CN105183538A - Information processing method and electronic device - Google Patents

Abstract

The invention discloses an information processing method and an electronic device. The method and the device are designed for reducing maloperation probability of electronic devices. The information processing method is applied in the electronic device which includes an interaction unit and a sensing unit. The interaction unit is used to receive input of an operating body. The sensing unit is used to detect states of the electronic device. The method comprises: the interaction unit receives first input, the first input being used to control the electronic device to execute first operation; the sensing unit detecting a first sensing parameter; and when the first sensing parameter satisfies a first preset condition, the electronic device executing second operation related to the first operation.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technology

Along with the development of the electric information processing technology, when controlling the operation of the electronic equipment such as panel computer and smart mobile phone, e-book and personal digital assistant, a large amount of use operating gestures.Due to the introducing of operating gesture, be easy to occur false touch during user's handheld device.Concrete as user's handheld mobile phone; The careless touch-control mobile phone screen of user controls the position that mobile phone performs camera function, cause mobile phone automatically to open camera function; Obvious this false touch causes electronic equipment to perform the operation of some non-user appointment execution, will cause the problem that user's user satisfaction is low.

Summary of the invention

In view of this, the embodiment of the present invention is expected to provide a kind of information processing method and electronic equipment, to improve the accuracy rate of electronic equipment to the identification of operating gesture.

For achieving the above object, technical scheme of the present invention is achieved in that

Embodiment of the present invention first aspect provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit detects the first parameter sensing;

When described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Preferably,

Described sensing unit is specifically for detecting the attitude of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described second is operating as described first operation of shielding.

Preferably,

Described electronic equipment also comprises multimedia information acquisition unit;

Described sensing unit is light sensation unit;

Described first is operating as multimedia information acquisition operation;

Described first parameter sensing shows that described electronic equipment is in the first preset posture and is: when the luminous flux that the first light sensation parameter of described light sensation unit collection shows to enter described multimedia information acquisition unit is less than first threshold, determine that electronic equipment is in the first preset posture.

Preferably,

Described sensing unit is specifically for detecting the motion state of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment has motion when receiving described first input;

Described second is operating as according to described first operation of described first parameter sensing correction.

Preferably,

Second of described execution and described first operative association operates and comprises:

Obtain the first input parameter of described first input;

The first correction parameter is generated according to described first parameter sensing;

Correct described first input parameter according to described first correction parameter, form first and correct result.

Preferably, described method also comprises:

Correct result according to described first, respond described first input.

Preferably,

Described first parameter sensing comprise the first displacement parameter of characterizing described electronic equipment displacement and the first rotational parameters at least one of them.

Embodiment of the present invention second aspect provides a kind of electronic equipment, comprises interactive unit, sensing unit, determining unit and performance element;

Described interactive unit, for receiving operating body input; Described sensing unit, for the state of detected electrons equipment;

Described interactive unit, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit, specifically for detecting the first parameter sensing;

Described determining unit, first pre-conditioned for determining that whether described first parameter sensing meets;

Performance element, for when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Further,

Described sensing unit, specifically for detecting the attitude of described electronic equipment;

Described determining unit, specifically for determining that described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described performance element, specifically for when described first parameter sensing meet first pre-conditioned time shield described first operation.

Further,

Described electronic equipment also comprises multimedia information acquisition unit;

Described sensing unit is light sensation unit;

Described first is operating as multimedia information acquisition operation;

Described determining unit, specifically for when the luminous flux that the first light sensation parameter of described light sensation unit collection shows to enter described multimedia information acquisition unit is less than first threshold, determines that electronic equipment is in the first preset posture.

Further,

Described sensing unit, specifically for detecting the motion state of described electronic equipment;

Described determining unit, specifically for showing that when described first parameter sensing described electronic equipment has motion when receiving described first input, determines that described first parameter sensing meets first pre-conditioned;

Described performance element, specifically for correcting described first operation according to described first parameter sensing.

Further,

Described performance element comprises:

Acquisition module, for obtaining the first input parameter of described first input;

Generation module, for generating the first correction parameter according to described first parameter sensing;

Correction module, for correcting described first input parameter according to described first correction parameter, forming first and correcting result.

Further,

Described performance element, also for correcting result according to described first, responds described first input.

According to the state of electronic equipment, information processing method described in the embodiment of the present invention and electronic equipment, determine whether that execution first operates or revise the first operation, thus decrease the probability automatically performing certain certain operations that false touch causes; Reduce user simultaneously and think executable operations A, but due to the state that electronic equipment is current, cause electronic equipment identify by mistake and perform the probability of operation B.

Accompanying drawing explanation

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

One of application schematic diagram that Fig. 2 is the information processing method described in the embodiment of the present invention;

The schematic flow sheet that Fig. 3 operates for the execution second described in the embodiment of the present invention;

The application schematic diagram two that Fig. 4 is the information processing method described in the embodiment of the present invention;

Fig. 5 is the structural representation of the electronic equipment described in the embodiment of the present invention;

Fig. 6 is the structural representation of the performance element described in the embodiment of the present invention.

Embodiment

Below in conjunction with Figure of description and specific embodiment technical scheme of the present invention done and further elaborate.

Embodiment of the method one:

As shown in Figure 1, the present embodiment provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Step S110: described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Step S120: described sensing unit detects the first parameter sensing;

Step S130: when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Described in described step S110, first is input as the input results formed based on operating body input that electronic equipment detects, is the input results comprising operating body input and electronic equipment relativity.

Described operating body input comprises gesture operation and the expression in the eyes signal input based on eyeball tracking; Described operating body input can be divided into the active of operating body to input and unconscious input; The usual described unconscious maloperation being input as operating body (as user).

The state of described electronic equipment can be placement attitude, the motion state or duty etc. of described electronic equipment.Under the state of some electronic equipment, may cause conflicting mutually with this state or there is no the input that respective operations body is corresponding if electronic equipment performs this operation, then need shielding or correct described first operation.

Described first parameter sensing can be the status parameter values of the described electronic equipment that described sensing unit detects.

Can determine whether described electronic equipment is in preset state according to described first parameter sensing, if be in default state can think satisfied first pre-conditioned, operate performing with second of the first operative association, identify to shield maloperation or to correct by mistake, thus reduce the misoperation probability of electronic equipment, improve device intelligence and user's user satisfaction.

Concrete as in session current in user, the electronic equipment of communication is set to be operated in conference model state.Now, described first parameter sensing is the state parameter of the mode of operation of described electronic equipment.If now operating body (as user) false touch have input the first operation for triggering music to electronic equipment, if electronic equipment performs music input, obviously can not be the result that user wants.According to the information processing method described in the embodiment of the present invention, now execution second operates and namely shields described first operation by electronic equipment, does not namely play music.

Specifically as described in electronic equipment open an application, under this application, have a lot of control; This control is double-clicked expression and is opened this control; State parameter under the job applications state that now described electronic equipment is current is described first parameter sensing.If now operating body (as user) is for careless manipulation, control described in one of them click for three times under this application continuous, causes not opening this control; According to the method described in the present embodiment, then revise described first operation by the second operation, thus perform opening operation, instead of do not respond user operation or to for pointing out electronic equipment None-identified.

Comprehensively above-mentioned, present embodiments provide a kind of information processing method, improve the intelligent of electronic equipment, under the state residing for current electronic device and operating body first input, by the second operation realization to the shielding of maloperation or correction, thus reduce the misoperation probability of electronic equipment.

Embodiment of the method two:

As shown in Figure 1, the present embodiment provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Step S110: described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Step S120: described sensing unit detects the first parameter sensing;

Step S130: when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Described sensing unit is specifically for detecting the attitude of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described second is operating as described first operation of shielding.

The present embodiment provides relative to the information approach described in embodiment of the method one information processing method that a kind of attitude according to electronic equipment shields a certain operation, and when electronic equipment is in a certain attitude, it is insignificant that electronic equipment performs certain certain operations.Concrete as in the electronic equipment of double-sided screen, main screen is used for display, and the operation screen be oppositely arranged with described main screen is for the reverse side touch-control of operating body; If now main screen is placed towards desk by electronic equipment, described operation screen have detected first operation controlling described main screen and Show Picture; Obviously because main screen is placed towards desktop, user just cannot see content shown in main screen at all.

Adopt the information processing method described in the present embodiment, described sensing unit can pass through detection first parameter sensing, to detect that described electronic equipment is placed towards desktop, thus determine that electronic equipment is in the first preset state, and then the second operation of the operation that Shows Picture described in execution shielding.

Specifically how to determine that described electronic equipment is in the first preset state, concrete described sensing unit can comprise two sensors, and one can be gravity sensor, and another is optical sensor.Described gravity sensor can be used for determining that described electronic equipment is uprightly, tilts or lying status; The light entrance of described optical sensor arranges and described main screen is arranged on the same face.If described electronic equipment is handheld device, when usual user is hand-held, described electronic equipment is in inclination or upright posture, if described electronic equipment is placed on desktop, is all horizontal positioned usually; If now main screen is towards desktop, the luminous flux that described light sensors arrives is very little; Comprehensive described gravity sensor and described optical sensor can be determined that described electronic equipment is current and lie low and main screen attitude down, and then mask the first input Showed Picture.

Comprehensively above-mentioned, the information processing method described in the present embodiment, according to attitude and first input of electronic equipment, shields described maloperation by the second operation, thus reduces the probability of maloperation appearance.

Embodiment of the method three:

As shown in Figure 1, the present embodiment provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Step S110: described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Step S120: described sensing unit detects the first parameter sensing;

Step S130: when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Described electronic equipment also comprises multimedia information acquisition unit;

Described sensing unit is light sensation unit;

Described first is operating as multimedia information acquisition operation;

Described first parameter sensing shows that described electronic equipment is in the first preset posture and is: when the luminous flux that the first light sensation parameter of described light sensation unit collection shows to enter described multimedia information acquisition unit is less than first threshold, determine that electronic equipment is in the first preset posture.

Described acquisition operations gathers image or video for triggering described multimedia information acquisition unit.

Concrete covers when described first parameter sensing shows that described multimedia information acquisition unit is coating, if still perform the operation of described multimedia information acquisition, the picture of obvious electronic equipment collection or video may be all black, obviously this is not that user wants, according to the information processing method described in the present embodiment by multimedia information acquisition operation described in execution second operation shield, thus reduce the maloperation of electronic equipment, avoid electronic equipment causes described multimedia information acquisition unit to run simultaneously under the unconscious maloperation of user always, and then the problem that the electricity consumed is large and electronic equipment stand-by time shortens.

Described multimedia information acquisition unit is coated to the scene covered and comprises, user by described multimedia information acquisition unit (as camera is placed towards desktop, described electronic equipment is placed in pocket by user, does not have surround lighting to be equivalent to the scenes such as described multimedia information acquisition unit has been capped in pocket).

In the present embodiment, according to the luminous flux entering described multimedia information acquisition unit determine described multimedia information acquisition unit whether covered live, if the luminous flux entering described multimedia information acquisition unit is very little, is specially and determines when being less than first threshold that described multimedia information acquisition unit is coating and cover.Described first parameter sensing is described luminous flux.

Described first threshold can for realizing the light flux values being stored in electronic equipment, the statistical value that can be formed according to the historical data of the luminous flux entering described multimedia information acquisition unit, it can also be the simulation value formed according to simulation result, concrete formation method has multiple, has not just repeated one by one at this.

In concrete implementation procedure, the conveniently multimedia information acquisition operation at night of described multimedia information acquisition unit, described sensing unit can comprise the first optical sensor and the second optical sensor; Described first optical sensor is positioned at described multimedia information acquisition unit place, for detecting the first luminous flux by described multimedia information acquisition unit; Described second optical sensor is separated setting with described multimedia information acquisition unit, for gathering by the second luminous flux local beyond described multimedia information acquisition unit; Concrete the second sensor setting is as will be described at the opposite face etc. of described multimedia information acquisition unit.

Described method also comprises:

More described first luminous flux and the second luminous flux; When described first luminous flux is less than described first threshold; When the difference of described first luminous flux and the second luminous flux is less than Second Threshold, determine that current described electronic equipment is not for dark state, only that described the coating of multimedia information acquisition unit covers, after described electronic equipment receives described multimedia information acquisition unit, the second operation of the described multimedia information acquisition operation of shielding will be performed.

Comprehensively above-mentioned, the present embodiment is on the basis of embodiment two, provide a kind of information processing method reducing the maloperation of multimedia information acquisition operation, be not only conducive to the misoperation probability reducing electronic equipment, be conducive to reducing the power consumption of electronic equipment because of operation consumption simultaneously.

Embodiment of the method four:

The present embodiment is the further improvement on the basis of embodiment of the method one, and specific as follows: as shown in Figure 1, the present embodiment provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Step S110: described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Step S120: described sensing unit detects the first parameter sensing;

Step S130: when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association;

Wherein,

Described sensing unit is specifically for detecting the motion state of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment has motion when receiving described first input;

Described second is operating as according to described first operation of described first parameter sensing correction.

In concrete implementation procedure, the motion state of described electronic equipment will cause the mistake identification to the first input that operating body inputs.

As shown in Figure 2, described electronic equipment 100 is draped or is placed to a certain position, and projects on desktop by projection by its operation pages; User can control described electronic equipment 100 by gesture input on the table and perform certain certain operations; If now described electronic equipment 100 is moved or is rotated, projection 101 relative position on the table that described operation pages is formed may change, and the interactive object that user points in described projection 101 will change, thus will cause maloperation.If active user wants to be intended to the application of opening in Fig. 2 corresponding to black bars by gesture operation, due to the motion of electronic equipment, an application on the side that described black bars correspondence is applied has been pointed in the first input causing electronic equipment by mistake to identify based on user's input, misoperation probability will be caused high because missing identification.

According to the information processing method described in the present embodiment, whether described for judgement electronic equipment there is is motion when operating body input first operates, and correct the first operation corresponding to described first input according to described first parameter sensing.

Comprehensively above-mentioned, the present embodiment is the further improvement on the basis of lower embodiment of the method one, relative to embodiment of the method two and three, by the motion state of detected electrons equipment when reception first inputs, and correct the first operation of the first input correspondence according to motion state, thus reduce the probability because identifying the maloperation caused by mistake.

Embodiment of the method five:

The present embodiment is the further improvement on the basis of embodiment one, and specific as follows: as shown in Figure 1, the present embodiment provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Step S110: described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Step S120: described sensing unit detects the first parameter sensing;

Step S130: when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association;

Wherein,

Described sensing unit is specifically for detecting the motion state of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment has motion when receiving described first input;

Described second is operating as according to described first operation of described first parameter sensing correction.

As shown in Figure 3, second of described execution and described first operative association operate and comprise:

Step S131: the first input parameter obtaining described first input;

Step S132: generate the first correction parameter according to described first parameter sensing;

Step S133: correct described first input parameter according to described first correction parameter, forms first and corrects result.

If concrete as user in Fig. 2 now click as described in application corresponding to black bars, described click is described first input; Described sensing unit obtain operating body (as user) input first input while, detect that electronic equipment has forwarded an angle to.

According to the impact of this angle on projection 101, determine correction parameter; Specifically as described in electronic equipment 100 turn right, described projection 101 will move right, if operating body points to is the position of application corresponding to black bars, the application on corresponding the right before described projection 101 is moved; Adopt the present embodiment above-mentioned steps that the first correction parameter formed according to described first parameter sensing is corrected described first input parameter, form the correct application of sensing first corrects result, thus realizes correction to avoid maloperation.

As shown in Figure 4, the display unit 102 of described electronic equipment shows multiple interactive object; Described display unit 102 is also interactive unit simultaneously, if namely interactive unit described in operating body touch-control realizes described operation input, electronic equipment will perform the operation corresponding to described input according to received input.

Usual user is by bus or in crowded environment, a hand-hold electronic equipments, on the other hand operating electronic equipment; May because of taken advantage of vehicle brake suddenly or other people push cause user operation electronic equipment time, electronic equipment is forced to the scene of movement, needs the maloperation avoiding electronic equipment in this case equally.

As, if a certain moment electronic equipment moves in direction as shown by the arrows in Figure 4, and interactive unit described in user click; But the movement due to electronic equipment causes the hand of the user not only described interactive unit of striking, to leave the relative sliding relative to described electronic equipment in described interactive unit simultaneously, obvious electronic equipment using described relative sliding as the first input; If directly performing described first input is not obviously the operation that user wants.

Therefore in the present embodiment, described sensing unit will detect the motion state of described electronic equipment, described electronic equipment will be obtained along described arrow direction, draw described electronic equipment displacement within the time that user inputs the first operation by the detection of sense acceleration or distance, form described first parameter sensing; Described first parameter sensing can comprise one or more parameter.

Form the first correction parameter according to described first parameter sensing, and to first input input parameter correct, specifically as described in the first input parameter comprise as described in first operation sliding distance and glide direction; Described first parameter sensing comprises displacement and the moving direction of described electronic equipment.

If now described glide direction and described moving direction are just in time contrary, then described sliding distance are deducted described displacement and obtain a correction result; According to described correction result can learn user be full of clicking operation or oriented deviate from described arrow direction slide or slide towards the described direction of arrow, thus described first correction result will be confirmed in Fig. 4, the input of operating body (as user) will be clicking operation.

Further, the information processing method described in the present embodiment also comprises:

Correct result according to described first, respond described first input; As responded the input of user, as responded the click input of user in Fig. 4, but not slidably input.

Comprehensively above-mentioned, present embodiments provide the misoperation probability that a kind of information processing method can effectively reduce electronic equipment, promote user's user satisfaction.

Embodiment of the method six:

The present embodiment is the further improvement on the basis of embodiment of the method one, and specific as follows: as shown in Figure 1, the present embodiment provides a kind of information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Step S110: described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Step S120: described sensing unit detects the first parameter sensing;

Step S130: when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association;

As shown in Figure 3, second of described execution and described first operative association operate and comprise:

Step S131: the first input parameter obtaining described first input;

Step S132: generate the first correction parameter according to described first parameter sensing;

Step S133: correct described first input parameter according to described first correction parameter, forms first and corrects result.

Described first parameter sensing comprise the first displacement parameter of characterizing described electronic equipment motion state and the first rotational parameters at least one of them.

Described electronic equipment the motion moment comprise displacement and rotation at least one of them; When described electronic equipment displacement, another position can be moved to relative to operating body (as user) from a position; When described electronic equipment forwards to, the center of rotation of described electronic equipment relative to static during operating body, but same may affect operating body input, and operating body is inputted S and is identified as input S ' by mistake by electronic equipment; Therefore the first parameter sensing described in the present embodiment comprises the first displacement parameter and first forwards parameter to.

Comprehensively above-mentioned, information processing method described in the embodiment of the present invention, provide a kind of information processing method, can the maloperation of effective masking operation body and the maloperation that the mistake identification of operating body input is formed that causes because of the motion state of electronic equipment, and shield or correct described first input, thus the maloperation of electronic equipment can be effectively reduced, improve the satisfaction that user uses.

Apparatus embodiments one:

As shown in Figure 5, a kind of electronic equipment of the present embodiment, comprises interactive unit 110, sensing unit 120, determining unit 130 and performance element 140;

Described interactive unit 110, for receiving operating body input; Described sensing unit 120, for the state of detected electrons equipment;

Described mutual list 110, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit 120, specifically for detecting the first parameter sensing;

Described determining unit 130, first pre-conditioned for determining that whether described first parameter sensing meets;

Described performance element 140, for when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Structure is different according to the mode receiving operating body input is different for described interactive unit 110; Concrete described interactive unit 130 of working as can be the structures such as physical keyboard, touching display screen or proximity touch screen, for receiving operating body (as user) input, to respond user's instruction.

The concrete structure of described sensing unit 120 is different according to the signal difference checked, as comprised light sensor, Gravity accelerometer and gyroscope, one or more is formed.

The concrete structure of described determining unit 130 can comprise processor and storage medium; Connected by internal communication configuration (as data bus and address bus) between described processor and storage medium, realize data interaction.Described storage connects on medium and stores executable instruction; Described processor reads and runs described executable instruction, determines whether the first parameter sensing received from described sensing unit 120 meets first pre-conditioned.Described first pre-conditioned be stored in advance in described storage medium or write in described executable instruction.

What the concrete structure of described performance element 140 was same comprises interconnective processor and storage medium, performs the second operation according to the determination result of described determining unit 130.In concrete implementation procedure, described determining unit 130 and performance element 140 can corresponding different processor and storage mediums separately, also can the same processor of integrated correspondence and storage medium; When determining unit 130 and the same processor of the integrated correspondence of performance element 140 and storage medium, described processor adopts time division multiplex successively to perform the function of described determining unit 130 and performance element 140.

Described processor Micro-processor MCV, central processor CPU, digital signal processor DSP or programmable logic array PLC etc. can have the electric function components and parts of processing capacity.

Above-mentioned is only the citing of the concrete formation of unit, in concrete implementation procedure, is not limited to said structure.

Electronic equipment described in the present embodiment, specifically can the electronic equipment such as smart mobile phone, panel computer or e-book, for the information processing method described in embodiment of the method one provides concrete hardware support, can be used to arbitrary described technical scheme in implementation method embodiment one, same has the probability reducing misoperation of electronic equipment, improves device intelligence and user's user satisfaction.

Apparatus embodiments two:

As shown in Figure 5, a kind of electronic equipment of the present embodiment, comprises interactive unit 110, sensing unit 120, determining unit 130 and performance element 140;

Described interactive unit 110, for receiving operating body input; Described sensing unit 120, for the state of detected electrons equipment;

Described mutual list 110, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit 120, specifically for detecting the first parameter sensing;

Described determining unit 130, first pre-conditioned for determining that whether described first parameter sensing meets;

Described performance element 140, for when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Wherein, described sensing unit 120, specifically for detecting the attitude of described electronic equipment;

Described determining unit 130, specifically for determining that described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described performance element 140, specifically for when described first parameter sensing meet first pre-conditioned time shield described first operation.

When the attitude of described sensing unit 120 for detected electrons equipment, can be made up of, as the equipment such as Gravity accelerometer and/or gyroscope the sensor of one or more detected electrons equipment attitude.

Described performance element 140 shields the first operation and does not namely perform described first operation, thus filters out the maloperation of operating body as user.

Electronic equipment described in the present embodiment is relative to a upper embodiment, specifically for masking the erroneous input of user, to reduce the maloperation of electronic equipment and to save power consumption, for the information processing method described in embodiment of the method two provides concrete hardware support, arbitrary described technical scheme in energy implementation method embodiment two, same has the probability reducing misoperation of electronic equipment, improves device intelligence and user's user satisfaction, and has the easy advantage of structure simple realization.

Apparatus embodiments three:

As shown in Figure 5, a kind of electronic equipment of the present embodiment, comprises interactive unit 110, sensing unit 120, determining unit 130 and performance element 140;

Described interactive unit 110, for receiving operating body input; Described sensing unit 120, for the state of detected electrons equipment;

Described mutual list 110, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit 120, specifically for detecting the first parameter sensing;

Described determining unit 130, first pre-conditioned for determining that whether described first parameter sensing meets;

Described performance element 140, for when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

Wherein, described sensing unit 120, specifically for detecting the attitude of described electronic equipment;

Described determining unit 130, specifically for determining that described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described performance element 140, specifically for when described first parameter sensing meet first pre-conditioned time shield described first operation.

Described electronic equipment also comprises multimedia information acquisition unit;

Described sensing unit 120 is light sensation unit;

Described first is operating as multimedia information acquisition operation;

Described determining unit, specifically for when the luminous flux that the first light sensation parameter of described light sensation unit collection shows to enter described multimedia information acquisition unit is less than first threshold, determines that electronic equipment is in the first preset posture.

Described multimedia information acquisition unit can comprise camera; The described luminous flux entering described multimedia information acquisition unit fingering can enter the luminous flux of described camera.

The concrete structure of described light sensation unit can comprise one or more light sensor, and at least one enters the luminous flux of described multimedia information acquisition unit for gathering; Can be close to and be arranged on described camera place for gathering the light sensor entering described multimedia information acquisition unit place or be entrenched in described camera.

Comprehensively above-mentioned, electronic equipment described in the present embodiment is on the basis based on the said equipment embodiment one and apparatus embodiments two, provide electronic equipment maloperation can being avoided to cause multimedia information acquisition unit open as camera function or video capture function, effectively can avoid the maloperation of multimedia information acquisition, and save the short problem of the large stand-by time of power consumption that maloperation causes.

Electronic equipment described in the present embodiment is also for the information processing method described in embodiment of the method three provides concrete hardware support, arbitrary described technical scheme in energy implementation method embodiment three, same has the probability reducing misoperation of electronic equipment, improve device intelligence and user's user satisfaction, and there is the easy advantage of structure simple realization.

Apparatus embodiments four:

As shown in Figure 5, a kind of electronic equipment of the present embodiment, comprises interactive unit 110, sensing unit 120, determining unit 130 and performance element 140;

Described interactive unit 110, for receiving operating body input; Described sensing unit 120, for the state of detected electrons equipment;

Described mutual list 110, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit 120, specifically for detecting the first parameter sensing;

Described determining unit 130, first pre-conditioned for determining that whether described first parameter sensing meets;

Described performance element 140, for when described first pass parameter sensing meet first pre-conditioned time, institute

Described sensing unit 120, specifically for detecting the motion state of described electronic equipment;

Described determining unit 130, specifically for showing that when described first parameter sensing described electronic equipment has motion when receiving described first input, determines that described first parameter sensing meets first pre-conditioned;

Described performance element 140, specifically for correcting described first operation according to described first parameter sensing.

Sensing unit 120 described in the present embodiment is specifically incorporated in the motion state of detected electrons equipment, existing can due to the structure of detected electrons equipment moving state, as the equipment such as Gravity accelerometer and gyroscope all can be used for forming as described in sensing unit 120.

The present embodiment is relative to the difference of equipment enforcement two and apparatus embodiments three, electronic equipment described in the present embodiment is when setting the first input, consider the impact inputted first by the motion state of electronic equipment, and correct the first input acquisition operating body as the actual input of user according to the motion state of described electronic equipment, thus decrease the maloperation of the electronic equipment that the motion because of electronic equipment causes, improve the intelligent of electronic equipment and user's user satisfaction, can be used to arbitrary described technical scheme in implementation method embodiment four.

Apparatus embodiments five:

As shown in Figure 5, a kind of electronic equipment of the present embodiment, comprises interactive unit 110, sensing unit 120, determining unit 130 and performance element 140;

Described interactive unit 110, for receiving operating body input; Described sensing unit 120, for the state of detected electrons equipment;

Described mutual list 110, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit 120, specifically for detecting the first parameter sensing;

Described determining unit 130, first pre-conditioned for determining that whether described first parameter sensing meets;

Described performance element 140, for when described first pass parameter sensing meet first pre-conditioned time, institute

Described sensing unit 120, specifically for detecting the motion state of described electronic equipment;

Described determining unit 130, specifically for showing that when described first parameter sensing described electronic equipment has motion when receiving described first input, determines that described first parameter sensing meets first pre-conditioned;

Described performance element 140, specifically for correcting described first operation according to described first parameter sensing.

As shown in Figure 6, described performance element 140 comprises:

Acquisition module 141, for obtaining the first input parameter of described first input;

Generation module 142, for generating the first correction parameter according to described first parameter sensing;

Correction module 143, for correcting described first input parameter according to described first correction parameter, forming first and correcting result.

The concrete structure of described acquisition module 141 can be internal communications interface, is connected with described interactive unit 110, and receives described first input parameter from described interactive unit 110.

The concrete structure of described generation module 142 can comprise two parts, and Part I is used for receiving or reading described first parameter sensing, for obtaining described first parameter sensing from described determining unit 130; Part II is for generate the first correction parameter according to described first parameter sensing.Part I can be internal communications interface or storage medium; Described Part II can be processor.

The concrete structure of described correction module 143 can be processor equally or has the logical circuit etc. of computing function, and the algorithm according to the first correction parameter and reservation adjusts the first input parameter, as concrete can be the structures such as subtracter.

In addition, described performance element 140, also for correcting described first input of result response according to described first, executable operations body inputs.

Electronic equipment described in the present embodiment is on the basis of the electronic equipment described in a upper embodiment, to the further improvement of electronic equipment, provide the concrete structure of performance element and specifically how to realize correction first and operate, arbitrary described technical scheme in energy implementation method embodiment four, same has the probability reducing misoperation of electronic equipment, improve device intelligence and user's user satisfaction, and there is the easy advantage of structure simple realization.

The athletic posture of electronic equipment described in embodiments of the present invention can comprise displacement movement namely from a position to another location; Also can comprise rotation other points namely when not being subjected to displacement on the center of described electronic equipment or electronic equipment to rotate simultaneously; Therefore described first parameter sensing at least comprise the first displacement parameter of characterizing described electronic equipment displacement and characterize the first rotational parameters that described electronic equipment rotates at least one of them.

Electronic equipment described in the present embodiment provides hardware support for the information processing method described in embodiment of the method five and six, the arbitrary technical scheme described in implementation method embodiment five and embodiment of the method can be used for, same has the advantage that effectively can reduce the misoperation probability of equipment, and also has the easy advantage of structure simple realization.

In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient 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 illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

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

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read-OnlyMemory), random access memory (RAM, RandomAccessMemory), magnetic disc or CD etc. various can be program code stored medium.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (13)

1. an information processing method, is applied in the electronic equipment comprising interactive unit and sensing unit; Described interactive unit is for receiving operating body input; Described sensing unit is used for the state of detected electrons equipment; Described method comprises:

Described interactive unit receives the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit detects the first parameter sensing;

When described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

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

Described sensing unit is specifically for detecting the attitude of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described second is operating as described first operation of shielding.

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

Described electronic equipment also comprises multimedia information acquisition unit;

Described sensing unit is light sensation unit;

Described first is operating as multimedia information acquisition operation;

Described first parameter sensing shows that described electronic equipment is in the first preset posture and is: when the luminous flux that the first light sensation parameter of described light sensation unit collection shows to enter described multimedia information acquisition unit is less than first threshold, determine that electronic equipment is in the first preset posture.

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

Described sensing unit is specifically for detecting the motion state of described electronic equipment;

Described first passes parameter sensing meets first and is pre-conditionedly: described first parameter sensing shows that described electronic equipment has motion when receiving described first input;

Described second is operating as according to described first operation of described first parameter sensing correction.

5. method according to claim 4, is characterized in that,

Second of described execution and described first operative association operates and comprises:

Obtain the first input parameter of described first input;

The first correction parameter is generated according to described first parameter sensing;

Correct described first input parameter according to described first correction parameter, form first and correct result.

6. method according to claim 5, is characterized in that, described method also comprises:

Correct result according to described first, respond described first input.

7. the method according to claim 4,5 or 6, is characterized in that,

Described first parameter sensing comprise the first displacement parameter of characterizing described electronic equipment displacement and the first rotational parameters at least one of them.

8. an electronic equipment, comprises interactive unit, sensing unit, determining unit and performance element;

Described interactive unit, for receiving operating body input; Described sensing unit, for the state of detected electrons equipment;

Described interactive unit, specifically for receiving the first input; Described first input performs the first operation for controlling described electronic equipment;

Described sensing unit, specifically for detecting the first parameter sensing;

Described determining unit, first pre-conditioned for determining that whether described first parameter sensing meets;

Performance element, for when described first pass parameter sensing meet first pre-conditioned time, described electronic equipment performs and operates with second of described first operative association.

9. electronic equipment according to claim 7, is characterized in that,

Described sensing unit, specifically for detecting the attitude of described electronic equipment;

Described determining unit, specifically for determining that described first parameter sensing shows that described electronic equipment is in the first preset posture; Wherein, described first preset posture is specify the attitude not performing described first operation;

Described performance element, specifically for when described first parameter sensing meet first pre-conditioned time shield described first operation.

10. electronic equipment according to claim 9, is characterized in that,

Described electronic equipment also comprises multimedia information acquisition unit;

Described sensing unit is light sensation unit;

Described first is operating as multimedia information acquisition operation;

Described determining unit, specifically for when the luminous flux that the first light sensation parameter of described light sensation unit collection shows to enter described multimedia information acquisition unit is less than first threshold, determines that electronic equipment is in the first preset posture.

11. electronic equipments according to claim 8, is characterized in that,

Described sensing unit, specifically for detecting the motion state of described electronic equipment;

Described determining unit, specifically for showing that when described first parameter sensing described electronic equipment has motion when receiving described first input, determines that described first parameter sensing meets first pre-conditioned;

Described performance element, specifically for correcting described first operation according to described first parameter sensing.

12. electronic equipments according to claim 11, is characterized in that,

Described performance element comprises:

Acquisition module, for obtaining the first input parameter of described first input;

Generation module, for generating the first correction parameter according to described first parameter sensing;

Correction module, for correcting described first input parameter according to described first correction parameter, forming first and correcting result.

13. electronic equipments according to claim 12, is characterized in that,

Described performance element, also for correcting result according to described first, responds described first input.