more than described target histories heart rate, then described wearable smart machine and/or described terminal are switched to any state except off-mode and resting state.
In this technical scheme, if the Current heart rate of user is less than the target histories heart rate in the front heart rate detected several times, illustrate that user enters sleep state, then wearable smart machine and/or terminal are switched to the relatively low off-mode of power consumption or resting state, certainly can also is that electricity-saving state;Accordingly, if the Current heart rate of user is bigger than the target histories heart rate in the front heart rate detected several times, illustrate that user is in clear-headed state, user may use wearable smart machine and/or terminal, then wearable smart machine and/or terminal are switched to normal operating conditions, such as, holding state, thus ensureing the normal use of user.
In any of the above-described technical scheme, preferably, the described step that described wearable smart machine and/or described terminal are switched to off-mode or resting state, specifically include: if current time is in the first time period that described off-mode or described resting state are corresponding, then described wearable smart machine and/or described terminal are switched to described off-mode or described resting state;And the described step that described wearable smart machine and/or described terminal are switched to any state except off-mode and resting state, specifically include: if current time is within the second time period that described any state is corresponding, then described wearable smart machine and/or described terminal are switched to described any state.
In this technical scheme, if current time is in the first time period that off-mode or resting state are corresponding, or in the second time period that any state in above-mentioned is corresponding, then determine the duty switching wearable smart machine and/or terminal, thus ensure that the accuracy that wearable smart machine and/or terminal are switched over.
In any of the above-described technical scheme, it is preferable that also include: obtain the historical sleep time of described user;Described first time period and described second time period is determined according to the described historical sleep time;Or what receive described user arranges instruction, described first time period and described second time period are set.
In this technical scheme, determining first time period by obtaining the historical sleep time of user, in one day 24 hours, the time except first time period constituted for the second time period.It is of course also possible to be that user arranges first time period and the second time period according to the actual demand of oneself.
In any of the above-described technical scheme, preferably, the step of the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate that described acquisition detected before described Current heart rate, specifically includes: obtain the heart rate adjacent with described Current heart rate in described continuous multiple history hearts rate as described target histories heart rate.
In this technical scheme, the heart rate of the user owing to detecting last time is better able to reflect the state before user, then by calculating the absolute value of the difference between Current heart rate and the heart rate detected last time, just can more accurately determine whether switch operating state.
It is of course also possible to arbitrarily obtain a heart rate in above-mentioned continuous multiple history hearts rate as target histories heart rate.
A second aspect of the present invention proposes a kind of control device, including: detection unit, for detecting the Current heart rate dressing the user having wearable smart machine;First acquiring unit, for obtaining the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate detected before described Current heart rate;Computing unit, for calculating the absolute value of described Current heart rate and the difference of described target histories heart rate;Switch unit, if for the absolute value of described difference more than predetermined threshold value, the then size according to described Current heart rate and described target histories heart rate, switches to corresponding duty by described wearable smart machine and/or the terminal connected with described wearable smart machine.
In this technical scheme, when the changes in heart rate of user is relatively larger, illustrate that the state of user changes, such as, user is changed into sleep state by non-sleep state, or it is changed into non-sleep state by sleep state, then wearable smart machine and/or terminal are switched to the duty of correspondence, therefore, avoid user wearable smart machine or terminal when sleep and be still in normal duty, and switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
Certainly, wearable smart machine can also be sent to terminal the heart rate of the user detected, calculate the target histories heart rate in the Current heart rate of user and the preset time period before Current heart rate for terminal, and carry out the duty of switching terminal according to result of calculation.
In technique scheme, it is preferable that described switch unit includes: the first switching subelement, if for described Current heart rate less than described target histories heart rate, then described wearable smart machine and/or described terminal being switched to off-mode or resting state;Second switching subelement, if for described Current heart rate more than described target histories heart rate, then switching to any state except off-mode and resting state by described wearable smart machine and/or described terminal.
In this technical scheme, if the Current heart rate of user is less than the target histories heart rate in the front heart rate detected several times, illustrate that user enters sleep state, then wearable smart machine and/or terminal are switched to the relatively low off-mode of power consumption or resting state, certainly can also is that electricity-saving state;Accordingly, if the Current heart rate of user is bigger than the target histories heart rate in the front heart rate detected several times, illustrate that user is in clear-headed state, user may use wearable smart machine and/or terminal, then wearable smart machine and/or terminal are switched to normal operating conditions, such as, holding state, thus ensureing the normal use of user.
In any of the above-described technical scheme, preferably, described first switching subelement specifically for, if current time is in the first time period that described off-mode or described resting state are corresponding, then described wearable smart machine and/or described terminal are switched to described off-mode or described resting state;And described second switching subelement specifically for, if current time is within the second time period that described any state is corresponding, then described wearable smart machine and/or described terminal are switched to described any state.
In this technical scheme, if current time is in the first time period that off-mode or resting state are corresponding, or in the second time period that any state in above-mentioned is corresponding, then determine the duty switching wearable smart machine and/or terminal, thus ensure that the accuracy that wearable smart machine and/or terminal are switched over.
In any of the above-described technical scheme, it is preferable that also include: second acquisition unit, for obtaining the historical sleep time of described user;Determine unit, for determining described first time period and described second time period according to the described historical sleep time;Or unit is set, instruction is set for what receive described user, described first time period and described second time period are set.
In this technical scheme, determining first time period by obtaining the historical sleep time of user, in one day 24 hours, the time except first time period constituted for the second time period.It is of course also possible to be that user arranges first time period and the second time period according to the actual demand of oneself.
In any of the above-described technical scheme, it is preferable that described first acquiring unit comprises determining that subelement, for obtaining the heart rate adjacent with described Current heart rate in described continuous multiple history hearts rate as described target histories heart rate.
In this technical scheme, the heart rate of the user owing to detecting last time is better able to reflect the state before user, then by calculating the absolute value of the difference between Current heart rate and the heart rate detected last time, just can more accurately determine whether switch operating state.
It is of course also possible to arbitrarily obtain a heart rate in above-mentioned continuous multiple history hearts rate as target histories heart rate.
A third aspect of the present invention proposes a kind of wearable smart machine, including the control device according to any one of technique scheme, therefore, this wearable smart machine has the technique effect identical with the control device according to any one of technique scheme, does not repeat them here.
Pass through technical scheme, it is possible to switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
Accompanying drawing explanation
Fig. 1 illustrates the schematic flow sheet of control method according to an embodiment of the invention;
Fig. 2 illustrates the schematic flow sheet of control method according to another embodiment of the invention;
Fig. 3 illustrates the structural representation of control device according to an embodiment of the invention;
Fig. 4 illustrates the structural representation of wearable smart machine according to an embodiment of the invention;
Fig. 5 illustrates the structural representation of wearable smart machine according to another embodiment of the invention.
Detailed description of the invention
In order to the above-mentioned purpose of the present invention, feature and advantage can be more clearly understood that, below in conjunction with the drawings and specific embodiments, the present invention is further described in detail.It should be noted that when not conflicting, embodiments herein and the feature in embodiment can be mutually combined.
Elaborate a lot of detail in the following description so that fully understanding the present invention; but; the present invention can also adopt other to be different from other modes described here to implement, and therefore, protection scope of the present invention is by the restriction of following public specific embodiment.
Fig. 1 illustrates the schematic flow sheet of control method according to an embodiment of the invention.
As it is shown in figure 1, control method according to an embodiment of the invention, including:
Step 102, the Current heart rate of the user having wearable smart machine is dressed in detection;
Step 104, obtains the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate detected before described Current heart rate;
Step 106, calculates the absolute value of described Current heart rate and the difference of described target histories heart rate;
Step 108, if the absolute value of described difference is more than predetermined threshold value, then the size according to described Current heart rate and described target histories heart rate, described wearable smart machine and/or the terminal connected with described wearable smart machine are switched to corresponding duty.
In this technical scheme, when the changes in heart rate of user is relatively larger, illustrate that the state of user changes, such as, user is changed into sleep state by non-sleep state, or it is changed into non-sleep state by sleep state, then wearable smart machine and/or terminal are switched to the duty of correspondence, therefore, avoid user wearable smart machine or terminal when sleep and be still in normal duty, and switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
Certainly, wearable smart machine can also be sent to terminal the heart rate of the user detected, calculate the target histories heart rate in the Current heart rate of user and the preset time period before Current heart rate for terminal, and carry out the duty of switching terminal according to result of calculation.
In technique scheme, preferably, described described wearable smart machine and/or the terminal that is connected with described wearable smart machine are switched to the step of corresponding duty, specifically include: if described Current heart rate is less than described target histories heart rate, then described wearable smart machine and/or described terminal are switched to off-mode or resting state;If described Current heart rate is more than described target histories heart rate, then described wearable smart machine and/or described terminal are switched to any state except off-mode and resting state.
In this technical scheme, if the Current heart rate of user is less than the target histories heart rate in the front heart rate detected several times, illustrate that user enters sleep state, then wearable smart machine and/or terminal are switched to the relatively low off-mode of power consumption or resting state;Accordingly, if the Current heart rate of user is bigger than the target histories heart rate in the front heart rate detected several times, illustrate that user is in clear-headed state, user may use wearable smart machine and/or terminal, then wearable smart machine and/or terminal are switched to normal operating conditions, such as, holding state, thus ensureing the normal use of user.
Such as, user has on Intelligent bracelet and enters sleep state, detect that the Current heart rate of user reduces, or user takes Intelligent bracelet and enters sleep state, heart rate user being detected is 0, and now user need not use Intelligent bracelet and the mobile phone being connected with this Intelligent bracelet, then by Intelligent bracelet and mobile phone shutdown or switch to resting state, user Intelligent bracelet and mobile phone when sleep is avoided still to run, thus saving the electricity of Intelligent bracelet and mobile phone.If detecting, the heart rate of the user having on Intelligent bracelet increases, illustrate that user wake up, or user has put on Intelligent bracelet after wakeing up, then Intelligent bracelet and mobile phone are switched to holding state, thus ensure that user can normally use mobile phone and Intelligent bracelet after wakeing up.
In any of the above-described technical scheme, preferably, the described step that described wearable smart machine and/or described terminal are switched to off-mode or resting state, specifically include: if current time is in the first time period that described off-mode or described resting state are corresponding, then described wearable smart machine and/or described terminal are switched to described off-mode or described resting state;And the described step that described wearable smart machine and/or described terminal are switched to any state except off-mode and resting state, specifically include: if current time is within the second time period that described any state is corresponding, then described wearable smart machine and/or described terminal are switched to described any state.
In this technical scheme, if current time is in the first time period that off-mode or resting state are corresponding, or in the second time period that any state in above-mentioned is corresponding, then determine the duty switching wearable smart machine and/or terminal, thus ensure that the accuracy that wearable smart machine and/or terminal are switched over.
Such as, the first time period that holding state is corresponding is 6:00 to 23:00, and the second time period that off-mode is corresponding is 23:00 to 6:00 next day.When user 12:00 at noon has a rest in office, now, user is in sleep state, although detecting that the heart rate of user reduces, but, current time 12:00 not in the second time period, does not then control Intelligent bracelet or the mobile phone shutdown being connected with this Intelligent bracelet, it is to avoid user has missed important phone the time of having a rest at noon.Or when wear the user of Intelligent bracelet morning 1:00 wake up, although detecting that the heart rate of user increases, but user is only toilet of waking up, morning, 1:00 was not in first time period, then do not control Intelligent bracelet or the mobile phone power-on being connected with this Intelligent bracelet, avoid starting shooting and bring interference to user, also avoid start to consume the electricity of Intelligent bracelet or mobile phone simultaneously.
In any of the above-described technical scheme, it is preferable that also include: obtain the historical sleep time of described user;Described first time period and described second time period is determined according to the described historical sleep time;Or what receive described user arranges instruction, described first time period and described second time period are set.
In this technical scheme, determining first time period by obtaining the historical sleep time of user, in one day 24 hours, the time except first time period constituted for the second time period.It is of course also possible to be that user arranges first time period and the second time period according to the actual demand of oneself.
Such as, calculate on average starting the length of one's sleep and on average terminating the length of one's sleep of user, it is first time period on average starting the length of one's sleep to the time period on average terminating between the length of one's sleep, was the second time period on average terminating the length of one's sleep to the time period on average starting between the length of one's sleep.User's length of one's sleep the latest can also be obtained and terminate the length of one's sleep the earliest, using the length of one's sleep the latest to the time period terminated the earliest between the length of one's sleep as first time period, the length of one's sleep to time period as the second time period between the length of one's sleep the latest will be terminated the earliest.
In any of the above-described technical scheme, it is preferable that step 104 specifically includes: obtain the heart rate adjacent with described Current heart rate in described continuous multiple history hearts rate as described target histories heart rate.
In this technical scheme, the heart rate of the user owing to detecting last time is better able to reflect the state before user, then by calculating the absolute value of the difference between Current heart rate and the heart rate detected last time, just can more accurately determine whether switch operating state.
Fig. 2 illustrates the schematic flow sheet of control method according to another embodiment of the invention.
As in figure 2 it is shown, control method according to another embodiment of the invention, including:
Step 202, enters heart rate detection control functional condition and puts;
Step 204, it may be judged whether open heart rate detection and control function, when judged result is for being, enters step 206, otherwise, enters step 208;
Step 206, arranges heart rate detection frequency, detects the persistent period every time, heart rate detection controls the activation threshold value D (predetermined threshold value mentioned in namely above-mentioned) of function, heart rate value becomes state big, that diminish corresponding and switches;
Such as, arranging heart rate detection frequency is 10 minutes/time, and every time detection heart rate continues 2 minutes, and heart rate detection controls the activation threshold value D=15 of function, and heart rate value becomes big corresponding holding state, and heart rate value diminishes corresponding off-mode or resting state.
Step 208, exits setting;
Step 210, preserves above-mentioned setting option;
Step 212, user has dressed wearable smart machine, heart rate detection normal operation of sensor;
Step 214, detects the Current heart rate X1 (as: user takes off wearable smart machine, preparing sleep, the Current heart rate value X1 that heart rate detection sensor detects is 0 beat/min) of user under certain scene;
Step 216, it is judged that whether DX is more than activation threshold value D, when judged result is for being, enters step 218, otherwise, enters step 212, and wherein, DX=| X1-X0 |, X0 represent the heart rate value detected last time;
Step 218, it is judged that whether Current heart rate value X1 is more than heart rate value X0 last time, when judged result is for being, enters step 222, otherwise, enters step 220;
Step 220, wearable smart machine is switched to resting state or off-mode by holding state;
Such as, user takes off wearable smart machine, detect that Current heart rate value X1 is 0 beat/min, the heart rate value X0 of the user detected last time is 80 beats/min, calculate DX=| X1-X0 |=80, it is seen then that DX is more than activation threshold value D, wearable smart machine, less than X0, is switched to resting state or off-mode by X1 by holding state.
Step 222, wearable device state is switched to holding state by dormancy or shutdown;
Such as, user puts on wearable smart machine, detect that Current heart rate value X1 is 75 beats/min, the heart rate value X0 of the user detected last time is 0 beat/min, calculate DX=| X1-X0 |=75, it is seen then that DX is more than activation threshold value D, wearable device state, more than X0, is switched to holding state by dormancy or shutdown by X1.
Step 224, stores Current heart rate value X1 and judges for next time.
Fig. 3 illustrates the structural representation of control device according to an embodiment of the invention.
As shown in Figure 3, control device 300 according to an embodiment of the invention, including: detection unit the 302, first acquiring unit 304, computing unit 306 and switch unit 308, wherein, detection unit 302 is for detecting the Current heart rate dressing the user having wearable smart machine;First acquiring unit 304, for obtaining the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate detected before described Current heart rate;Computing unit 306, for calculating the absolute value of described Current heart rate and the difference of described target histories heart rate;Switch unit 308, if for the absolute value of described difference more than predetermined threshold value, the then size according to described Current heart rate and described target histories heart rate, switches to corresponding duty by described wearable smart machine and/or the terminal connected with described wearable smart machine.
In this technical scheme, when the changes in heart rate of user is relatively larger, illustrate that the state of user changes, such as, user is changed into sleep state by non-sleep state, or it is changed into non-sleep state by sleep state, then wearable smart machine and/or terminal are switched to the duty of correspondence, therefore, avoid user wearable smart machine or terminal when sleep and be still in normal duty, and switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
Certainly, wearable smart machine can also be sent to terminal the heart rate of the user detected, calculate the target histories heart rate in the Current heart rate of user and the preset time period before Current heart rate for terminal, and carry out the duty of switching terminal according to result of calculation.
In technique scheme, preferably, described switch unit 308 includes: the first switching subelement 3082, if for described Current heart rate less than described target histories heart rate, then described wearable smart machine and/or described terminal being switched to off-mode or resting state;Second switching subelement 3084, if for described Current heart rate more than described target histories heart rate, then switching to any state except off-mode and resting state by described wearable smart machine and/or described terminal.
In this technical scheme, if the Current heart rate of user is less than the target histories heart rate in the front heart rate detected several times, illustrate that user enters sleep state, then wearable smart machine and/or terminal are switched to the relatively low off-mode of power consumption or resting state;Accordingly, if the Current heart rate of user is bigger than the target histories heart rate in the front heart rate detected several times, illustrate that user is in clear-headed state, user may use wearable smart machine and/or terminal, then wearable smart machine and/or terminal are switched to normal operating conditions, such as, holding state, thus ensureing the normal use of user.
Such as, user has on Intelligent bracelet and enters sleep state, detect that the Current heart rate of user reduces, or user takes Intelligent bracelet and enters sleep state, heart rate user being detected is 0, and now user need not use Intelligent bracelet and the mobile phone being connected with this Intelligent bracelet, then by Intelligent bracelet and mobile phone shutdown or switch to resting state, user Intelligent bracelet and mobile phone when sleep is avoided still to run, thus saving the electricity of Intelligent bracelet and mobile phone.If detecting, the heart rate of the user having on Intelligent bracelet increases, illustrate that user wake up, or user has put on Intelligent bracelet after wakeing up, then Intelligent bracelet and mobile phone are switched to holding state, thus ensure that user can normally use mobile phone and Intelligent bracelet after wakeing up.
In any of the above-described technical scheme, preferably, described first switching subelement 3082 specifically for, if current time is in the first time period that described off-mode or described resting state are corresponding, then described wearable smart machine and/or described terminal are switched to described off-mode or described resting state;And described second switching subelement 3084 specifically for, if current time is within the second time period that described any state is corresponding, then described wearable smart machine and/or described terminal are switched to described any state.
In this technical scheme, if current time is in the first time period that off-mode or resting state are corresponding, or in the second time period that any state in above-mentioned is corresponding, then determine the duty switching wearable smart machine and/or terminal, thus ensure that the accuracy that wearable smart machine and/or terminal are switched over.
Such as, the first time period that holding state is corresponding is 6:00 to 23:00, and the second time period that off-mode is corresponding is 23:00 to 6:00 next day.When user 12:00 at noon has a rest in office, now, user is in sleep state, although detecting that the heart rate of user reduces, but, current time 12:00 not in the second time period, does not then control Intelligent bracelet or the mobile phone shutdown being connected with this Intelligent bracelet, it is to avoid user has missed important phone the time of having a rest at noon.Or when wear the user of Intelligent bracelet morning 1:00 wake up, although detecting that the heart rate of user increases, but user is only toilet of waking up, morning, 1:00 was not in first time period, then do not control Intelligent bracelet or the mobile phone power-on being connected with this Intelligent bracelet, avoid starting shooting and bring interference to user, also avoid start to consume the electricity of Intelligent bracelet or mobile phone simultaneously.
In any of the above-described technical scheme, it is preferable that also include: second acquisition unit 310, for obtaining the historical sleep time of described user;Determine unit 312, for determining described first time period and described second time period according to the described historical sleep time;Or unit 314 is set, instruction is set for what receive described user, described first time period and described second time period are set.
In this technical scheme, determining first time period by obtaining the historical sleep time of user, in one day 24 hours, the time except first time period constituted for the second time period.It is of course also possible to be that user arranges first time period and the second time period according to the actual demand of oneself.
Such as, calculate on average starting the length of one's sleep and on average terminating the length of one's sleep of user, it is first time period on average starting the length of one's sleep to the time period on average terminating between the length of one's sleep, was the second time period on average terminating the length of one's sleep to the time period on average starting between the length of one's sleep.User's length of one's sleep the latest can also be obtained and terminate the length of one's sleep the earliest, using the length of one's sleep the latest to the time period terminated the earliest between the length of one's sleep as first time period, the length of one's sleep to time period as the second time period between the length of one's sleep the latest will be terminated the earliest.
In any of the above-described technical scheme, it is preferable that described first acquiring unit 304 comprises determining that subelement 3042, for obtaining the heart rate adjacent with described Current heart rate in described continuous multiple history hearts rate as described target histories heart rate.
In this technical scheme, the heart rate of the user owing to detecting last time is better able to reflect the state before user, then by calculating the absolute value of the difference between Current heart rate and the heart rate detected last time, just can more accurately determine whether switch operating state.
Fig. 4 illustrates the structural representation of wearable smart machine according to an embodiment of the invention.
As shown in Figure 4, wearable smart machine 400 according to an embodiment of the invention, including the control device 300 according to any one of technique scheme, therefore, this wearable smart machine 400 has the technique effect identical with the control device 300 according to any one of technique scheme, does not repeat them here.
Fig. 5 illustrates the structural representation of wearable smart machine according to another embodiment of the invention.
As it is shown in figure 5, wearable smart machine 500 according to another embodiment of the invention, including: heart rate detection sensor 502, processor 504, memorizer 506 and display screen 508.Wherein, heart rate detection sensor 502 is for detecting the heart rate of user, such as, when user is active (non-sleep state), heart rate detection sensor 502 detects that the heart rate of user is 75 beats/min, when user is in sleep state, if user has on wearable smart machine 500, heart rate detection sensor 502 detects that the heart rate of user is 60 beats/min, if user takes off wearable smart machine 500, heart rate detection sensor 502 detects that the heart rate of user is 0 beat/min.Processor 504 is for receiving the heart rate of the user from heart rate detection sensor 502, calculate the Current heart rate of user and the difference of the heart rate detected last time, if this difference is more than predetermined threshold value, the relatively size of the heart rate that Current heart rate and last time detect, if the heart rate that Current heart rate detected than last time is big, then determine that user is converted to active state by sleep state, wearable smart machine 500 is switched to holding state by resting state, or send the first control instruction to the mobile phone being connected with wearable smart machine 500, holding state is switched to by resting state for mobile phone;If the heart rate that Current heart rate detected than last time is little, then determine that user is switched to sleep state by active state, wearable smart machine 500 is switched to resting state by holding state, or send the second control instruction to the mobile phone being connected with wearable smart machine 500, switched to resting state for mobile phone by holding state.Memorizer 506 is for storing the heart rate of the user that processor 504 is sent.Display screen 508 is for, before switching the state of wearable smart machine 500, displaying whether to determine the information of switching state, if receive the instruction determining switching, then carry out the switching of wearable smart machine 500 state.
Describe technical scheme in detail above in association with accompanying drawing, pass through technical scheme, it is possible to switch the state of wearable smart machine or terminal more intelligently, thus saving the electricity of wearable smart machine or terminal.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.
Claims (11)
1. a control method, it is characterised in that include step:
The Current heart rate of the user having wearable smart machine is dressed in detection;
Obtain the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate detected before described Current heart rate;
Calculate the absolute value of described Current heart rate and the difference of described target histories heart rate;
If the absolute value of described difference is more than predetermined threshold value, then the size according to described Current heart rate and described target histories heart rate, described wearable smart machine and/or the terminal connected with described wearable smart machine are switched to corresponding duty.
2. control method according to claim 1, it is characterised in that described described wearable smart machine and/or the terminal that is connected with described wearable smart machine are switched to the step of corresponding duty, specifically includes:
If described Current heart rate is less than described target histories heart rate, then described wearable smart machine and/or described terminal are switched to off-mode or resting state;
If described Current heart rate is more than described target histories heart rate, then described wearable smart machine and/or described terminal are switched to any state except off-mode and resting state.
3. control method according to claim 2, it is characterised in that
The described step that described wearable smart machine and/or described terminal switch to off-mode or resting state, specifically includes:
If current time is in the first time period that described off-mode or described resting state are corresponding, then described wearable smart machine and/or described terminal are switched to described off-mode or described resting state;And
The described step that described wearable smart machine and/or described terminal switch to any state except off-mode and resting state, specifically includes:
If current time is within the second time period that described any state is corresponding, then described wearable smart machine and/or described terminal are switched to described any state.
4. control method according to claim 3, it is characterised in that also include:
Obtain the historical sleep time of described user;
Described first time period and described second time period is determined according to the described historical sleep time;Or
What receive described user arranges instruction, arranges described first time period and described second time period.
5. control method according to any one of claim 1 to 4, it is characterised in that the step of the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate that described acquisition detected before described Current heart rate, specifically includes:
Described continuous multiple history hearts rate obtain the heart rate adjacent with described Current heart rate as described target histories heart rate.
6. one kind controls device, it is characterised in that including:
Detection unit, for detecting the Current heart rate dressing the user having wearable smart machine;
First acquiring unit, for obtaining the target histories heart rate in continuous multiple history hearts rate adjacent with described Current heart rate detected before described Current heart rate;
Computing unit, for calculating the absolute value of described Current heart rate and the difference of described target histories heart rate;
Switch unit, if for the absolute value of described difference more than predetermined threshold value, the then size according to described Current heart rate and described target histories heart rate, switches to corresponding duty by described wearable smart machine and/or the terminal connected with described wearable smart machine.
7. control device according to claim 6, it is characterised in that described switch unit includes:
First switching subelement, if for described Current heart rate less than described target histories heart rate, then switching to off-mode or resting state by described wearable smart machine and/or described terminal;
Second switching subelement, if for described Current heart rate more than described target histories heart rate, then switching to any state except off-mode and resting state by described wearable smart machine and/or described terminal.
8. control device according to claim 7, it is characterised in that
Described first switching subelement specifically for, if current time is in the first time period that described off-mode or described resting state are corresponding, then described wearable smart machine and/or described terminal are switched to described off-mode or described resting state;And
Described second switching subelement specifically for, if current time is within the second time period that described any state is corresponding, then described wearable smart machine and/or described terminal are switched to described any state.
9. control device according to claim 8, it is characterised in that also include:
Second acquisition unit, for obtaining the historical sleep time of described user;
Determine unit, for determining described first time period and described second time period according to the described historical sleep time;Or
Unit is set, instruction is set for what receive described user, described first time period and described second time period are set.
10. the control device according to any one of claim 6 to 9, it is characterised in that described first acquiring unit includes:
Determine subelement, for obtaining the heart rate adjacent with described Current heart rate in described continuous multiple history hearts rate as described target histories heart rate.
11. a wearable smart machine, it is characterised in that including: the control device as according to any one of claim 6 to 10.
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