CN103777846A - Information processing method and electronic device - Google Patents

Abstract

The invention discloses an information processing method which is applied to an electronic device. The electronic device comprises a motion detection sensor. The information processing method includes: acquiring motion parameters of the electronic device, which are detected by the motion detection sensor; judging whether the motion parameters meet predetermined conditions or not; determining that an operation body executes bumping operation of the electronic device when the motion parameters meet the predetermined conditions; responding to the bumping operation, and determining at least one control instruction corresponding to the bumping operation. Based on the information processing method, a user can control the electronic device to execute corresponding operation by enabling the electronic device to bump against another object, another mode of manipulating the electronic device is provided, and accordingly manipulating modes of the electronic device are enriched. The invention further discloses the electronic device.

Description

Information processing method and electronic equipment

Technical field

The control technology field that the invention belongs to electronic equipment, relates in particular to information processing method and electronic equipment.

Background technology

At present more and more various for the control mode of electronic equipment, for example: manipulate electronic equipment by physical button, by touch-screen or touch pad manipulation electronic equipment, with gesture or speech control electronic equipment.How further enriching the control mode of electronic equipment, is the problem that those skilled in the art need to consider.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of electronic equipment and information processing method thereof, in order to enrich the control mode of electronic equipment.

For achieving the above object, the invention provides following technical scheme:

The invention discloses a kind of information processing method, be applied to electronic equipment, described electronic equipment comprises motion detection sensor, described motion detection sensor detects the kinematic parameter of described electronic equipment, carry out for described electronic equipment in the process of manipulation operation at operating body, the kinematic parameter of described electronic equipment changes, and described method comprises:

Obtain the kinematic parameter of the described electronic equipment that described motion detection sensor detects;

Judge whether described kinematic parameter meets predetermined condition;

In the time that described kinematic parameter meets described predetermined condition, determine that operating body carries out for described electronic equipment the operation of colliding with;

The operation of colliding with described in response, determine with described in collide with and operate at least one corresponding steering order.

Preferably, described motion detection sensor can detect the speed of described electronic equipment; Describedly judge that whether described kinematic parameter meets predetermined condition, comprising:

While judging from T1, be carved into the process in T2 moment, whether the velocity amplitude that described motion detection sensor obtains is for increasing gradually, and during from described T1, being carved into the T2 moment is very first time length;

When from T1, be carved into velocity amplitude that described in the process in T2 moment, motion detection sensor obtains and be while increase gradually, while judging from T2, be carved into the process in T3 moment, whether the velocity amplitude that described motion detection sensor obtains is reduced to zero, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

When being carved into velocity amplitude that described in the process in T3 moment, motion detection sensor obtains being reduced to zero when from described T2, determine that operating body carries out for described electronic equipment the operation of colliding with.

Preferably, described motion detection sensor can detect the acceleration of described electronic equipment; Describedly judge that whether described kinematic parameter meets predetermined condition, comprising:

While judging from T1, be carved into the process in T2 moment, whether the acceleration that described motion detection sensor obtains is continuously first direction, and during from described T1, being carved into the T2 moment is very first time length;

When being carved into acceleration that described in the process in T2 moment, motion detection sensor obtains being continuously first direction when from T1, while judging from T2, be carved into the process in T3 moment, whether the direction of the acceleration that described motion detection sensor obtains is second direction and reaches first threshold, wherein said second direction is contrary with described first direction, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

The direction that is carved into the acceleration that described in the process in T3 moment, motion detection sensor obtains when from described T2 is second direction and while reaching first threshold, determines that operating body carries out for described electronic equipment the operation of colliding with.

Preferably, described determine with described in collide with and operate corresponding at least one steering order, comprising:

Determine the directional information of the kinematic parameter of electronic equipment described in the process that is carved into the T2 moment during from T1;

Utilize the corresponding relation of default direction and steering order, determine the steering order corresponding with described directional information.

Preferably, described electronic equipment comprises touch-screen, and described touch-screen can show multiple objects, with described steering order corresponding to operation of colliding with for the instruction of multiple objects described in the direction integrated moving characterizing to the directional information of described kinematic parameter.

The invention also discloses a kind of electronic equipment, comprise motion detection sensor, described motion detection sensor detects the kinematic parameter of described electronic equipment, carry out for described electronic equipment in the process of manipulation operation at operating body, the kinematic parameter of described electronic equipment changes, and described electronic equipment also comprises:

Kinematic parameter acquiring unit, for obtaining the kinematic parameter of the described electronic equipment that described motion detection sensor detects;

Processing unit, for judging whether described kinematic parameter meets predetermined condition, in the time that described kinematic parameter meets described predetermined condition, determines that operating body carries out for described electronic equipment the operation of colliding with;

Response unit, for the operation of colliding with described in responding, determine with described in collide with and operate at least one corresponding steering order.

Preferably, described motion detection sensor can detect the speed of described electronic equipment; Described processing unit comprises:

The first judge module, is carved into the process in T2 moment when judging from T1, and whether the velocity amplitude that described motion detection sensor obtains is for increasing gradually, and during from described T1, being carved into the T2 moment is very first time length;

The second judge module, while increasing gradually for be carved into velocity amplitude that described in the process in T2 moment, motion detection sensor obtains when from T1, while judging from T2, be carved into the process in T3 moment, whether the velocity amplitude that described motion detection sensor obtains is reduced to zero, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

The first determination module, is reduced at 1 o'clock for be carved into the velocity amplitude that described in the process in T3 moment, motion detection sensor obtains when from described T2, determines that operating body carries out for described electronic equipment the operation of colliding with.

Preferably, described motion detection sensor can detect the acceleration of described electronic equipment; Described processing unit comprises:

The 3rd judge module, is carved into the process in T2 moment when judging from T1, and whether the acceleration that described motion detection sensor obtains is continuously first direction, and during from described T1, being carved into the T2 moment is very first time length;

The 4th judge module, while being continuously first direction for be carved into acceleration that described in the process in T2 moment, motion detection sensor obtains when from T1, while judging from T2, be carved into the process in T3 moment, whether the direction of the acceleration that described motion detection sensor obtains is second direction and reaches first threshold, wherein said second direction is contrary with described first direction, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

The second determination module, is second direction and while reaching first threshold for be carved into the direction of the acceleration that described in the process in T3 moment, motion detection sensor obtains when from described T2, determines that operating body carries out for described electronic equipment the operation of colliding with.

Preferably, described response unit comprises:

Directional information determination module, for the operation of colliding with described in responding, is carved into the directional information of the kinematic parameter of electronic equipment described in the process in T2 moment while determining from T1;

Instruction determination module, for utilizing the corresponding relation of default direction and steering order, determines the steering order corresponding with described directional information.

Preferably, described electronic equipment comprises touch-screen, and described touch-screen can show multiple objects, and described instruction determination module is specifically for determining the instruction of multiple objects described in the direction integrated moving characterizing to the directional information of described kinematic parameter.

As can be seen here, beneficial effect of the present invention is: the information processing method that is applied to electronic equipment disclosed by the invention, first the kinematic parameter of electron gain equipment, whether the kinematic parameter that judges afterwards electronic equipment meets predetermined condition, whether this predetermined condition collides with electronic equipment and another object for decision operation body, carry out for electronic equipment when operation of colliding with when definite operating body, determine and operate at least one corresponding steering order with colliding with.Based on information processing method disclosed by the invention, user is by colliding with electronic equipment and another object, just can control electronic equipment and carry out corresponding operation, the mode of another manipulation electronic equipment is provided, thereby enrich the control mode of electronic equipment.

Accompanying drawing explanation

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

Fig. 1 is the process flow diagram of a kind of information processing method disclosed by the invention;

Fig. 2 is the process flow diagram of another kind of information processing method disclosed by the invention;

Fig. 3 is the process flow diagram of another kind of information processing method disclosed by the invention;

Fig. 4 is the process flow diagram of another kind of information processing method disclosed by the invention;

Fig. 5 is the process flow diagram of another kind of information processing method disclosed by the invention;

Fig. 6 is operating body is carried out the movement velocity of electronic equipment in the process of colliding with curve map to electronic equipment;

Fig. 7 is the structural representation of a kind of electronic equipment disclosed by the invention;

Fig. 8 is the structural representation of another kind of electronic equipment disclosed by the invention;

Fig. 9 is the structural representation of another kind of electronic equipment disclosed by the invention.

Embodiment

For making object, technical scheme and the advantage of the embodiment of the present invention clearer, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

The present invention discloses a kind of information processing method, the method is applied to the electronic equipment with motion detection sensor, this motion detection sensor can detected electrons equipment kinematic parameter, at operating body, electronic equipment is carried out in the process of manipulation operation, the kinematic parameter of electronic equipment changes.Based on information processing method disclosed by the invention, a kind of mode of new manipulation electronic equipment can be provided, thereby enrich the control mode of electronic equipment.Here it should be noted that, the electronic equipment in the present invention can be convenient to the hand-held equipment of user for mobile phone, panel computer, palm PC etc.

Referring to Fig. 1, the process flow diagram that Fig. 1 is a kind of information processing method disclosed by the invention.This information processing method comprises:

Step S11: the kinematic parameter of the electronic equipment that acquisition motion detection sensor detects.

At operating body, electronic equipment is carried out in the process of manipulation operation, the kinematic parameter of electronic equipment (including but not limited to speed and acceleration) can change.Motion detection sensor in electronic equipment is the kinematic parameter of detected electrons equipment in real time, and which kind of manipulation operation the kinematic parameter decision operation body that electronic equipment utilization gets by motion detection sensor has carried out.

Step S12: judge whether kinematic parameter meets predetermined condition.

Whether this predetermined condition collides with electronic equipment and another object for decision operation body.

Step S13: in the time that kinematic parameter meets predetermined condition, determine that operating body carries out for electronic equipment the operation of colliding with.

Step S14: respond the operation of colliding with, determine and at least one steering order corresponding to operation of colliding with.

Carry out for electronic equipment when operation of colliding with when definite operating body, respond this operation of colliding with and carry out corresponding at least one steering order.In enforcement, at least one steering order corresponding to operation can be with colliding with: control the instruction of electronic equipment shutdown, or carry out the instruction of pattern switching for controlling electronic equipment, or for controlling electronic equipment, certain output parameter (as the output volume of audio output unit) is adjusted to the instruction of preset value, certainly be not limited thereto with steering order corresponding to operation of colliding with, the instruction being triggered by other control modes in electronic equipment can be set to collide with and operate corresponding steering order.

The information processing method that is applied to electronic equipment disclosed by the invention, first the kinematic parameter of electron gain equipment, whether the kinematic parameter that judges afterwards electronic equipment meets predetermined condition, whether this predetermined condition collides with electronic equipment and another object for decision operation body, carry out for electronic equipment when operation of colliding with when definite operating body, determine and operate at least one corresponding steering order with colliding with.Based on information processing method disclosed by the invention, user is by colliding with electronic equipment and another object, just can control electronic equipment and carry out corresponding operation, the mode of another manipulation electronic equipment is provided, thereby enrich the control mode of electronic equipment.

Carry out for electronic equipment when operation of colliding with at operating body, whether the variation that the speed of electronic equipment and acceleration all can Development patterns, therefore can speed or acceleration decision operation body based on electronic equipment carry out for electronic equipment the operation of colliding with.Describe below in conjunction with Fig. 2 and Fig. 3.

Referring to Fig. 2, the process flow diagram that Fig. 2 is another kind of information processing method disclosed by the invention.Wherein, the speed that the motion detection sensor in electronic equipment can detected electrons equipment, the method comprises:

Step S21: the velocity amplitude of the electronic equipment that acquisition motion detection sensor detects.

When at operating body, for electronic equipment, operation is collided with in execution, operating body must be to control electronic equipment with larger speed and another object contact, just can after both contacts, form the effect of colliding with.In this process, the rate curve of electronic equipment motion as shown in Figure 6.Operating body is controlled electronic equipment in the close process of another object, and the speed of electronic equipment increases gradually, and after the surface of electronic equipment and another object comes in contact, the speed of electronic equipment is down to 0 in a short period of time.

Step S22: be carved into the process in T2 moment while judging from T1, the velocity amplitude that motion detection sensor obtains, whether for increasing gradually, if so, performs step S23, otherwise, again perform step S22.

Wherein, during from T1, being carved into the T2 moment is very first time length.

In the time determining from T1, be carved into the process in T2 moment, the velocity amplitude that motion detection sensor obtains does not increase gradually, just can determine that operating body does not have to carry out for electronic equipment the operation of colliding with.Afterwards, can be using current time as the new T1 moment, judge that whether velocity amplitude that in the very first time length starting from this T1 moment, motion detection sensor obtains is for increasing gradually.

Step S23: be carved into the process in T3 moment while judging from T2, whether the velocity amplitude that motion detection sensor obtains is reduced to zero, if so, definite operating body carries out for electronic equipment the operation of colliding with, execution step S24, otherwise, again perform step S22.

Wherein, during from T2, being carved into the T3 moment is the second time span, and the second time span is less than very first time length.Here it should be noted that, because accelerating under the manipulation of operating body (as user's palm), electronic equipment can need the long period (about 0.5 second) with the velocity amplitude of another object generation collision effect, and electronic equipment with another object contact after, speed in a short period of time (as 10 to 20 milliseconds) reduces to 0, and therefore the second time span is much smaller than very first time length.In enforcement, the second time span can be set to 10 to 20 milliseconds.

If be carved into during from T1 the process in T2 moment, the velocity amplitude that motion detection sensor obtains increases gradually, and in the second time span starting from this T2 moment, the velocity amplitude that motion detection sensor obtains reduces to 0, just can determine operating body execution operation of colliding with for electronic equipment.If be carved into during from T1 the process in T2 moment, the velocity amplitude that motion detection sensor obtains increases gradually, but in the second time span starting from this T2 moment, the velocity amplitude that motion detection sensor obtains is not down to 0, will re-execute whole deterministic process again.

Step S24: respond the operation of colliding with, determine and at least one steering order corresponding to operation of colliding with.

Here it should be noted that, T1 moment, T2 moment and the T3 moment in the present invention be just for representing the sequencing of time, and time span between each moment is particular value.The a certain moment is considered as to the T1 moment, and the moment that reaches very first time length apart from the time in this T1 moment is considered as the T2 moment.Be carved into the process in T2 moment when determining during from T1, when the velocity amplitude that motion detection sensor obtains increases gradually, the moment that reaches the second time span apart from the time in this T2 moment is considered as the T3 moment.

Information processing method shown in Fig. 2 of the present invention, by the velocity amplitude of motion detection sensor detected electrons equipment, whether the velocity amplitude that judgement gets afterwards meets corresponding predetermined condition, whether carry out for electronic equipment the operation of colliding with to determine operating body, in the situation that determining that operation is collided with in execution, determine corresponding steering order.

Referring to Fig. 3, the process flow diagram that Fig. 3 is another kind of information processing method disclosed by the invention.Wherein, the acceleration that the motion detection sensor in electronic equipment can detected electrons equipment, the method comprises:

Step S31: the acceleration of the electronic equipment that acquisition motion detection sensor detects.

When at operating body, for electronic equipment, operation is collided with in execution, operating body must be to control electronic equipment with larger speed and another object contact, just can after both contacts, form the effect of colliding with.In this process, the rate curve of electronic equipment motion as shown in Figure 3.Operating body is controlled electronic equipment in the close process of another object, and the speed of electronic equipment increases gradually, and after the surface of electronic equipment and another object comes in contact, the speed of electronic equipment is down to 0 in a short period of time.

Can know the Changing Pattern of the acceleration of electronic equipment by Fig. 6, operating body is controlled electronic equipment in the close process of another object, the speed of electronic equipment increases gradually, in electronic equipment accelerator, the acceleration of electronic equipment is continuously first direction, and this first direction is consistent with the velocity reversal (the namely moving direction of electronic equipment) of electronic equipment.After the surface of electronic equipment and another object comes in contact, the speed of electronic equipment is down to 0 in a short period of time, in this course, electronic equipment is carrying out reverse accelerated motion, the direction that is to say the acceleration of electronic equipment is the second direction contrary with first direction, and because the speed of electronic equipment is down to 0 in a short period of time, can determine that the absolute value of the acceleration of electronic equipment is very large in the process that electronic equipment and another object contact to this electronic equipment stop.

Step S32: be carved into the process in T2 moment while judging from T1, whether the acceleration that motion detection sensor obtains is continuously first direction, if so, performs step S33, otherwise, again perform step S32.

Wherein, during from T1, being carved into the T2 moment is very first time length.

In the time determining from T1, be carved into the process in T2 moment, the direction of the acceleration that motion detection sensor obtains changes, and just can determine that operating body does not have to carry out for electronic equipment the operation of colliding with.Afterwards, can be using current time as the new T1 moment, judge whether the direction of the acceleration that in the very first time length starting from this T1 moment, motion detection sensor obtains is continuously first direction.

Step S33: be carved into the process in T3 moment while judging from T2, whether the direction of acceleration that motion detection sensor obtains be second direction and reach first threshold, if, definite operating body carries out for electronic equipment the operation of colliding with, execution step S34, otherwise, again perform step S32.

Wherein, second direction is contrary with first direction.During from T2, being carved into the T3 moment is the second time span, and the second time span is less than very first time length.Here it should be noted that, because accelerating under the manipulation of operating body (as user's palm), electronic equipment can need the long period (about 0.5 second) with the velocity amplitude of another object generation collision effect, and electronic equipment with another object contact after, speed in a short period of time (as 10 to 20 milliseconds) reduces to 0, and therefore the second time span is much smaller than very first time length.In enforcement, the second time span can be set to 10 to 20 milliseconds.

If be carved into during from T1 the process in T2 moment, the direction of the acceleration that motion detection sensor obtains is continuously first direction, and in the second time span starting from this T2 moment, the direction of the acceleration that motion detection sensor obtains is the second direction contrary with first direction, and acceleration reaches first threshold, just can determine that operating body carries out for electronic equipment the operation of colliding with.If be carved into during from T1 the process in T2 moment, the direction of the acceleration that motion detection sensor obtains is continuously first direction, but in the second time span starting from this T2 moment, the direction of the acceleration that motion detection sensor obtains is not second direction, or the direction of acceleration is second direction but does not reach first threshold, will re-execute whole deterministic process again.

Step S34: respond the operation of colliding with, determine and at least one steering order corresponding to operation of colliding with.

Information processing method shown in Fig. 3 of the present invention, by the acceleration of motion detection sensor detected electrons equipment, whether the acceleration that judgement gets afterwards meets corresponding predetermined condition, whether carry out for electronic equipment the operation of colliding with to determine operating body, in the situation that determining that operation is collided with in execution, determine corresponding steering order.

In enforcement, operating body may be to the different directions electronic equipment that collides with, and for the operation of colliding with of different directions, electronic equipment can be determined identical steering order.

In order further to enrich the control mode of electronic equipment, in the time that operating body operates for colliding with of electronic equipment execution different directions, electronic equipment can be set and determine different steering orders.

For example: when operating body manipulation electronic equipment moves downward while colliding with another object, electronic equipment generates the first steering order accordingly; When operating body manipulation electronic equipment moves upward while colliding with another object, electronic equipment generates the second steering order accordingly; When operating body manipulation electronic equipment moves while colliding with another object to the left, electronic equipment generates the 3rd steering order accordingly; When operating body manipulation electronic equipment moves while colliding with another object to the right, electronic equipment generates the 4th steering order accordingly.

In enforcement, carry out and collide with after operation for electronic equipment at definite operating body, can determine according to electronic equipment the direction of colliding with of electronic equipment at the kinematic parameter (speed or acceleration) in T1 moment to T2 moment, to make electronic equipment generate corresponding steering order.

Concrete, carry out and collide with after operation for electronic equipment at definite operating body, respond this operation of colliding with, determine the directional information of the kinematic parameter of electronic equipment the process that is carved into the T2 moment during from T1, utilize afterwards the corresponding relation of default direction and steering order, determine the steering order corresponding with this directional information.

Describe below in conjunction with Fig. 4 and Fig. 5.

Referring to Fig. 4, the process flow diagram that Fig. 4 is another kind of information processing method disclosed by the invention.Wherein, the speed that the motion detection sensor in electronic equipment can detected electrons equipment, the method comprises:

Step S41: the velocity amplitude of the electronic equipment that acquisition motion detection sensor detects.

Step S42: be carved into the process in T2 moment while judging from T1, the velocity amplitude that motion detection sensor obtains, whether for increasing gradually, if so, performs step S43, otherwise, again perform step S42.Wherein, during from T1, being carved into the T2 moment is very first time length.

Step S43: be carved into the process in T3 moment while judging from T2, whether the velocity amplitude that motion detection sensor obtains is reduced to zero, if so, definite operating body carries out for electronic equipment the operation of colliding with, execution step S44, otherwise, again perform step S42.Wherein, during from T2, being carved into the T3 moment is the second time span, and the second time span is less than very first time length.

Step S44: the response operation of colliding with, the directional information of the velocity amplitude of electronic equipment definite process that is carved into the T2 moment during from T1.Namely definite operating body is carried out and is collided with in operating process for electronic equipment, the directional information of the velocity amplitude of electronic equipment in the time of boost phase.

Step S45: utilize the corresponding relation of default direction and steering order, determine the steering order corresponding with this directional information.

The disclosed information processing method of Fig. 4 of the present invention, determine according to the velocity amplitude of electronic equipment operating body for electronic equipment carry out collide with operation after, utilize electronic equipment speed of boost phase in the process of colliding with directional information (the namely direction of colliding with of electronic equipment) determine the steering order corresponding with this direction.For for for, as long as adjust the direction of colliding with of electronic equipment, just can control electronic equipment and carry out different operations.

Referring to Fig. 5, the process flow diagram that Fig. 5 is another kind of information processing method disclosed by the invention.Wherein, the acceleration that the motion detection sensor in electronic equipment can detected electrons equipment, the method comprises:

Step S51: the acceleration of the electronic equipment that acquisition motion detection sensor detects.

Step S52: be carved into the process in T2 moment while judging from T1, whether the acceleration that motion detection sensor obtains is continuously first direction, if so, performs step S53, otherwise, again perform step S52.Wherein, during from T1, being carved into the T2 moment is very first time length.

Step S53: be carved into the process in T3 moment while judging from T2, whether the direction of acceleration that motion detection sensor obtains be second direction and reach first threshold, if, definite operating body carries out for electronic equipment the operation of colliding with, execution step S54, otherwise, again perform step S52.Wherein, second direction is contrary with first direction.During from T2, being carved into the T3 moment is the second time span, and the second time span is less than very first time length.

Step S54: the response operation of colliding with, the directional information of the acceleration of electronic equipment definite process that is carved into the T2 moment during from T1.Namely definite operating body is carried out and is collided with in operating process for electronic equipment, the directional information of the velocity amplitude of electronic equipment in the time of boost phase.At electronic equipment, during in boost phase, the direction of electronic equipment is consistent with the direction of acceleration.

Step S55: utilize the corresponding relation of default direction and steering order, determine the steering order corresponding with this directional information.

The disclosed information processing method of Fig. 5 of the present invention, determine according to the acceleration of electronic equipment operating body for electronic equipment carry out collide with operation after, utilize electronic equipment acceleration of boost phase in the process of colliding with directional information (the namely direction of colliding with of electronic equipment) determine the steering order corresponding with this direction.For for for, as long as adjust the direction of colliding with of electronic equipment, just can control electronic equipment and carry out different operations.

In order to bring better user to experience to user, the touch-screen in electronic equipment is increasing at present, and touch-screen can show multiple objects (as file, application program or link).In some occasions, while standing in bus or subway as subscriber station, or user wants more portable whens parcel, can only carry out one-handed performance.Because the touch-screen size of mobile device is larger, even if therefore user carries out and slides up and down the operation of touch-screen, also having some positions is that user's finger cannot touch, as the upper left side of touch-screen, or even the left side of touch-screen, bring very large inconvenience to user.

Based on information processing method disclosed by the invention, can improve the demonstration of existing large screen equipment.Concrete: when operation is collided with in execution for electronic equipment at definite operating body, respond this operation of colliding with, determine and adjust the instruction of described multiple objects at the display position of touch-screen.For example, determine the display position entirety instruction of side shifting downwards of multiple objects.

As preferred version, with collide with steering order corresponding to operation for: be carved into the instruction of the multiple objects of direction integrated moving that the directional information of the kinematic parameter of electronic equipment the process in T2 moment characterizes when from T1.

The invention also discloses a kind of electronic equipment, its structure as shown in Figure 7.This electronic equipment comprises kinematic parameter acquiring unit 1, processing unit 2, response unit 3 and motion detection sensor 4.

Wherein:

Motion detection sensor 4, for detection of the kinematic parameter of electronic equipment.

At operating body, electronic equipment is carried out in the process of manipulation operation, the kinematic parameter of electronic equipment (including but not limited to speed and acceleration) can change.Motion detection sensor 4 in the electronic equipment kinematic parameter of detected electrons equipment in real time, utilizes the kinematic parameter decision operation body that motion detection sensor 4 gets to carry out which kind of manipulation operation afterwards.

Kinematic parameter acquiring unit 1, for obtaining the kinematic parameter of the electronic equipment that motion detection sensor 4 detects.

Processing unit 2, for judging whether kinematic parameter meets predetermined condition, in the time that kinematic parameter meets predetermined condition, determines that operating body carries out for electronic equipment the operation of colliding with.

Response unit 3, for responding the operation of colliding with, determines and at least one steering order corresponding to operation of colliding with.Whether this predetermined condition collides with electronic equipment and another object for decision operation body.

Carry out for electronic equipment when operation of colliding with when definite operating body, respond this operation of colliding with and carry out corresponding at least one steering order.In enforcement, at least one steering order corresponding to operation can be with colliding with: control the instruction of electronic equipment shutdown, or carry out the instruction of pattern switching for controlling electronic equipment, or for controlling electronic equipment, certain output parameter (as the output volume of audio output unit) is adjusted to the instruction of preset value, certainly be not limited thereto with steering order corresponding to operation of colliding with, the instruction being triggered by other control modes in electronic equipment can be set to collide with and operate corresponding steering order.

Electronic equipment disclosed by the invention, first obtain the kinematic parameter of self, judge afterwards whether the kinematic parameter obtaining meets predetermined condition, whether this predetermined condition carries out to electronic equipment the operation of colliding with for decision operation body, carry out for electronic equipment when operation of colliding with when definite operating body, determine and operate at least one corresponding steering order with colliding with.Based on electronic equipment disclosed by the invention, user, by electronic equipment and another object are collided with, just can control electronic equipment and carry out corresponding operation, and the mode of another manipulation electronic equipment is provided, thereby has enriched the control mode of electronic equipment.

Carry out for electronic equipment when operation of colliding with at operating body, whether the variation that the speed of electronic equipment and acceleration all can Development patterns, therefore can speed or acceleration decision operation body based on electronic equipment carry out for electronic equipment the operation of colliding with.

Referring to Fig. 8, the structural representation that Fig. 8 is another kind of electronic equipment disclosed by the invention.This electronic equipment comprises kinematic parameter acquiring unit 1, processing unit 2, response unit 3 and motion detection sensor 4.

Wherein, the speed that motion detection sensor 4 can detected electrons equipment.

Kinematic parameter acquiring unit 1, for the kinematic parameter of the electronic equipment that obtains motion detection sensor 4 and detect, is specially the velocity amplitude of electronic equipment.

Processing unit 2 comprises the first judge module 201, the second judge module 202 and the first determination module 203.Wherein:

The first judge module 201, is carved into the process in T2 moment when judging from T1, and whether the velocity amplitude that motion detection sensor obtains is for increasing gradually, and during from T1, being carved into the T2 moment is very first time length.

The second judge module 202, the velocity amplitude obtaining for the process motion detection sensor that is carved into the T2 moment when from T1 is while increasing gradually, while judging from T2, be carved into the process in T3 moment, whether the velocity amplitude that motion detection sensor obtains is reduced to zero, during from T2, being carved into the T3 moment is the second time span, and the second time span is less than very first time length.

The first determination module 203, is reduced at 1 o'clock for be carved into the velocity amplitude that the process motion detection sensor in T3 moment obtains when from T2, determines that operating body carries out for electronic equipment the operation of colliding with.

Response unit 3, for responding the operation of colliding with, determines and at least one steering order corresponding to operation of colliding with.

Electronic equipment shown in Fig. 8 of the present invention, detect the velocity amplitude of self by motion detection sensor, whether the velocity amplitude that judgement gets afterwards meets corresponding predetermined condition, whether carry out for electronic equipment the operation of colliding with to determine operating body, in the situation that determining that operation is collided with in execution, determine corresponding steering order.

Referring to Fig. 9, the structural representation that Fig. 9 is another kind of electronic equipment disclosed by the invention.This electronic equipment comprises kinematic parameter acquiring unit 1, processing unit 2, response unit 3 and motion detection sensor 4.

Wherein, the acceleration that motion detection sensor 4 can detected electrons equipment.

Kinematic parameter acquiring unit 1, for the kinematic parameter of the electronic equipment that obtains motion detection sensor 4 and detect, is specially the acceleration of electronic equipment.

Processing unit 2 comprises the 3rd judge module 211, the 4th judge module 212 and the second determination module 213.Wherein:

The 3rd judge module 211, is carved into the process in T2 moment when judging from T1, and whether the acceleration that motion detection sensor obtains is continuously first direction, and during from T1, being carved into the T2 moment is very first time length.

The 4th judge module 212, when the acceleration obtaining for the process motion detection sensor that is carved into the T2 moment when from T1 is continuously first direction, while judging from T2, be carved into the process in T3 moment, whether the direction of the acceleration that motion detection sensor obtains is second direction and reaches first threshold, wherein second direction is contrary with first direction, during from T2, being carved into the T3 moment is the second time span, and the second time span is less than very first time length.

The second determination module 213, is second direction and while reaching first threshold for be carved into the direction of the acceleration that the process motion detection sensor in T3 moment obtains when from T2, determines that operating body carries out for electronic equipment the operation of colliding with.

Response unit 3, for responding the operation of colliding with, determines and at least one steering order corresponding to operation of colliding with.

Electronic equipment shown in Fig. 9 of the present invention, detect the acceleration of self by motion detection sensor, whether the acceleration that judgement gets afterwards meets corresponding predetermined condition, whether carry out for electronic equipment the operation of colliding with to determine operating body, in the situation that determining that operation is collided with in execution, determine corresponding steering order.

In enforcement, operating body may be to the different directions electronic equipment that collides with, and for the operation of colliding with of different directions, electronic equipment can be determined identical steering order.

In order further to enrich the control mode of electronic equipment, in the time that operating body operates for colliding with of electronic equipment execution different directions, electronic equipment can be set and determine different steering orders.Now, response unit 3 comprises: directional information determination module, and for the response operation of colliding with, the directional information of the kinematic parameter of electronic equipment definite process that is carved into the T2 moment during from T1; Instruction determination module, for utilizing the corresponding relation of default direction and steering order, determines the steering order corresponding with directional information.

When electronic equipment comprises touch-screen, and touch-screen be can show multiple object time, and instruction determination module is specifically for determining the instruction of the multiple objects of direction integrated moving that characterize to the directional information of kinematic parameter.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is and the difference of other embodiment, between each embodiment identical similar part mutually referring to.For the disclosed device of embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates referring to method part.

Professional can also further recognize, unit and the algorithm steps of each example of describing in conjunction with embodiment disclosed herein, can realize with electronic hardware, computer software or the combination of the two, for the interchangeability of hardware and software is clearly described, composition and the step of each example described according to function in the above description in general manner.These functions are carried out with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can realize described function with distinct methods to each specifically should being used for, but this realization should not thought and exceeds scope of the present invention.

The software module that the method for describing in conjunction with embodiment disclosed herein or the step of algorithm can directly use hardware, processor to carry out, or the combination of the two is implemented.Software module can be placed in the storage medium of any other form known in random access memory (RAM), internal memory, ROM (read-only memory) (ROM), electrically programmable ROM, electrically erasable ROM, register, hard disk, moveable magnetic disc, CD-ROM or technical field.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the present invention.To be apparent for those skilled in the art to the multiple modification of these embodiment, General Principle as defined herein can, in the situation that not departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. an information processing method, be applied to electronic equipment, described electronic equipment comprises motion detection sensor, described motion detection sensor detects the kinematic parameter of described electronic equipment, carry out for described electronic equipment in the process of manipulation operation at operating body, the kinematic parameter of described electronic equipment changes, and it is characterized in that, described method comprises:

Obtain the kinematic parameter of the described electronic equipment that described motion detection sensor detects;

Judge whether described kinematic parameter meets predetermined condition;

In the time that described kinematic parameter meets described predetermined condition, determine that operating body carries out for described electronic equipment the operation of colliding with;

The operation of colliding with described in response, determine with described in collide with and operate at least one corresponding steering order.

2. method according to claim 1, is characterized in that, described motion detection sensor can detect the speed of described electronic equipment;

Describedly judge that whether described kinematic parameter meets predetermined condition, comprising:

While judging from T1, be carved into the process in T2 moment, whether the velocity amplitude that described motion detection sensor obtains is for increasing gradually, and during from described T1, being carved into the T2 moment is very first time length;

When from T1, be carved into velocity amplitude that described in the process in T2 moment, motion detection sensor obtains and be while increase gradually, while judging from T2, be carved into the process in T3 moment, whether the velocity amplitude that described motion detection sensor obtains is reduced to zero, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

When being carved into velocity amplitude that described in the process in T3 moment, motion detection sensor obtains being reduced to zero when from described T2, determine that operating body carries out for described electronic equipment the operation of colliding with.

3. method according to claim 1, is characterized in that, described motion detection sensor can detect the acceleration of described electronic equipment;

Describedly judge that whether described kinematic parameter meets predetermined condition, comprising:

While judging from T1, be carved into the process in T2 moment, whether the acceleration that described motion detection sensor obtains is continuously first direction, and during from described T1, being carved into the T2 moment is very first time length;

When being carved into acceleration that described in the process in T2 moment, motion detection sensor obtains being continuously first direction when from T1, while judging from T2, be carved into the process in T3 moment, whether the direction of the acceleration that described motion detection sensor obtains is second direction and reaches first threshold, wherein said second direction is contrary with described first direction, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

The direction that is carved into the acceleration that described in the process in T3 moment, motion detection sensor obtains when from described T2 is second direction and while reaching first threshold, determines that operating body carries out for described electronic equipment the operation of colliding with.

4. according to the method in claim 2 or 3, it is characterized in that, described determine with described in collide with and operate corresponding at least one steering order, comprising:

Determine the directional information of the kinematic parameter of electronic equipment described in the process that is carved into the T2 moment during from T1;

Utilize the corresponding relation of default direction and steering order, determine the steering order corresponding with described directional information.

5. method according to claim 4, described electronic equipment comprises touch-screen, described touch-screen can show multiple objects, it is characterized in that,

With described steering order corresponding to operation of colliding with for the instruction of multiple objects described in the direction integrated moving characterizing to the directional information of described kinematic parameter.

6. an electronic equipment, comprise motion detection sensor, described motion detection sensor detects the kinematic parameter of described electronic equipment, carry out for described electronic equipment in the process of manipulation operation at operating body, the kinematic parameter of described electronic equipment changes, it is characterized in that, described electronic equipment also comprises:

Kinematic parameter acquiring unit, for obtaining the kinematic parameter of the described electronic equipment that described motion detection sensor detects;

Processing unit, for judging whether described kinematic parameter meets predetermined condition, in the time that described kinematic parameter meets described predetermined condition, determines that operating body carries out for described electronic equipment the operation of colliding with;

Response unit, for the operation of colliding with described in responding, determine with described in collide with and operate at least one corresponding steering order.

7. electronic equipment according to claim 6, is characterized in that, described motion detection sensor can detect the speed of described electronic equipment; Described processing unit comprises:

The first judge module, is carved into the process in T2 moment when judging from T1, and whether the velocity amplitude that described motion detection sensor obtains is for increasing gradually, and during from described T1, being carved into the T2 moment is very first time length;

The second judge module, while increasing gradually for be carved into velocity amplitude that described in the process in T2 moment, motion detection sensor obtains when from T1, while judging from T2, be carved into the process in T3 moment, whether the velocity amplitude that described motion detection sensor obtains is reduced to zero, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

The first determination module, is reduced at 1 o'clock for be carved into the velocity amplitude that described in the process in T3 moment, motion detection sensor obtains when from described T2, determines that operating body carries out for described electronic equipment the operation of colliding with.

8. electronic equipment according to claim 6, is characterized in that, described motion detection sensor can detect the acceleration of described electronic equipment; Described processing unit comprises:

The 3rd judge module, is carved into the process in T2 moment when judging from T1, and whether the acceleration that described motion detection sensor obtains is continuously first direction, and during from described T1, being carved into the T2 moment is very first time length;

The 4th judge module, while being continuously first direction for be carved into acceleration that described in the process in T2 moment, motion detection sensor obtains when from T1, while judging from T2, be carved into the process in T3 moment, whether the direction of the acceleration that described motion detection sensor obtains is second direction and reaches first threshold, wherein said second direction is contrary with described first direction, during from described T2, being carved into the T3 moment is the second time span, and described the second time span is less than described very first time length;

The second determination module, is second direction and while reaching first threshold for be carved into the direction of the acceleration that described in the process in T3 moment, motion detection sensor obtains when from described T2, determines that operating body carries out for described electronic equipment the operation of colliding with.

9. the electronic equipment described in 7 or 8 as requested, described response unit comprises:

Directional information determination module, for the operation of colliding with described in responding, is carved into the directional information of the kinematic parameter of electronic equipment described in the process in T2 moment while determining from T1;

Instruction determination module, for utilizing the corresponding relation of default direction and steering order, determines the steering order corresponding with described directional information.

10. electronic equipment according to claim 9, described electronic equipment comprises touch-screen, described touch-screen can show multiple objects, it is characterized in that, described instruction determination module is specifically for determining the instruction of multiple objects described in the direction integrated moving characterizing to the directional information of described kinematic parameter.

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