CN104076908A - Method and device for controlling wearable computing equipment to convert state - Google Patents

Abstract

The invention discloses a method and a device for controlling wearable computing equipment to convert the state, and belongs to the technical field of a computer. The method comprises the following steps that: when equipment is in a standby state, the movement change condition of the equipment is detected, and the movement change information of the equipment is obtained; and when the speed change information in the obtained movement change information meets the preset state switching condition, the equipment is controlled to be converted into a work state from the standby state. Through obtaining the movement change information of the equipment and comparing each movement change quantity in the movement change information with preset thresholds controlling the equipment to change the operation state, when the movement change quantity reaches the preset threshold, the equipment is controlled to change the operation state; the mode of changing the operation state of the equipment through touching press keys is avoided; the efficiency of changing the operation state is improved; and in addition, the occurrence of press key failure events due to frequent operation on the press keys is avoided.

Description

A kind of method and device of controlling wearable computing device translates state

Technical field

The present invention relates to field of computer technology, particularly a kind of method and device of controlling wearable computing device translates state.

Background technology

Along with scientific and technological development, the wearable computing equipment based on computing machine, plant equipment can wear, and by people, from portable equipment lengthy and tedious, " freeing " out.Therefore power consumption is relatively large in use to consider this kind equipment, in order to extend working time, at equipment, screen can be closed during in holding state, and when user uses equipment, equipment transfers duty to from holding state.

In prior art, when user brings into use wearable computing equipment, first need to make equipment to enter use state from holding state, by the button arranging on touch apparatus, the equipment activating in holding state enters duty.

In realizing process of the present invention, inventor finds that prior art at least exists following problem:

User must just can enter duty by holding state by button operation, and on the one hand, user can inconvenient remove to touch button with limbs under special circumstances, can cause equipment cannot enter duty; On the other hand, because the serviceable life of button is limited, and it is very high by button, to carry out the frequency of state switching, therefore easily causes button malfunction, can cause equally equipment cannot enter duty.

Summary of the invention

In order to solve the problem of prior art, the embodiment of the present invention provides a kind of method and device of controlling wearable computing device translates state.Described technical scheme is as follows:

On the one hand, provide a kind of method of controlling wearable computing device translates state, described method comprises:

When equipment detects the motion change situation of described equipment during in holding state, obtain the motion change information of described equipment;

When the velocity variations information in the described motion change information getting meets the condition of default state switching, control described equipment and be converted to duty by holding state.

Preferably, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, control described equipment and be converted to duty by holding state, comprising:

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, and described First Speed is while being greater than pre-set velocity change threshold, controls described equipment and is converted to duty by holding state.

Preferably, described motion change information also comprises: angle change information,

When the velocity variations information in the described described motion change information when getting meets the condition of default state switching, control described equipment and be converted to duty by holding state, comprising:

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle change information is greater than predetermined angle change threshold, controls described equipment and be converted to duty by holding state.

Preferably, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, control described equipment and be converted to duty by holding state, comprising:

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, when described First Speed is greater than pre-set velocity change threshold, open the camera on described equipment;

When described camera captures human face structure information, control described equipment and be converted to duty by holding state.

Preferably, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, control described equipment and be converted to duty by holding state, comprising:

After described equipment moving, finally when relative static conditions, obtain the angle information of level measurement;

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle information is less than predetermined angle threshold value, controls described equipment and be converted to duty by holding state.

Preferably, when the velocity variations information in the described described motion change information when getting meets the condition that default state switches, control after described equipment is converted to duty by holding state, described method also comprises:

When described equipment is in running order, velocity variations information in the described motion change information getting accelerates to second speed by relative static conditions, and decelerate to relative static conditions by described second speed, and described second speed is greater than pre-set velocity change threshold, controls described equipment and be converted to holding state by duty.

On the other hand, provide a kind of device of controlling wearable computing device translates state, described device comprises:

Acquisition module, for detect the motion change situation of described equipment during in holding state when equipment, obtains the motion change information of described equipment;

The first control module, while meeting for the velocity variations information of the described motion change information when getting the condition that default state switches, controls described equipment and is converted to duty by holding state.

Preferably, described the first control module, comprising:

The first control module, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, and described First Speed is while being greater than pre-set velocity change threshold, controls described equipment and is converted to duty by holding state.

Preferably, described motion change information also comprises: angle change information,

Described the first control module, comprising:

The second control module, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle change information is greater than predetermined angle change threshold, controls described equipment and be converted to duty by holding state.

Preferably, described the first control module, comprising:

Start unit, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerates to relative static conditions by described First Speed, when described First Speed is greater than pre-set velocity change threshold, opens the camera on described equipment;

The 3rd control module, for when described camera captures human face structure information, controls described equipment and is converted to duty by holding state.

Preferably, described the first control module, comprising:

Acquiring unit, for after described equipment moving finally when the relative static conditions, obtain the angle information of level measurement;

The 4th control module, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle information is less than predetermined angle threshold value, controls described equipment and be converted to duty by holding state.

Preferably, it is characterized in that, described device also comprises:

The second control module, for when described equipment is in running order, velocity variations information in the described motion change information getting accelerates to second speed by relative static conditions, and decelerate to relative static conditions by described second speed, and described second speed is greater than pre-set velocity change threshold, controls described equipment and be converted to holding state by duty.

The beneficial effect that the technical scheme that the embodiment of the present invention provides is brought is:

By obtaining the motion change information of equipment, and contrast according to the predetermined threshold value of each movement change amount in motion change information and opertaing device change running status, when movement change amount reaches predetermined threshold value, opertaing device changes running status, avoided changing by touching button the mode of equipment running status, improved the efficiency of change running status, and avoided occurring because frequent operation button causes the event of button malfunction.

Accompanying drawing explanation

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

Fig. 1 is the method flow diagram of the control wearable computing device translates state that provides of the embodiment of the present invention one;

Fig. 2 is the method flow diagram of the control wearable computing device translates state that provides of the embodiment of the present invention two;

Fig. 3 is the apparatus structure schematic diagram of the control wearable computing device translates state that provides of the embodiment of the present invention three.

Embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with accompanying drawing, embodiment of the present invention is described further in detail.

Embodiment mono-

The embodiment of the present invention provides a kind of method of controlling wearable computing device translates state, and referring to Fig. 1, method flow comprises:

101: when equipment detects the motion change situation of described equipment during in holding state, obtain the motion change information of described equipment;

102: when the velocity variations information in the described motion change information getting meets the condition of default state switching, control described equipment and be converted to duty by holding state.

The embodiment of the present invention is by obtaining the motion change information of equipment, and contrast according to the predetermined threshold value of each movement change amount in motion change information and opertaing device change running status, when movement change amount reaches predetermined threshold value, opertaing device changes running status, avoided changing by touching button the mode of equipment running status, improved the efficiency of change running status, and avoided occurring because frequent operation button causes the event of button malfunction.

Embodiment bis-

The embodiment of the present invention provides a kind of method of controlling wearable computing device translates state, and referring to Fig. 2, method flow comprises:

201: when equipment detects the motion change situation of described equipment during in holding state, obtain the motion change information of described equipment.

Wherein, built-in multiple sensors in equipment, the exercises that can make according to the limbs of user's wearable device detect the motion change information such as the corresponding velocity variations of action, angle variation.For example equipment is worn on arm, the speed of motion can be detected while brandishing arm, while rotating arm, the information such as angle of rotation can be detected.

Wherein in equipment built-in sensor can be for gravity sensor, gyroscope, ambient light sensor, approach the sensors such as body sensor, level meter.The motion change information of each sensor institute perception is different, and wherein gravity sensor can acceleration, the speed of checkout equipment on motion time institute's correspondence direction, and the time of acceleration, speed and motion during according to motion can calculate the distance of motion; Direction and angle that gyroscope checkout equipment rotates when motion; Ambient light sensor can checkout equipment light intensity around, carry out the light luminance of the screen of conditioning equipment; Approach body sensor and can detect other objects apart from the distance of equipment; Level meter can checkout equipment and horizontal line between angle.

Because the various parameters of experiencing in motion process are in changing, so each sensor detects in motion process is one section of motion change information, judges whether to meet equipment carry out state conversion according to this motion change information.In embodiments of the present invention, the motion change information that gravity sensor detects is velocity variations information, for example, from relative static conditions, start accelerated motion, enters deceleration after then accelerating to certain speed peak value, until return to relative static conditions; The motion change information that gyroscope detects is angle change information, i.e. the variable quantity of angle in motion process.

202: when the velocity variations information in the described motion change information getting meets the condition of default state switching, control described equipment and be converted to duty by holding state.

The state switching condition of setting, can arrange only detection speed change information, when velocity variations information meets certain condition, carries out state conversion.The judgement that the motion change information that also can detect by other sensors is switched state is assisted.

Therefore, in step 202, ought only pass through gravity sensor perceive motion change information, the step of opertaing device transition status is:

2021: when described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, and when described First Speed is greater than pre-set velocity change threshold, controls described equipment and be converted to duty by holding state.

User's wearable device, for example, be worn on arm, and when when arm naturally droops or works, arm level is placed on desk operating computer, equipment should be in holding state, i.e. battery saving mode.

When user's arm motion, the arm of raising one's hand from initial position detects speed by relative static conditions by gravity sensor to the process of the position in chest, progressively accelerate and reach First Speed, after reaching First Speed, decelerate to relative static conditions, be arm while being parked in the position in chest, wherein First Speed is greater than pre-set velocity change threshold.Now can judge that user need to use equipment, therefore equipment is converted to duty by holding state, further now state can be for lighting screen.

Process by other sensors or other built-in device assisted gravity inductor opertaing device transition statuses in step 202 is:

First kind of way:

By gyroscope assisted gravity inductor opertaing device transition status, in the motion change information of therefore obtaining, also comprise: angle change information.

Concrete steps are:

2022: when described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle change information is greater than predetermined angle change threshold, controls described equipment and be converted to duty by holding state.

Gravity sensor is described in process step 2021: during local user's arm motion, from initial position, raise one's hand arm when velocity variations information being detected the process of the position in chest, further by detecting the rotation of wrist, by the variation of gyroscope detection angles, by these two motion change, carry out the state variation of opertaing device.

In user's arm motion process, have an action of rotating wrist, wrist is turned to human oriented face, therefore, when rotating wrist, gyroscope can detect angle to be changed.Further, because arm might not be level or vertical state, therefore at arm, from initial position, being raised up to the angle that the process of position, chest, detected wrist is rotated is likely that a plurality of axles all detect angle variation in the built-in coordinate system of gyroscope, therefore the angle change information detecting can be the common angle variable quantity of a plurality of axles, the angle variable quantity of a single axle is also set, at this, do not make restriction, wherein angle change information is greater than predetermined angle change threshold and thinks and satisfy condition.

The second way:

By the camera auxiliary control appliance transition status on equipment.

Therefore concrete steps are:

2023: when described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, when described First Speed is greater than pre-set velocity change threshold, open the camera on described equipment;

2024: when described camera captures human face structure information, control described equipment and be converted to duty by holding state.

Gravity sensor is described in process step 2021: during local user's arm motion, the arm of raising one's hand from initial position detects after velocity variations information to the process of the position in chest, when equipment is during in relative static conditions, trigger the camera on opening device.

And carry out recognition of face detection by camera, and now user, in the face of camera, when camera detects human face structure information in the picture of taking, judges now user and need to use equipment, and opertaing device is converted to duty by holding state.

Further, can also in equipment, pass through in advance the human face structure information of camera face identification functions recording user, and when opertaing device transition status, whether the current human face structure information getting of judgment device mates with pre-recorded human face structure information, mate opertaing device and be converted to duty by holding state, if do not mate the step of not carrying out transition status, keep holding state.

The third mode:

By the level meter auxiliary control appliance transition status on equipment.

Therefore concrete steps are:

2025: after described equipment moving, finally when relative static conditions, obtain the angle information of level measurement;

2026: when described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle information is less than predetermined angle threshold value, controls described equipment and be converted to duty by holding state.

Gravity sensor is described in process step 2021: during local user's arm motion, the arm of raising one's hand from initial position detects after velocity variations information to the process of the position in chest, when equipment is during in relative static conditions, trigger the process that level meter detects current angle, the angle information detecting and predetermined angle threshold value are contrasted, be less than predetermined angle threshold value and judge equipment in horizontality, now user need to use equipment, and opertaing device is converted to duty by holding state.

203: when described equipment is in running order, velocity variations information in the described motion change information getting accelerates to second speed by relative static conditions, and decelerate to relative static conditions by described second speed, and described second speed is greater than pre-set velocity change threshold, controls described equipment and be converted to holding state by duty.

After equipment enters duty, while converting back holding state from duty, all right Negotiation speed change information is as the condition of switching, corresponding action can be moved out from position, chest for arm, mobile direction and the direction of First Speed can be generally reverse, but this are not made restriction at this.

The embodiment of the present invention is by obtaining the motion change information of equipment, and contrast according to the predetermined threshold value of each movement change amount in motion change information and opertaing device change running status, when movement change amount reaches predetermined threshold value, opertaing device changes running status, avoided changing by touching button the mode of equipment running status, improved the efficiency of change running status, and avoided occurring because frequent operation button causes the event of button malfunction.

Embodiment tri-

The embodiment of the present invention provides a kind of device of controlling wearable computing device translates state, and referring to Fig. 3, this device comprises:

Acquisition module 301, for detect the motion change situation of described equipment during in holding state when equipment, obtains the motion change information of described equipment;

The first control module 302, while meeting for the velocity variations information of the described motion change information when getting the condition that default state switches, controls described equipment and is converted to duty by holding state.

In specific embodiment, described the first control module 302 comprises:

The first control module 3021, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, and described First Speed is while being greater than pre-set velocity change threshold, controls described equipment and is converted to duty by holding state.

Further, described motion change information also comprises: angle change information,

Described the first control module 302, also comprises:

The second control module 3022, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle change information is greater than predetermined angle change threshold, controls described equipment and be converted to duty by holding state.

Further, described the first control module 302, also comprises:

Start unit 3023, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerates to relative static conditions by described First Speed, when described First Speed is greater than pre-set velocity change threshold, opens the camera on described equipment;

The 3rd control module 3024, for when described camera captures human face structure information, controls described equipment and is converted to duty by holding state.

Further, described the first control module 302, comprising:

Acquiring unit 3025, for after described equipment moving finally when the relative static conditions, obtain the angle information of level measurement;

The 4th control module 3026, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle information is less than predetermined angle threshold value, controls described equipment and be converted to duty by holding state.

Wherein, described device also comprises:

The second control module 303, for when described equipment is in running order, velocity variations information in the described motion change information getting accelerates to second speed by relative static conditions, and decelerate to relative static conditions by described second speed, and described second speed is greater than pre-set velocity change threshold, controls described equipment and be converted to holding state by duty.

The embodiment of the present invention is by obtaining the motion change information of equipment, and contrast according to the predetermined threshold value of each movement change amount in motion change information and opertaing device change running status, when movement change amount reaches predetermined threshold value, opertaing device changes running status, avoided changing by touching button the mode of equipment running status, improved the efficiency of change running status, and avoided occurring because frequent operation button causes the event of button malfunction.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.

One of ordinary skill in the art will appreciate that all or part of step that realizes above-described embodiment can complete by hardware, also can come the hardware that instruction is relevant to complete by program, described program can be stored in a kind of computer-readable recording medium, the above-mentioned storage medium of mentioning can be ROM (read-only memory), disk or CD etc.

The foregoing is only preferred embodiment of the present invention, in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (12)

1. a method of controlling wearable computing device translates state, is characterized in that, described method comprises:

When equipment detects the motion change situation of described equipment during in holding state, obtain the motion change information of described equipment;

When the velocity variations information in the described motion change information getting meets the condition of default state switching, control described equipment and be converted to duty by holding state.

2. method according to claim 1, is characterized in that, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, controls described equipment and is converted to duty by holding state, comprising:

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, and described First Speed is while being greater than pre-set velocity change threshold, controls described equipment and is converted to duty by holding state.

3. method according to claim 1, is characterized in that, described motion change information also comprises: angle change information,

When the velocity variations information in the described described motion change information when getting meets the condition of default state switching, control described equipment and be converted to duty by holding state, comprising:

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle change information is greater than predetermined angle change threshold, controls described equipment and be converted to duty by holding state.

4. method according to claim 1, is characterized in that, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, controls described equipment and is converted to duty by holding state, comprising:

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, when described First Speed is greater than pre-set velocity change threshold, open the camera on described equipment;

When described camera captures human face structure information, control described equipment and be converted to duty by holding state.

5. method according to claim 1, is characterized in that, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, controls described equipment and is converted to duty by holding state, comprising:

After described equipment moving, finally when relative static conditions, obtain the angle information of level measurement;

When described velocity variations information accelerates to First Speed by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle information is less than predetermined angle threshold value, controls described equipment and be converted to duty by holding state.

6. according to the method described in claim 1-5 any one claim, it is characterized in that, when the velocity variations information in the described described motion change information when getting meets the condition of default state switching, control after described equipment is converted to duty by holding state, described method also comprises:

When described equipment is in running order, velocity variations information in the described motion change information getting accelerates to second speed by relative static conditions, and decelerate to relative static conditions by described second speed, and described second speed is greater than pre-set velocity change threshold, controls described equipment and be converted to holding state by duty.

7. a device of controlling wearable computing device translates state, is characterized in that, described device comprises:

Acquisition module, for detect the motion change situation of described equipment during in holding state when equipment, obtains the motion change information of described equipment;

The first control module, while meeting for the velocity variations information of the described motion change information when getting the condition that default state switches, controls described equipment and is converted to duty by holding state.

8. device according to claim 7, is characterized in that, described the first control module, comprising:

The first control module, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, and described First Speed is while being greater than pre-set velocity change threshold, controls described equipment and is converted to duty by holding state.

9. device according to claim 7, is characterized in that, described motion change information also comprises: angle change information,

Described the first control module, comprising:

The second control module, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle change information is greater than predetermined angle change threshold, controls described equipment and be converted to duty by holding state.

10. device according to claim 7, is characterized in that, described the first control module, comprising:

Start unit, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerates to relative static conditions by described First Speed, when described First Speed is greater than pre-set velocity change threshold, opens the camera on described equipment;

The 3rd control module, for when described camera captures human face structure information, controls described equipment and is converted to duty by holding state.

11. devices according to claim 7, is characterized in that, described the first control module, comprising:

Acquiring unit, for after described equipment moving finally when the relative static conditions, obtain the angle information of level measurement;

The 4th control module, for accelerating to First Speed when described velocity variations information by relative static conditions, and decelerate to relative static conditions by described First Speed, described First Speed is greater than pre-set velocity change threshold, and when described angle information is less than predetermined angle threshold value, controls described equipment and be converted to duty by holding state.

12. according to the device described in claim 7-11 any one claim, it is characterized in that, described device also comprises:

The second control module, for when described equipment is in running order, velocity variations information in the described motion change information getting accelerates to second speed by relative static conditions, and decelerate to relative static conditions by described second speed, and described second speed is greater than pre-set velocity change threshold, controls described equipment and be converted to holding state by duty.