CN104298352A - Wearable equipment working mode control method and system - Google Patents

Abstract

The invention provides a wearable equipment working mode control method and system. The wearable equipment working mode control method comprises the following steps of acquiring a proximity intensity value detected by a proximity detector which is arranged on wearable equipment; comparing the proximity intensity value with a preset threshold value; determining a current wearing state of the wearable equipment according to the a comparison result of the comparison; controlling the wearable equipment to enter a working mode which is corresponding to the current wearable state according to the current wearing state. According to the scheme of the wearable equipment working mode control method, automatic switching of the working modes of the wearable equipment can be achieved and the cruising power of the wearable equipment can be improved to improve the user experience.

Description

The control method of the mode of operation of Wearable and system

Technical field

The present invention relates to Wearable technical field, particularly relate to a kind of control method and system of mode of operation of Wearable.

Background technology

Along with the continuous rising that user requires the operating experience of the mobile terminal such as smart mobile phone, panel computer, increasing Wearable (such as intelligent watch, Intelligent bracelet etc.) is also arisen at the historic moment.After the pairing of the mobile terminal such as Wearable and mobile phone, can communicate with the mobile phone of pairing, and synchronously can match the phone, note, mail, photo etc. in mobile phone.

At present, the same with general intelligence terminal, also there is the multiple mode of operation that can arrange in Wearable, generally, user can operate to select corresponding mode of operation in terminal, and this mode of operation needs user's manual operation, quite machinery and intelligence degree is low, in some mode of operation application scenarios, its effect can be reduced.

Particularly the battery of Wearable is less relative to the battery of mobile phone, energy storage capacity is weak, cause the pot life of Wearable short, if mode of operation switching can not be carried out in time, switch to the battery saving mode of low-power consumption, this reduces the effect of battery saving mode, reduce the flying power of Wearable, and, blocked operation frequently, reduces Consumer's Experience.

Summary of the invention

The object of the present invention is to provide a kind of control method and system of mode of operation of Wearable, the flying power of Wearable can be improved, promote Consumer's Experience.

Object of the present invention is achieved through the following technical solutions:

A control method for the mode of operation of Wearable, is characterized in that, comprises the steps:

Obtain the proximity transducer be arranged in Wearable detect close to intensity level;

Compare described close to intensity level and the threshold value preset;

The current wearing state of described Wearable is determined according to the comparative result of described comparison;

Control described Wearable according to described current wearing state and enter mode of operation corresponding to described current wearing state.

A control system for the mode of operation of Wearable, is characterized in that, comprising:

Acquisition module, for obtain that the proximity transducer be arranged in Wearable detects close to intensity level;

Comparison module, for comparing described close to intensity level and the threshold value preset;

Determination module, for determining the current wearing state of described Wearable according to the comparative result of described comparison module;

Control module, enters mode of operation corresponding to described current wearing state for controlling described Wearable according to described current wearing state.

According to the scheme of the invention described above, its be obtain the proximity transducer be arranged in Wearable detect close to intensity level, this is compared close to intensity level and the threshold value preset, the current wearing state of described Wearable is determined according to comparative result, control described Wearable according to this current wearing state and enter mode of operation corresponding to described current wearing state, owing to can control the mode of operation of Wearable according to the current wearing state of Wearable, therefore, can automatically control it when it is not worn and enter battery saving mode, avoid unnecessary electricity waste, improve the flying power of Wearable, and then improve Consumer's Experience, simultaneously, owing to only needing to obtain close to intensity level and simply processing (comparing and determining current wearing state according to comparative result close to intensity level and default threshold value size) close to intensity level just can control the mode of operation of Wearable afterwards based on this, algorithm is simple, also electricity is further saved.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the embodiment one of the control method of the mode of operation of Wearable of the present invention;

Fig. 2 is the schematic flow sheet of the embodiment two of the control method of the mode of operation of Wearable of the present invention;

Fig. 3 is the control system structural representation in one embodiment of the mode of operation of Wearable of the present invention;

Fig. 4 is the control system structural representation in another embodiment of the mode of operation of Wearable of the present invention.

Embodiment

For making object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is described in further detail.Should be appreciated that embodiment described herein only in order to explain the present invention, do not limit protection scope of the present invention.

In the following description, the embodiment first for the control method of the mode of operation of Wearable of the present invention is described, then is described each embodiment of the control system of the mode of operation of Wearable of the present invention.

Embodiment one

Shown in Figure 1, be the schematic flow sheet of the embodiment one of the control method of the mode of operation of Wearable of the present invention.As shown in Figure 1, the control method of the mode of operation of the Wearable in the present embodiment comprises the steps:

Step S101: obtain the proximity transducer be arranged in Wearable detect close to intensity level, enter step S102;

Here, Wearable can comprise intelligent watch, Intelligent bracelet, intelligent glasses, intelligent shoe or Intelligent garment etc.;

Usually, proximity transducer is built-in with infrared transmitting tube and infrared receiving tube, and carry out work by infrared external reflection and infrared receiver, when there being object close, the infra-red intensity so reflected can increase; When have object away from, the infra-red intensity so reflected can reduce, what proximity transducer detected can characterize distance between Wearable and object (as long as referring to human body) close to intensity level, this is generally stored in the register of proximity transducer close to intensity level, therefore, can read from the register of proximity transducer that proximity transducer detects close to intensity level;

It should be noted that, what read out from the register of proximity transducer is a pure values not having unit close to intensity level, such as 625, although this can not go out the intensity level of infrared light by real reaction close to intensity level, the relative size of the intensity level of infrared light can be reflected;

Be mainly used for judging whether Wearable is worn close to intensity level in the present embodiment, and then control its mode of operation, in order to increase the accuracy of measurement, when Wearable is worn, proximity transducer needs to be close to skin, so, sensor generally needs the back side being arranged on Wearable, the one side can be close to the skin of user, for intelligent watch, can be arranged on the dial plate of this intelligent watch or the back side of watchband;

Step S102: compare described close to intensity level and the threshold value preset, enter step S103;

Wherein, the size of threshold value and number can set according to actual needs, compare close to intensity level and threshold value the comparison referring to the two size;

Step S103: the current wearing state determining described Wearable according to the comparative result of described comparison, enters step S104;

Wherein, comparative result comprises and is greater than threshold value close to intensity level or is less than threshold value etc. close to intensity level;

The wearing state of Wearable can comprise the state of being worn and not by equipment state, current wearing state is the one in these two kinds of wearing states;

Determining the current wearing state of described Wearable according to the comparative result of described comparison, can be defined as being worn state when being greater than threshold value close to intensity level, when being less than threshold value close to intensity level, is defined as not being worn state;

Step S104: control described Wearable according to described current wearing state and enter mode of operation corresponding to described current wearing state;

Particularly, can step be comprised: if described current wearing state is not for be worn state, controls described Wearable and enter battery saving mode, or, if described Wearable, for being worn state, is switched to the mode of operation before entering battery saving mode by described current wearing state;

Battery saving mode is generally a kind of mode of operation of Wearable acquiescence, in battery saving mode, general only needs keeps the basic function of Wearable normally to run, and close the operation of some functional modules, such as, closedown can be comprised closely remind correlation function, close the power consumption process etc. of GPS, also can according to user's needs, setting power saving mode and the corresponding relation needing the functional module of closing.

Accordingly, according to the scheme of above-mentioned the present embodiment, its to be it be obtain that the proximity transducer be arranged in Wearable detects close to intensity level, this is compared close to intensity level and the threshold value preset, the current wearing state of described Wearable is determined according to comparative result, control described Wearable according to this current wearing state and enter mode of operation corresponding to described current wearing state, owing to can control the mode of operation of Wearable according to the current wearing state of Wearable, therefore, can be controlled it when it is not worn and enter battery saving mode, avoid unnecessary electricity waste, improve the flying power of Wearable, and then improve Consumer's Experience, simultaneously, owing to only needing to obtain close to intensity level and simply processing (comparing and determining current wearing state according to comparative result close to intensity level and default threshold value size) close to intensity level just can control the mode of operation of Wearable afterwards based on this, algorithm is simple, also electricity is further saved.

As previously mentioned, when controlling described Wearable according to described current wearing state and entering mode of operation corresponding to described current wearing state, determine the mode of operation that current wearing state is corresponding, for this reason, wherein in an embodiment, before step S101, can also step be comprised: the operational order obtaining user, the mode of operation corresponding respectively with multiple wearing state is set according to described operational order; Can also arrange power saving grade further, when waiting electric higher grade, corresponding battery saving mode needs the functional module of closedown more.

Embodiment two

As shown in Figure 2, it is the schematic flow sheet of the control method embodiment two of the mode of operation of Wearable of the present invention, in the present embodiment, mainly be with the difference of above-described embodiment one, consider that the current wearing state of Wearable is all constant within a period of time, and during this period of time in repeatedly may determine the current wearing state of Wearable, if control described Wearable according to current wearing state frequently accordingly to enter mode of operation corresponding to current wearing state, power consumption also can be more, therefore, after the current wearing state determining described Wearable according to the comparative result of described comparison, add and judge that whether described current wearing state is the step of wearing state corresponding to the current mode of operation of described Wearable.

As shown in Figure 2, the control method of the mode of operation of the Wearable in the present embodiment comprises the steps:

Step S201: obtain the proximity transducer be arranged in Wearable detect close to intensity level, enter step S202;

Step S202: compare described close to intensity level and the threshold value preset, enter step S203;

Step S203: the current wearing state determining described Wearable according to the comparative result of described comparison, enters step S204;

Step S204: judge that whether described current wearing state is wearing state corresponding to the current mode of operation of described Wearable, if so, enter step S205;

That is, judge whether the wearing state of Wearable changes, can pre-set and store and dress status indicator, the wearing status indicator that different wearing states is corresponding different, can when each mode of operation changes, upgrade this wearing status indicator, then can judge that whether described current wearing state is wearing state corresponding to the current mode of operation of described Wearable according to the wearing status indicator of wearing status indicator corresponding to current wearing state and current storage, if wearing status indicator corresponding to current wearing state is identical with the wearing status indicator of current storage, then illustrate that described current wearing state is wearing state corresponding to the current mode of operation of described Wearable,

Step S205: control described Wearable according to described current wearing state and enter mode of operation corresponding to described current wearing state.

Identical with above-described embodiment one of other technologies feature in the present embodiment, does not repeat them here.

In addition, as previously mentioned, the number of threshold value can set according to actual needs, generally simple with the algorithm being set to threshold value corresponding, but, consider that Wearable is when dressing, although be both the state of being worn, but the tightness dressed is different, to collect close to intensity level be also different, if be only a threshold value, mistake may be there is when determining the current wearing state of described Wearable, for this reason, have in an embodiment wherein, what adopt is two threshold values, for the ease of distinguishing this two threshold values, called after first threshold value respectively, second threshold value, like this, both can avoid occurring mistake when determining the current wearing state of described Wearable, algorithm is also comparatively simple, save electricity, particularly:

Describedly step can be comprised described close to intensity level and the step that compares of threshold value preset: compare described close to intensity level and the first threshold value preset, the second threshold value respectively, wherein, described first threshold value is less than described second threshold value, the size of the first threshold value, the second threshold value can set according to actual needs, such as, first threshold value is the 500, second threshold value is 800;

The described comparative result according to described comparison determines that the step of the current wearing state of described Wearable can comprise step: be less than described first threshold value if described close to intensity level, then determine that described current wearing state is not for be worn state, described second threshold value is greater than close to intensity level if described, determine that described current wearing state is for being worn state, wherein, be greater than close to intensity level (or equaling) first threshold value and be less than (or equaling) second threshold value time, can think Wearable wearing state and terminate current flow process.

It should be noted that, various technical characteristics in above embodiment can combine arbitrarily, as long as there is not conflict or contradiction in the combination between feature, but as space is limited, describe one by one, the carrying out arbitrarily combining of the various technical characteristics therefore in above-mentioned embodiment also belongs to this instructions scope of disclosure.

According to the control method of the mode of operation of the Wearable of the invention described above, the present invention also provides a kind of control system of mode of operation of Wearable, and just the embodiment of the control system of the mode of operation of Wearable of the present invention is described in detail below.The structural representation of the embodiment of the control system of the mode of operation of Wearable of the present invention has been shown in Fig. 3.For convenience of explanation, part related to the present invention is merely illustrated in figure 3.

As shown in Figure 3, the control system of the mode of operation of Wearable of the present invention, comprises acquisition module 301, comparison module 302, determination module 303, control module 304:

Acquisition module 301, for obtain that the proximity transducer be arranged in Wearable detects close to intensity level;

Comparison module 302, for comparing described close to intensity level and the threshold value preset;

Determination module 303, for determining the current wearing state of described Wearable according to the comparative result of comparison module 302;

Control module 304, enters mode of operation corresponding to described current wearing state for controlling described Wearable according to described current wearing state.

Wherein in an embodiment, as shown in Figure 4, the control system of the mode of operation of Wearable of the present invention, can also comprise:

Module 305 being set, for obtaining the operational order of user, the mode of operation corresponding respectively with multiple wearing state being set according to described operational order.

Wherein in an embodiment, control module 304 when described current wearing state is not for being worn state, can controls described Wearable and entering into battery saving mode.

Wherein in an embodiment, described Wearable in described control module when described current wearing state is for being worn state, can be switched to the mode of operation before entering battery saving mode by control module 304.

Wherein in an embodiment, control module 304 can also be used for judging that whether described current wearing state is wearing state corresponding to the current mode of operation of described Wearable, and when judged result is for being, according to described current wearing state, described Wearable is switched to the mode of operation corresponding with described current wearing state.

Wherein in an embodiment, comparison module 302 can compare described close to intensity level and the first threshold value preset, the second threshold value by described comparison module respectively, and wherein, described first threshold value is less than described second threshold value; Determination module 303 can be less than described first threshold value described close to intensity level, determine that described current wearing state is not for be worn state, described be greater than described second threshold value close to intensity level time, determine that described current wearing state is for being worn state.

The control method one_to_one corresponding of the control system of the mode of operation of Wearable of the present invention and the mode of operation of Wearable of the present invention, the technical characteristic of setting forth in the embodiment of the control method of the mode of operation of above-mentioned Wearable and beneficial effect thereof are all applicable to, in the embodiment of the control system of the mode of operation of Wearable, hereby state.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a control method for the mode of operation of Wearable, is characterized in that, comprises the steps:

Obtain the proximity transducer be arranged in Wearable detect close to intensity level;

Compare described close to intensity level and the threshold value preset;

The current wearing state of described Wearable is determined according to the comparative result of described comparison;

Control described Wearable according to described current wearing state and enter mode of operation corresponding to described current wearing state.

2. the control method of the mode of operation of Wearable according to claim 1, is characterized in that, before the step close to intensity level that the proximity transducer be arranged in Wearable in described acquisition detects, also comprises step:

Obtain the operational order of user, the mode of operation corresponding respectively with multiple wearing state is set according to described operational order.

3. the control method of the mode of operation of Wearable according to claim 1, is characterized in that, controls the mode of operation that described Wearable enters described current wearing state corresponding comprise step according to described current wearing state:

If described current wearing state, for not to be worn state, to control described Wearable and enters into battery saving mode;

Or

If described Wearable, for being worn state, is switched to the mode of operation before entering battery saving mode by described current wearing state.

4. the control method of the mode of operation of Wearable according to claim 1, is characterized in that:

After the described comparative result according to described comparison determines the step of current wearing state of described Wearable, also comprise step: judge that whether described current wearing state is wearing state corresponding to the current mode of operation of described Wearable, if so, enter and describedly according to described current wearing state, described Wearable is switched to the mode of operation corresponding with described current wearing state.

5. the control method of the mode of operation of Wearable according to claim 1, is characterized in that:

Describedly comprise step by described close to intensity level and the step that compares of threshold value preset: compare described close to intensity level and the first threshold value preset, the second threshold value respectively, wherein, described first threshold value is less than described second threshold value;

The described comparative result according to described comparison determines that the step of the current wearing state of described Wearable comprises step: be less than described first threshold value if described close to intensity level, then determine that described current wearing state is not for be worn state, being greater than described second threshold value if described close to intensity level, determining that described current wearing state is for being worn state.

6. a control system for the mode of operation of Wearable, is characterized in that, comprising:

Acquisition module, for obtain that the proximity transducer be arranged in Wearable detects close to intensity level;

Comparison module, for comparing described close to intensity level and the threshold value preset;

Determination module, for determining the current wearing state of described Wearable according to the comparative result of described comparison module;

Control module, enters mode of operation corresponding to described current wearing state for controlling described Wearable according to described current wearing state.

7. the control system of the mode of operation of Wearable according to claim 6, is characterized in that, also comprises:

Module being set, for obtaining the operational order of user, the mode of operation corresponding respectively with multiple wearing state being set according to described operational order.

8. the control system of the mode of operation of Wearable according to claim 6, is characterized in that:

Described control module, when described current wearing state is not for being worn state, controls described Wearable and entering into battery saving mode;

Or

Described Wearable, when described current wearing state is for being worn state, is switched to the mode of operation before entering battery saving mode by described control module.

9. the control system of the mode of operation of Wearable according to claim 6, is characterized in that:

Described control module is also for judging that whether described current wearing state is wearing state corresponding to the current mode of operation of described Wearable, and when judged result is for being, according to described current wearing state, described Wearable is switched to the mode of operation corresponding with described current wearing state.

10. the control system of the mode of operation of Wearable according to claim 6, is characterized in that:

Described comparison module compares described close to intensity level and the first threshold value preset, the second threshold value respectively, and wherein, described first threshold value is less than described second threshold value;

Described determination module is less than described first threshold value described close to intensity level, determines that described current wearing state is not for be worn state, described be greater than described second threshold value close to intensity level time, determine that described current wearing state is for being worn state.