CN105183538B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The present invention discloses a kind of information processing method and electronic equipment, designs to reduce the misoperation probability of electronic equipment.The information processing method, applied in the electronic equipment including interactive unit and sensing unit；The interactive unit is for receiving operating body input；The sensing unit is used to detect the state of electronic equipment；The described method includes: the interactive unit receives the first input；First input executes the first operation for controlling the electronic equipment；The sensing unit detects the first parameter sensing；And when described first passes parameter sensing and meet the first preset condition, the electronic equipment is executed and associated second operation of first operation.

Description

Information processing method and electronic equipment

Technical Field

The present invention relates to the field of information processing, and in particular, to an information processing method and an electronic device.

Background

With the development of the electrical information processing technology, a large number of operation gestures are used when the operation of electronic devices such as tablet computers, smart phones, electronic books, personal digital assistants and the like is controlled. Due to the introduction of the operation gesture, the user is easy to touch the equipment by mistake when holding the equipment. Such as a mobile phone held by a user; the user carelessly touches the position on the screen of the mobile phone, which controls the mobile phone to execute the photographing function, so that the mobile phone automatically starts the photographing function; obviously, such a false touch causes the electronic device to perform some operations that are not specified by the user, which may result in a problem of low user satisfaction.

Disclosure of Invention

In view of this, embodiments of the present invention are expected to provide an information processing method and an electronic device, so as to improve the accuracy of the electronic device in recognizing an operation gesture.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a first aspect of an embodiment of the present invention provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit detects a first sensing parameter;

when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation.

Preferably, the sensing unit is specifically configured to detect a gesture of the electronic device;

the first sensing parameter meeting a first preset condition is as follows: the first sensing parameter indicates that the electronic equipment is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the second operation is to mask the first operation.

Preferably, the electronic device further comprises a multimedia information acquisition unit;

the sensing unit is a light sensing unit;

the first operation is a multimedia information acquisition operation;

the first sensing parameter indicates that the electronic equipment is in a first preset posture: and when the first light sensation parameter acquired by the light sensation unit indicates that the luminous flux entering the multimedia information acquisition unit is smaller than a first threshold value, determining that the electronic equipment is in a first preset posture.

Preferably, the sensing unit is specifically configured to detect a motion state of the electronic device;

the first sensing parameter meeting a first preset condition is as follows: the first sensing parameter indicates that the electronic device has motion while receiving the first input;

the second operation is to correct the first operation according to the first sensing parameter.

Preferably, the performing of the second operation associated with the first operation comprises:

acquiring a first input parameter of the first input;

generating a first correction parameter according to the first sensing parameter;

and correcting the first input parameter according to the first correction parameter to form a first correction result.

Preferably, the method further comprises:

responding to the first input according to the first correction result.

Preferably, the first sensing parameter includes at least one of a first displacement parameter and a first rotation parameter characterizing the displacement of the electronic device.

A second aspect of the embodiments of the present invention provides an electronic device, including an interaction unit, a sensing unit, a determination unit, and an execution unit;

the interaction unit is used for receiving input of an operation body; the sensing unit is used for detecting the state of the electronic equipment;

the interaction unit is specifically used for receiving a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit is specifically used for detecting a first sensing parameter;

the determining unit is used for determining whether the first sensing parameter meets a first preset condition;

the execution unit is used for executing a second operation associated with the first operation by the electronic equipment when the first sensing parameter meets a first preset condition.

Further, the sensing unit is specifically configured to detect a gesture of the electronic device;

the determining unit is specifically configured to determine that the first sensing parameter indicates that the electronic device is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the execution unit is specifically configured to mask the first operation when the first sensing parameter meets a first preset condition.

Furthermore, the electronic equipment also comprises a multimedia information acquisition unit;

the sensing unit is a light sensing unit;

the first operation is a multimedia information acquisition operation;

the determining unit is specifically configured to determine that the electronic device is in a first preset posture when the first light sensation parameter acquired by the light sensation unit indicates that the light flux entering the multimedia information acquisition unit is smaller than a first threshold.

Further, the sensing unit is specifically configured to detect a motion state of the electronic device;

the determining unit is specifically configured to determine that the first sensing parameter satisfies a first preset condition when the first sensing parameter indicates that the electronic device has motion when receiving the first input;

the execution unit is specifically configured to correct the first operation according to the first sensing parameter.

Further, the execution unit includes:

the acquisition module is used for acquiring a first input parameter of the first input;

the generating module is used for generating a first correction parameter according to the first sensing parameter;

and the correction module is used for correcting the first input parameter according to the first correction parameter to form a first correction result.

Further, the execution unit is further configured to respond to the first input according to the first correction result.

According to the information processing method and the electronic equipment, whether the first operation is executed or corrected is determined according to the state of the electronic equipment, so that the probability of automatically executing some operation caused by false touch is reduced; meanwhile, the probability that the user wants to execute the operation A but executes the operation B due to the misrecognition of the electronic equipment caused by the current state of the electronic equipment is reduced.

Drawings

FIG. 1 is a schematic flow chart illustrating an information processing method according to an embodiment of the present invention;

fig. 2 is a schematic application diagram of an information processing method according to an embodiment of the present invention;

FIG. 3 is a flowchart illustrating a second operation according to an embodiment of the present invention;

FIG. 4 is a second schematic view illustrating an application of the information processing method according to the embodiment of the invention;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the invention;

fig. 6 is a schematic structural diagram of an execution unit according to an embodiment of the present invention.

Detailed Description

The technical solution of the present invention is further described in detail with reference to the drawings and the specific embodiments of the specification.

The first embodiment of the method comprises the following steps:

as shown in fig. 1, the present embodiment provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

step S110: the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

step S120: the sensing unit detects a first sensing parameter;

step S130: when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation.

In the step S110, the first input is an input result formed based on the operation body input detected by the electronic device, and is an input result including an operation body input interacting with the electronic device.

The operation body input comprises gesture operation and eye gesture input based on eyeball tracking; the operation body input can be divided into active input and unconscious input of the operation body; usually, the unintended input is an erroneous operation of an operation body (e.g., a user).

The state of the electronic device can be a placing posture, a motion state or a working state of the electronic device. In some electronic device states, if the electronic device performs the operation, which may result in a conflict with the state or no input corresponding to the corresponding operation body, the first operation needs to be masked or corrected.

The first sensing parameter may be a value of a status parameter of the electronic device detected by the sensing unit.

Whether the electronic equipment is in a preset state or not can be determined according to the first sensing parameters, if the electronic equipment is in the preset state, the electronic equipment can be considered to meet a first preset condition, and a second operation associated with the first operation is executed to shield misoperation or correct misrecognition, so that the misoperation probability of the electronic equipment is reduced, and the equipment intelligence and the user use satisfaction are improved.

Specifically, if the user is currently in a meeting, the electronic device for communication is set to operate in a meeting mode state. At this time, the first sensing parameter is a state parameter of an operating mode of the electronic device. If the first operation for triggering the music playing is input to the electronic device by the wrong touch of the operation body (such as the user), it is obvious that the first operation is not the result intended by the user if the electronic device executes the music playing input. If the information processing method of the embodiment of the invention is adopted, the electronic equipment executes the second operation, namely, the first operation is shielded, namely, music is not played.

An application is opened on the electronic equipment, and a plurality of controls are arranged under the application; the double-click of the control represents opening the control; at this time, the state parameter of the electronic device in the current working application state is the first sensing parameter. If the operation body (such as a user) is carelessly used for operation, clicking one of the controls under the application for three times continuously to cause that the control is not opened; if the method of the embodiment is adopted, the first operation can be modified through the second operation, so that the opening operation is executed, and the method is not used for prompting that the electronic equipment cannot identify the user operation or the user operation is not responded.

In summary, the present embodiment provides an information processing method, which improves the intelligence of an electronic device, and implements shielding or correcting a misoperation through a second operation according to the current state of the electronic device and a first input of an operation body, thereby reducing the probability of the misoperation of the electronic device.

The second method embodiment:

as shown in fig. 1, the present embodiment provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

step S110: the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

step S120: the sensing unit detects a first sensing parameter;

step S130: when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation.

The sensing unit is specifically used for detecting the posture of the electronic equipment;

the first sensing parameter meeting a first preset condition is as follows: the first sensing parameter indicates that the electronic equipment is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the second operation is to mask the first operation.

The present embodiment provides an information processing method for masking an operation according to the posture of an electronic device with respect to the information method described in the first embodiment of the method, and it is meaningless for the electronic device to perform some operation when the electronic device is in a certain posture. Specifically, in the electronic device with a double-sided screen, a main screen is used for displaying, and an operation screen arranged opposite to the main screen is used for reverse touch of an operation body; if the electronic equipment places the main screen towards the desk at the moment, the operation screen detects a first operation for controlling the main screen to display pictures; obviously, since the home screen is placed toward the desktop, the user cannot see the content displayed on the home screen at all.

By adopting the information processing method of the embodiment, the sensing unit can detect that the electronic device is placed towards the desktop by detecting the first sensing parameter, so as to determine that the electronic device is in the first preset state, and further execute the second operation of shielding the image display operation.

Specifically, how to determine that the electronic device is in the first preset state, the sensing unit may include two sensors, one may be a gravity sensor, and the other may be a light sensor. The gravity sensor may be used to determine that the electronic device is upright, tilted, or lying; the light ray inlet of the light sensor is arranged on the same surface as the main screen. If the electronic equipment is handheld equipment, the electronic equipment is usually in an inclined or vertical posture when being held by a user, and if the electronic equipment is placed on a desktop, the electronic equipment is usually horizontally placed; if the main screen faces the desktop at the moment, the luminous flux detected by the optical sensor is very small; synthesize gravity sensor with light sensor can determine the present tie of electronic equipment lies and the gesture that the main screen is down, and then shields the first input that shows the picture.

In summary, according to the information processing method described in this embodiment, the misoperation is shielded through the second operation according to the posture of the electronic device and the first input, so that the probability of occurrence of the misoperation is reduced.

The third method embodiment:

as shown in fig. 1, the present embodiment provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

step S110: the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

step S120: the sensing unit detects a first sensing parameter;

step S130: when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation.

The electronic equipment also comprises a multimedia information acquisition unit;

the sensing unit is a light sensing unit;

the first operation is a multimedia information acquisition operation;

the first sensing parameter indicates that the electronic equipment is in a first preset posture: and when the first light sensation parameter acquired by the light sensation unit indicates that the luminous flux entering the multimedia information acquisition unit is smaller than a first threshold value, determining that the electronic equipment is in a first preset posture.

The collection operation is used for triggering the multimedia information collection unit to collect images or videos.

Specifically, when the first sensing parameter indicates that the multimedia information acquisition unit is covered, if the multimedia information acquisition operation is still executed, it is obvious that pictures or videos acquired by the electronic device may be black, which is obviously not desired by the user, and if the information processing method described in this embodiment is adopted, the second operation is executed to shield the multimedia information acquisition operation, so that the misoperation of the electronic device is reduced, and meanwhile, the problems that the multimedia information acquisition unit is always operated under the unintentional misoperation of the electronic device by the user, the consumed electric quantity is large, and the standby time of the electronic device is shortened are solved.

The scenes in which the multimedia information collection unit is covered include scenes in which the user places the multimedia information collection unit (e.g., the camera is placed toward the desktop, the user places the electronic device in a pocket, and no ambient light in the pocket is equivalent to the scenes in which the multimedia information collection unit is covered).

In this embodiment, whether the multimedia information collection unit is covered is determined according to the light flux entering the multimedia information collection unit, and if the light flux entering the multimedia information collection unit is small, specifically, smaller than a first threshold value, it is determined that the multimedia information collection unit is covered. The first sensing parameter is the luminous flux.

The first threshold may be a light flux value stored in the electronic device, a statistical value formed according to historical data of the light flux entering the multimedia information acquisition unit, or a simulation value formed according to a simulation result, and specific forming methods are various and are not described herein.

In a specific implementation process, in order to facilitate the night multimedia information acquisition operation of the multimedia information acquisition unit, the sensing unit may include a first optical sensor and a second optical sensor; the first light sensor is positioned at the multimedia information acquisition unit and used for detecting first luminous flux passing through the multimedia information acquisition unit; the second optical sensor is arranged separately from the multimedia information acquisition unit and is used for acquiring a second light flux passing through a place other than the multimedia information acquisition unit; specifically, the second sensor is arranged on the opposite surface of the multimedia information acquisition unit, and the like.

The method further comprises the following steps:

comparing the first and second luminous fluxes; when the first luminous flux is less than the first threshold value; and when the difference value between the first luminous flux and the second luminous flux is smaller than a second threshold value, determining that the electronic equipment is not in a dark state at present, only the multimedia information acquisition unit is covered, and after receiving the multimedia information acquisition unit, the electronic equipment executes a second operation of shielding the multimedia information acquisition operation.

In summary, the present embodiment provides an information processing method for reducing a misoperation of a multimedia information collection operation on the basis of the second embodiment, which is not only beneficial to reducing a misoperation probability of an electronic device, but also beneficial to reducing power consumption of the electronic device due to operation.

The method comprises the following steps:

the embodiment is a further improvement on the basis of the first embodiment of the method, and specifically includes the following steps: as shown in fig. 1, the present embodiment provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

step S110: the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

step S120: the sensing unit detects a first sensing parameter;

step S130: when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation;

wherein,

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

the first sensing parameter meeting a first preset condition is as follows: the first sensing parameter indicates that the electronic device has motion while receiving the first input;

the second operation is to correct the first operation according to the first sensing parameter.

In a specific implementation process, the motion state of the electronic device will cause the false recognition of the first input of the operation body input.

As shown in fig. 2, the electronic device 100 is hung or placed at a certain position, and projects its operation page onto the desktop by projection; the user can control the electronic device 100 to perform some operation through gesture input on the desktop; if the electronic device 100 is moved or rotated at this time, the relative position of the projection 101 formed by the operation page on the desktop may change, and the interactive object pointed by the user on the projection 101 changes, which may result in an incorrect operation. If the user intends to open the application corresponding to the black square in fig. 2 through gesture operation, the electronic device may erroneously recognize an application that is located beside the application corresponding to the black square based on the first input by the user due to the motion of the electronic device, and the probability of erroneous operation may be high due to the erroneous recognition.

If the information processing method in this embodiment is adopted, it is determined whether the electronic device moves when the first operation is input by the operation body, and the first operation corresponding to the first input is corrected according to the first sensing parameter.

In summary, this embodiment is a further improvement on the basis of the first method embodiment, and compared to the second and third method embodiments, the motion state of the electronic device when receiving the first input is detected, and the first operation corresponding to the first input is corrected according to the motion state, so that the probability of the misoperation caused by the misrecognition is reduced.

Method example five:

the embodiment is a further improvement on the basis of the first embodiment, and specifically includes the following steps: as shown in fig. 1, the present embodiment provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

step S110: the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

step S120: the sensing unit detects a first sensing parameter;

step S130: when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation;

wherein,

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

the first sensing parameter meeting a first preset condition is as follows: the first sensing parameter indicates that the electronic device has motion while receiving the first input;

the second operation is to correct the first operation according to the first sensing parameter.

As shown in fig. 3, the performing of the second operation associated with the first operation includes:

step S131: acquiring a first input parameter of the first input;

step S132: generating a first correction parameter according to the first sensing parameter;

step S133: and correcting the first input parameter according to the first correction parameter to form a first correction result.

Specifically, as shown in fig. 2, if the user clicks the application corresponding to the black square at this time, the click is the first input; the sensing unit detects that the electronic device is turned to an angle while obtaining a first input by an operation body (such as a user).

Determining a correction parameter according to the influence of the angle on the projection 101; specifically, if the electronic device 100 rotates to the right, the projection 101 will move to the right, and if the operation body points to the application position corresponding to the black square, the operation body corresponds to the application on the right before the projection 101 moves; by adopting the steps of the embodiment, the first input parameter is corrected according to the first correction parameter formed by the first sensing parameter, and a first correction result pointing to correct application is formed, so that correction is realized to avoid misoperation.

As shown in fig. 4, a plurality of interactive objects are displayed on the display unit 102 of the electronic device; the display unit 102 is also an interaction unit, and if the operation body touches the interaction unit, the operation input is realized, and the electronic device executes an operation corresponding to the input according to the received input.

In a common riding or crowded environment of a user, the electronic equipment is held by one hand, and the electronic equipment is operated by the other hand; the situation that the electronic equipment is forced to move when a user operates the electronic equipment due to sudden braking of a vehicle or pushing of other people is likely to happen, and the situation that misoperation of the electronic equipment needs to be avoided.

For example, if the electronic device moves in the direction indicated by the arrow in fig. 4 at a certain moment, the user clicks the interactive unit; but due to the movement of the electronic device, the hand of the user not only touches the interaction unit, but also leaves a relative sliding on the interaction unit relative to the electronic device, which is obviously taken by the electronic device as the first input; it is obvious that the direct execution of the first input is not an operation intended by the user.

Therefore, in this embodiment, the sensing unit will detect the motion state of the electronic device, obtain the motion of the electronic device along the arrow direction, and obtain the displacement of the electronic device within the time of the first operation input by the user by detecting the acceleration or the distance, so as to form the first sensing parameter; the first sensing parameter may comprise one or more parameters.

Forming a first correction parameter according to the first sensing parameter, and correcting a first input parameter, specifically, if the first input parameter includes a sliding distance and a sliding direction of the first operation; the first sensing parameters comprise the moving distance and the moving direction of the electronic equipment.

If the sliding direction and the moving direction are opposite, subtracting the moving distance from the sliding distance to obtain a correction result; from the calibration result, it can be known whether the user is a click operation or a slide away from the direction indicated by the arrow or a slide toward the direction indicated by the arrow, so that the first calibration result confirms that the input of the operation body (e.g., the user) is a click operation in fig. 4.

Further, the information processing method according to this embodiment further includes:

responding to the first input according to the first correction result; such as in response to a user input, such as in fig. 4 in response to a user click input, rather than a slide input.

In summary, the embodiment provides an information processing method, which can effectively reduce the misoperation probability of the electronic device and improve the user satisfaction.

Method example six:

the embodiment is a further improvement on the basis of the first embodiment of the method, and specifically includes the following steps: as shown in fig. 1, the present embodiment provides an information processing method, which is applied to an electronic device including an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; the method comprises the following steps:

step S110: the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

step S120: the sensing unit detects a first sensing parameter;

step S130: when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation;

as shown in fig. 3, the performing of the second operation associated with the first operation includes:

step S131: acquiring a first input parameter of the first input;

step S132: generating a first correction parameter according to the first sensing parameter;

step S133: and correcting the first input parameter according to the first correction parameter to form a first correction result.

The first sensing parameter comprises at least one of a first displacement parameter and a first rotation parameter which characterize the motion state of the electronic equipment.

The electronic equipment comprises at least one of displacement and rotation at the moment of motion; when the electronic equipment is displaced, the electronic equipment can move from one position to another position relative to an operation body (such as a user); when the electronic equipment is rotated, the rotation center of the electronic equipment is static relative to the operation body, but the same may affect the operation body input, and the electronic equipment wrongly identifies the operation body input S as the input S'; therefore, the first sensing parameter described in this embodiment includes a first displacement parameter and a first transition parameter.

In summary, the information processing method according to the embodiment of the present invention provides an information processing method, which can effectively shield an erroneous operation of an operation body and an erroneous operation caused by erroneous recognition of an input to the operation body due to a motion state of an electronic device, and shield or correct the first input, thereby effectively reducing the erroneous operation of the electronic device and improving the satisfaction of a user.

The first embodiment of the device:

as shown in fig. 5, an electronic device of the present embodiment includes an interaction unit 110, a sensing unit 120, a determination unit 130, and an execution unit 140;

the interaction unit 110 is configured to receive an operation body input; the sensing unit 120 is configured to detect a state of the electronic device;

the interactive ticket 110 is specifically configured to receive a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit 120 is specifically configured to detect a first sensing parameter;

the determining unit 130 is configured to determine whether the first sensing parameter satisfies a first preset condition;

the execution unit 140 is configured to, when the first sensing parameter satisfies a first preset condition, execute a second operation associated with the first operation by the electronic device.

The interaction unit 110 has different structures according to different ways of receiving the input of the operation body; specifically, the interaction unit 130 may be a physical keyboard, a touch display screen, or a proximity touch screen, and is configured to receive an input from an operation body (e.g., a user) so as to respond to a user instruction.

The specific structure of the sensing unit 120 is different according to the inspected signal, and may include one or more of a photosensor, a gravitational acceleration sensor, and a gyroscope.

The specific structure of the determining unit 130 may include a processor and a storage medium; the processor and the storage medium are connected by an internal communication structure (such as a data bus and an address bus) to realize data interaction. The storage medium has stored thereon executable instructions; the processor reads and executes the executable instructions to determine whether the first sensing parameter received from the sensing unit 120 satisfies a first preset condition. The first preset condition is pre-stored in the storage medium or written in the executable instruction.

The execution unit 140 may also include a processor and a storage medium connected to each other, and execute a second operation according to the determination result of the determination unit 130. In a specific implementation process, the determining unit 130 and the executing unit 140 may respectively correspond to different processors and storage media, or may integrally correspond to the same processor and storage medium; when the determining unit 130 and the executing unit 140 are integrated to correspond to the same processor and storage medium, the processor executes the functions of the determining unit 130 and the executing unit 140 in sequence by using time division multiplexing.

The processor can be an electronic functional component with a processing function, such as a microprocessor MCU, a central processing unit CPU, a digital signal processor DSP or a programmable logic array PLC, and the like.

The above is merely an example of the specific structure of each unit, and in the specific implementation process, the structure is not limited to the above.

The electronic device described in this embodiment may specifically be an electronic device such as a smart phone, a tablet computer, or an electronic book, and provides a specific hardware support for the information processing method described in the first embodiment of the method, and may be used to implement any one of the technical solutions described in the first embodiment of the method, so that the probability of misoperation of the electronic device is also reduced, and the intelligence of the device and the user satisfaction are improved.

The second equipment embodiment:

as shown in fig. 5, an electronic device of the present embodiment includes an interaction unit 110, a sensing unit 120, a determination unit 130, and an execution unit 140;

the interaction unit 110 is configured to receive an operation body input; the sensing unit 120 is configured to detect a state of the electronic device;

the interactive ticket 110 is specifically configured to receive a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit 120 is specifically configured to detect a first sensing parameter;

the determining unit 130 is configured to determine whether the first sensing parameter satisfies a first preset condition;

the execution unit 140 is configured to, when the first sensing parameter satisfies a first preset condition, execute a second operation associated with the first operation by the electronic device.

The sensing unit 120 is specifically configured to detect a gesture of the electronic device;

the determining unit 130 is specifically configured to determine that the first sensing parameter indicates that the electronic device is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the execution unit 140 is specifically configured to mask the first operation when the first sensing parameter meets a first preset condition.

When the sensing unit 120 is used to detect the posture of the electronic device, it may be formed of one or more sensors for detecting the posture of the electronic device, such as a gravitational acceleration sensor and/or a gyroscope.

The execution unit 140 masks the first operation, i.e., does not execute the first operation, thereby filtering out an erroneous operation of an operation body such as a user.

Compared with the previous embodiment, the electronic device in this embodiment is specifically configured to shield the user's incorrect input to reduce the incorrect operation of the electronic device and save power consumption, and provides a specific hardware support for the information processing method in the second embodiment of the method.

The third equipment embodiment:

as shown in fig. 5, an electronic device of the present embodiment includes an interaction unit 110, a sensing unit 120, a determination unit 130, and an execution unit 140;

the interaction unit 110 is configured to receive an operation body input; the sensing unit 120 is configured to detect a state of the electronic device;

the interactive ticket 110 is specifically configured to receive a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit 120 is specifically configured to detect a first sensing parameter;

the determining unit 130 is configured to determine whether the first sensing parameter satisfies a first preset condition;

the execution unit 140 is configured to, when the first sensing parameter satisfies a first preset condition, execute a second operation associated with the first operation by the electronic device.

The sensing unit 120 is specifically configured to detect a gesture of the electronic device;

the determining unit 130 is specifically configured to determine that the first sensing parameter indicates that the electronic device is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the execution unit 140 is specifically configured to mask the first operation when the first sensing parameter meets a first preset condition.

The electronic equipment also comprises a multimedia information acquisition unit;

the sensing unit 120 is a light sensing unit;

the first operation is a multimedia information acquisition operation;

the determining unit is specifically configured to determine that the electronic device is in a first preset posture when the first light sensation parameter acquired by the light sensation unit indicates that the light flux entering the multimedia information acquisition unit is smaller than a first threshold.

The multimedia information acquisition unit can comprise a camera; the luminous flux entering the multimedia information acquisition unit may refer to a luminous flux entering the camera.

The specific structure of the light sensing unit can comprise one or more light sensors, and at least one light sensor is used for collecting the luminous flux entering the multimedia information collecting unit; the light sensor used for collecting the multimedia information collecting unit can be arranged at the camera in the vicinity or embedded in the camera.

In summary, the electronic device according to this embodiment provides an electronic device that can prevent a multimedia information collection unit, such as a camera function or a video camera function, from being turned on due to a malfunction based on the device embodiment i and the device embodiment ii, so that the malfunction of multimedia information collection can be effectively avoided, and the problem of large power consumption and short standby time due to the malfunction can be solved.

The electronic device described in this embodiment also provides a specific hardware support for the information processing method described in the third embodiment of the method, and the technical scheme described in any of the third embodiment of the method can be implemented, so that the probability of misoperation of the electronic device is reduced, the intelligence of the device and the user satisfaction are improved, and the electronic device has the advantages of simple structure and convenience in implementation.

The fourth equipment embodiment:

as shown in fig. 5, an electronic device of the present embodiment includes an interaction unit 110, a sensing unit 120, a determination unit 130, and an execution unit 140;

the interaction unit 110 is configured to receive an operation body input; the sensing unit 120 is configured to detect a state of the electronic device;

the interactive ticket 110 is specifically configured to receive a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit 120 is specifically configured to detect a first sensing parameter;

the determining unit 130 is configured to determine whether the first sensing parameter satisfies a first preset condition;

the execution unit 140 is configured to determine whether the first sensing parameter satisfies a first preset condition

The sensing unit 120 is specifically configured to detect a motion state of the electronic device;

the determining unit 130 is specifically configured to determine that the first sensing parameter satisfies a first preset condition when the first sensing parameter indicates that the electronic device has motion while receiving the first input;

the execution unit 140 is specifically configured to correct the first operation according to the first sensing parameter.

The sensing unit 120 described in this embodiment is specifically referred to for detecting the motion state of the electronic device, and the existing structure capable of detecting the motion state of the electronic device, such as a gravitational acceleration sensor and a gyroscope, can be used to form the sensing unit 120.

The difference between the second embodiment of the electronic device and the third embodiment of the electronic device in this embodiment is that, when the first input is set, the electronic device described in this embodiment considers the influence of the motion state of the electronic device on the first input, and corrects the first input according to the motion state of the electronic device to obtain the actual input of the operation body, such as the user, so that the misoperation of the electronic device caused by the motion of the electronic device is reduced, the intelligence of the electronic device and the user use satisfaction are improved, and the method can be used to implement the technical scheme described in any one of the fourth embodiment of the method.

Device example five:

as shown in fig. 5, an electronic device of the present embodiment includes an interaction unit 110, a sensing unit 120, a determination unit 130, and an execution unit 140;

the interaction unit 110 is configured to receive an operation body input; the sensing unit 120 is configured to detect a state of the electronic device;

the interactive ticket 110 is specifically configured to receive a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit 120 is specifically configured to detect a first sensing parameter;

the determining unit 130 is configured to determine whether the first sensing parameter satisfies a first preset condition;

the execution unit 140 is configured to determine whether the first sensing parameter satisfies a first preset condition

The sensing unit 120 is specifically configured to detect a motion state of the electronic device;

the determining unit 130 is specifically configured to determine that the first sensing parameter satisfies a first preset condition when the first sensing parameter indicates that the electronic device has motion while receiving the first input;

the execution unit 140 is specifically configured to correct the first operation according to the first sensing parameter.

As shown in fig. 6, the execution unit 140 includes:

an obtaining module 141, configured to obtain a first input parameter of the first input;

a generating module 142, configured to generate a first correction parameter according to the first sensing parameter;

the correcting module 143 is configured to correct the first input parameter according to the first correcting parameter to form a first correcting result.

The specific structure of the obtaining module 141 may be an internal communication interface, which is connected to the interaction unit 110 and receives the first input parameter from the interaction unit 110.

The specific structure of the generating module 142 may include two parts, a first part is used for receiving or reading the first sensing parameter, and is used for acquiring the first sensing parameter from the determining unit 130; the second part is to generate a first correction parameter according to the first sensing parameter. The first part may be an internal communication interface or a storage medium; the second portion may be a processor.

The specific structure of the calibration module 143 may also be a processor or a logic circuit with a computing function, and the first input parameter is adjusted according to the first calibration parameter and a predetermined algorithm, for example, the specific structure may be a subtractor.

In addition, the execution unit 140 is further configured to respond to the first input according to the first correction result, and execute an operation body input.

The electronic device described in this embodiment is a further improvement of the electronic device described in the previous embodiment, and provides a specific structure of the execution unit and how to specifically implement the first operation of correction, and any one of the technical solutions described in the fourth embodiment of the method can be implemented, and the electronic device also has the advantages of reducing the probability of misoperation of the electronic device, improving the intelligence of the device and the user satisfaction, and having a simple structure and being easy to implement.

The motion gestures of the electronic device described in the embodiments of the present invention may include displacement motions, i.e., from one location to another; meanwhile, the method can also comprise rotation, namely rotation around the center of the electronic equipment or other points on the electronic equipment under the condition of no displacement; the first sensing parameter at least comprises at least one of a first displacement parameter representing the displacement of the electronic equipment and a first rotation parameter representing the rotation of the electronic equipment.

The electronic device described in this embodiment provides hardware support for the information processing methods described in method embodiments five and six, can be used to implement any of the technical solutions described in method embodiments five and method embodiments, and also has the advantage of being able to effectively reduce the probability of incorrect operation of the device, and also has the advantage of simple structure and easy implementation.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above-described device embodiments are merely illustrative, for example, the division of the unit is only a logical functional division, and there may be other division ways in actual implementation, such as: multiple units or components may be combined, or may be integrated into another system, or some features may be omitted, or not implemented. In addition, the coupling, direct coupling or communication connection between the components shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or units may be electrical, mechanical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed on a plurality of network units; some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, all the functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may be separately used as one unit, or two or more units may be integrated into one unit; the integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.

Those of ordinary skill in the art will understand that: all or part of the steps for implementing the method embodiments may be implemented by hardware related to program instructions, and the program may be stored in a computer readable storage medium, and when executed, the program performs the steps including the method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (11)

1. An information processing method is applied to electronic equipment comprising an interaction unit and a sensing unit; the interaction unit is used for receiving an operation body input; the sensing unit is used for detecting the state of the electronic equipment; wherein the state of the electronic device comprises: the motion state and/or the working state whether in the conference mode; the method comprises the following steps:

the interaction unit receives a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit detects a first sensing parameter;

when the first sensing parameter meets a first preset condition, the electronic equipment executes a second operation associated with the first operation;

the first sensing parameter meeting a first preset condition comprises: the first sensing parameter indicates that the electronic device has motion while receiving the first input;

the second operation is to correct the first operation according to the first sensing parameter.

2. The method of claim 1,

the state of the electronic device further comprises: a pose of the electronic device;

the sensing unit is specifically used for detecting the posture of the electronic equipment;

the first sensing parameter meeting a first preset condition comprises: the first sensing parameter indicates that the electronic equipment is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the second operation is to mask the first operation.

3. The method of claim 2,

the electronic equipment also comprises a multimedia information acquisition unit;

the sensing unit is a light sensing unit;

the first operation is a multimedia information acquisition operation;

the first sensing parameter indicates that the electronic equipment is in a first preset posture: and when the first light sensation parameter acquired by the light sensation unit indicates that the luminous flux entering the multimedia information acquisition unit is smaller than a first threshold value, determining that the electronic equipment is in a first preset posture.

4. The method of claim 1,

the performing a second operation associated with the first operation comprises:

acquiring a first input parameter of the first input;

generating a first correction parameter according to the first sensing parameter;

and correcting the first input parameter according to the first correction parameter to form a first correction result.

5. The method of claim 4, further comprising:

responding to the first input according to the first correction result.

6. The method according to claim 4 or 5,

the first sensing parameter comprises at least one of a first displacement parameter and a first rotation parameter which characterize the displacement of the electronic equipment.

7. An electronic device comprises an interaction unit, a sensing unit, a determination unit and an execution unit;

the interaction unit is used for receiving input of an operation body; the sensing unit is used for detecting the state of the electronic equipment; wherein the state of the electronic device comprises: the motion state and/or the working state whether in the conference mode;

the interaction unit is specifically used for receiving a first input; the first input is used for controlling the electronic equipment to execute a first operation;

the sensing unit is specifically used for detecting a first sensing parameter;

the determining unit is used for determining whether the first sensing parameter meets a first preset condition;

the electronic equipment comprises an execution unit, a first processing unit and a second processing unit, wherein the execution unit is used for executing a second operation related to the first operation when the first sensing parameter meets a first preset condition;

the determining unit is specifically configured to determine that the first sensing parameter satisfies a first preset condition when the first sensing parameter indicates that the electronic device has motion when receiving the first input;

the execution unit is specifically configured to correct the first operation according to the first sensing parameter.

8. The electronic device of claim 7,

the sensing unit is specifically used for detecting the posture of the electronic equipment;

the determining unit is specifically configured to determine that the first sensing parameter indicates that the electronic device is in a first preset posture; the first preset gesture is a gesture for appointing not to execute the first operation;

the execution unit is specifically configured to mask the first operation when the first sensing parameter meets a first preset condition.

9. The electronic device of claim 8,

the electronic equipment also comprises a multimedia information acquisition unit;

the sensing unit is a light sensing unit;

the first operation is a multimedia information acquisition operation;

the determining unit is specifically configured to determine that the electronic device is in a first preset posture when the first light sensation parameter acquired by the light sensation unit indicates that the light flux entering the multimedia information acquisition unit is smaller than a first threshold.

10. The electronic device of claim 7,

the execution unit includes:

the acquisition module is used for acquiring a first input parameter of the first input;

the generating module is used for generating a first correction parameter according to the first sensing parameter;

and the correction module is used for correcting the first input parameter according to the first correction parameter to form a first correction result.

11. The electronic device of claim 10,

the execution unit is further configured to respond to the first input according to the first correction result.