CN105511609A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method comprising the following steps: obtaining sensing data sent by a wearable device and indicating user motions, and obtaining motion states of the user according to the sensing data, wherein the sensing data is the motion data of the user wearing the wearable device, and the data is detected by the wearable device; if the user motion state is in a preset state, switching the work mode of the electronic equipment from a first mode to a second mode, wherein the first mode and second mode can process the electronic equipment information in different ways, and the electronic equipment can carry out first processing for the received information under the second mode. The invention also discloses the electronic equipment.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technology

Along with improving constantly of living standard, the material requisite of people increases, and increasing user has oneself automobile.Meanwhile, because the quickening of rhythm of life, increasing people likes carrying out information communication by phone.If time user drives, mobile phone has incoming call suddenly, can select not incoming call answering for security consideration user; But if shoppy partner or household to be in a hurry etc. and to make a call, therefore user likely misses very very important to user oneself information.

In order to avoid this situation occurs, user just needs oneself to carry out mobile phone operation with hand to receive calls.Although have in prior art and mobile phone is switched to driving model, avoid the scheme that this situation occurs.But the switching of existing driving model needs user's manual operation; If user forgets manually mobile phone is switched to driving model, user oneself is still needed manually to receive calls., still there is danger of driving in this scheme troublesome poeration of the prior art.

Summary of the invention

For solving the problems of the technologies described above, the embodiment of the present invention is expected to provide a kind of information processing method and electronic equipment, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, realize without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Technical scheme of the present invention is achieved in that

A kind of information processing method, described method is applied in electronic equipment, and described method comprises:

Obtain the sensing data of the characterizing consumer motion that Wearable sends, and obtain the motion state of described user based on described sensing data, wherein, described sensing data is the exercise data of the user of the described Wearable of wearing that described Wearable detects;

If the motion state of described user is preset state, then the mode of operation of described electronic equipment is switched to the second pattern from first mode; Wherein, described first mode is different with the processing mode of described second pattern to the information of described electronic equipment, and under described second pattern, described electronic equipment carries out the first process to the information received.

Optionally, the sensing data of the characterizing consumer motion that described acquisition Wearable sends, and the motion state of described user is obtained based on described sensing data, comprising:

Obtain the hand exercise data of the characterizing consumer motion that Wearable sends;

Based on described operation by human hand data, obtain the hand exercise state of described user; Wherein, described hand exercise state comprises hand exercise track;

Correspondingly, if the motion state of described user is preset state, then the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

When detecting that described hand exercise state and preset state match, the mode of operation of described electronic equipment is switched to the second pattern from first mode.

Optionally, described when detecting that described hand exercise state and preset state match, the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

Judge whether described hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets described in described hand exercise track pre-conditioned;

If described hand exercise track and desired guiding trajectory match, and described in described hand exercise track, the locus of Wearable meets pre-conditioned, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

Optionally, described method also comprises:

Obtain the sensing data of characterizing consumer movement velocity, and obtain the movement velocity of described user based on described sensing data.

Accordingly, if the motion state of described user is preset state, then the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

Detecting that described hand exercise state and preset state match, and the movement velocity of described user is in described preset threshold range, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

Optionally, describedly detecting that described hand exercise state and preset state match, and the movement velocity of described user is in described preset threshold range, the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

Judge whether the hand exercise track of described user matches with desired guiding trajectory, and whether the locus of Wearable meets described in described hand exercise track pre-conditioned;

If described hand exercise track and desired guiding trajectory match, and the locus of Wearable meets pre-conditioned described in described hand exercise track, then detect the movement velocity of described user whether in preset threshold range;

If detect, the movement velocity of described user is in described preset threshold range, be then switched to the second pattern by the mode of operation of described electronic equipment from first mode.

A kind of electronic equipment, described electronic equipment comprises: the first acquiring unit and switch unit, wherein:

Described first acquiring unit, for obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of described user based on described sensing data; Wherein, described sensing data is the exercise data of the user of the described Wearable of wearing that described Wearable detects;

Described switch unit, if be preset state for the motion state of described user, is then switched to the second pattern by the mode of operation of described electronic equipment from first mode; Wherein, described first mode is different with the processing mode of described second pattern to the information of described electronic equipment, and under described second pattern, described electronic equipment carries out the first process to the information received.

Optionally, described first acquiring unit comprises: acquisition module and processing module; Wherein,

Described acquisition module, for obtaining the hand exercise data of the characterizing consumer motion that Wearable sends;

Described processing unit, for based on described hand exercise data, obtains the hand exercise state of described user; Wherein, described hand exercise state comprises hand exercise track;

Accordingly, described switch unit specifically for:

When detecting that described hand exercise state and preset state match, the mode of operation of described electronic equipment is switched to the second pattern from first mode.

Optionally, described switch unit comprises: the first judge module and the first handover module, wherein:

Described first judge module, for judging whether described hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets pre-conditioned described in described hand exercise track;

Described first processing module, if match for described hand exercise track and desired guiding trajectory, and described in described hand exercise track, the locus of Wearable meets pre-conditioned, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

Optionally, described electronic equipment also comprises: second acquisition unit, wherein:

Described second acquisition unit, for obtaining the sensing data of characterizing consumer movement velocity, and obtains the movement velocity of described user based on described sensing data;

Accordingly, described switch unit specifically for:

Detecting that described hand exercise state and preset state match, and the movement velocity of described user is in described preset threshold range, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

Optionally, described switch unit also comprises: the second judge module, detection module and the second handover module, wherein:

Described second judge module, for judging whether the hand exercise track of described user matches with desired guiding trajectory, and whether the locus of Wearable meets pre-conditioned described in described hand exercise track;

Described detection module, if match for described hand exercise track and desired guiding trajectory, and the locus of Wearable meets pre-conditioned described in described hand exercise track, then detect the movement velocity of described user whether in preset threshold range;

Described second handover module, if for detecting that the movement velocity of described user is in described preset threshold range, be then switched to the second pattern by the mode of operation of described electronic equipment from first mode.

The information processing method that the embodiment of the present invention provides and electronic equipment, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtain the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, realize without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Accompanying drawing explanation

The schematic flow sheet of a kind of information processing method that Fig. 1 provides for embodiments of the invention;

The schematic flow sheet of the another kind of information processing method that Fig. 2 provides for embodiments of the invention;

The schematic flow sheet of another information processing method that Fig. 3 provides for embodiments of the invention;

The schematic flow sheet of a kind of information processing method that Fig. 4 provides for another embodiment of the present invention;

The schematic flow sheet of the another kind of information processing method that Fig. 5 provides for another embodiment of the present invention;

The structural representation of a kind of electronic equipment that Fig. 6 provides for embodiments of the invention;

The structural representation of the another kind of electronic equipment that Fig. 7 provides for embodiments of the invention;

The structural representation of another electronic equipment that Fig. 8 provides for embodiments of the invention;

The structural representation of a kind of electronic equipment that Fig. 9 provides for another embodiment of the present invention;

The structural representation of the another kind of electronic equipment that Figure 10 provides for another embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described.

Embodiments of the invention provide a kind of information processing method, and the method is applied in electronic equipment, and with reference to shown in Fig. 1, the method comprises the following steps:

The sensing data that step 101, the characterizing consumer obtaining Wearable transmission move, and the motion state of user is obtained based on sensing data.

Wherein, sensing data is the exercise data of the user of this Wearable of wearing that Wearable detects.

Concrete, Wearable can be preferably Intelligent bracelet, and this Intelligent bracelet can obtain the exercise data of the user carrying it, and is sent to by the exercise data of user on the electronic equipment such as mobile phone of the user be connected with this Intelligent bracelet.Thus electronic equipment just can obtain the exercise data of active user, and obtain the motion state of user by analyzing the exercise data obtained.Certainly, Wearable also can be intelligent watch, and intelligent ring etc. are wearable in the equipment of user's upper limbs.

If the motion state of step 102 user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode.

Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.

The state that the mode of operation of electronic equipment can be switched to the second pattern that preset state can pre-set.First mode is the original mode of operation of electronic equipment, and the second pattern can be car driving mode.Under second pattern, electronic equipment carries out the first process to the information received can be automatically can process the incoming call received or short message etc. under the second mode; Such as, under the second pattern, the incoming call that can receive electronic equipment carries out auto-pickup or hangs up and automatic short message responding; Or process is automatically replied to the short message that electronic equipment receives.

Concrete, after electronic equipment is switched to the second pattern, judge when electronic equipment receives incoming call whether user meets pre-set velocity relative to the translational speed on ground; If user is less than or equal to pre-set velocity relative to the translational speed on ground, then this incoming call answered by electronic equipment; If user is greater than pre-set velocity relative to the translational speed on ground, then the automatic hanging up calling of electronic equipment, and send the user of preset SMS breath to incoming call.Wherein, this pre-set velocity can be the speed in safe driving velocity range that user presets according to safe driving velocity range; Default short message can be driving, after a while incoming call etc.

The information processing method that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Embodiments of the invention provide a kind of information processing method, and the method is applied in electronic equipment, and with reference to shown in Fig. 2, the method comprises the following steps:

The hand exercise data that step 201, the characterizing consumer obtaining Wearable transmission move.

Step 202, based on operation by human hand data, obtain the hand exercise state of user.

Wherein, hand exercise state comprises hand exercise track.

Concrete, Wearable such as Intelligent bracelet real-time collection can dress the exercise data of the hand of the user of this Wearable, and the hand exercise data of the user obtained are sent in the electronic equipment bound with this Wearable, electronic equipment, to the hand exercise data analysis process of the user obtained, obtains the operation of the hand of user.

Step 203, when detecting that hand exercise state and preset state match, the mode of operation of electronic equipment is switched to the second pattern from first mode.

Concrete, when detecting that hand exercise state and preset state match, by the mode of operation of electronic equipment, from first mode, whether to be switched to the second pattern can be operation that first electronic equipment detects the hand of user be meet the operation that pattern switches, if the operation of user is the operation meeting pattern switching, then the mode of operation of electronic equipment is switched to the second pattern.

Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.

It should be noted that, with reference to the explanation in other embodiments, can repeat no more about the associated description of first mode and the second pattern in the present embodiment herein.

The information processing method that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Embodiments of the invention provide a kind of information processing method, and the method is applied in electronic equipment, and with reference to shown in Fig. 3, the method comprises the following steps:

The hand exercise data that step 301, the characterizing consumer obtaining Wearable transmission move.

Step 302, based on operation by human hand data, obtain the hand exercise state of user.

Wherein, hand exercise state comprises hand exercise track.

Step 303, judge whether hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets in hand exercise track pre-conditioned.

Concrete, can judge whether hand exercise track matches with desired guiding trajectory, if coupling, then then judge whether the locus of Wearable in hand exercise track meets pre-conditioned.Also can be hand exercise track and desired guiding trajectory are judged while, judge whether the locus of each track position place Wearable meets pre-conditioned.Wherein, desired guiding trajectory can be the track that produces of direction of operating dish or carry out the track that gear switch produces.In hand exercise track, the locus of Wearable can be the position of the Wearable of one or more sampled point of the movement locus of the hand of user, judge the locus of Wearable can be judge Wearable position whether on the steering wheel or on gear lever; Also can be judge whether the position of Wearable occurs on the steering wheel with on gear lever simultaneously; Or judging at each track position place, Wearable judges self spatial attitude information such as to utilize gyroscope to carry out the judgement of spatial attitude.

If step 304 hand exercise track and desired guiding trajectory match, and the locus of Wearable meets pre-conditioned in hand exercise track, and the mode of operation of electronic equipment is switched to the second pattern from first mode.

Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.

Concrete, the track produced when desired guiding trajectory can be user operation bearing circle, or the track of generation when user operation gear lever carries out gear switch, or the track produced when simultaneously comprising direction of operating dish and operation gear lever.

Wherein, when hand exercise track and desired guiding trajectory match, and when in hand exercise track, the locus of Wearable meets pre-conditioned, the prompting message whether mode of operation being switched to the second pattern can be there is on the display screen of electronic equipment, user can adopt manual mode touch-control confirm button then electronic equipment be switched to the second mode of operation, user also can adopt manual mode touch-control to cancel button and exit this prompting and do not enter the second pattern.Certainly, user also can control electronic equipment by voice-operated mode and whether enter the second pattern.Such as, the user of driving wears Intelligent bracelet, simultaneously by this Intelligent bracelet and the handset binding of oneself; The exercise data of the hand of the acquisition user that Intelligent bracelet is real-time, this exercise data is sent on mobile phone, the exercise data of hand Opportunities Analysis hand obtains the hand exercise data carrying hand exercise track, and hand exercise track and desired guiding trajectory are carried out matching judgment, mate once obtain hand exercise track with desired guiding trajectory, and in hand exercise track, the spatial attitude of Wearable meets preset requirement, then the mode of operation of electronic equipment is switched to the second pattern from first mode.

It should be noted that, with reference to the explanation in other embodiments, can repeat no more with the description of same steps in other embodiment about in the associated description of first mode and the second pattern and the present embodiment in the present embodiment herein.

The information processing method that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and the motion state of user is obtained based on sensing data, concrete, by utilizing comparing of hand exercise track and desired guiding trajectory, and the judgement of the locus of Wearable in hand exercise track, can judge whether the hand positions of user is posture of driving more exactly, thus determine user current whether be the state of driving.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Embodiments of the invention provide a kind of information processing method, and the method is applied in electronic equipment, and with reference to shown in Fig. 4, the method comprises the following steps:

The hand exercise data that step 401, the characterizing consumer obtaining Wearable transmission move.

Step 402, based on operation by human hand data, obtain the hand exercise state of user.

Wherein, hand exercise state comprises hand exercise track.

The sensing data of step 403, acquisition characterizing consumer movement velocity, and the movement velocity of user is obtained based on sensing data.

It should be noted that, on performing, do not have dividing of sequencing between step 401-402 and step 403, step 401-402 and step 403 can perform simultaneously, perform step 401-402 after also can being execution of step 403.

Wherein, the movement velocity of user can be obtained by Wearable, and other speed counter part also can be adopted to obtain, such as, can be meter speed software, speed counter etc. the device on mobile phone.

Step 404, detecting that hand exercise state and preset state match, and the movement velocity of user is in preset threshold range, and the mode of operation of electronic equipment is switched to the second pattern from first mode.

Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.

Wherein, by the judgement of user movement speed extraly, effectively can reduce the probability of erroneous judgement, improve the accuracy rate that electronic device works pattern switches, such as, can effectively filtering user play racing simulation game situation, if when detecting that user walks about, then automatically terminate the second pattern of electronic equipment, thus electronic equipment can enter originate mode as first mode.

It should be noted that, with reference to the explanation in other embodiments, can repeat no more with the description of same steps in other embodiment about in the associated description of first mode and the second pattern and the present embodiment in the present embodiment herein.

The information processing method that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Embodiments of the invention provide a kind of information processing method, and the method is applied in electronic equipment, and with reference to shown in Fig. 5, the method comprises the following steps:

The hand exercise data that step 501, the characterizing consumer obtaining Wearable transmission move.

Step 502, based on operation by human hand data, obtain the hand exercise state of user.

Wherein, hand exercise state comprises hand exercise track.

The sensing data of step 503, acquisition characterizing consumer movement velocity, and the movement velocity of user is obtained based on sensing data.

Wherein, on performing, do not have dividing of sequencing between step 501-502 and step 503, step 501-502 and step 503 can perform simultaneously, perform step 501-502 after also can being execution of step 503.

Step 504, judge whether hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets in hand exercise track pre-conditioned.

If step 505 hand exercise track and desired guiding trajectory match, and the locus of Wearable meets pre-conditioned in hand exercise track, then detect the movement velocity of user whether in preset threshold range.

Wherein, this predetermined threshold value can be determine according to the travelling speed in racing simulation game, and whether the movement velocity detecting user, in preset threshold range, can be whether the movement velocity detecting user is less than predetermined threshold value.

If step 506 detects that the movement velocity of user is in preset threshold range, be then switched to the second pattern by the mode of operation of electronic equipment from first mode.

Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.

Concrete, if detect, the movement velocity of user is less than predetermined threshold value, then illustrate that user is not now in the game of object for appreciation racing simulation, then the mode of operation of electronic equipment can be switched to the second pattern from first mode.Wherein, the size of predetermined threshold value does not uniquely limit herein, can be the velocity amplitude preset according to conventional speed in the game of different racing simulations.

Wherein, by the judgement of user movement speed extraly, effectively can reduce the probability of erroneous judgement, improve the accuracy rate that electronic device works pattern switches, such as, can effectively filtering user play racing simulation game situation, if when detecting that user walks about, then automatically terminate the second pattern of electronic equipment, thus electronic equipment can enter originate mode as first mode.

It should be noted that, with reference to the explanation in other embodiments, can repeat no more with the description of same steps in other embodiment about in the associated description of first mode and the second pattern and the present embodiment in the present embodiment herein.

The information processing method that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Embodiments of the invention provide a kind of electronic equipment 6, and in a kind of information processing method that the embodiment that can be applied to Fig. 1 ~ 5 correspondence provides, with reference to shown in Fig. 6, this electronic equipment comprises: the first acquiring unit 61 and switch unit 62, wherein:

First acquiring unit 61, for obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.

Wherein, sensing data is the exercise data of the user of this Wearable of wearing that Wearable detects.

Switch unit 62, if be preset state for the motion state of user, is then switched to the second pattern by the mode of operation of electronic equipment from first mode.

Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.

Concrete, Wearable can be that Intelligent bracelet, intelligent watch, intelligent ring etc. are wearable in the equipment of user's upper limbs.

The electronic equipment that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

Concrete, with reference to shown in Fig. 7, the first acquiring unit 61 comprises: acquisition module 611 and processing module 612, wherein:

Acquisition module 611, for obtaining the hand exercise data of the characterizing consumer motion that Wearable sends.

Processing module 612, for based on hand exercise data, obtains the hand exercise state of user.

Wherein, hand exercise state comprises hand exercise track.

Accordingly, switch unit 62 specifically for: when detecting that hand exercise state and preset state match, the mode of operation of electronic equipment is switched to the second pattern from first mode.

Concrete further, with reference to shown in Fig. 8, switch unit 62 comprises: the first judge module 621 and the first handover module 622, wherein:

First judge module 621, for judging whether hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets pre-conditioned in hand exercise track.

First handover module 622, if match for hand exercise track and desired guiding trajectory, and the locus of Wearable meets pre-conditioned in hand exercise track, and the mode of operation of electronic equipment is switched to the second pattern from first mode.

Further, with reference to shown in Fig. 9, this electronic equipment 6 also comprises second acquisition unit 63, wherein:

Second acquisition unit 63, for obtaining the sensing data of characterizing consumer movement velocity, and obtains the movement velocity of user based on sensing data.

Accordingly, switch unit 62 specifically for: detecting that hand exercise state and preset state match, and the movement velocity of user is in preset threshold range, and the mode of operation of electronic equipment is switched to the second pattern from first mode.

Concrete, with reference to shown in Figure 10, switch unit 62 also comprises: the second judge module 623, detection module 624 and the second handover module 625, wherein:

Second judge module 623, for judging whether the hand exercise track of user matches with desired guiding trajectory, and whether the locus of Wearable meets pre-conditioned in hand exercise track.

Detection module 624, if match for hand exercise track and desired guiding trajectory, and the locus of Wearable meets pre-conditioned in hand exercise track, then detect the movement velocity of user whether in preset threshold range.

Second handover module 625, if for detecting that the movement velocity of user is in preset threshold range, be then switched to the second pattern by the mode of operation of electronic equipment from first mode.

It should be noted that, the reciprocal process in a kind of information processing method that the reciprocal process in the present embodiment between unit and module can provide with reference to the embodiment of Fig. 1 ~ 5 correspondence, repeats no more herein.

The electronic equipment that the embodiment of the present invention provides, by obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of user based on sensing data.If the motion state of user is preset state, then the mode of operation of electronic equipment is switched to the second pattern from first mode; Wherein, first mode is different with the processing mode of the second pattern to the information of electronic equipment, and under the second pattern, electronic equipment carries out the first process to the information received.Like this, electronic equipment can judge by the motion state detecting user that user is current whether in driving, and detecting that the electronic equipment of user can be switched to the second pattern from first mode when driving by user automatically, solve car driving mode of the prior art need manual switchover and still there is dangerous problem of driving, without the need to user's manual operation, greatly reduce operation complexity, ensure that the driving safety of user.Meanwhile, improve the interaction capabilities of user and electronic equipment.

In actual applications, described first acquiring unit 61, acquisition module 611, processing module 612, switch unit 62, first judge module 621, first handover module 622, second judge module 623, detection module 624, second handover module 625 and second acquisition unit 63 all can by the central processing unit (CentralProcessingUnit being arranged in wireless data transmitting apparatus, CPU), microprocessor (MicroProcessorUnit, MPU), digital signal processor (DigitalSignalProcessor, or field programmable gate array (FieldProgrammableGateArray DSP), the realization such as FPGA).

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of hardware embodiment, software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory and optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

The above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.

Claims (10)

1. an information processing method, described method is applied in electronic equipment, and described method comprises:

Obtain the sensing data of the characterizing consumer motion that Wearable sends, and obtain the motion state of described user based on described sensing data, wherein, described sensing data is the exercise data of the user of the described Wearable of wearing that described Wearable detects;

If the motion state of described user is preset state, then the mode of operation of described electronic equipment is switched to the second pattern from first mode; Wherein, described first mode is different with the processing mode of described second pattern to the information of described electronic equipment, and under described second pattern, described electronic equipment carries out the first process to the information received.

2. method according to claim 1, is characterized in that, the sensing data of the characterizing consumer motion that described acquisition Wearable sends, and obtains the motion state of described user based on described sensing data, comprising:

Obtain the hand exercise data of the characterizing consumer motion that Wearable sends;

Based on described operation by human hand data, obtain the hand exercise state of described user; Wherein, described hand exercise state comprises hand exercise track;

Correspondingly, if the motion state of described user is preset state, then the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

When detecting that described hand exercise state and preset state match, the mode of operation of described electronic equipment is switched to the second pattern from first mode.

3. method according to claim 2, is characterized in that, described when detecting that described hand exercise state and preset state match, and the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

Judge whether described hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets described in described hand exercise track pre-conditioned;

If described hand exercise track and desired guiding trajectory match, and described in described hand exercise track, the locus of Wearable meets pre-conditioned, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

4. method according to claim 2, is characterized in that, described method also comprises:

Obtain the sensing data of characterizing consumer movement velocity, and obtain the movement velocity of described user based on described sensing data;

Accordingly, if the motion state of described user is preset state, then the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

Detecting that described hand exercise state and preset state match, and the movement velocity of described user is in described preset threshold range, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

5. method according to claim 4, it is characterized in that, describedly detecting that described hand exercise state and preset state match, and the movement velocity of described user is in described preset threshold range, the mode of operation of described electronic equipment is switched to the second pattern from first mode, comprises:

Judge whether the hand exercise track of described user matches with desired guiding trajectory, and whether the locus of Wearable meets described in described hand exercise track pre-conditioned;

If described hand exercise track and desired guiding trajectory match, and the locus of Wearable meets pre-conditioned described in described hand exercise track, then detect the movement velocity of described user whether in preset threshold range;

If detect, the movement velocity of described user is in described preset threshold range, be then switched to the second pattern by the mode of operation of described electronic equipment from first mode.

6. an electronic equipment, is characterized in that, described electronic equipment comprises: the first acquiring unit and switch unit, wherein:

Described first acquiring unit, for obtaining the sensing data of the characterizing consumer motion that Wearable sends, and obtains the motion state of described user based on described sensing data; Wherein, described sensing data is the exercise data of the user of the described Wearable of wearing that described Wearable detects;

Described switch unit, if be preset state for the motion state of described user, is then switched to the second pattern by the mode of operation of described electronic equipment from first mode; Wherein, described first mode is different with the processing mode of described second pattern to the information of described electronic equipment, and under described second pattern, described electronic equipment carries out the first process to the information received.

7. electronic equipment according to claim 6, is characterized in that, described first acquiring unit comprises: acquisition module and processing module; Wherein,

Described acquisition module, for obtaining the hand exercise data of the characterizing consumer motion that Wearable sends;

Described processing module, for based on described hand exercise data, obtains the hand exercise state of described user; Wherein, described hand exercise state comprises hand exercise track;

Accordingly, described switch unit specifically for:

When detecting that described hand exercise state and preset state match, the mode of operation of described electronic equipment is switched to the second pattern from first mode.

8. electronic equipment according to claim 7, is characterized in that, described switch unit comprises: the first judge module and the first handover module, wherein:

Described first judge module, for judging whether described hand exercise track matches with desired guiding trajectory, and whether the locus of Wearable meets pre-conditioned described in described hand exercise track;

Described first processing module, if match for described hand exercise track and desired guiding trajectory, and described in described hand exercise track, the locus of Wearable meets pre-conditioned, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

9. electronic equipment according to claim 7, is characterized in that, described electronic equipment also comprises: second acquisition unit, wherein:

Described second acquisition unit, for obtaining the sensing data of characterizing consumer movement velocity, and obtains the movement velocity of described user based on described sensing data;

Accordingly, described switch unit specifically for:

Detecting that described hand exercise state and preset state match, and the movement velocity of described user is in described preset threshold range, and the mode of operation of described electronic equipment is switched to the second pattern from first mode.

10. electronic equipment according to claim 9, is characterized in that, described switch unit also comprises: the second judge module, detection module and the second handover module, wherein:

Described second judge module, for judging whether the hand exercise track of described user matches with desired guiding trajectory, and whether the locus of Wearable meets pre-conditioned described in described hand exercise track;

Described detection module, if match for described hand exercise track and desired guiding trajectory, and the locus of Wearable meets pre-conditioned described in described hand exercise track, then detect the movement velocity of described user whether in preset threshold range;

Described second handover module, if for detecting that the movement velocity of described user is in described preset threshold range, be then switched to the second pattern by the mode of operation of described electronic equipment from first mode.