CN103399483A

CN103399483A - Method and device for power supply management of wearable equipment

Info

Publication number: CN103399483A
Application number: CN2013103294784A
Authority: CN
Inventors: 林金存; 吴炽强; 徐思伟
Original assignee: Yulong Computer Telecommunication Scientific Shenzhen Co Ltd; Dongguan Yulong Telecommunication Technology Co Ltd
Current assignee: Yulong Computer Telecommunication Scientific Shenzhen Co Ltd; Dongguan Yulong Telecommunication Technology Co Ltd
Priority date: 2013-07-31
Filing date: 2013-07-31
Publication date: 2013-11-20
Anticipated expiration: 2033-07-31
Also published as: CN103399483B

Abstract

The invention discloses a method and a device for power supply management of wearable equipment, and relates to the technical field of communication. After the adoption of the technical scheme, the electricity waste caused by the use of unused function modules is avoided, the use time of the wearable equipment is increased, and further, the experience of users is enhanced. The method comprises the following steps that the use state of the wearable equipment is detected; and the work mode of the wearable equipment is determined according to the use state of the wearable equipment. The method and the device can be used in the power supply management of the wearable equipment.

Description

The method and apparatus of wearable device power management

Technical field

The present invention relates to communication technical field, relate in particular to the method and apparatus of wearable device power management.

Background technology

In prior art, wearable device gone out can displaying time outside, also increased many other functional units, for example, wearable device with mobile phone pairing after, can communicate with the pairing mobile phone, and can synchronously match phone in mobile phone, note, mail, photo etc.

In existing wearable device design proposal, due to the increase of functional unit, cause the system power consumption larger, shortened the service time of wearable device, and then reduced user's experience.

Summary of the invention

Embodiments of the invention provide a kind of method and apparatus of wearable device power management, after adopting such scheme, corresponding functional module be opened or be closed to wearable device can according to current service condition, avoided opening the functional module that is not used and wasted electric weight, increase the service time of wearable device, and then increased user's experience.

For achieving the above object, embodiments of the invention adopt following technical scheme:

First aspect, provide a kind of method of wearable device power management, comprising:

Detect the use state of described wearable device;

According to the use state of described wearable device, determine its mode of operation.

Second aspect, provide a kind of device of wearable device power management, comprising:

Detecting unit, for detection of the use state of described wearable device;

Determining unit, determine its mode of operation for the use state according to described wearable device.

The method and apparatus of the wearable device power management that the embodiment of the present invention provides, after adopting such scheme, can carry out the closed portion functional module according to the service condition of wearable device, avoided opening the functional module that is not used and wasted electric weight, increase the service time of wearable device, and then increased user's experience.

The accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, in below describing embodiment, the accompanying drawing of required use is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The method flow diagram of a kind of wearable device power management that Fig. 1 provides for the present embodiment;

The method flow diagram of the another kind of wearable device power management that Fig. 2 provides for the present embodiment;

The schematic diagram that switches between three kinds of mode of operations of the wearable device that Fig. 3 provides for the present embodiment;

Fig. 4 for the present embodiment provide at the workflow diagram of wearing wearable device under pattern;

The workflow diagram of wearable device under the pattern of near field that Fig. 5 provides for the present embodiment;

The workflow diagram of wearable device under Far Field Pattern that Fig. 6 provides for the present embodiment;

The apparatus structure schematic diagram of a kind of wearable device power management that Fig. 7 provides for the present embodiment;

The apparatus structure schematic diagram of the another kind of wearable device power management that Fig. 8 provides for the present embodiment.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making under the creative work prerequisite the every other embodiment that obtains, belong to the scope of protection of the invention.

Common, wearable device can include but not limited to following functions: wireless charging, the assistant that lives, utilize that biological characteristic carries out that user's identification, stolen caution, electronic money bag, mobile phone are answered, health control, remote-controller function, map datum collecting function, time showing etc.When wearable device was opened, functional module corresponding to these functions all was in opening, if current wearable device is unlocked but is not used, can waste a large amount of electric weight on wearable device, when wearable device is used again, shortened its service time, reduced user's experience.

In following embodiment, wearable device is not construed as limiting, can be for intelligent watch etc., do not repeat them here.

In order to solve the problems of the technologies described above, the present embodiment provides a kind of method of wearable device power management, and the executive agent of the present embodiment can be wearable device, as shown in Figure 1, can comprise:

101, detect the use state of wearable device.

In the present embodiment, for the mode of operation of wearable device is set accurately, can at first detect the current use state of wearable device, then, according to the current use state of wearable device, determine the mode of operation of wearable device.

102, according to the use state of wearable device, determine its mode of operation.

As an embodiment of the present embodiment, mode of operation can, be used to characterizing the use state of wearable device, can comprise: continue to be used, be used once in a while, be not used for a long time etc.

If wearable device is not used for a long time, in order to save the electric weight of wearable device, can close corresponding functional module in wearable device.

The present embodiment is not construed as limiting the functional module of closing, and can set according to actual needs, does not repeat them here.

After adopting such scheme, can carry out the closed portion functional module according to the service condition of wearable device, avoid opening the functional module that is not used and waste electric weight, increase the service time of wearable device, and then increased user's experience.

The present embodiment provides the method for another kind of wearable device power management, the method is further expanding method shown in Figure 1, in the present embodiment, the mode of operation of wearable device can be, but not limited to comprise: wear pattern, near field pattern, Far Field Pattern etc.

Wherein, the pattern of wearing can be used for a long time for wearable device, and the near field pattern can be used once in a while for wearable device, and Far Field Pattern can not be used for a long time for wearable device.

Concrete, the present embodiment describes take wearable device as intelligent watch as example, as shown in Figure 2, can comprise:

201, detect the parameter sensing of wearable device, if parameter sensing is worn for characterizing wearable device, perform step 205, if parameter sensing is not worn for characterizing wearable device, perform step 202.

Wherein, whether parameter sensing can be worn be used to characterizing wearable device.As an embodiment of the present embodiment, the parameter sensing that detects wearable device can comprise: the watchband parameter that detects intelligent watch.

Whether this watchband parameter can be in the state of button that closes be used to the watchband that characterizes intelligent watch, when the watchband of intelligent watch is in the state of button that closes, intelligent watch may be worn, and when the watchband of intelligent watch is not in the state of button that closes, detects intelligent watch and may not worn.

Concrete, can determine whether the watchband of intelligent watch is in the state of button that closes by physics mode, principle can comprise: when the watchband of intelligent watch is in, close while buckleing state, hasp on watchband or watchband can form a closed-loop path, when being in, do not close while buckleing state by the watchband of intelligent watch, hasp on watchband or watchband forms an open circuit, can determine on watchband whether to form loop by parameters such as corresponding electric currents.

The present embodiment is to judging whether watchband is in the method for closing the state of button and is not construed as limiting, and is technology well known to those skilled in the art, and can sets according to actual needs, does not repeat them here.

The parameter sensing that detects wearable device can also comprise: detect the temperature parameter of wearable device, this temperature parameter can be to detect by the temperature sensor that is arranged on wearable device.

If temperature parameter is higher than preset temperature, can illustrate that wearable device worn (wearable device may near to or in contact with human body), if temperature parameter, higher than preset temperature (wearable device may away from human body), can not illustrate that wearable device is not worn.

The present embodiment is not construed as limiting preset temperature, can set according to actual needs, and for example, preset temperature can be 30 ℃ etc., does not repeat them here.

The parameter sensing that detects wearable device can also comprise: detect the bioelectrical signals of wearable device, this bioelectrical signals can be to detect by the bioelectrical signals sensor that is arranged on wearable device.

Whether this bioelectrical signals can contact with human body be used to characterizing wearable device, if bioelectrical signals detected, can show that wearable device contacts with human body, this moment, wearable device can be worn, if bioelectrical signals do not detected, can show that wearable device does not contact with human body, this moment, wearable device can not worn., if but the dial plate of wearable device is Touch Screen, can mainly detect dial plate and whether with human body, contact, and then whether definite wearable device is worn.

The present embodiment is not construed as limiting the method for detection of biological electric signal, is technology well known to those skilled in the art, and can detects according to actual needs, for example, can detect by capacitance parameter, does not repeat them here.

The parameter sensing that detects wearable device can comprise: the human pulse parameter that detects intelligence.

Whether this human pulse parameter can be worn be used to characterizing wearable device, if the human pulse parameter detected, can show that wearable device (for example contacts with human body, with wrist, contact), this moment, wearable device may be worn, if the human pulse parameter do not detected, can show that wearable device does not contact with human body, this moment, wearable device may not worn.

In addition, can also detect wearable device by acceleration transducer and whether be kept in motion, if wearable device is kept in motion, can show that wearable device may be worn, if wearable device is not kept in motion, can show that wearable device may not worn.

If wearable device is just in executive communication operation, as, receive calls etc., show that wearable device may be worn.

The present embodiment is not construed as limiting the method for the parameter sensing of detection wearable device, can set according to actual needs, for example, can also be the combination of the above-mentioned method of enumerating, and therefore not to repeat here.

202, the mode of operation of determining wearable device is the near field pattern, and closed portion the first functional module, keeps whole the second functional modules to open.

As a kind of embodiment in the present embodiment, the near field pattern can be used once in a while for wearable device.

Further, under the pattern of near field, can close part the first functional module in all functions module, open other second functional modules except the first functional module in all functions module.

As an embodiment of the present embodiment, if wearable device is intelligent watch, the first functional module can comprise following at least one: the corresponding functional modules such as electronic money bag, health control, remote-controller function, map datum collecting function, life assistant.The second functional module can comprise following at least one: the functional module that time showing, wireless charging etc. are corresponding.

The present embodiment is not construed as limiting the first functional module and the second functional module, can set according to actual needs, does not repeat them here.

What deserves to be explained is, in the process of execution step 202 (namely under the pattern of near field), if wearable device detected, worn, can perform step immediately 205.203, detect the time span that wearable device is not used, if the time span that wearable device is not used is less than Preset Time length, perform step 202, if the time span that wearable device is not used is not less than Preset Time length, perform step 204.

If the parameter sensing that detects in step 201 is not worn be used to characterizing wearable device, illustrate that wearable device may often not used, so, in order to determine accurately the duty of wearable device, can also detect the time span that wearable device is not used, and then definite wearable device is be used once in a while or be not used for a long time.

As an embodiment of the present embodiment, after the parameter sensing sign wearable device that detects was not worn, whether wearable device also needed to detect wearable device and is used, and the time span that is not used.

Whether be used can comprise: the temperature parameter that detects wearable device if detecting wearable device.

If temperature parameter higher than preset temperature, can illustrate that wearable device is used, if temperature parameter not higher than preset temperature, can illustrate that wearable device is not used.

Whether be used can also comprise: the bioelectrical signals that detects wearable device if detecting wearable device.

Whether this bioelectrical signals can contact with human body be used to characterizing wearable device, if bioelectrical signals detected, can show that wearable device contacts with human body, this moment, wearable device can be used, if bioelectrical signals do not detected, can show that wearable device does not contact with human body, this moment, wearable device can not be used., if but the dial plate of wearable device is Touch Screen, can mainly detect dial plate and whether with human body, contact, and then whether definite wearable device is used.

Whether be used can comprise: the human pulse parameter that detects intelligence if detecting wearable device.

Whether this human pulse parameter can be used be used to characterizing wearable device, if the human pulse parameter detected, can show that wearable device contacts with human body, this moment, wearable device may be used, if the human pulse parameter do not detected, can show that wearable device does not contact with human body, this moment, wearable device may not be used.

In addition, can also detect wearable device by acceleration transducer and whether be kept in motion, if wearable device is kept in motion, can show that wearable device may be used, if wearable device is not kept in motion, can show that wearable device may not be used.

The present embodiment is not construed as limiting the method whether the detection wearable device is used, and can set according to actual needs, for example, can also be the combination of the above-mentioned method of enumerating, and therefore not to repeat here.

The time span that the detection wearable device is not used can comprise: can detect the time span that wearable device is not used by the timer that is arranged in wearable device.

Concrete, can comprise: timer is set in wearable device, after wearable device being detected and not worn, start timer, when wearable device is used, timer finishes, the time span that this time span can be used, after this time use to finish by timer clear 0, then continue to start timer, perhaps, last wearable device can be used to the moment of end and the initial time that is used by this wearable device between the time span that is not used as wearable device of time span.

The present embodiment is not construed as limiting the method for the time span that the detection wearable device is not used, and can set according to actual needs, does not repeat them here.

What deserves to be explained is, if, when carrying out this step, wearable device detected and worn, can perform step immediately 205.

204, the mode of operation of wearable device is defined as to Far Field Pattern, and, according to closing priority order from high to low, closes successively each the second functional module.

As a kind of embodiment in the present embodiment, Far Field Pattern can not be used for a long time for wearable device.

If wearable device is not used for a long time, in order to save the electric weight of wearable device, corresponding functional module on wearable device can be closed.In closing the process of the corresponding function module, in order not affect the operation of wearable device, can be according to definite sequence shuts functional module successively, and close between each functional module and can postpone a period of time.

What deserves to be explained is, in the process of execution step 204 (namely under Far Field Pattern), if wearable device detected, worn, can perform step immediately 205; Perhaps, if wearable device detected, be used once in a while, can perform step immediately 202.

Further, under Far Field Pattern, can close successively each functional module in the second functional module according to closing priority order from high to low, namely close priority and get over Gao Yuexian and be closed.

Concrete, priority is closed in the priority setting of function that can functional module is corresponding, comprising: the priority of function is higher, closes priority lower, otherwise, higher; Can also close priority according to the set of frequency that functional module is used, comprise: the frequency that is used is higher, closes priority lower, otherwise, higher.

What deserves to be explained is, when but the mode of operation of wearable device is set to Far Field Pattern, but the mode of operation that can be at first wearable device is set to the near field pattern, then from the near field pattern, switch to Far Field Pattern, due to, under the pattern of near field, part the first functional module is closed, therefore, under Far Field Pattern, this first functional module that is in closed condition still is in closed condition, then, to, according to closing priority order from high to low, close successively each the second functional module.

Can perform step 201 or step 203.

205, the mode of operation of determining wearable device is for wearing pattern, and whole the first functional modules and whole second functional module of opening wearable device.

As a kind of embodiment in the present embodiment, the pattern of wearing can be used for a long time for wearable device.

Further, wearing under pattern, can open all functions module in wearable device.

Can perform step 201.

As an embodiment of the present embodiment, as shown in Figure 3, wearable device can switch mutually under three kinds of mode of operations (wearing pattern, near field pattern, Far Field Pattern), concrete switching mode, after can and meeting corresponding condition after detecting corresponding parameter sensing, carry out switching, concrete grammar is put down in writing in foregoing, do not repeat them here.

After adopting such scheme, the mode of operation of wearable device is divided into: wear pattern, near field pattern, Far Field Pattern, under each mode of operation, can carry out different settings to the power supply of wearable device, concrete, can carry out the closed portion functional module according to the service condition of wearable device, avoided opening the functional module that is not used and wasted electric weight, increase the service time of wearable device, and then increased user's experience.

In order can better to above-described embodiment, to understand, below provide a concrete scene, and wearable device operates accordingly under individual mode of operation.

Wearable device detects the watchband parameter, if watchband parameter characterization watchband is in the state of button that closes, wearable device is set to wear pattern, opens all functions module; If parameter sensing characterizes the watchband of wearable device, be not in the state of button that closes, wearable device is set to the near field pattern, and closed portion the first functional module is opened the second functional module; Under the pattern of near field, also need to detect the time span that wearable device is not used, if the time span that wearable device is not used is not less than Preset Time length, switching working mode not, if the time span that wearable device is not used is less than Preset Time length, wearable device is switched to Far Field Pattern from the near field pattern, and once close each functional module in the second functional module according to closing priority.

Concrete, to wear under pattern, it is entrained on wrist by the user that the sensor that wearable device carries detects wearable device.Concrete workflow as shown in Figure 4, when detecting and judging, be in while wearing pattern, each functional module all works, and the retaining part wearable sensors (for example is in opening, detect watchband and whether be in the state of button that closes, by this detection, can judge whether the user will take off wearable device), close other wearable sensors, in order to save electric weight.Whether systemic circulation constantly enters other duty (being near field pattern or Far Field Pattern) on hand by the real-time inspection of sensor of opening, and enters timely other mode of operation after obtaining judgement.

As shown in Figure 5, under the pattern of near field, when system detects wearable device, do not worn, but occasional detects certain signal, the expression wearable device is used, and the user understands the frequent wearable device of checking.Only allow the partial function module be in opening this moment, guarantees that the user can check information timely.Other functional module in various degree enter park mode, to save electric weight.

As shown in Figure 6, under Far Field Pattern, when system detects wearable device, do not worn, entered Far Field Pattern this moment.And, along with the growth of time, according to the priority of closing of functional module, close gradually or each functional unit of dormancy wearable device, until the penetration depth dormancy.When certain signal being detected halfway, open accordingly or wake up corresponding function and (according to the corresponding open function of signal unit, non-ly all wake up, namely switch to the near field pattern.For example, when the user being detected and touch the operation of wearable device, only corresponding opening time Presentation Function, to the user, provide temporal information, other functional unit keeps dormant state), if meet the condition that enters other mode of operation, jump to other mode of operation (as wearing pattern).

Some device embodiment below are provided, and this device embodiment can be corresponding with above-mentioned corresponding embodiment of the method respectively.

The present embodiment provides a kind of device of wearable device power management, as shown in Figure 7, can comprise:

Detecting unit 71, for detection of the use state of wearable device;

Determining unit 72, determine its mode of operation for the use state according to wearable device.

The present embodiment provides the device of another kind of wearable device power management, and this device is to the further expanding of device shown in Figure 7, and as shown in Figure 8, can comprise:

Detecting unit 81, for detection of the use state of wearable device;

Determining unit 82, determine its mode of operation for the use state according to wearable device.

Further, detecting unit 81, specifically for detection of at least one parameter sensing of wearable device, whether parameter sensing is worn for characterizing wearable device.

Further, determining unit 82 comprises:

The first determination module 821, if worn for wearable device, determine that the mode of operation of wearable device is for wearing pattern;

The first adjusting module 822, for wearing under pattern, open whole the first functional modules and whole the second functional module in wearable device.

Further, determining unit 82 comprises:

The second determination module 823, if do not worn for wearable device, determine that the mode of operation of wearable device is the near field pattern;

The second adjusting module 824, under the pattern of near field, closed portion the first functional module, keep whole the second functional modules to open.

Further, detecting unit 81, be also the near field pattern for the mode of operation of determining wearable device at the second determination module, second adjusting module closed portion the first functional module, after keeping whole the second functional modules unlatchings, detect the time span that wearable device is not used;

Determining unit 82 also comprises:

The 3rd determination module 825, be not less than Preset Time length if detect time span for detecting unit, determines that the mode of operation of wearable device is Far Field Pattern;

The 3rd adjusting module 826, under Far Field Pattern, according to closing priority order from high to low, close each the second functional module successively.

After adopting such scheme, the mode of operation of wearable device can be divided into: wear pattern, near field pattern, Far Field Pattern, under each mode of operation, can carry out different settings to the power supply of wearable device, concrete, can carry out the closed portion functional module according to the service condition of wearable device, avoided opening the functional module that is not used and wasted electric weight, increase the service time of wearable device, and then increased user's experience.

Through the above description of the embodiments, the those skilled in the art can be well understood to the present invention and can realize by the mode that software adds essential common hardware, can certainly pass through hardware, but in a lot of situation, the former is better embodiment.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in the storage medium that can read, floppy disk as computing machine, hard disk or CD etc., comprise some instructions with so that computer equipment (can be personal computer, server, or the network equipment etc.) carry out the described method of each embodiment of the present invention.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion by described protection domain with claim.

Claims

1. the method for a wearable device power management, is characterized in that, comprising:

Detect the use state of described wearable device;

2. the method for wearable device power management according to claim 1, is characterized in that, the use state of the described wearable device of described detection comprises:

Detect at least one parameter sensing of described wearable device, whether described parameter sensing is worn for characterizing described wearable device.

3. the method for wearable device power management according to claim 2, is characterized in that,

If described wearable device is worn, determine that the mode of operation of described wearable device is for wearing pattern, and whole the first functional modules and whole second functional module of opening described wearable device.

4. the method for wearable device power management according to claim 2, is characterized in that, if described wearable device do not worn,

The mode of operation of determining described wearable device is the near field pattern, and closed portion the first functional module, keeps whole the second functional modules to open.

5. the method for wearable device power management according to claim 4, it is characterized in that, described, determine that the mode of operation of described wearable device is the near field pattern, and closed portion the first functional module, after keeping whole the second functional modules unlatchings, described method also comprises:

Detect the time span that described wearable device is not used;

If described time span is not less than described Preset Time length, determines that the mode of operation of described wearable device is Far Field Pattern, and, according to closing priority order from high to low, close successively each the second functional module.

6. the device of a wearable device power management, is characterized in that, comprising:

Detecting unit, for detection of the use state of described wearable device;

7. the device of wearable device power management according to claim 6, it is characterized in that, described detecting unit, specifically for detection of at least one parameter sensing of described wearable device, whether described parameter sensing is worn for characterizing described wearable device.

8. the device of wearable device power management according to claim 7, is characterized in that, described determining unit comprises:

The first determination module, if worn for described wearable device, determine that the mode of operation of described wearable device is for wearing pattern;

The first adjusting module, for described, wearing under pattern, open whole the first functional modules and whole the second functional module in described wearable device.

9. the device of wearable device power management according to claim 7, is characterized in that, described determining unit comprises:

The second determination module, if do not worn for described wearable device, determine that the mode of operation of described wearable device is the near field pattern;

The second adjusting module, under the pattern of described near field, closed portion the first functional module, keep whole the second functional modules to open.

10. the device of wearable device power management according to claim 9, it is characterized in that, described detecting unit, also for determining that at described the second determination module the mode of operation of described wearable device is the near field pattern, described second adjusting module closed portion the first functional module, after keeping whole the second functional modules unlatchings, detect the time span that described wearable device is not used;

Described determining unit also comprises:

The 3rd determination module, be not less than described Preset Time length if detect described time span for described detecting unit, determines that the mode of operation of described wearable device is Far Field Pattern;

The 3rd adjusting module, under described Far Field Pattern, according to closing priority order from high to low, close each the second functional module successively.