CN104010076A

CN104010076A - Information processing method, electronic equipment and system

Info

Publication number: CN104010076A
Application number: CN201410198383.8A
Authority: CN
Inventors: 田艳军
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-05-12
Filing date: 2014-05-12
Publication date: 2014-08-27

Abstract

The invention discloses an information processing method, electronic equipment and a system. The method comprises the steps that a first sensing unit obtains a first sensing parameter, a data caching unit stores the first sensing parameter, a data caching control unit judges whether the first sensing parameter meets a first preset condition, if the first sensing parameter meets the first preset condition, the data caching control unit sends a waking-up instruction to a CPU, and the CPU is switched to a second state from a first state after receiving the waking-up instruction.

Description

A kind of information processing method, electronic equipment and system

Technical field

The present invention relates to the communications field, relate in particular to a kind of information processing method, electronic equipment and system.

Background technology

At present, multiple sensors is all housed in electronic equipment, parameter sensing corresponding to corresponding described multiple sensors just needs the central processing unit (CPU) in electronic equipment to process; Such as, pedometer real time record individual's movement locus just needs CPU to calculate step number always.But the method for the parameter sensing of above-mentioned processes sensor can cause the power consumption of CPU higher, thereby the power consumption of electronic equipment is increased, reduce the stand-by time of electronic equipment, and then affected user's experience.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of information processing method, electronic equipment and system, can at least solve the problems referred to above that prior art exists.

The invention provides a kind of information processing method, be applied to electronic equipment, described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and CPU, and when described CPU is during in the first state, described method comprises:

The first sensing unit gets the first parameter sensing;

Described data buffer storage unit is preserved described the first parameter sensing;

Described data buffer storage control unit judges whether described the first parameter sensing meets default first condition;

In the time meeting default first condition, described data buffer storage control unit sends and wakes instruction up to described CPU;

Described in described CPU receives, wake up after instruction, switch to the second state from described the first state;

Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

The invention provides a kind of information processing method, be applied to the first electronic equipment, described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in the second electronic equipment is during in the first state, described method comprises:

Described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self;

Described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing;

In the time meeting default first condition, described data buffer storage control unit sends and wakes instruction up to described the second electronic equipment, make described the second electronic equipment according to described in wake instruction up CPU switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

The invention provides a kind of information processing method, be applied to the second electronic equipment, described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in described the second electronic equipment is during in the first state, described method comprises:

When described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self, described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing; And described data buffer storage control unit judges when described the first parameter sensing meets default first condition,

Described the second electronic equipment receives the instruction that wakes up that the described data buffer storage control unit of described the first electronic equipment sends,

Described in described the second electronic equipment basis, wake instruction up described CPU is switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

The invention provides a kind of electronic equipment, described electronic equipment comprises: the first sensing unit, data buffer storage unit, data buffer storage control unit and central processing unit CPU; Wherein,

Described the first sensing unit, for obtaining the first parameter sensing;

Described data buffer storage unit, for preserving described the first parameter sensing;

Described data buffer storage control unit, for judging whether described the first parameter sensing meets default first condition; In the time meeting default first condition, send and wake instruction up to described CPU;

Described CPU, for when in the first state, wakes up after instruction described in receiving, and switches to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

The present invention also provides a kind of electronic equipment, and described electronic equipment comprises: the first sensing unit, data buffer storage unit, data buffer storage control unit; Wherein,

Described the first sensing unit, for obtaining the first parameter sensing;

Described data buffer storage control unit, for judging whether described the first parameter sensing meets default first condition; In the time meeting default first condition, send and wake instruction up to the second electronic equipment, make described the second electronic equipment according to described in wake instruction up CPU switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

The present invention also provides a kind of electronic equipment, and described electronic equipment comprises:

Communication unit, for receiving the instruction that wakes up that the first electronic equipment sends;

CPU, wakes instruction up for described in basis, switches to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

The present invention also provides a kind of information processing system, it is characterized in that, described system comprises: the first electronic equipment and the second electronic equipment; Wherein,

Described the first electronic equipment, obtains the first parameter sensing for the first sensing unit by self; Preserve described the first parameter sensing; Judge whether described the first parameter sensing meets default first condition; In the time meeting default first condition, send and wake instruction up to described the second electronic equipment;

Described the second electronic equipment, for when processing when the first state, receives and wakes up after instruction, wakes instruction up described self CPU is switched to the second state from described the first state according to described; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Information processing method provided by the present invention, electronic equipment and system, can be in the time that the first parameter sensing meets first condition, just can make the CPU of electronic equipment switch to the second state from the first state, thereby reduce the power consumption of CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Brief description of the drawings

Fig. 1 is embodiment of the present invention information processing method schematic flow sheet one;

Fig. 2 is embodiment of the present invention information processing method schematic flow sheet two;

Fig. 3 is embodiment of the present invention information processing method schematic flow sheet three;

Fig. 4 is embodiment of the present invention information processing method schematic flow sheet four;

Fig. 5 is embodiment of the present invention information processing method schematic flow sheet five;

Fig. 6 is embodiment of the present invention information processing method schematic flow sheet six;

Fig. 7 is embodiment of the present invention use scenes example one;

Fig. 8 is embodiment of the present invention use scenes example two;

Fig. 9 is embodiment of the present invention information processing method schematic flow sheet seven;

Figure 10 is embodiment of the present invention information processing method schematic flow sheet eight;

Figure 11 is embodiment of the present invention information processing method schematic flow sheet nine;

Figure 12 is embodiment of the present invention electronic equipment composition structural representation one;

Figure 13 is embodiment of the present invention electronic equipment composition structural representation two;

Figure 14 is embodiment of the present invention electronic equipment composition structural representation three;

Figure 15 is embodiment of the present invention information processing system composition schematic diagram.

Embodiment

Below in conjunction with drawings and the specific embodiments, the present invention is further described in more detail.

Embodiment of the method one,

The information processing method that the embodiment of the present invention provides, be applied to electronic equipment, described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and CPU (CPU), when described CPU is during in the first state, as shown in Figure 1, described method comprises:

Step 101: described the first sensing unit gets the first parameter sensing;

Step 102: described data buffer storage unit is preserved described the first parameter sensing;

Step 103: described data buffer storage control unit judges whether described the first parameter sensing meets default first condition;

Step 104: in the time meeting default first condition, described data buffer storage control unit sends and wakes instruction up to described CPU;

Step 105: wake up after instruction described in described CPU receives, switch to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Here, described the first sensing unit can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.

Accordingly, described the first parameter sensing can be: in the time that described the first sensing unit is pedometer, described the first parameter sensing can be time and numerical value.

Described in described the first state representation, CPU is in resting state; Described in described the second state representation, CPU is in wake-up states.

Below the use scenes of the present embodiment is described, when smart mobile phone is in resting state, the threshold value that self the amplitude of rocking exceedes detected, also can switch to wake-up states from resting state; Concrete,

Smart mobile phone is in the time of resting state; The first sensing unit can be acceleration transducer; Obtain the first parameter sensing by described the first sensing unit; Preserve the first parameter sensing by data buffer storage unit; Judge whether described the first parameter sensing meets pre-conditioned, in the time meeting, the CPU of smart mobile phone is switched to wake-up states from resting state.

Visible, adopt such scheme, in the situation that meeting first condition, just can make CPU switch to the second state from the first state at the first parameter sensing, thereby reduce the power consumption of CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Embodiment of the method two,

The information processing method that the embodiment of the present invention provides, be applied to electronic equipment, described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and CPU (CPU), when described CPU is during in the first state, as shown in Figure 2, described method comprises:

Step 201: described the first sensing unit gets the first parameter sensing;

Step 202: described data buffer storage unit is preserved described the first parameter sensing;

Step 203: the data volume that detects the first parameter sensing of described data buffer storage unit preservation;

Step 204: judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition, execution step 205; Otherwise described data buffer storage control unit does not send and wakes instruction up to described CPU, control CPU and remain on the first state that power consumption is lower, end process flow process;

Step 205: described data buffer storage control unit sends and wakes instruction up to described CPU;

Step 206: wake up after instruction described in described CPU receives, switch to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Here, described the first sensing unit can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.Accordingly, described the first parameter sensing can be: in the time that described the first sensing unit is pedometer, described the first parameter sensing can be time and numerical value.

Wherein, described first threshold can be the numerical value of setting according to actual conditions.

Further, after above-mentioned steps 206 completes, can also comprise: described the first parameter sensing that described CPU preserves described data buffer storage unit is processed.

Below the use scenes of the present embodiment is described, such as, when using smart mobile phone to carry out record to the current walking step number of user, concrete, smart mobile phone is in the time of resting state; The first sensing unit can be acceleration transducer;

Obtain acceleration information by described the first sensing unit, determine whether user goes make a move according to acceleration information, it determines that method is prior art, does not repeat here;

Every increase by one step just will increase a count value as the first parameter sensing; Preserve the first parameter sensing by data buffer storage unit;

Whether the data volume that judges described the first parameter sensing by data buffer storage control unit higher than default first threshold, if higher than, determine that described the first sensing data meets default first condition;

Described data buffer storage control unit sends and wakes instruction up to CPU, and described CPU is switched to wake-up states from resting state.

Visible, adopt such scheme, judge according to the first parameter sensing of the first sensing unit collection, in the time that the data volume of described the first parameter sensing meets first condition, just can make CPU switch to the second state from the first state, thereby reduce the power consumption of CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Embodiment of the method three,

The information processing method that the embodiment of the present invention provides, be applied to electronic equipment, described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and CPU (CPU), when described CPU is during in the first state, as shown in Figure 3, described method comprises:

Step 301: described the first sensing unit gets the first parameter sensing;

Step 302: described data buffer storage unit is preserved described the first parameter sensing;

Step 303: described data buffer storage control unit detects the numerical value of the first parameter sensing getting;

Step 304: judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition, execution step 305; Otherwise described data buffer storage control unit does not send and wakes instruction up to described CPU, control CPU and remain on the first state that power consumption is lower, end process flow process;

Step 305: described data buffer storage control unit sends and wakes instruction up to described CPU;

Step 306: wake up after instruction described in described CPU receives, switch to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Wherein, described Second Threshold can be the numerical value arranging according to actual conditions.

The operation that above-mentioned the first parameter sensing obtains the first parameter sensing can be periodically operation, and the cycle of its operation can be according to actual conditions setting, and the method that the cycle is set is prior art, does not repeat here.

Further, after above-mentioned steps 306 completes, can also comprise: described the first parameter sensing that described CPU preserves described data buffer storage unit is processed; Be specially, described CPU obtains the first parameter sensing that described data buffer storage unit is preserved, and then described the first parameter sensing is carried out to subsequent treatment;

Wherein, described subsequent treatment is prior art, can be for utilizing the first parameter sensing to calculate, such as, in the time that the first parameter sensing is step number, subsequent treatment can be to carry out the calculating of energy consumption by the first parameter sensing, or the calculating of motion milimeter number etc.

Preferably, described data buffer storage unit can be realized by the data buffer storage space in bluetooth unit; Accordingly, described data buffer storage control unit can be realized by the arm processor in bluetooth unit.

Below the use scenes of the present embodiment is described, such as, in the time that the first sensing unit can be light sensor, concrete, smart mobile phone is in the time of resting state;

Periodically obtain the first parameter sensing by light sensor, and preserve the first parameter sensing by data buffer storage unit;

By the data of the first parameter sensing described in data buffer storage control unit real-time judge whether higher than default Second Threshold, if higher than, determine that described the first sensing data meets default first condition;

Visible, adopt such scheme, judge according to the first parameter sensing of the first sensing unit collection, in the time that the numerical value of described the first parameter sensing meets first condition, just can make CPU switch to the second state from the first state, thereby reduce the power consumption of CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Embodiment of the method four,

The information processing method that the embodiment of the present invention provides, be applied to electronic equipment, described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and CPU (CPU), when described CPU is during in the first state, as shown in Figure 4, described method comprises:

Step 401: described the first sensing unit gets the first parameter sensing;

Step 402: described data buffer storage unit is preserved described the first parameter sensing;

Step 403: described data buffer storage control unit gets the numerical value of first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got;

Step 404: the difference of calculating described the first parameter sensing and described the second parameter sensing;

Step 405: judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition, execution step 406; Otherwise described data buffer storage control unit does not send and wakes instruction up to described CPU, control CPU and remain on the first state that power consumption is lower, end process flow process;

Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit;

Step 406: described data buffer storage control unit sends and wakes instruction up to described CPU;

Step 407: wake up after instruction described in described CPU receives, switch to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Further, after above-mentioned steps 407 completes, can also comprise: described the first parameter sensing that described CPU preserves described data buffer storage unit is processed; Be specially, described CPU obtains the first parameter sensing that described data buffer storage unit is preserved, and then described the first parameter sensing is carried out to subsequent treatment;

Preferably, the second moment described above be before the first moment the moment of predetermined amount of time can arrange according to actual conditions, such as, described predetermined amount of time can be set be the moment of 2 seconds in advance.

Described data buffer storage control unit is using current time as the first moment, and determines before the first moment within 2 seconds, to be the second moment;

Extract second parameter sensing in the second moment;

Calculate the difference between the first parameter sensing and the second parameter sensing;

When described difference is during higher than default the 3rd threshold value, illustrate within the time period of 2 seconds, the parameter that the first sensing unit collects changes comparatively fast, determines that described the first parameter sensing meets default first condition; Described data buffer storage control unit sends and wakes instruction up to CPU, and described CPU is switched to wake-up states from resting state, carries out follow-up processing by CPU.

Visible, adopt such scheme, judge according to the first parameter sensing of the first sensing unit collection, in the time that the variable quantity of described the first parameter sensing meets first condition, just can make CPU switch to the second state from the first state, thereby reduce the power consumption of CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Embodiment of the method five,

The information processing method that the embodiment of the present invention provides, be applied to electronic equipment, described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and CPU (CPU), when described CPU is during in the first state, as shown in Figure 5, described method comprises:

Step 501: described the first sensing unit gets the first parameter sensing;

Step 502: described data buffer storage unit is preserved described the first parameter sensing;

Step 503: described data buffer storage control unit gets the numerical value of first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got;

Step 504: obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing, utilize described difference to calculate the rate of change of the first parameter sensing;

Step 505: judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition, execution step 506; Otherwise described data buffer storage control unit does not send and wakes instruction up to described CPU, control CPU and remain on the first state that power consumption is lower, end process flow process;

Step 506: described data buffer storage control unit sends and wakes instruction up to described CPU;

Step 507: wake up after instruction described in described CPU receives, switch to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Further, after above-mentioned steps 507 completes, can also comprise: described the first parameter sensing that described CPU preserves described data buffer storage unit is processed; Be specially, described CPU obtains the first parameter sensing that described data buffer storage unit is preserved, and then described the first parameter sensing is carried out to subsequent treatment;

Preferably, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit;

The second moment described above be before the first moment the moment of predetermined amount of time can arrange according to actual conditions, such as, described predetermined amount of time can be set be the moment of 2 seconds in advance.

Below the use scenes of the present embodiment is described, such as, in the time that the first sensing unit can be acceleration transducer, concrete, smart mobile phone is in the time of resting state;

Periodically obtain the first parameter sensing by acceleration transducer, and preserve the first parameter sensing by data buffer storage unit;

Extract second parameter sensing in the second moment; Calculate the difference between the first parameter sensing and the second parameter sensing; Described difference is obtained to the rate of change of described the first parameter sensing divided by the time difference between the first moment and the second moment;

When described rate of change is during higher than default the 4th threshold value, illustrate that, within the time period of 2 seconds, the acceleration change of described smart mobile phone is very fast, determine that described the first parameter sensing meets default first condition; Described data buffer storage control unit sends and wakes instruction up to CPU, and described CPU is switched to wake-up states from resting state, carries out follow-up processing by CPU.

Visible, adopt such scheme, judge according to the first parameter sensing of the first sensing unit collection, in the time that the rate of change of described the first parameter sensing meets first condition, just can make CPU switch to the second state from the first state, and then carry out follow-up processing, thereby by reducing the time of CPU in the second state, and then the power consumption of minimizing CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Embodiment of the method six,

The information processing method that the embodiment of the present invention provides, is applied to the first electronic equipment, and described the first electronic equipment is connected with the second electronic equipment, and described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in described the second electronic equipment is during in the first state, as shown in Figure 6, described method comprises:

Step 601: described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self;

Step 602: described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing;

Step 603: described data buffer storage control unit judges whether described the first parameter sensing meets default first condition;

Step 604: in the time meeting default first condition, described data buffer storage control unit sends and wakes instruction up to described the second electronic equipment, make described the second electronic equipment according to described in wake instruction up CPU switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Here, described the first electronic equipment can be the equipment being connected by radio communication function with the second electronic equipment, such as, as shown in Figure 7, described the first electronic equipment can be intelligent watch 71, and intelligent watch 71 can be connected with smart mobile phone 72 by NFC or Bluetooth function; Or as shown in Figure 8, described the first electronic equipment can be that bluetooth earphone 81, the second electronic equipments are smart mobile phone 82, both connect by Bluetooth function.

Described the first sensing unit can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.

Wherein, described data buffer storage unit can be the spatial cache in bluetooth unit in the first electronic equipment; Accordingly, described data buffer storage control unit can be the arm processor in bluetooth unit in the first electronic equipment.

Preferably, described data buffer storage control unit wakes instruction up to described the second electronic equipment transmission and can comprise: described data buffer storage control unit generates and wakes up after instruction, set up link by the first electronic equipment by linkage function and the second electronic equipment, and send and wake instruction up by chain road direction the second electronic equipment of setting up.Wherein, described linkage function is prior art, do not repeat here, such as, can mutually connect by Bluetooth function.

Below the use scenes of the present embodiment is described, as shown in Figure 7, in the time that the first electronic equipment is intelligent watch 71, be that smart mobile phone 72 can be connected by Bluetooth function etc. with described the second electronic equipment, concrete, the sensing unit of installing in described intelligent watch 71, for accelerating sensing unit, by acceleration sensing unit inspection user's walking step number record, specifically comprises:

Swinging arm when intelligent watch 71 is walked along with user, counts step number by acceleration transducer, using a current count value of obtaining as the first parameter sensing;

Described intelligent watch 71 is saved to count value in the spatial cache in bluetooth unit;

Arm processor in the bluetooth unit of described intelligent watch 71 judges that whether the quantity of the first parameter sensing of record reaches threshold value, in the time reaching, determines that the first parameter sensing meets default first condition simultaneously;

In intelligent watch 71, the arm processor of bluetooth unit generates and wakes up after instruction, send and wake instruction up to smart mobile phone 72 by Bluetooth function by intelligent watch 71, make smart mobile phone 72 according to described in wake instruction up the CPU of self switched to the second state from the first state.

Visible, adopt such scheme, the first parameter sensing by the first sensing unit collection to the first electronic equipment judges, determine in the time that the data volume of described the first parameter sensing meets first condition, just can make the CPU of the second electronic equipment switch to the second state from the first state, thereby reduce the power consumption of the second electronic equipment CPU, the power consumption of the second electronic equipment is reduced, promote user's experience.

Embodiment of the method seven,

The information processing method that the embodiment of the present invention provides, is applied to the first electronic equipment, and described the first electronic equipment is connected with the second electronic equipment, and described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in described the second electronic equipment is during in the first state, as shown in Figure 9, described method comprises:

Step 901: described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self;

Step 902: described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing;

Step 903: described data buffer storage control unit judges whether described the first parameter sensing meets default first condition, in the time meeting default first condition, execution step 904; Otherwise, execution step 905;

Step 904: described data buffer storage control unit sends and wakes instruction up to described the second electronic equipment, make described the second electronic equipment according to described in wake instruction up and CPU switched to the second state from described the first state, end process flow process;

Step 905: described data buffer storage control unit does not send and wakes instruction up to described the second electronic equipment, makes the CPU of described the second electronic equipment remain on the first state that power consumption is lower

Preferably, above-mentionedly judge that whether described the first parameter sensing meets default first condition, can comprise following methods:

Detect the data volume of the first parameter sensing of described data buffer storage unit preservation; Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition; Such as, in the time that the first parameter sensing is step number, judge that whether the data volume of the step number recording is higher than default first threshold, if higher than, determine that the first parameter sensing meets default first condition;

Or described data buffer storage control unit detects the numerical value of the first parameter sensing getting; Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition; Such as, in the time that the first parameter sensing is values of light, judge that whether the numerical value of the first parameter sensing getting is recently higher than default Second Threshold, if higher than, be defined as meeting default first condition;

Or described data buffer storage control unit gets the numerical value of first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got; Calculate the difference of described the first parameter sensing and described the second parameter sensing; Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition;

Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit; Such as, in the time that the first parameter sensing is light parameter, before the first moment of extraction, the light parameter in the second moment of preset period of time, as the second parameter sensing, is calculated both differences, in the time that difference is greater than the 3rd default threshold value, determine that the first parameter sensing meets default first condition;

Or described data buffer storage control unit detects the numerical value of the first parameter sensing that got for the first moment; Extract second parameter sensing in the second moment; Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing; Utilize described difference to calculate the rate of change of the first parameter sensing, judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition;

Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit.

Embodiment of the method eight,

The information processing method that the embodiment of the present invention provides, is applied to the second electronic equipment, and described the second electronic equipment is connected with the first electronic equipment, and described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in described the second electronic equipment is during in the first state, as shown in figure 10, comprising:

Step 1001: when described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self, described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing; And described data buffer storage control unit judges when described the first parameter sensing meets default first condition, described the second electronic equipment receives the instruction that wakes up that the described data buffer storage control unit of described the first electronic equipment sends;

Step 1002: wake instruction up described in described the second electronic equipment basis described CPU is switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Swinging arm in the time that intelligent watch 71 is walked along with user, counts step number by acceleration transducer, using a current count value of obtaining as the first parameter sensing; Described intelligent watch 71 is saved to count value in the spatial cache in bluetooth unit; Arm processor in the bluetooth unit of described intelligent watch 71 judges that whether the quantity of the first parameter sensing of record reaches threshold value, in the time reaching, determines that the first parameter sensing meets default first condition simultaneously; In intelligent watch 71, the arm processor of bluetooth unit generates and wakes up after instruction, and send and wake instruction up to smart mobile phone 72 by Bluetooth function by intelligent watch 71,

Described in described smart mobile phone 72 bases, wake instruction up the CPU of self is switched to the second state from the first state.

Embodiment of the method nine,

The information processing method that the embodiment of the present invention provides, is applied to the second electronic equipment, and described the second electronic equipment is connected with the first electronic equipment, and described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in described the second electronic equipment is during in the first state, as shown in figure 11, comprising:

Step 1101: when described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self, described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing; And described data buffer storage control unit judges when described the first parameter sensing meets default first condition, described the second electronic equipment receives the instruction that wakes up that the described data buffer storage control unit of described the first electronic equipment sends;

Step 1102: wake instruction up described in described the second electronic equipment basis described CPU is switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state;

Step 1103: obtain the first parameter sensing in the data buffer storage unit of described the first electronic equipment; Described the first parameter sensing is processed.

Described the first sensing unit can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.Accordingly, described the first parameter sensing can be: in the time that described the first sensing unit is pedometer, described the first parameter sensing can be time and numerical value.

Described in described smart mobile phone 72 bases, wake instruction up the CPU of self is switched to the second state from the first state;

Described smart mobile phone 72, after switching to the second state, obtains the first parameter sensing from intelligent watch 71, and described the first parameter sensing is carried out to subsequent treatment, such as can be for to carry out momental calculating by the first parameter sensing.

Visible, adopt such scheme, the first parameter sensing by the first sensing unit collection to the first electronic equipment judges, determine in the time that the data volume of described the first parameter sensing meets first condition, just can make the CPU of the second electronic equipment switch to the second state from the first state, and the first parameter sensing is processed, thereby avoid obtaining parameter sensing in prior art at every turn and process by CPU the problem of the power consumption of brought consumption CPU, reduce the power consumption of the second electronic equipment CPU, the power consumption of the second electronic equipment is reduced, promote user's experience.

Device embodiment mono-,

The electronic equipment that the embodiment of the present invention provides, as shown in figure 12, comprising: the first sensing unit 1201, data buffer storage unit 1202, data buffer storage control unit 1203 and CPU (CPU) 1204; Wherein,

Described the first sensing unit 1201, for obtaining the first parameter sensing;

Described data buffer storage unit 1202, for preserving described the first parameter sensing;

Described data buffer storage control unit 1203, for judging whether described the first parameter sensing meets default first condition; In the time meeting default first condition, send and wake instruction up to described CPU 1204;

Described CPU 1204 is waken up after instruction described in receiving, and switches to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Here, described the first sensing unit 1201 can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.Accordingly, described the first parameter sensing can be: in the time that described the first sensing unit is pedometer, described the first parameter sensing can be time and numerical value.

Device embodiment bis-,

The electronic equipment that the embodiment of the present invention provides, comprising: the first sensing unit, data buffer storage unit, data buffer storage control unit and CPU (CPU); Wherein,

Described the first sensing unit, for obtaining the first parameter sensing;

Described CPU is waken up after instruction described in receiving, and switches to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Preferably, described data buffer storage control unit, specifically for detecting the data volume of the first parameter sensing that described data buffer storage unit preserves; Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition.

Or described data buffer storage control unit, specifically for detecting the numerical value of the first parameter sensing getting; Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition.

Or described data buffer storage control unit, specifically for getting the numerical value of the first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got; Calculate the difference of described the first parameter sensing and described the second parameter sensing; Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition;

Or described data buffer storage control unit, specifically for detecting the numerical value of the first parameter sensing that got for the first moment; Extract second parameter sensing in the second moment; Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing, utilize described difference to calculate the rate of change of the first parameter sensing; Judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition.

Described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit; The second moment described above be before the first moment the moment of predetermined amount of time can arrange according to actual conditions, such as, described predetermined amount of time can be set be the moment of 2 seconds in advance.

Described CPU, described first parameter sensing that can also be used for described data buffer storage unit to preserve is processed; Be specially, described CPU obtains the first parameter sensing that described data buffer storage unit is preserved, and then described the first parameter sensing is carried out to subsequent treatment;

Device embodiment tri-,

The electronic equipment that the embodiment of the present invention provides, as shown in figure 13, comprising:

The first sensing unit 1301, for obtaining the first parameter sensing;

Data buffer storage unit 1302, for preserving described the first parameter sensing;

Data buffer storage control unit 1303, for judging whether described the first parameter sensing meets default first condition; In the time meeting default first condition, send and wake instruction up to the second electronic equipment, make described the second electronic equipment according to described in wake instruction up CPU switched to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Here, described electronic equipment can be the equipment being connected by radio communication function with the second electronic equipment, such as, as shown in Figure 7, described the first electronic equipment can be intelligent watch 71, and intelligent watch 71 can be connected with smart mobile phone 72 by NFC or Bluetooth function; Or as shown in Figure 8, described the first electronic equipment can be that bluetooth earphone 81, the second electronic equipments are smart mobile phone 82, both connect by Bluetooth function.

Described the first sensing unit 1031 can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.Accordingly, described the first parameter sensing can be: in the time that described the first sensing unit is pedometer, described the first parameter sensing can be time and numerical value.

Wherein, described data buffer storage unit 1302 can be the spatial cache in bluetooth unit in the first electronic equipment; Accordingly, described data buffer storage control unit can be the arm processor in bluetooth unit in the first electronic equipment.

Preferably, described data buffer storage control unit 1303, wakes up after instruction specifically for generating, and sets up link with the second electronic equipment, and is sent and waken up instruction by chain road direction the second electronic equipment of setting up.Wherein, described linkage function is prior art, do not repeat here, such as, can mutually connect by Bluetooth function.

Visible, adopt such scheme, the first parameter sensing by the first sensing unit collection to electronic equipment judges, determine in the time that the data volume of described the first parameter sensing meets first condition, just can make the CPU of the second electronic equipment switch to the second state from the first state, thereby reduce the power consumption of the second electronic equipment CPU, the power consumption of the second electronic equipment is reduced, promote user's experience.

Device embodiment tetra-,

The electronic equipment that the embodiment of the present invention provides, comprising: the first sensing unit, data buffer storage unit, data buffer storage control unit; Wherein,

Described the first sensing unit, for obtaining the first parameter sensing;

Here, described electronic equipment can be the equipment being connected by radio communication function with the second electronic equipment, such as, as shown in Figure 7, described electronic equipment can be intelligent watch 71, and intelligent watch 71 can be connected with smart mobile phone 72 by NFC or Bluetooth function; Or as shown in Figure 8, described the first electronic equipment can be that bluetooth earphone 81, the second electronic equipments are smart mobile phone 82, both connect by Bluetooth function.

Preferably, described caching control unit, specifically for detecting the data volume of the first parameter sensing that described data buffer storage unit preserves; Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition; Such as, in the time that the first parameter sensing is step number, judge that whether the data volume of the step number recording is higher than default first threshold, if higher than, determine that the first parameter sensing meets default first condition;

Or described caching control unit, specifically for detecting the numerical value of the first parameter sensing getting; Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition; Such as, in the time that the first parameter sensing is values of light, judge that whether the numerical value of the first parameter sensing getting is recently higher than default Second Threshold, if higher than, be defined as meeting default first condition;

Or described caching control unit, specifically for getting the numerical value of the first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got; Calculate the difference of described the first parameter sensing and described the second parameter sensing; Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition;

Or described caching control unit, specifically for detecting the numerical value of the first parameter sensing that got for the first moment; Extract second parameter sensing in the second moment; Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing; Utilize described difference to calculate the rate of change of the first parameter sensing, judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition; Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit.

Device embodiment five,

The embodiment of the present invention provides electronic equipment, as shown in figure 14, comprising:

Communication unit 1401, for receiving the instruction that wakes up that the first electronic equipment sends;

CPU1402, wakes instruction up for described in basis, switches to the second state from described the first state; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

Here, described the first electronic equipment can be the equipment being connected by radio communication function with electronic equipment, such as, as shown in Figure 7, described the first electronic equipment can be intelligent watch 71, and intelligent watch 71 can be connected with smart mobile phone 72 by NFC or Bluetooth function; Or as shown in Figure 8, described the first electronic equipment can be that bluetooth earphone 81, the second electronic equipments are smart mobile phone 82, both connect by Bluetooth function.

Understandable, described the first electronic equipment is before transmission wakes instruction up, need to carry out corresponding operation and wake instruction up for obtaining, operation described here can comprise: described the first electronic equipment obtains the first parameter sensing by the first sensing unit of self, and described in described the first electronic equipment, data buffer storage unit is preserved described the first parameter sensing; And described data buffer storage control unit judges when described the first parameter sensing meets default first condition, described the first electronic equipment is generated and is waken up instruction by described data buffer storage control unit.

Wherein, described the first sensing unit can be the pedometer of groups of acceleration sensors one-tenth; Or described the first sensing unit can also be light sensor etc.Accordingly, described the first parameter sensing can be: in the time that described the first sensing unit is pedometer, described the first parameter sensing can be time and numerical value.

Preferably, described CPU1402, can be for obtaining the first parameter sensing in the data buffer storage unit of described the first electronic equipment; Described the first parameter sensing is processed.

Visible, adopt such scheme, the first parameter sensing by the first sensing unit collection to the first electronic equipment judges, determine in the time that the data volume of described the first parameter sensing meets first condition, just can make the CPU of electronic equipment switch to the second state and the first parameter sensing is processed from the first state, thereby avoid obtaining parameter sensing in prior art at every turn and process by CPU the problem of the power consumption of brought consumption CPU, reduce the power consumption of electronic equipment CPU, the power consumption of electronic equipment is reduced, promote user's experience.

Device embodiment six,

The embodiment of the present invention can also provide a kind of information processing system, as shown in figure 15, comprising:

The first electronic equipment 1501, obtains the first parameter sensing for the first sensing unit by self; Preserve described the first parameter sensing; Judge whether described the first parameter sensing meets default first condition; In the time meeting default first condition, send and wake instruction up to the second electronic equipment 1502;

The second electronic equipment 1502, for when processing when the first state, receives and wakes up after instruction, wakes instruction up described self CPU is switched to the second state from described the first state according to described; Wherein, the power consumption of described CPU in the time of the first state is less than the power consumption in the time of described the second state.

In addition, understandable, other functions of the first electronic equipment 1501 that the embodiment of the present invention provides are as described in said apparatus embodiment tri-, device embodiment tetra-; The function of the second electronic equipment 1502, as shown in said apparatus embodiment five, does not all repeat here.

In the several embodiment that provide in the application, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, for example, the division of described unit, be only that a kind of logic function is divided, when actual realization, can there is other dividing mode, as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can ignore, or do not carry out.In addition, the coupling each other of shown or discussed each part or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.

The above-mentioned unit as separating component explanation can or can not be also physically to separate, and the parts that show as unit can be or can not be also physical locations, can be positioned at a place, also can be distributed in multiple network element; Can select according to the actual needs part or all of unit wherein to realize the object of the present embodiment scheme.

In addition, the each functional unit in various embodiments of the present invention can all be integrated in a processing module, can be also that each unit is distinguished separately as a unit, also can be integrated in a unit two or more unit; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that also can adopt hardware to add SFU software functional unit realizes.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can complete by the relevant hardware of program command, aforesaid program can be stored in a computer read/write memory medium, this program, in the time carrying out, is carried out the step that comprises said method embodiment; And aforesaid storage medium comprises: movable storage device, read-only memory (ROM, Read-Only Memory), the various media that can be program code stored such as random access memory (RAM, Random Access Memory), magnetic disc or CD.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, any be familiar with those skilled in the art the present invention disclose technical scope in; 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 with the protection range of described claim.

Claims

1. an information processing method, is applied to electronic equipment, and described electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit and central processing unit CPU, and when described CPU is during in the first state, described method comprises:

The first sensing unit gets the first parameter sensing;

2. method according to claim 1, is characterized in that,

Described in described the first state representation, CPU is in resting state;

Described in described the second state representation, CPU is in wake-up states.

3. method according to claim 1, is characterized in that, describedly judges that whether described the first parameter sensing meets default first condition, comprising:

Detect the data volume of the first parameter sensing of described data buffer storage unit preservation;

Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition.

4. method according to claim 1, is characterized in that, describedly judges that whether described the first parameter sensing meets default first condition, comprising:

Described data buffer storage control unit detects the numerical value of the first parameter sensing getting;

Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition.

5. method according to claim 1, is characterized in that, describedly judges that whether described the first parameter sensing meets default first condition, comprising:

Described data buffer storage control unit gets the numerical value of first parameter sensing in the first moment;

Extract the second parameter sensing that the second moment got;

Calculate the difference of described the first parameter sensing and described the second parameter sensing;

Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition;

Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment;

Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit.

6. method according to claim 1, is characterized in that, describedly judges that whether described the first parameter sensing meets default first condition, comprising:

Described data buffer storage control unit detects the numerical value of the first parameter sensing that got for the first moment;

Extract second parameter sensing in the second moment;

Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing, utilize described difference to calculate the rate of change of the first parameter sensing;

Judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition.

7. according to the method described in claim 1-6, it is characterized in that, described method also comprises: described the first parameter sensing that described CPU preserves described data buffer storage unit is processed.

8. method according to claim 7, is characterized in that, after described data buffer storage control unit judges whether described the first parameter sensing meets default first condition, described method also comprises:

In the time that described the first parameter sensing does not meet default first condition, described data buffer storage control unit does not send and wakes instruction up to described CPU, controls CPU and remains on the first state that power consumption is lower.

9. an information processing method, is applied to the first electronic equipment, and described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in the second electronic equipment is during in the first state, described method comprises:

10. method according to claim 9, is characterized in that,

Described in described the first state representation, CPU is in resting state;

11. methods according to claim 9, is characterized in that, describedly judge that whether described the first parameter sensing meets default first condition, comprising:

Detect the data volume of the first parameter sensing of described data buffer storage unit preservation; Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition;

Or described data buffer storage control unit detects the numerical value of the first parameter sensing getting; Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition;

Or described data buffer storage control unit gets the numerical value of first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got; Calculate the difference of described the first parameter sensing and described the second parameter sensing; Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition; Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit;

Or described data buffer storage control unit detects the numerical value of the first parameter sensing that got for the first moment; Extract second parameter sensing in the second moment; Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing; Utilize described difference to calculate the rate of change of the first parameter sensing, judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition.

12. methods according to claim 9, is characterized in that, after described data buffer storage control unit judges whether described the first parameter sensing meets default first condition, described method also comprises:

In the time that described the first parameter sensing does not meet default first condition, described data buffer storage control unit does not send and wakes instruction up to described the second electronic equipment, makes the CPU of described the second electronic equipment remain on the first state that power consumption is lower.

13. 1 kinds of information processing methods, are applied to the second electronic equipment, and described the first electronic equipment possesses at least one sensing unit, data buffer storage unit, data buffer storage control unit; When the CPU in described the second electronic equipment is during in the first state, described method comprises:

14. methods according to claim 13, is characterized in that, CPU is in resting state described in described the first state representation; Described in described the second state representation, CPU is in wake-up states.

15. according to the method described in claim 13 or 14, it is characterized in that, described method also comprises: obtain the first parameter sensing in the data buffer storage unit of described the first electronic equipment; Described the first parameter sensing is processed.

16. 1 kinds of electronic equipments, described electronic equipment comprises: the first sensing unit, data buffer storage unit, data buffer storage control unit and central processing unit CPU; Wherein,

Described the first sensing unit, for obtaining the first parameter sensing;

17. electronic equipments according to claim 16, is characterized in that, CPU is in resting state described in described the first state representation; Described in described the second state representation, CPU is in wake-up states.

18. electronic equipments according to claim 16, is characterized in that, described data buffer storage control unit, specifically for detecting the data volume of the first parameter sensing that described data buffer storage unit preserves; Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition.

19. electronic equipments according to claim 16, is characterized in that, described data buffer storage control unit, specifically for detecting the numerical value of the first parameter sensing getting; Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition.

20. electronic equipments according to claim 16, is characterized in that, described data buffer storage control unit, specifically for getting the numerical value of the first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got; Calculate the difference of described the first parameter sensing and described the second parameter sensing; Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition; Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit.

21. electronic equipments according to claim 16, is characterized in that, described data buffer storage control unit, specifically for detecting the numerical value of the first parameter sensing that got for the first moment; Extract second parameter sensing in the second moment; Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing, utilize described difference to calculate the rate of change of the first parameter sensing; Judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition.

22. according to the electronic equipment described in claim 16-21, it is characterized in that described CPU also processes for described the first parameter sensing that described data buffer storage unit is preserved.

23. electronic equipments according to claim 22, it is characterized in that, described data buffer storage control unit, also in the time that described the first parameter sensing does not meet default first condition, do not send and wake instruction up to described CPU, control CPU and remain on the first state that power consumption is lower.

24. 1 kinds of electronic equipments, described electronic equipment comprises: the first sensing unit, data buffer storage unit, data buffer storage control unit; Wherein,

Described the first sensing unit, for obtaining the first parameter sensing;

25. electronic equipments according to claim 24, is characterized in that, CPU is in resting state described in described the first state representation; Described in described the second state representation, CPU is in wake-up states.

26. electronic equipments according to claim 24, is characterized in that, described data buffer storage control unit, specifically for detecting the data volume of the first parameter sensing that described data buffer storage unit preserves; Judge that whether the data volume of described the first parameter sensing is higher than default first threshold, if higher than, determine that described the first parameter sensing meets default first condition;

Or described data buffer storage control unit, specifically for detecting the numerical value of the first parameter sensing getting; Judge that whether the numerical value of described the first parameter sensing is higher than default Second Threshold, if higher than, determine that described the first parameter sensing meets default first condition;

Or described data buffer storage control unit, specifically for getting the numerical value of the first parameter sensing in the first moment; Extract the second parameter sensing that the second moment got; Calculate the difference of described the first parameter sensing and described the second parameter sensing; Judge that whether described difference is higher than the 3rd default threshold value, if higher than, determine that described the first parameter sensing meets default first condition; Wherein, described the first moment is different from described the second moment; Described the second moment is the moment of predetermined amount of time before in the first moment; Described the first parameter sensing and the second parameter sensing are the parameter sensings that do not obtained in the same time of the first sensing unit;

Or described data buffer storage control unit, specifically for detecting the numerical value of the first parameter sensing that got for the first moment; Extract second parameter sensing in the second moment; Obtain the difference of the first parameter sensing with respect to the numerical value of described the second parameter sensing; Utilize described difference to calculate the rate of change of the first parameter sensing, judge that whether the rate of change of described the first parameter sensing is higher than the 4th default threshold value, if higher than, determine that described the first parameter sensing meets default first condition.

27. electronic equipments according to claim 24, it is characterized in that, described data buffer storage control unit, also in the time that described the first parameter sensing does not meet default first condition, do not send and wake instruction up to described the second electronic equipment, make the CPU of described the second electronic equipment remain on the first state that power consumption is lower.

28. 1 kinds of electronic equipments, described electronic equipment comprises:

29. electronic equipments according to claim 28, is characterized in that, CPU is in resting state described in described the first state representation; Described in described the second state representation, CPU is in wake-up states.

30. according to the electronic equipment described in claim 28 or 29, it is characterized in that, described CPU, also for obtaining first parameter sensing of data buffer storage unit of described the first electronic equipment; Described the first parameter sensing is processed.

31. 1 kinds of information processing systems, is characterized in that, described system comprises: the first electronic equipment and the second electronic equipment; Wherein,