CN106293071A - The mode switching method of a kind of wearable device and wearable device - Google Patents
The mode switching method of a kind of wearable device and wearable device Download PDFInfo
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- CN106293071A CN106293071A CN201610609140.8A CN201610609140A CN106293071A CN 106293071 A CN106293071 A CN 106293071A CN 201610609140 A CN201610609140 A CN 201610609140A CN 106293071 A CN106293071 A CN 106293071A
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- wearable device
- physiological parameter
- heart rate
- unit
- monitoring
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- G—PHYSICS
- 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
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/26—Power supply means, e.g. regulation thereof
- G06F1/32—Means for saving power
- G06F1/3203—Power management, i.e. event-based initiation of a power-saving mode
- G06F1/3206—Monitoring of events, devices or parameters that trigger a change in power modality
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/26—Power supply means, e.g. regulation thereof
- G06F1/32—Means for saving power
- G06F1/3203—Power management, i.e. event-based initiation of a power-saving mode
- G06F1/3234—Power saving characterised by the action undertaken
- G06F1/3287—Power saving characterised by the action undertaken by switching off individual functional units in the computer system
Abstract
The present invention discloses mode switching method and the wearable device of a kind of wearable device, physiological parameter by sensor unit monitoring human body, and judge whether the physiological parameter monitored meets default switching requirement, when the satisfied default switching of the physiological parameter monitored requires, wearable device is switched to sleep pattern by normal mode of operation, the power consumption making wearable device is substantially reduced, and then the cruising time of extension device, simultaneously, after wearable device switches to sleep pattern, it be also possible to use family in sleep procedure not calling by external equipment bother, promote Consumer's Experience further.
Description
Technical field
The present invention relates to communication technical field, particularly relate to mode switching method and the wearable device of a kind of wearable device.
Background technology
Along with development and the release of high-performance treatments chip of mobile Internet, part wearable device moves towards from conceptualization
Commercialization, as the Intelligent worn device such as Intelligent bracelet, intelligent watch, intelligent glasses gradually enter into the life of people, the most extensively
The general life affecting people, especially in terms of health control, Intelligent worn device is by physiological data every to human body
Monitoring, makes people more easily grasp the health of self, thus more people carries with.
Current Intelligent worn device in view of be convenient for people to dress application demand, universal small volume, correspondingly, for
The battery capacity of Intelligent worn device offer power supply is the least.But, less battery capacity limits Intelligent worn device
In cruising time, cause Intelligent worn device the most often flying power not enough, and then reduce the experience of user.
Summary of the invention
The present invention provides mode switching method and the wearable device of a kind of wearable device, solves wearable device in prior art
The technical problem that the less flying power caused of battery capacity is not enough.
For solve above-mentioned technical problem, the present invention by the following technical solutions:
A kind of mode switching method of wearable device, including:
Physiological parameter by sensor unit monitoring human body;
Judge whether described physiological parameter meets and preset switching requirement;
When the satisfied default switching of described physiological parameter requires, wearable device is switched to, by normal mode of operation, mould of sleeping
Formula, the wearable device power consumption under described sleep pattern is less than the wearable device power consumption under normal mode of operation.
Wherein, the described step that wearable device is switched to by normal mode of operation sleep pattern, specifically include:
The power supply of the closedown other at least one business unit in addition to sensor unit and minimum operation system.
Wherein, at least one during described physiological parameter includes heart rate, pulse, blood pressure, human activity amount, human body displacement.
Wherein, described method includes:
Heart rate by heart rate sensor monitoring human body;
Judge that whether described heart rate is less than presetting heart rate range;
When monitoring described heart rate less than default heart rate range, wearable device is switched to sleep by normal mode of operation
Pattern.
Wherein, after the physiological parameter by sensor unit monitoring human body, also include:
The described physiological parameter that storage monitors.
Wherein, described the mode of operation of wearable device is switched to sleep pattern after, also include:
When described physiological parameter be unsatisfactory for preset switching require time, switch to normally work by sleep pattern by wearable device
Pattern.
The present invention also provides for a kind of wearable device, including: sensor unit and processor unit;
Described sensor unit is for monitoring the physiological parameter of human body, and transmits described physiological parameter to described processor
Unit;
Described processor unit is used for judging whether described physiological parameter meets and presets switching requirement, when described physiological parameter
When satisfied default switching requires, wearable device is switched to sleep pattern by normal mode of operation.
Wherein, also include: Power Management Unit;
Described Power Management Unit, under the control of described processor unit, is closed except sensor unit and minimum fortune
The power supply of other at least one business unit outside row system.
Wherein, described processor unit is additionally operable to after the mode of operation of wearable device is switched to sleep pattern, when
Sensor unit monitors described physiological parameter and is unsatisfactory for presetting switching when requiring, is just switched to by sleep pattern by wearable device
Often mode of operation.
Wherein, also include: memory cell;
Described memory cell is for storing the physiological parameter of described processor unit transmission.
The mode switching method of the wearable device that the present invention provides and wearable device, by sensor unit monitoring human body
Physiological parameter, and judge whether the physiological parameter monitored meets default switching requirement, when the physiological parameter monitored meets pre-
If switching requires, wearable device is switched to sleep pattern by normal mode of operation so that the power consumption of wearable device drops significantly
Low, and then the cruising time of extension device, meanwhile, after wearable device switches to sleep pattern, it be also possible to use family in sleep procedure
In do not bothered by the calling of external equipment, promote Consumer's Experience further.
Accompanying drawing explanation
The mode switching method flow chart of the wearable device that Fig. 1 provides for the embodiment of the present invention one;
The concrete pattern switching flow figure of the wearable device that Fig. 2 provides for the embodiment of the present invention two;
The wearable device structural representation that Fig. 3 provides for the embodiment of the present invention three;
The hardware block diagram of the wearable device that Fig. 4 provides for the embodiment of the present invention four.
Detailed description of the invention
It should be appreciated that specific embodiment described herein is only used for explaining the present invention, it is not used to limit this
Bright.
External equipment described in the present invention can include the communication equipment such as base station, other lan devices, it is possible to includes
The terminals such as smart mobile phone, notebook computer, PAD (panel computer).Accompanying drawing is combined to the present invention below by detailed description of the invention
It is described in further detail.
Embodiment one
Limit the cruising time of equipment in order to solve existing wearable device because battery capacity is less, cause equipment
The most often flying power is not enough, thus affects the technical problem of Consumer's Experience, and the present embodiment provides one to dress
The mode switching method of equipment, by the physiological parameter of sensor unit monitoring human body, then judges that the physiological parameter of monitoring is
The switching requirement of no satisfied setting, in the case of satisfied switching requires, switches to sleep pattern by wearable device, wears to reduce
Wear the power consumption of equipment, meanwhile, when the communication of wearable device with external equipment disconnects, it is also possible to avoid quilt in user's sleep procedure
The calling of external equipment is bothered, and promotes the experience of user further.
Aforementioned wearable device is used for being worn on human body, and for monitoring the physiological parameter of human body, such as human body sport parameter, people
Body biological parameters etc., can set up communication connection relation by the modes such as radio frequency, bluetooth or wireless network and external equipment.This is worn
The equipment of wearing can include Intelligent bracelet, intelligent watch, intelligence necklace, intelligence ring etc., in the examples below, this wearable device
All it is described as a example by Intelligent bracelet.
Referring to the mode switching method flow chart of the wearable device that Fig. 1, Fig. 1 provide for the present embodiment, concrete pattern is cut
Change process as follows:
S11, by the physiological parameter of sensor unit monitoring human body.
Specifically, at least one during physiological parameter includes heart rate, pulse, blood pressure, human activity amount, human body displacement.Right
Ying Di, if sensor unit is heart rate sensor, then the physiological parameter of its monitoring is heart rate;If sensor unit is pulse sensing
Device, then the physiological parameter of its monitoring is pulse;If sensor unit is pressure transducer, then the physiological parameter of its monitoring is blood
Pressure;If sensor unit is motion sensor, then the physiological parameter of its monitoring is human activity amount and human body displacement, wherein, and fortune
Dynamic sensor includes acceleration transducer, gyroscope, etc..Namely sensor unit can include but not limited to biosensor
Or motion sensor, biosensor includes but not limited to heart rate sensor, pulse transducer and pressure transducer.To this, can
The physiological parameter of the sensor type monitoring correspondence according to actual set.
Additionally, sensor unit may also set up multiple sensor, such as biosensor and motion sensor, when needs are supervised
When surveying a certain physiological parameter of human body, can be monitored by corresponding sensor, other untapped sensors can be by place
Reason device unit is closed with the power consumption reducing wearable device as far as possible.When needing the multinomial physiological parameter monitoring human body, pass through
Sensor corresponding to each physiological parameter is monitored, and other untapped sensors equally cut out to ensure by processor unit
The flying power of wearable device.
S12, it is judged that whether the physiological parameter monitored meets is preset switching requirement, if physiological parameter meets default switching and wants
Asking, then perform S13 step, if being unsatisfactory for presetting switching requirement, then continuing executing with S12 step.
S13, is switched to sleep pattern by wearable device by normal mode of operation.
Specifically, after wearable device being switched to sleep pattern by normal mode of operation by processor unit so that sleep
Wearable device power consumption under sleep mode is less than the wearable device power consumption under normal mode of operation, thus promotes the continuation of the journey of wearable device
Ability, the cruising time of extension device.
When wearable device is in normal mode of operation, it is possible to realization is made a phone call, sends short messages, surfs the Net, listened music, vibrations, GPS
At least one in the functions such as navigation.Namely wearable device can communicate with external equipment, or self can produce and shake
Move or sound is to point out user, it is possible to carry out GPS navigation etc..
When wearable device is in sleep pattern, wearable device closes the sensor unit except monitoring physiological parameter and minimum
The application program of other at least one business unit outside operation system, has been also switched off except the sensor of monitoring physiological parameter simultaneously
The power supply of other at least one business unit outside unit and minimum operation system, makes the system power dissipation of wearable device drop to
Low.
In a kind of embodiment, can carry out with external equipment such as base station, other lan devices when wearable device disconnects
During the power supply of radio frequency communications unit of communication, also cut off the communication with external equipment, to reduce system power dissipation further, with
This simultaneously, is also made user will not be bothered by the calling of external equipment in sleep procedure, be ensure that by present embodiment
Wearable device does not interferes with the sleep quality of user while reducing power consumption yet, but when external equipment calling wearable device,
User cannot be known.
In another embodiment, the most also wearable device can be adjusted to quiet, close wearable device
Volume and vibrations so that even if wearable device receives the information of external equipment or calling also will not remind user, but recordable letter
Breath or the historical record of calling.Be ensure that the sleep quality of user by present embodiment, wear when external equipment calling simultaneously
When wearing equipment, user also is able to go and find out what's going in time, will not miss important information, but, due to video communication unit all the time
It is in opening so that system power dissipation is bigger compared to the power consumption of previous embodiment.
The core component that aforementioned minimum operation system refers to guarantee system can normally work, generally by power supply
Administrative unit, processor unit and memory cell composition, if minimum operation system is also switched off, wearable device then cannot normally be transported
OK.Such as, wearable device is simply turned off other at least one industry in addition to the sensor unit of minimum system and monitoring physiological parameter
Business unit reduces system power dissipation, and wherein, business unit refers to realize the unit of some business functions.
Further, due to human body in a sleep state, muscle is in relaxed state, and limbs amplitude is less, and motion frequency
Rate is relatively low, and correspondingly, the physiological status such as heart rate, blood pressure, pulse is the slowest, therefore, and can be by Sensor monitoring human body
Physiological parameter judges whether wearable device is carried out pattern switching.
Aforementioned default switching requirement can be that the physiological parameter of monitoring is less than presetting physiological parameter threshold, it is also possible to is monitoring
Physiological parameter less than the minima preset in the range of physiological parameter.I.e. when the fixed value that physiological parameter sets less than,
Just wearable device is carried out pattern switching;Or, when physiological parameter is less than the minima of a set point, just wearing is set
For carrying out pattern switching.Wherein, should there is certain data difference in two endpoint values of physiological parameter scope, reasonably evade biography
The monitoring error of sensor cell, thus avoid two endpoint values because getting too close to, cause wearable device to go out because of statistical error
The existing problem repeatedly switched between sleep pattern and normal mode of operation.It may be noted that aforementioned physiological parameter threshold or physiological parameter
Scope is the heart rate value after human body entrance sleep state or heart rate range;For heart rate range, small end point value is that human body enters
Entering the marginal value of sleep, bigger endpoint value is the marginal value that human body is clear-headed.When the heart rate of monitoring is in default heart rate range, can
Setting this heart rate value as the value under the value under wake states, or sleep state according to practical situation, this is not done by the present embodiment has
Body limits.
Such as, as a example by physiological parameter is as heart rate, if heart rate sensor monitor the heart rate of human body less than heart rate threshold or
Minima in heart rate range, it is determined that human body is in sleep state, needs wearable device is switched to sleep pattern;With physiology
As a example by parameter is human activity amount, if motion sensor monitors human activity amount less than in the range of activity threshold value or activity
Minima, it is determined that human body is in sleep state, needs wearable device is switched to sleep pattern;Certainly, it is possible to comprehensively examine
Consider heart rate and human activity amount, improve monitoring precision further.
More specifically, wearable device is as a example by Intelligent bracelet, sensor unit as a example by heart rate sensor, normal condition
Under, the dormant heart rate range of women is 60 70 beats/min.Based on aforementioned condition, preset switching and require respectively with heart rate
As a example by threshold value 70 beats/min and heart rate range 65-75 beat/min, sleep quality situation is analyzed.
Assume to preset switching and require to be heart rate threshold, and heart rate threshold is 70 beats/min, when heart rate Sensor monitoring is to people
When the heart rate of body is 75 times per minute, owing to the heart rate of heart rate sensor monitoring is higher than dormant heart rate threshold, it may be determined that
Human body is in waking state;When the heart rate of heart rate Sensor monitoring to human body is per minute be 65 times time, due to heart rate sensor supervise
The heart rate surveyed is less than dormant heart rate threshold, it may be determined that human body is in sleep state.
Assume to preset switching and require to be heart rate range, and heart rate range is 65-75 beat/min, when heart rate Sensor monitoring
When heart rate to human body is 77 times per minute, owing to the heart rate of monitoring is higher than the maximum of dormant heart rate range, can be true
Determine human body and be in waking state;When the heart rate of heart rate Sensor monitoring to human body is per minute be 63 times time, due to monitoring heart rate
Minima less than dormant heart rate range, it may be determined that human body is in sleep state.
Further, after the physiological parameter being monitored human body by sensor unit, this physiological parameter can be deposited
Storage, history of forming record, facilitate processor unit to obtain, meanwhile, it is capable to setting up, with external equipment such as mobile terminal, the pass that communicates
After system, historical record is synchronized on the application software of mobile terminal, checks the physiological situation of self with aspect user at any time.
Further, after wearable device is switched to sleep pattern by normal mode of operation, sensor unit is still held
The physiological parameter of continuous monitoring human body, when the physiological parameter of monitoring be unsatisfactory for presetting switching require time, illustrate that user revives, pass through
Wearable device is switched to normal mode of operation by sleep pattern by processor unit, recovers the communication of wearable device and external equipment
Or the function such as the sound of recovery wearable device and vibrations.
Specifically, when the physiological parameter of monitoring is higher than setting physiological parameter threshold or physiological parameter scope, then it is assumed that user
Revive, wearable device can be switched to the normal mode of operation various functions with restorer by sleep pattern again.
By the mode switching method of the wearable device that the present embodiment provides, with the physiological parameter of sensor unit monitoring it is
The Rule of judgment of pattern switching, physiological parameter meet switching require time, processor unit the pattern of wearable device is switched
To sleep pattern so that the system of wearable device can reduce power consumption as far as possible, thus increases the cruising time of wearable device,
Provide the user more preferable experience;Meanwhile, after wearable device is switched to sleep pattern, if cutting off and external equipment
Communicate or wearable device is adjusted to quiet, additionally it is possible to ensureing the sleep quality of user, further promote Consumer's Experience.
Embodiment two
The present embodiment content based on embodiment one mode switching method to the wearable device that the embodiment of the present invention provides
It is described further.As a example by heart rate sensor monitoring human heart rate, complete mode handover procedure is analyzed, specifically
Referring to the concrete pattern switching flow figure of the wearable device that Fig. 2, Fig. 2 provide for the present embodiment, whole mode handover procedure is such as
Under:
S21, starts heart rate sensor.
Specifically, remove outside heart rate sensor, also can use other sensors, such as pressure transducer, motion sensor etc.,
The present invention does not limit concrete sensor type.
S22, by the heart rate of heart rate sensor monitoring human body.
S23, it is judged that whether the heart rate of monitoring, less than heart rate threshold A, if the heart rate of monitoring is less than heart rate threshold A, then performs
S24 step, if the heart rate of monitoring is not less than heart rate threshold A, then continues executing with S23 step.
Specifically, heart rate threshold A is the marginal value that human body enters sleep.Remove outside heart rate threshold A, it is also possible to be heart rate model
Enclose, if the heart rate of monitoring is less than the minima in heart rate range, then it is assumed that human body is in sleep state, it may be noted that less than minimum
The heart rate of value refers to be in the heart rate value of ortho sleep state, for extremely low heart rate or these more special hearts of high heart rate
Rate value, the present embodiment can be not as references object.
S24, switches to sleep pattern by processor unit by wearable device.
Specifically, after wearable device is switched to sleep pattern by normal mode of operation, radio frequency unit can be closed, with in
Disconnected wearable device and the communication of external equipment, to reduce system power dissipation as far as possible, nor affect on the sleep quality of user simultaneously;
Certainly, it is possible to be only that wearable device is switched to mute state, close other to need not monitor physiological parameter or not fixed with GPS
The business unit of position.
S25, heart rate sensor continues monitoring human heart rate.
S26, it is judged that whether the heart rate of monitoring, higher than heart rate threshold B, if the heart rate of monitoring is higher than heart rate threshold B, then performs
S27 step, if the heart rate of monitoring is not higher than heart rate threshold B, then continues executing with S25 step.
Specifically, heart rate threshold B can be identical with heart rate threshold A, then presetting heart rate threshold is a fixed value;Heart rate threshold
Value B can also be different from heart rate threshold A, then presetting heart rate is a heart rate range.In heart rate range, A is for entering sleep shape
The marginal value of state, B is the marginal value entering wake states, and under normal circumstances, heart rate value B is more than heart rate value A, meanwhile, in order to keep away
Exempt from heart rate value A and heart rate value B to get too close to cause wearable device to cause at sleep pattern and normal Working mould because of monitoring error
The problem repeatedly switched between formula, has certain data difference, with reasonably avoiding heart rate sensor between heart rate value A and heart rate value B
Statistical error.
S27, switches to normal mode of operation by processor unit by wearable device.
Specifically, after wearable device is switched to normal mode of operation by sleep pattern, radio frequency unit can be opened, to recover
Communication with external equipment so that user can normally use wearable device.
Embodiment three
The present embodiment is based on embodiment one, and the wearable device providing the present embodiment illustrates.Embodiment one is protected
The scheme protected can be applicable to the equipment that this enforcement provides, therefore wearable device will no longer be elaborated by the present embodiment.This wearing
Equipment is used for being worn on human body, and for monitoring the physiological parameter of human body, such as human body sport parameter, human-body biological parameter etc., and can
Communication connection relation is set up by the modes such as radio frequency, bluetooth or network and external equipment.This wearable device can include intelligence hands
Ring, intelligent watch, intelligence necklace, intelligence ring etc., in the examples below, this wearable device all enters as a example by Intelligent bracelet
Line description.
Specifically referring to Fig. 3, this wearable device includes: sensor unit 31 and processor unit 32;
Sensor unit 31 is for monitoring the physiological parameter of human body, and transmits physiological parameter to processor unit 32;
Whether processor unit 32 meets for the physiological parameter judging monitoring is preset switching requirement, when physiological parameter meets
When default switching requires, wearable device is switched to sleep pattern by normal mode of operation.
Specifically, the physiological parameter of sensor unit 31 monitoring includes heart rate, pulse, blood pressure, human activity amount, people's position
At least one in shifting.Accordingly, if sensor unit 31 is heart rate sensor, then the physiological parameter of its monitoring is heart rate;If
Sensor unit 31 is pulse transducer, then the physiological parameter of its monitoring is pulse;If sensor unit 31 is pressure transducer,
Then the physiological parameter of its monitoring is blood pressure;If sensor unit is motion sensor, then the physiological parameter of its monitoring is that human body is lived
Momentum and human body displacement, wherein, motion sensor includes acceleration transducer, gyroscope, etc..Namely sensor unit 31 can
To include but not limited to biosensor or motion sensor, biosensor includes but not limited to that heart rate sensor, pulse pass
Sensor and pressure transducer.To this, corresponding physiological parameter can be monitored according to the sensor type of actual set.
Aforementioned default switching requirement can be that the physiological parameter of monitoring is less than presetting physiological parameter threshold, it is also possible to is monitoring
Physiological parameter less than the minima preset in the range of physiological parameter.I.e. when the fixed value that physiological parameter sets less than,
Just wearable device is carried out pattern switching;Or, when physiological parameter is less than the minima of a set point, just wearing is set
For carrying out pattern switching.Wherein, should there is certain data difference in two endpoint values of physiological parameter scope, reasonably evade biography
The monitoring error of sensor cell, thus avoid two endpoint values because getting too close to, cause wearable device to go out because of statistical error
The existing problem repeatedly switched between sleep pattern and normal mode of operation.It may be noted that aforementioned physiological parameter threshold or physiological parameter
Scope is the heart rate value after human body entrance sleep state or heart rate range;For heart rate range, small end point value is that human body enters
Entering the marginal value of sleep, bigger endpoint value is the marginal value that human body is clear-headed.When the heart rate of monitoring is in default heart rate range, can
Setting this heart rate value as the value under the value under wake states, or sleep state according to practical situation, this is not done by the present embodiment has
Body limits.
Further, processor unit 32 also includes Power Management Unit 33, is used under the control of processor unit 32,
The power supply of the closedown other at least one business unit in addition to sensor unit 31 and minimum operation system.
Specifically, after wearable device is converted to sleep pattern by normal mode of operation, wearable device closes except prison
The application program of other at least one business unit outside the sensor unit 31 of survey physiological parameter and minimum operation system, simultaneously
Other at least one business unit being also switched off in addition to the sensor unit 31 and minimum operation system of monitoring physiological parameter
Power supply, makes the system power dissipation of wearable device be preferably minimized.Correspondingly, when wearable device is in normal mode of operation, it is possible to real
Now make a phone call, send short messages, surf the Net, listen at least one in the functions such as music, vibrations, GPS navigation.Namely wearable device can be with
External equipment communicates, or self can produce vibration or sound to point out user, it is possible to carry out GPS navigation etc..
The concrete business unit included for wearable device, refers to Fig. 4 and embodiment four, and the present embodiment repeats the most here.
Further, this wearable device also includes memory cell 34, for storing the life of processor unit 32 transmission
Reason parameter.Specifically, after sensor unit 31 monitors the physiological parameter of human body, this physiological parameter is transmitted to processor unit
32, physiological parameter is added up by processor unit 32, and the physiological parameter after statistics is transferred to memory cell 34 and is carried out
Storage, history of forming record, facilitate processor unit 32 to obtain, meanwhile, it is capable to setting up logical with external equipment such as mobile terminal
After gateway system, historical record is synchronized on the application software of mobile terminal, checks the physiology shape of self with aspect user at any time
Condition.
The core component that aforementioned minimum operation system refers to guarantee system can normally work, generally by power supply
Administrative unit, processor unit and memory cell composition, if minimum operation system is also switched off, wearable device then cannot normally be transported
OK.Such as, wearable device is simply turned off other at least one industry in addition to the sensor unit of minimum system and monitoring physiological parameter
Business unit reduces system power dissipation, and wherein, business unit refers to realize the unit of some business functions.
After wearable device is switched to sleep pattern by normal mode of operation, sensor unit 31 still continues to monitor human body
Physiological parameter, when monitoring physiological parameter be unsatisfactory for preset switching require time, illustrate that user revives, processor unit 32 general
Wearable device is switched to normal mode of operation by sleep pattern, and recovery wearable device sets with communication or the recovery wearing of external equipment
The functions such as standby sound and vibrations.
The wearable device provided by the present embodiment, it is possible to reduce the power consumption of this equipment, the continuation of the journey of extension device greatly
Time, also can guarantee that the sleep quality of user simultaneously, improve Consumer's Experience further.
Embodiment four
The general frame of wearable device, based on embodiment three, is illustrated by the present embodiment, refers to Fig. 4, Fig. 4 and is
The hardware block diagram of the wearable device that the present embodiment provides.Need to understand, the wearable device that the present embodiment provides is applicable to
State the wearable device that embodiment one to three any embodiment relates to.In figure, this wearable device includes processor unit 41, power supply pipe
Reason unit 42, radio frequency communications unit 43, memory cell 44, input block 45, output unit 46 and sensor unit 47, its
In, sensor unit includes heart rate sensor 471 and other sensors 472, need to understand, other sensors 472 refer to it
At least one sensor of his type, such as motion sensor, pressure transducer etc..
Processor unit 41 is for controlling the overall operation of wearable device, and the work to each business unit is controlled, complete
Become the data interaction between each business unit.Wherein, business unit can be radio frequency communications unit 43, input block 45, output list
Unit 46 etc..
Power Management Unit 42 is under the control of processor unit 41, to the electricity needed for business unit offer work
Source, and meet the some timing requirements up and down of each business unit.
Radio frequency communications unit 43 include but not limited to 3G, 4G, BT, WIFI etc. radio-frequency communication module, for and base station it
Between or lan device between carry out data communication.
Memory cell 44 includes but not limited to the storage devices such as flash memory, dynamic RAM, SD card, is used for storing place
The software program of reason device unit 41, or the various data that temporarily work of storage wearable device produces.
Input block 45 includes but not limited to mike, touch screen, the first-class equipment gathering external data of shooting.
Output unit 46 includes but not limited to the equipment for external world's transmission data such as display screen, loudspeaker.
Sensor unit 47 includes heart rate sensor 471 and other sensors 472 that can be used for gathering somatic data, mainly
For monitoring the indices of human body, meet the demand data that own health is managed by user.
Based on above-mentioned each hardware cell, it is possible to ensure that wearable device reduces system power dissipation as far as possible, continuing of extension device
ETS estimated time of sailing, reduces the impact on user's sleep quality simultaneously, to promote Consumer's Experience further.
Above content is to combine specific embodiment further description made for the present invention, it is impossible to assert this
Bright being embodied as is confined to these explanations.For general technical staff of the technical field of the invention, do not taking off
On the premise of present inventive concept, it is also possible to make some simple deduction or replace, all should be considered as belonging to the protection of the present invention
Scope.
Claims (10)
1. the mode switching method of a wearable device, it is characterised in that including:
Physiological parameter by sensor unit monitoring human body;
Judge whether described physiological parameter meets and preset switching requirement;
When the satisfied default switching of described physiological parameter requires, wearable device is switched to sleep pattern by normal mode of operation,
Wearable device power consumption under described sleep pattern is less than the wearable device power consumption under normal mode of operation.
2. the mode switching method of wearable device as claimed in claim 1, it is characterised in that described by wearable device by normally
Mode of operation switches to the step of sleep pattern, specifically includes:
The power supply of the closedown other at least one business unit in addition to sensor unit and minimum operation system.
3. the mode switching method of wearable device as claimed in claim 1, it is characterised in that described physiological parameter includes the heart
At least one in rate, pulse, blood pressure, human activity amount, human body displacement.
4. the mode switching method of wearable device as claimed in claim 3, it is characterised in that described method includes:
Heart rate by heart rate sensor monitoring human body;
Judge that whether described heart rate is less than presetting heart rate range;
When monitoring described heart rate less than default heart rate range, wearable device is switched to, by normal mode of operation, mould of sleeping
Formula.
5. the mode switching method of the wearable device as described in any one of claim 1-4, it is characterised in that passing through sensor
After the physiological parameter of unit monitoring human body, also include:
The described physiological parameter that storage monitors.
6. the mode switching method of the wearable device as described in any one of claim 1-4, it is characterised in that will dress described
After the mode of operation of equipment switches to sleep pattern, also include:
When described physiological parameter be unsatisfactory for preset switching require time, wearable device is switched to normal Working mould by sleep pattern
Formula.
7. a wearable device, it is characterised in that including: sensor unit and processor unit;
Described sensor unit is for monitoring the physiological parameter of human body, and transmits described physiological parameter to described processor list
Unit;
Described processor unit is used for judging whether described physiological parameter meets and presets switching requirement, when described physiological parameter meets
When default switching requires, wearable device is switched to sleep pattern by normal mode of operation.
8. wearable device as claimed in claim 7, it is characterised in that also include: Power Management Unit;Described power management list
Unit under the control of described processor unit, close in addition to sensor unit and minimum operation system other at least one
The power supply of business unit.
9. wearable device as claimed in claim 7 or 8, it is characterised in that described processor unit is additionally operable to setting wearing
After standby mode of operation switches to sleep pattern, when sensor unit monitor described physiological parameter be unsatisfactory for preset switching want
When asking, wearable device is switched to normal mode of operation by sleep pattern.
10. wearable device as claimed in claim 7 or 8, it is characterised in that also include: memory cell;
Described memory cell is for storing the physiological parameter of described processor unit transmission.
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