CN104270663B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The invention discloses a kind of information processing methods, the method is applied in the first electronic equipment, the first surface of first electronic equipment is provided with the first induction module, and first induction module can incude the operation of user and generate corresponding control signal, to control the second electronic equipment；The method also includes: the first operation is obtained by the first induction module；Obtain the operational attribute of the first operation；When being judged as that the angle between operation direction and the first predetermined direction of first operation is located in first threshold range, the first operation of response, it generates first control signal: when being judged as that the angle between operation direction and the first predetermined direction of the first operation is not located in first threshold range, being not responding to the first operation.Meanwhile the present invention also provides a kind of electronic equipment, which is suitble to Human Physiology construction, is easy to hold and operate, can promote user experience.

Description

Information processing method and electronic equipment

Technical Field

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

Background

The smart television is popular with the users due to the multifunctionality. The intelligent television is operated by the user through the operation of the touch area of the air mouse. Currently, a mouse is used to acquire a touch operation of a user in a touch area through a touch pad disposed below the touch area. If the side of the mouse with the touch area is called the front side. According to human engineering statistics, when a human hand holds an empty mouse, the user is used to perform transverse touch on the front surface by using a thumb and perform vertical touch on the back surface by using a forefinger. Therefore, an empty mouse which is suitable for the physiological structure of a human body and can quickly detect effective touch is needed.

Disclosure of Invention

In order to solve the existing technical problem, embodiments of the present invention provide an information processing method and an electronic device, which are suitable for a physiological structure of a human body and can quickly detect an empty mouse with effective touch, thereby improving user experience.

The technical scheme of the embodiment of the invention is realized as follows:

the information processing method provided by the embodiment of the invention is applied to first electronic equipment, and the first electronic equipment is communicated with second electronic equipment in a wireless mode; a first sensing module is arranged on a first surface of the first electronic device, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic device; the method further comprises the following steps:

acquiring a first operation through the first sensing module;

acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation;

when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation to generate a first control signal:

and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded.

In the above scheme, the method further comprises:

arranging a second sensing module on a second surface of the first electronic device, wherein the first surface is different from the second surface;

acquiring a second operation through the second sensing module;

acquiring the operation direction of a second operation;

when the included angle between the operation direction of the second operation and the second preset direction is judged to be in a second threshold range, responding to the second operation and generating a second control signal;

when the included angle between the operation direction of the second operation and the second preset direction is judged not to be within a second threshold value range, the second operation is not responded;

wherein, the included angle between the first preset direction and the second preset direction is larger than a first preset angle.

In the above scheme, the method further comprises:

when the first operation is obtained through the first induction module and the second operation is obtained through the second induction module within the preset first time,

extracting first attributes of a first operation, wherein the first attributes at least comprise an operation direction of the first operation in a first preset direction and a first distance between the first operation and a first preset position;

extracting a second attribute of a second operation, wherein the second attribute at least comprises an operation direction of the second operation in a second preset direction and a second distance between the second operation and a second preset position;

generating a third operation according to the first attribute and the second attribute;

in response to a third operation, a third control signal is generated.

In the above scheme, the method further comprises:

determining the extracted first attribute as a first vector;

determining the extracted second attribute as a second vector;

synthesizing the first vector and the second vector to obtain a first synthesis result;

generating a third control signal when the first composite result is within a third threshold range.

In the above solution, the first attribute further includes a first speed generated by the first operation in the first predetermined direction;

the second attribute further comprises a second velocity resulting from the second operation in the second predetermined direction;

synthesizing the first speed and the second speed to obtain a second synthesis result;

when the second synthesis result is within a fourth threshold range, a third control signal is generated.

The embodiment of the invention also provides the electronic equipment, and the electronic equipment is communicated with the second electronic equipment in a wireless mode; a first sensing module is arranged on a first surface of the electronic equipment, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic equipment; wherein,

the electronic equipment acquires a first operation through the first induction module;

acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation;

when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation and generating a first control signal;

and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded.

In the above solution, a second sensing module is disposed on a second surface of the electronic device, and the first surface is different from the second surface;

acquiring a second operation through the second sensing module;

acquiring the operation direction of a second operation;

when the included angle between the operation direction of the second operation and the second preset direction is judged to be within a second threshold value range, responding to the second operation and generating a second control signal;

when the included angle between the operation direction of the second operation and the second preset direction is judged not to be within a second threshold value range, the second operation is not responded;

wherein, the included angle between the first preset direction and the second preset direction is larger than a first preset angle.

In the above-mentioned scheme, the first step of the method,

when the first operation is obtained through the first induction module and the second operation is obtained through the second induction module within the preset first time,

extracting a first attribute of a first operation, wherein the first attribute at least comprises an operation direction of the first operation in a first preset direction and a first distance between the first attribute and a first preset position;

extracting a second attribute of a second operation, wherein the second attribute at least comprises an operation direction of the second operation in a second preset direction and a second distance between the second operation and a second preset position;

generating a third operation according to the first attribute and the second attribute;

in response to a third operation, a third control signal is generated.

In the above-mentioned scheme, the first step of the method,

determining the extracted first attribute as a first vector;

determining the extracted second attribute as a second vector;

synthesizing the first vector and the second vector to obtain a first synthesis result;

generating a third control signal when the first composite result is within a third threshold range.

In the above-mentioned scheme, the first step of the method,

the first attribute further comprises a first velocity resulting from the first operation in the first predetermined direction;

the second attribute further comprises a second velocity resulting from the second operation in the second predetermined direction;

synthesizing the first speed and the second speed to obtain a second synthesis result;

when the second synthesis result is within a fourth threshold range, a third control signal is generated.

The information processing method and the electronic equipment provided by the embodiment of the invention are applied to first electronic equipment, and the first electronic equipment is communicated with second electronic equipment in a wireless mode; a first sensing module is arranged on a first surface of the first electronic device, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic device; the method further comprises the following steps: acquiring a first operation through the first sensing module; acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation; when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation to generate a first control signal: and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded. By utilizing the technical scheme of the embodiment of the invention, the first sensing module of the first electronic device is arranged on the first surface, and the arrangement of the position of the first sensing module is beneficial to the touch control of the thumb or the index finger of the user, is suitable for the physiological structure of the human body, is easy to hold and operate, can also quickly detect the air mouse with effective touch control, and further can improve the user experience.

Drawings

Fig. 1 is a schematic diagram of an electronic device according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating an implementation of a first embodiment of an information processing method according to the present invention;

fig. 3 is a schematic flow chart illustrating an implementation of a second embodiment of the information processing method according to the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings, and it should be understood that the preferred embodiments described below are only for the purpose of illustrating and explaining the present invention, and are not to be construed as limiting the present invention.

The first electronic device and the electronic device provided by the present invention in the embodiments of the information processing method provided by the present invention include, but are not limited to: bluetooth remote control equipment and infrared remote control equipment; the second electronic device includes but is not limited to: televisions, smart televisions, industrial control computers, personal computers and other various types of computers, all-in-one computers, electronic readers and the like. In the embodiment of the invention, the preferred object of the first electronic equipment (electronic equipment) is a Bluetooth remote control device; the preferred object of the second electronic device is a television or a smart television.

Embodiment of the electronic device

According to the first embodiment of the electronic device provided by the invention, the electronic device communicates with the second electronic device in a wireless mode; the first sensing module is arranged on the first surface of the electronic equipment and can sense the operation of a user to generate a corresponding control signal so as to control the second electronic equipment.

Fig. 1 is a schematic diagram of an electronic device according to an embodiment of the present invention; with reference to fig. 1, taking an electronic device as an infrared remote control device (a mouse) and a second electronic device as an intelligent electronic device as an example, the first surface is a surface on the mouse which is convenient for a user to operate, the first surface may be a surface 1 on which a dotted frame portion in fig. 1 is located, and the surface 1 is convenient for the user to perform a touch operation with a thumb; the first surface can also be a plane opposite to the surface with the dotted frame part, namely the surface 2, and the user can conveniently perform touch operation by using an index finger on the surface 2; the first sensing module can be a touch pad, and when the first surface is the surface 1, the touch pad is arranged below the position shown by the dotted line frame; when the first surface is the surface 2, the touch pad is arranged below the position, opposite to the dotted line frame, on the surface 2; the mouse obtains the operation of the user through the touch pad to generate a control signal so as to execute the operation on the intelligent television. Wherein,

the electronic equipment acquires a first operation through the first induction module; here, the first operation is a touch operation of the user on the touch area, and further, when the first sensing module is disposed below the surface 1, the touch operation of the thumb of the user on the touch area 1 (a dashed-line frame part in fig. 1) is acquired; when the first sensing module is disposed below the surface 2, a touch operation of the index finger of the user on the touch area 2 (an area on the surface 2 opposite to the dashed box in fig. 1) is acquired.

Acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation; here, the operation direction of the touch operation is acquired.

When the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation and generating a first control signal; and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded.

Taking the first surface as the surface 1 as an example, when the obtained first operation is a touch operation of a user on the surface 1 by using a thumb, because the user can conveniently perform a lateral touch operation on the touch area 1 by using the thumb, the first predetermined direction is the lateral direction of the touch area 1, considering that the touch operation of the user thumb may have a slight deviation, an included angle between the operation direction of the first operation and the first predetermined direction needs to be calculated, when the calculated included angle is within a preset first threshold range, it is determined that the first operation is an effective lateral touch operation, the mouse generates a first control signal based on the first operation and sends the first control signal to the smart television, for example, the first control signal is a channel switching signal, and the smart television receives the signal and switches to a new channel; when the calculated included angle is not in the first threshold range, confirming that the first operation is invalid operation and not responding to the first operation; wherein, the first threshold value range is flexibly set according to practical application conditions, and preferably can be set to [ -30 degrees, 30 degrees ].

When the first surface is the surface 2, the first operation is a touch operation of the user using an index finger on the touch area 2, the first predetermined direction is a vertical direction of the touch area 2, and other descriptions are similar to the above description and are not repeated.

Therefore, in the embodiment of the invention, the first sensing module is arranged on the first surface of the electronic device, and the first surface can facilitate the transverse touch of the thumb or the vertical touch of the index finger of a user, so that the physiological structure of a human body is adapted and the operation habit of the human body is met; when the included angle between the operation direction of the first operation acquired by the first sensing module and the first preset direction is calculated to be within a first threshold range, responding to the first operation and generating a first control signal; when the first operation is not within the first threshold range, the first operation is not responded; according to the touch operation of the user, only the touch operation meeting the requirements is responded, the effective touch operation can be quickly detected, and the use experience of the user is improved.

Second embodiment of the electronic device

According to a second embodiment of the electronic device provided by the invention, the electronic device communicates with a second electronic device in a wireless manner; the first sensing module is arranged on the first surface of the electronic equipment and can sense the operation of a user to generate a corresponding control signal so as to control the second electronic equipment.

Fig. 1 is a schematic diagram of an electronic device according to an embodiment of the present invention; with reference to fig. 1, taking an electronic device as an infrared remote control device (a mouse) and a second electronic device as an intelligent electronic device as an example, the first surface is a surface on the mouse which is convenient for a user to operate, the first surface may be a surface 1 on which a dotted frame portion in fig. 1 is located, and the surface 1 is convenient for the user to perform a touch operation with a thumb; the first surface can also be a plane opposite to the surface with the dotted frame part, namely the surface 2, and the user can conveniently perform touch operation by using an index finger on the surface 2; the first sensing module can be a touch pad, and when the first surface is the surface 1, the touch pad is arranged below the position shown by the dotted line frame; when the first surface is the surface 2, the touch pad is arranged below the position, opposite to the dotted line frame, on the surface 2; the mouse obtains the operation of the user through the touch pad to generate a control signal so as to execute the operation on the intelligent television. Wherein,

the electronic equipment acquires a first operation through the first induction module; acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation; when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation to generate a first control signal: and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded.

Preferably, a second sensing module is disposed on a second surface of the first electronic device, and the first surface is different from the second surface; acquiring a second operation through the second sensing module; acquiring the operation direction of a second operation; when the included angle between the operation direction of the second operation and the second preset direction is judged to be in a second threshold range, responding to the second operation and generating a second control signal; when the included angle between the operation direction of the second operation and the second preset direction is judged not to be within a second threshold value range, the second operation is not responded; the included angle between the first preset direction and the second preset direction is larger than a first preset angle, the first preset angle can be 80 degrees, and the first preset angle can be flexibly set according to the practical application condition.

Specifically, touch pads are arranged on two surfaces of the electronic device simultaneously, and when the first surface is a surface 1, the second surface is a surface 2; when the first surface is surface 2, the second surface is surface 1; the surface 1 can facilitate the user to execute horizontal touch operation, and the surface 2 can facilitate the user to execute vertical touch operation, so that the device adapts to the physiological structure of a human body.

The following takes the first surface as a surface 1 and the second surface as a surface 2 as an example, and the first operation and the second operation are both touch operations of a user on a touch area of the corresponding surface as an example, so as to further describe the embodiment.

When the first surface is the surface 1, that is, the first sensing module is disposed below the surface 1, the touch operation of the thumb of the user on the touch area 1 (the dashed-line frame part in fig. 1) is acquired, the touch operation is the first operation, since the lateral touch to the touch area 1 is facilitated using the thumb, the first predetermined direction is a lateral direction of the touch area 1, considering that there may be a slight deviation in the touch operation of the user's thumb, therefore, the included angle between the operation direction of the first operation and the first predetermined direction needs to be calculated, and when the calculated included angle is within the preset first threshold range, confirming that the first operation is a valid transverse touch operation, generating a first control signal by the mouse based on the first operation, sending the first control signal to the smart television, for example, the first control signal is a channel switching signal, and when the smart television receives the channel switching signal, the smart television switches to a new channel; when the calculated included angle is not in the first threshold range, confirming that the first operation is invalid operation and not responding to the first operation; wherein, the first threshold value range is flexibly set according to practical application conditions, and preferably can be set to [ -30 degrees, 30 degrees ].

When the second surface is the surface 2, that is, the second sensing module is disposed below the surface 2, a touch operation of the index finger of the user on the touch area 2 (an area on the surface 2 opposite to the dashed-line frame in fig. 1) is obtained, the touch operation is the second operation, because the index finger is used to facilitate vertical touch on the touch area 2, the second predetermined direction is the vertical direction of the touch area 2, considering that there may be some deviation in the touch operation of the index finger of the user, an included angle between the operation direction of the second operation and the second predetermined direction needs to be calculated, when the calculated included angle is within a preset second threshold range, it is determined that the second operation is an effective vertical touch operation, the mouse generates a second control signal based on the second operation and sends the second control signal to the smart television, for example, the second control signal is a downward-sliding web page signal, and when the smart television receives the signal, sliding the currently displayed webpage downwards; when the calculated included angle is not in the second threshold range, confirming that the second operation is invalid operation and not responding to the second operation; wherein, the second threshold value range is flexibly set according to practical application conditions, and can be preferably set to [ -30 degrees, 30 degrees ].

In the above scheme, there is a precedence order between the first operation obtained through the first sensing module and the second operation obtained through the second sensing module. The following describes in detail a processing situation when the electronic device simultaneously acquires the first operation and the second operation.

In a preset first time, when a first operation is obtained through a first sensing module and a second operation is obtained through a second sensing module, extracting a first attribute of the first operation, wherein the first attribute at least comprises an operation direction of the first operation in a first preset direction and a first distance between the first operation and a first preset position; extracting a second attribute of a second operation, wherein the second attribute at least comprises an operation direction of the second operation in a second preset direction and a second distance between the second operation and a second preset position; generating a third operation according to the first attribute and the second attribute; in response to a third operation, a third control signal is generated.

Wherein generating a third operation according to the first attribute and the second attribute, and generating a third control signal in response to the third operation, comprises: determining the extracted first attribute as a first vector; determining the extracted second attribute as a second vector; synthesizing the first vector and the second vector to obtain a first synthesis result; generating a third control signal when the first composite result is within a third threshold range.

That is, in a first time, a first operation is acquired and a second operation is acquired at the same time, and the operation direction of the first operation on the touch area 1 and a first distance between the first operation and a first predetermined position are extracted, that is, the size and direction (first vector) generated by the first operation on the surface 1 are determined; extracting the operation direction of the second operation on the touch area 2 and the second distance between the operation direction and the second predetermined position, that is, determining the size and direction (second vector) generated by the second operation on the surface 2; and when the magnitude and the direction of the synthesized vector are both within a third threshold range, determining that the operation corresponding to the synthesized vector is a valid operation different from the first operation and the second operation, generating a third operation, and generating a third control signal based on the third operation. The first predetermined position may be a center point position of the touch area 1, and the second predetermined position may be a center point position of the touch area 2.

When the electronic equipment acquires a first operation and a second operation simultaneously, the first attribute further comprises a first speed generated by the first operation in the first preset direction; the second attribute further comprises a second velocity resulting from the second operation in the second predetermined direction; synthesizing the first speed and the second speed to obtain a second synthesis result; when the second synthesis result is within a fourth threshold range, a third control signal is generated.

That is, when the first operation is acquired and the second operation is acquired at the same time in the first time, a first speed of the first operation in the lateral direction of the touch area 1 may be extracted, a second speed of the second operation in the vertical direction of the touch area 2 may be extracted, the two speeds may be combined, when the combined speed is within a fourth threshold range, it is determined that the operation corresponding to the combined speed is an effective operation different from the first operation and the second operation, that is, a third operation may be generated, and a third control signal may be generated based on the third operation.

In the above scheme, the third control signal is a signal different from the second control signal and the first control signal, for example, the third control signal may be a signal for turning off or turning on the smart television, the second control signal may be a signal for sliding a currently displayed web page of the smart television, and the first control signal may be a signal for switching a channel.

Therefore, in the embodiment of the invention, the first sensing module is arranged on the first surface of the electronic device, and the second sensing module is arranged on the second surface, so that the first surface can facilitate the transverse touch of the thumb of the user and the vertical touch of the index finger of the user, and the physiological structure of the human body and the operation habit of the human body are adapted; when the included angle between the operation direction of the corresponding operation acquired by each induction module and the corresponding preset direction is calculated to be within the corresponding threshold range, responding to the operation and generating a corresponding control signal; when the operation is not within the corresponding threshold value range, the operation is not responded; according to the touch operation of the user, only the touch operation meeting the corresponding requirements is responded, the effective touch operation can be quickly detected, and the use experience of the user is improved.

Method embodiment one

The first embodiment of the information processing method provided by the invention is applied to first electronic equipment, and the first electronic equipment communicates with second electronic equipment in a wireless mode; the first surface of the first electronic device is provided with a first sensing module, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic device.

Fig. 1 is a schematic diagram of a first electronic device provided in this embodiment; with reference to fig. 1, taking the first electronic device as a bluetooth remote control device (nude mouse) and the second electronic device as an intelligent electronic device as an example, the first surface is a surface on the nude mouse that is convenient for a user to operate, the first surface may be a surface 1 on which a dotted frame portion in fig. 1 is located, and the surface 1 is convenient for the user to perform a touch operation with a thumb; the first surface can also be a plane opposite to the surface with the dotted frame part, namely the surface 2, and the user can conveniently perform touch operation by using an index finger on the surface 2; the first sensing module can be a touch pad, and when the first surface is the surface 1, the touch pad is arranged below the position shown by the dotted line frame; when the first surface is the surface 2, the touch pad is arranged below the position, opposite to the dotted line frame, on the surface 2; the mouse obtains the operation of the user through the touch pad to generate a control signal so as to execute the operation on the intelligent television.

FIG. 2 is a schematic flow chart illustrating an implementation of a first embodiment of an information processing method according to the present invention; as shown in fig. 2, the method includes:

step 201: acquiring a first operation through the first sensing module;

here, the first operation is a touch operation of the user on the touch area, and further, when the first sensing module is disposed below the surface 1, the touch operation of the thumb of the user on the touch area 1 (a dashed-line frame part in fig. 1) is acquired; when the first sensing module is disposed below the surface 2, a touch operation of the index finger of the user on the touch area 2 (an area on the surface 2 opposite to the dashed box in fig. 1) is acquired.

Step 202: acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation;

here, the operation direction of the touch operation is acquired.

Step 203: when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation and generating a first control signal; and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded.

Taking the first surface as the surface 1 as an example, when the obtained first operation is a touch operation of a user on the surface 1 by using a thumb, because the user can conveniently perform a lateral touch operation on the touch area 1 by using the thumb, the first predetermined direction is the lateral direction of the touch area 1, considering that the touch operation of the user thumb may have a slight deviation, an included angle between the operation direction of the first operation and the first predetermined direction needs to be calculated, when the calculated included angle is within a preset first threshold range, it is determined that the first operation is an effective lateral touch operation, the mouse generates a first control signal based on the first operation and sends the first control signal to the smart television, for example, the first control signal is a channel switching signal, and the smart television receives the signal and switches to a new channel; when the calculated included angle is not in the first threshold range, confirming that the first operation is invalid operation and not responding to the first operation; wherein, the first threshold value range is flexibly set according to practical application conditions, and preferably can be set to [ -30 degrees, 30 degrees ].

When the first surface is the surface 2, the first operation is a touch operation of the user using an index finger on the touch area 2, the first predetermined direction is a vertical direction of the touch area 2, and other descriptions are similar to the above description and are not repeated.

Therefore, in the embodiment of the invention, the first sensing module is arranged on the first surface of the electronic device, and the first surface can facilitate the transverse touch of the thumb or the vertical touch of the index finger of a user, so that the physiological structure of a human body is adapted and the operation habit of the human body is met; when the included angle between the operation direction of the first operation acquired by the first sensing module and the first preset direction is calculated to be within a first threshold range, responding to the first operation and generating a first control signal; when the first operation is not within the first threshold range, the first operation is not responded; according to the touch operation of the user, only the touch operation meeting the requirements is responded, the effective touch operation can be quickly detected, and the use experience of the user is improved.

Method embodiment two

The first embodiment of the information processing method provided by the invention is applied to first electronic equipment, and the first electronic equipment communicates with second electronic equipment in a wireless mode; the first surface of the first electronic device is provided with a first sensing module, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic device.

Fig. 1 is a schematic diagram of a first electronic device provided in this embodiment; with reference to fig. 1, taking the first electronic device as an infrared remote control device (nude mouse) and the second electronic device as an intelligent electronic device as an example, the first surface is a surface on the nude mouse which is convenient for a user to operate, the first surface may be a surface 1 on which a dotted frame portion in fig. 1 is located, and the surface 1 is convenient for the user to perform a touch operation with a thumb; the first surface can also be a plane opposite to the surface with the dotted frame part, namely the surface 2, and the user can conveniently perform touch operation by using an index finger on the surface 2; the first sensing module can be a touch pad, and when the first surface is the surface 1, the touch pad is arranged below the position shown by the dotted line frame; when the first surface is the surface 2, the touch pad is arranged below the position, opposite to the dotted line frame, on the surface 2; the mouse obtains the operation of the user through the touch pad to generate a control signal so as to execute the operation on the intelligent television.

FIG. 3 is a flowchart illustrating an implementation of a second embodiment of an information processing method according to the present invention; as shown in fig. 3, the method includes:

step 301: acquiring a first operation through the first sensing module;

step 302: acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation;

here, the operation direction of the touch operation is acquired.

Step 303: when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation and generating a first control signal; and when the included angle between the operation direction of the first operation and the first preset direction is judged not to be in the first threshold range, the first operation is not responded.

Preferably, a second sensing module is disposed on a second surface of the first electronic device, and the first surface is different from the second surface; acquiring a second operation through the second sensing module; acquiring the operation direction of a second operation; when the included angle between the operation direction of the second operation and the second preset direction is judged to be in a second threshold range, responding to the second operation and generating a second control signal; when the included angle between the operation direction of the second operation and the second preset direction is judged not to be within a second threshold value range, the second operation is not responded; the included angle between the first preset direction and the second preset direction is larger than a first preset angle, the first preset angle can be 80 degrees, and the first preset angle can be flexibly set according to the practical application condition.

Specifically, touch pads are arranged on two surfaces of the electronic device simultaneously, and when the first surface is a surface 1, the second surface is a surface 2; when the first surface is surface 2, the second surface is surface 1; the surface 1 can facilitate the user to execute horizontal touch operation, and the surface 2 can facilitate the user to execute vertical touch operation, so that the device adapts to the physiological structure of a human body.

The following takes the first surface as a surface 1 and the second surface as a surface 2 as an example, and the first operation and the second operation are both touch operations of a user on a touch area of the corresponding surface as an example, so as to further describe the embodiment.

When the first surface is the surface 1, that is, the first sensing module is disposed below the surface 1, the touch operation of the thumb of the user on the touch area 1 (the dashed-line frame part in fig. 1) is acquired, the touch operation is the first operation, since the lateral touch to the touch area 1 is facilitated using the thumb, the first predetermined direction is a lateral direction of the touch area 1, considering that there may be a slight deviation in the touch operation of the user's thumb, therefore, the included angle between the operation direction of the first operation and the first predetermined direction needs to be calculated, and when the calculated included angle is within the preset first threshold range, confirming that the first operation is a valid transverse touch operation, generating a first control signal by the mouse based on the first operation, sending the first control signal to the smart television, for example, the first control signal is a channel switching signal, and when the smart television receives the channel switching signal, the smart television switches to a new channel; when the calculated included angle is not in the first threshold range, confirming that the first operation is invalid operation and not responding to the first operation; wherein, the first threshold value range is flexibly set according to practical application conditions, and preferably can be set to [ -30 degrees, 30 degrees ].

When the second surface is the surface 2, that is, the second sensing module is disposed below the surface 2, a touch operation of the index finger of the user on the touch area 2 (an area on the surface 2 opposite to the dashed-line frame in fig. 1) is obtained, the touch operation is the second operation, because the index finger is used to facilitate vertical touch on the touch area 2, the second predetermined direction is the vertical direction of the touch area 2, considering that there may be some deviation in the touch operation of the index finger of the user, an included angle between the operation direction of the second operation and the second predetermined direction needs to be calculated, when the calculated included angle is within a preset second threshold range, it is determined that the second operation is an effective vertical touch operation, the mouse generates a second control signal based on the second operation and sends the second control signal to the smart television, for example, the second control signal is a signal of a downward-sliding web page, and the smart television receives the signal, sliding the currently displayed webpage downwards; when the calculated included angle is not in the second threshold range, confirming that the second operation is invalid operation and not responding to the second operation; wherein, the second threshold value range is flexibly set according to practical application conditions, and can be preferably set to [ -30 degrees, 30 degrees ].

In the above scheme, there is a precedence order between the first operation obtained through the first sensing module and the second operation obtained through the second sensing module. The following describes in detail a processing method for acquiring the first operation and the second operation by the electronic device at the same time.

In a preset first time, when a first operation is obtained through a first sensing module and a second operation is obtained through a second sensing module, extracting a first attribute of the first operation, wherein the first attribute at least comprises an operation direction of the first operation in a first preset direction and a first distance between the first operation and a first preset position; extracting a second attribute of a second operation, wherein the second attribute at least comprises an operation direction of the second operation in a second preset direction and a second distance between the second operation and a second preset position; generating a third operation according to the first attribute and the second attribute; in response to a third operation, a third control signal is generated.

Wherein generating a third operation according to the first attribute and the second attribute, and generating a third control signal in response to the third operation, comprises: determining the extracted first attribute as a first vector; determining the extracted second attribute as a second vector; synthesizing the first vector and the second vector to obtain a first synthesis result; generating a third control signal when the first composite result is within a third threshold range.

That is, in a first time, a first operation is acquired and a second operation is acquired at the same time, and the operation direction of the first operation on the touch area 1 and a first distance between the first operation and a first predetermined position are extracted, that is, the size and direction (first vector) generated by the first operation on the surface 1 are determined; extracting the operation direction of the second operation on the touch area 2 and the second distance between the operation direction and the second predetermined position, that is, determining the size and direction (second vector) generated by the second operation on the surface 2; and when the magnitude and the direction of the synthesized vector are both within a third threshold range, determining that the operation corresponding to the synthesized vector is a valid operation different from the first operation and the second operation, generating a third operation, and generating a third control signal based on the third operation. The first predetermined position may be a center point position of the touch area 1, and the second predetermined position may be a center point position of the touch area 2.

When the electronic device simultaneously acquires the first operation and the second operation, the method further comprises the following steps: the first attribute further comprises a first velocity resulting from the first operation in the first predetermined direction; the second attribute further comprises a second velocity resulting from the second operation in the second predetermined direction; synthesizing the first speed and the second speed to obtain a second synthesis result; when the second synthesis result is within a fourth threshold range, a third control signal is generated.

That is, when the first operation is acquired and the second operation is acquired at the same time in the first time, a first speed of the first operation in the lateral direction of the touch area 1 may be extracted, a second speed of the second operation in the vertical direction of the touch area 2 may be extracted, the two speeds may be combined, when the combined speed is within a fourth threshold range, it is determined that the operation corresponding to the combined speed is an effective operation different from the first operation and the second operation, that is, a third operation may be generated, and a third control signal may be generated based on the third operation.

In the above scheme, the third control signal is a signal different from the second control signal and the first control signal, for example, the third control signal may be a signal for turning off or turning on the smart television, the second control signal may be a signal for sliding a currently displayed web page of the smart television, and the first control signal may be a signal for switching a channel.

Therefore, in the embodiment of the invention, the first sensing module is arranged on the first surface of the electronic device, and the second sensing module is arranged on the second surface, so that the first surface can facilitate the transverse touch of the thumb of the user and the vertical touch of the index finger of the user, and the physiological structure of the human body and the operation habit of the human body are adapted; when the included angle between the operation direction of the corresponding operation acquired by each induction module and the corresponding preset direction is calculated to be within the corresponding threshold range, responding to the operation and generating a corresponding control signal; when the operation is not within the corresponding threshold value range, the operation is not responded; according to the touch operation of the user, only the touch operation meeting the corresponding requirements is responded, the effective touch operation can be quickly detected, and the use experience of the user is improved.

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 unit, or each unit may be separately regarded 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: various media that can store program codes, such as a removable Memory device, a Read-Only Memory (ROM), a magnetic disk, or an optical disk.

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 (8)

1. An information processing method is applied to first electronic equipment, and the first electronic equipment communicates with second electronic equipment in a wireless mode; a first sensing module is arranged on a first surface of the first electronic device, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic device; the method further comprises the following steps:

acquiring a first operation through the first sensing module;

acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation;

when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation to generate a first control signal:

when the included angle between the operation direction of the first operation and the first preset direction is judged not to be within the first threshold value range, the first operation is not responded;

arranging a second sensing module on a second surface of the first electronic device, wherein the first surface and the second surface are different opposite surfaces;

acquiring a second operation through the second sensing module;

acquiring the operation direction of a second operation;

when the included angle between the operation direction of the second operation and the second preset direction is judged to be in a second threshold range, responding to the second operation and generating a second control signal;

when the included angle between the operation direction of the second operation and the second preset direction is judged not to be within a second threshold value range, the second operation is not responded;

wherein, the included angle between the first preset direction and the second preset direction is larger than a first preset angle.

2. The method of claim 1, further comprising:

when the first operation is obtained through the first induction module and the second operation is obtained through the second induction module within the preset first time,

extracting first attributes of a first operation, wherein the first attributes at least comprise an operation direction of the first operation in a first preset direction and a first distance between the first operation and a first preset position;

extracting a second attribute of a second operation, wherein the second attribute at least comprises an operation direction of the second operation in a second preset direction and a second distance between the second operation and a second preset position;

generating a third operation according to the first attribute and the second attribute;

in response to a third operation, a third control signal is generated.

3. The method of claim 2, further comprising:

determining the extracted first attribute as a first vector;

determining the extracted second attribute as a second vector;

synthesizing the first vector and the second vector to obtain a first synthesis result;

generating a third control signal when the first composite result is within a third threshold range.

4. The method of claim 2 or 3, wherein the first attribute further comprises a first velocity resulting from the first operation in the first predetermined direction;

the second attribute further comprises a second velocity resulting from the second operation in the second predetermined direction;

synthesizing the first speed and the second speed to obtain a second synthesis result;

when the second synthesis result is within a fourth threshold range, a third control signal is generated.

5. An electronic device that communicates wirelessly with a second electronic device; a first sensing module is arranged on a first surface of the electronic equipment, and the first sensing module can sense the operation of a user to generate a corresponding control signal so as to control the second electronic equipment; wherein,

the electronic equipment acquires a first operation through the first induction module;

acquiring an operation attribute of a first operation, wherein the operation attribute at least comprises an operation direction of the first operation;

when the included angle between the operation direction of the first operation and the first preset direction is judged to be within a first threshold range, responding to the first operation and generating a first control signal;

when the included angle between the operation direction of the first operation and the first preset direction is judged not to be within the first threshold value range, the first operation is not responded;

arranging a second sensing module on a second surface of the electronic device, wherein the first surface and the second surface are different opposite surfaces;

acquiring a second operation through the second sensing module;

acquiring the operation direction of a second operation;

when the included angle between the operation direction of the second operation and the second preset direction is judged to be within a second threshold value range, responding to the second operation and generating a second control signal;

when the included angle between the operation direction of the second operation and the second preset direction is judged not to be within a second threshold value range, the second operation is not responded;

wherein, the included angle between the first preset direction and the second preset direction is larger than a first preset angle.

6. The electronic device of claim 5,

when the first operation is obtained through the first induction module and the second operation is obtained through the second induction module within the preset first time,

extracting a first attribute of a first operation, wherein the first attribute at least comprises an operation direction of the first operation in a first preset direction and a first distance between the first attribute and a first preset position;

extracting a second attribute of a second operation, wherein the second attribute at least comprises an operation direction of the second operation in a second preset direction and a second distance between the second operation and a second preset position;

generating a third operation according to the first attribute and the second attribute;

in response to a third operation, a third control signal is generated.

7. The electronic device of claim 6,

determining the extracted first attribute as a first vector;

determining the extracted second attribute as a second vector;

synthesizing the first vector and the second vector to obtain a first synthesis result;

generating a third control signal when the first composite result is within a third threshold range.

8. The electronic device of claim 6 or 7,

the first attribute further comprises a first velocity resulting from the first operation in the first predetermined direction;

the second attribute further comprises a second velocity resulting from the second operation in the second predetermined direction;

synthesizing the first speed and the second speed to obtain a second synthesis result;

when the second synthesis result is within a fourth threshold range, a third control signal is generated.