CN107908345B - Response method and electronic equipment - Google Patents

Abstract

The invention discloses a response method for reducing the rate of false response. The method comprises the following steps: at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position corresponding to the first operation and a first plane where the display unit is located is greater than 0; judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is larger than 0; and responding to the first operation when the judgment is determined to be negative. The invention also discloses electronic equipment for realizing the method.

Description

Response method and electronic equipment

The application has the application date of 2013, 2 and 26 months, and has the application numbers of: 201310060426.1, title of the invention: a response method and a divisional application of an electronic device are provided.

Technical Field

The present invention relates to the field of computers and embedded devices, and in particular, to a response method and an electronic device.

Background

With the continuous development of science and technology, electronic technology has also gained rapid development, and the variety of electronic products is also more and more, and people also enjoy various conveniences brought by the development of science and technology. People can enjoy comfortable life brought along with the development of science and technology through various types of electronic equipment. For example, electronic devices such as mobile phones and smart televisions have become an indispensable part of people's life, and people obtain more experiences through electronic devices such as computers.

In addition, 3D (three-dimensional) technology is rapidly developed at present, and a virtual icon displayed in 3D can also be used as a button for display identification operation. In such a scenario, the display position of the virtual icon in the space is generally set right in front of a person, and when the user operates an icon in the electronic device, the hand may continue to move after the user has operated one icon. Especially, if the user performs space operation, namely, operates the icons in space, after the operation is completed, the hand may be naturally put down, and other icons may be touched by mistake in the putting down process to form misoperation, and the electronic device may continue to respond, so that the electronic device may respond incorrectly, the burden of the electronic device is increased, and trouble is brought to the user.

Disclosure of Invention

The embodiment of the invention provides a response method and electronic equipment, which are used for solving the technical problem of high false response rate of the electronic equipment in the prior art and achieving the technical effect of reducing the false response rate.

A response method applied to an electronic device having a display unit, wherein M operation objects are displayed in the display unit, the electronic device has a detection area, the detection area includes M effective operation areas, wherein the M effective operation areas are in one-to-one correspondence with the M operation objects, and M is a positive integer, the method includes the following steps:

at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position corresponding to the first operation and a first plane where the display unit is located is greater than 0;

judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is larger than 0;

and responding to the first operation when the judgment is determined to be negative.

Preferably, the second display interface of the second function corresponding to the second operation object at least includes the first operation object.

Preferably, at least three cross sections correspond to the effective area corresponding to at least one of the M operation objects, wherein a distance between a first cross section and a first plane where the display unit is located is a third distance, a distance between a second cross section and the first plane is a fourth distance, a distance between a third cross section and the first plane is a fifth distance, the third distance is smaller than the fourth distance, and the fourth distance is smaller than the fifth distance; a first area corresponding to the first section is larger than a second area corresponding to the second section, the first area is larger than a third area corresponding to the third section, and the second area is not smaller than the third area; wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

Preferably, a cross section corresponding to the effective area corresponding to at least one of the M operation objects is parallel to the first plane.

Preferably, after determining whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, the method further includes: and when the judgment is determined to be yes, inhibiting the response to the first operation.

Preferably, the display unit displays the M operation objects in a three-dimensional effect, so that a user perceives that a first display position where the first operation object of the M operation objects is located is not located in the first plane.

Preferably, the first operation position coincides with the first display position, or a distance between the first operation position and the first display position is not greater than a preset distance.

Preferably, the step of obtaining a first operation of an operation body for a first operation object in the M operation objects includes: obtaining the first operation of the operation body for the first operation position.

Preferably, a distance between the first plane where the display unit is located and the user is a sixth distance, a distance between the second plane where the first display position is located and the user is a seventh distance, the sixth distance is greater than the seventh distance, and the first plane is parallel to the second plane.

An electronic device, the electronic device having a display unit, wherein M operation objects are displayed in the display unit, the electronic device having a detection area, the detection area including M effective operation areas, wherein the M effective operation areas and the M operation objects are in one-to-one correspondence, and M is a positive integer, the electronic device comprising:

the acquisition module is used for acquiring a first operation of an operation body aiming at a first effective operation area corresponding to a first operation object in the M operation objects at a first moment, wherein a first distance between a first operation position aimed at by the first operation and a first plane where the display unit is located is larger than 0;

a determining module, configured to determine whether a second operation of the operation body on a second operation object of the M operation objects is obtained at a second time before the first time, where the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position targeted by the second operation and the first plane is greater than 0;

and the response module is used for responding to the first operation when the judgment and the determination are negative.

The response method in the embodiment of the present invention may be applied to an electronic device having a display unit, where M operation objects may be displayed in the display unit, the electronic device may have a detection area, and the detection area may include M effective operation areas, where the M effective operation areas and the M operation objects may be in one-to-one correspondence, and M is a positive integer, and the method may include: at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position corresponding to the first operation and a first plane where the display unit is located is greater than 0; judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is larger than 0; and responding to the first operation when the judgment is determined to be negative.

In the embodiment of the present invention, when the first operation is obtained, it is first determined whether the second operation exists before, and if the second operation is performed before, the response to the first operation may be prohibited. For example, after the second operation is completed, the hand of the user may be naturally put down, and the hand of the user may not leave the detection area during the natural putting down process, and the first effective area corresponding to the first operation object may be touched during the natural putting down process of the hand, which is equivalent to that the user has performed the first operation again, in this case, the electronic device may first determine that: on the premise that the hand of the user does not leave the detection area, whether the second operation is performed before the first operation or not is judged, and if the second operation is judged to be performed, the electronic device can prohibit the response to the first operation, because if the user performs the second operation, the first operation performed again in the process of naturally placing the hand is likely to be a wrong operation, and at the moment, if the electronic device performs the response, the normal use of the user is influenced, the user may be required to perform the operation again, and for the electronic device, unnecessary workload is increased, the wrong response is performed, and the user is inconvenient. By adopting the response method in the embodiment of the invention, the unnecessary workload of the electronic equipment can be obviously reduced, the burden of the electronic equipment is reduced, the false response rate of the electronic equipment is reduced, the user requirement can be met as much as possible, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a main flow chart of a response method in an embodiment of the present invention;

fig. 2 is a detailed structural diagram of an electronic device in an embodiment of the present invention.

Detailed Description

The response method in the embodiment of the present invention may be applied to an electronic device having a display unit, where M operation objects may be displayed in the display unit, the electronic device may have a detection area, and the detection area may include M effective operation areas, where the M effective operation areas and the M operation objects may be in one-to-one correspondence, and M is a positive integer, and the method may include: at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position corresponding to the first operation and a first plane where the display unit is located is greater than 0; judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is larger than 0; and responding to the first operation when the judgment is determined to be negative.

In the embodiment of the present invention, when the first operation is obtained, it is first determined whether the second operation exists before, and if the second operation is performed before, the response to the first operation may be prohibited. For example, after the second operation is completed, the hand of the user may be naturally put down, and the hand of the user may not leave the detection area during the natural putting down process, and the first effective area corresponding to the first operation object may be touched during the natural putting down process of the hand, which is equivalent to that the user has performed the first operation again, in this case, the electronic device may first determine that: on the premise that the hand of the user does not leave the detection area, whether the second operation is performed before the first operation or not is judged, and if the second operation is judged to be performed, the electronic device can prohibit the response to the first operation, because if the user performs the second operation, the first operation performed again in the process of naturally placing the hand is likely to be a wrong operation, and at the moment, if the electronic device performs the response, the normal use of the user is influenced, the user may be required to perform the operation again, and for the electronic device, unnecessary workload is increased, the wrong response is performed, and the user is inconvenient. By adopting the response method in the embodiment of the invention, the unnecessary workload of the electronic equipment can be obviously reduced, the burden of the electronic equipment is reduced, the false response rate of the electronic equipment is reduced, the user requirement can be met as much as possible, and the user experience is improved.

Referring to fig. 1, an embodiment of the present invention provides a response method, which may be applied to an electronic device having a display unit, where M operation objects may be displayed in the display unit, the electronic device may have a detection area, and the detection area may include M effective operation areas, where the M effective operation areas and the M operation objects may be in one-to-one correspondence, and M is a positive integer. The method mainly comprises the following steps:

step 101: at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position aimed at by the first operation and a first plane where the display unit is located is larger than 0.

In the embodiment of the present invention, the electronic device may be different electronic devices such as a PC (personal computer), a PAD (tablet computer), and a smart television. The display unit may be a display screen in the electronic device.

The detection area of the display unit may include not only a flat display area of the display unit but also a spatial area located within a certain range in front of the display unit. The display unit may be a flat display or may display an image in a three-dimensional form. If the display is made in three dimensions, it is possible for the user to see images that are in space.

In this embodiment of the present invention, the M operation objects may be displayed in the display unit, for example, the operation object may be an icon object or may also be an object of another type. Each of the M operation objects may correspond to an effective operation region, that is, the M operation objects may correspond to M effective operation regions in total, and the M operation objects and the M operation regions are in a one-to-one correspondence relationship.

In the embodiment of the present invention, the operation body may be one hand of the user, or may be another type of operation body, for example, the user may operate with an external device, and in this case, the external device may also be the operation body.

At the first moment, the user may operate the electronic device with the operation body. For example, a user may operate the first operation object, and when the user operates the first operation object, to enable the operation, the user needs to operate the first effective operation area corresponding to the first operation object. Therefore, at the first time, the electronic device may obtain the first operation performed by the operation body with respect to the first effective area. In this embodiment of the present invention, the first operation may be a spatial operation, that is, when the first operation is performed, the first operation position targeted by the operation body is not located on the first plane where the display unit is located, in this embodiment of the present invention, a distance between the first operation position targeted by the first operation and the first plane may be greater than 0, that is, when the user performs the first operation, the spatial operation is performed.

Preferably, in an embodiment of the present invention, the display unit may display the M operation objects in a three-dimensional effect, so that a user may perceive that a first display position where the first operation object in the M operation objects is located is not located in the first plane.

Preferably, in the embodiment of the present invention, the obtaining of the first operation of the operation body for the first effective operation area corresponding to the first operation object in the M operation objects may specifically be obtaining of the first operation of the operation body for the first operation position.

In this embodiment of the present invention, the first operation position may coincide with the first display position, or a distance between the first operation position and the first display position may not be greater than a preset distance.

In this embodiment of the present invention, a distance between the first plane where the display unit is located and the user may be a sixth distance, a distance between the second plane where the first display position is located and the user may be a seventh distance, and the sixth distance may be greater than the seventh distance, that is, the first display position corresponding to the first operation object may be located between the display unit and the user. And, the first plane may be parallel to the second plane.

Preferably, in an embodiment of the present invention, the effective area corresponding to at least one of the M operation objects has at least three sections, which are a first section, a second section and a third section, respectively, where a distance between the first section and the first plane where the display unit is located may be a third distance, a distance between the second section and the first plane may be a fourth distance, a distance between the third section and the first plane may be a fifth distance, the third distance may be smaller than the fourth distance, and the fourth distance may be smaller than the fifth distance.

The area corresponding to the first cross section may be a first area, the area corresponding to the second cross section may be a second area, and the area corresponding to the third cross section may be a third area, wherein the first area may be larger than the second area, the first area may be larger than the third area, and the second area may be not smaller than the third area. Wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

In the prior art, the space effective area of the icon is basically a columnar area, and the hands of a user can easily touch the effective areas of other icons in the natural placing process. In the embodiment of the invention, the effective area is set to be in the space shape, so that the hands of the user cannot easily touch the effective areas corresponding to other icons even in the natural putting process, and the false response rate of the electronic equipment is further reduced.

Optionally, the effective area corresponding to at least one of the M operands may be a cone area, and a bottom surface of the cone may be located on the first plane. For example, the first effective operation region corresponding to the first operation object in the M operation objects may be a cone region, the first effective operation region may correspond to at least three sections, which are the first section, the second section and the third section, respectively, and at this time, the first area may be larger than the second area, the first area may be larger than the third area, and the second area may be larger than the third area.

Optionally, the effective region corresponding to at least one of the M operation objects may be visually regarded as a "convex" shape space region, and a lower bottom surface of the "convex" shape space region may be located on the first plane, where an area of the lower bottom surface of the "convex" shape space region is larger than an area of an upper bottom surface of the "convex" shape space region. For example, the first effective operation region corresponding to the first operation object in the M operation objects may be a space region in a shape of a Chinese character 'tu', and the first effective operation region may correspond to at least three cross sections, which are the first cross section, the second cross section and the third cross section. At this time, the first area may be greater than the second area, the first area may be greater than the third area, and the second area may be equal to the third area.

Preferably, in an embodiment of the present invention, an effective area corresponding to at least one of the M operation objects may correspond to at least one cross section, and a maximum distance between two points on an ith cross section in the at least one cross section may be smaller than an effective displacement in the effective area.

Preferably, in the embodiment of the present invention, an effective displacement may be preset for an effective area, and when an operation is performed on the effective area, if a displacement corresponding to the operation in the effective area is smaller than the effective displacement, a response to the operation may be prohibited, where i is a positive integer. That is, to operate the effective area, the operation body inevitably has a certain displacement in the effective area, and if the displacement corresponding to the operation is smaller than the effective displacement when the operation body operates the effective area, the electronic device may prohibit the operation from being responded, and only if the displacement corresponding to the operation is not smaller than the effective displacement, the electronic device may respond to the operation.

In the embodiment of the invention, the effective displacement is set for the effective area, and the maximum distance between two points in the cross section corresponding to the effective area is smaller than the effective displacement, so that even if the hand of a user touches the effective areas of other icons in the natural release process, the electronic equipment is forbidden to respond to the operation because the displacement of the hand of the user in the effective areas of other icons does not reach the effective displacement, the false response rate of the electronic equipment is further reduced, and the intelligence degree of the electronic equipment is improved.

For example, the first effective operation region corresponding to the first operation object in the M operation objects may correspond to the at least one cross section, and for example, the first effective region may be a space region in a shape of a "convex". The maximum distance between two points on the i-th cross-section in the "convex" shaped spatial region may be smaller than the effective displacement in the first effective region. In this way, even if the hand of the user accidentally slides through the first effective area, the hand of the user may slide through one section in the first effective area, for example, the ith section, and the maximum distance between two points on the ith section is specified to be smaller than the effective displacement in the first effective area, so that the electronic device does not respond to the operation of the user, and the false response rate of the electronic device is reduced.

For example, the first effective operation region corresponding to the first operation object in the M operation objects may correspond to the at least one cross section, and for example, the first effective region may be a cone region. The maximum distance between two points on the ith cross-section in the conical volume region may be smaller than the effective displacement in the first effective region. In this way, even if the hand of the user accidentally slides through the first effective area, the hand of the user may slide through one section in the first effective area, for example, the ith section, and the maximum distance between two points on the ith section is specified to be smaller than the effective displacement in the first effective area, so that the electronic device does not respond to the operation of the user, and the false response rate of the electronic device is reduced.

Preferably, in the embodiment of the present invention, no matter that the effective area corresponding to at least one of the M operation objects corresponds to the at least one cross section or the at least three cross sections, the cross section corresponding to the effective area may be parallel to the first plane.

Step 102: and judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is greater than 0.

After obtaining the first operation, the electronic device may first determine whether the second operation performed by the operation body on the second operation object of the M operation objects is obtained at a second time before the first time, where the operation body and the detection area need to be kept in contact all the time between the first time and the second time, that is, the operation body needs not to leave the detection area all the time between the first time and the second time. In the embodiment of the present invention, the position targeted by the second operation is the second operation position, the second operation position may not be located in the first plane, and the second distance between the second operation position and the first plane may be greater than 0. I.e. the second operation may also be a spatial operation.

Preferably, in an embodiment of the present invention, the display unit may display the M operation objects in a three-dimensional effect, so that a user may perceive that a second display position where the second operation object of the M operation objects is located is not located in the first plane.

Preferably, in the embodiment of the present invention, it is determined whether to obtain the second operation of the operation body on the second effective operation area corresponding to a second operation object in the M operation objects, specifically, it may be determined whether to obtain the second operation of the operation body on the second operation position.

In this embodiment of the present invention, the second operation position may coincide with the second display position, or a distance between the second operation position and the second display position may not be greater than the preset distance.

In the embodiment of the present invention, since it is likely that the second operation is obtained first before the first operation is obtained, it may be specified that at least the first operation object may be included in the second display interface of the second function corresponding to the second operation object, so that it is ensured that the first operation can be performed again even if the second operation is performed before.

Step 103: and responding to the first operation when the judgment is determined to be negative.

If it is determined that the second operation is not obtained at the second time, it may be indicated that the first operation is a first operation of the user in the current contact process with the detection area, and the first operation is likely to be an operation that the user wants to perform, and the electronic device may respond to the first operation.

Preferably, in the embodiment of the present invention, an effective displacement may be preset for an effective area, and when an operation is performed on the effective area, if a displacement corresponding to the operation in the effective area is smaller than the effective displacement, a response to the operation may be prohibited, where i is a positive integer. That is, to operate the effective area, the operation body inevitably has a certain displacement in the effective area, and if the displacement corresponding to the operation is smaller than the effective displacement when the operation body operates the effective area, the electronic device may prohibit the operation from being responded, and only if the displacement corresponding to the operation is not smaller than the effective displacement, the electronic device may respond to the operation.

Therefore, in the embodiment of the present invention, a first effective displacement may be preset for the first effective region. If it is determined that the second operation is not obtained at the second time, it may be continuously determined whether the displacement of the operation body in the first effective area is not less than the first effective displacement corresponding to the first operation object. And if the judgment result shows that the displacement of the operating body in the first effective area is not smaller than the first effective displacement, responding to the first operation can be carried out, and if the judgment result shows that the displacement of the operating body in the first effective area is smaller than the first effective displacement, continuing to inhibit responding to the first operation.

In the embodiment of the present invention, if it is determined that the second operation is obtained at the second time, the response to the first operation may be prohibited.

The response method of the present invention is described below by way of several specific embodiments, which mainly describe several possible application scenarios of the method. It should be noted that the examples in the present invention are only for explaining the present invention, and are not to be construed as limiting the present invention. It is natural to the person skilled in the art how modifications can be made to the inventive concept, insofar as embodiments conforming to the inventive concept are within the scope of protection of the invention.

The first embodiment is as follows:

the electronic equipment is a PC, the electronic equipment is provided with a display unit, and the display unit is a display screen of the PC. The display unit has a detection area.

The display unit may display 3 operation objects, and the detection area may include 3 effective operation areas, where the 3 effective operation areas and the 3 operation objects may correspond to each other one to one. In this embodiment, all of the 3 operation objects are icon objects.

In this embodiment, at a first time, the electronic device detects and obtains a first operation performed by a user with respect to a first effective operation area corresponding to a first operation object in the 3 operation objects. In this embodiment, the first operation may be a spatial operation, that is, when the first operation is performed, the first operation position to which the operation body is directed is not located on the first plane on which the display unit is located, in this embodiment, a distance between the first operation position and the first plane on which the display unit is located is greater than 0, that is, the first operation is a spatial operation. In this embodiment, the operation body is a finger of a user.

In this embodiment, the display unit may display the 3 operation objects in a three-dimensional effect, so that the user may perceive that a first display position where the first operation object of the 3 operation objects is located is not located in the first plane.

In this embodiment, the obtaining of the first operation of the operation body for the first effective operation area corresponding to the first operation object in the 3 operation objects may specifically be obtaining of the first operation of the operation body for the first operation position.

In this embodiment, the first operation position may coincide with the first display position.

In this embodiment, at least three cross sections, namely a first cross section, a second cross section and a third cross section, correspond to the effective area corresponding to at least one of the 3 operation objects, where a distance between the first cross section and the first plane where the display unit is located may be a third distance, a distance between the second cross section and the first plane may be a fourth distance, a distance between the third cross section and the first plane may be a fifth distance, the third distance may be smaller than the fourth distance, and the fourth distance may be smaller than the fifth distance.

The area corresponding to the first cross section may be a first area, the area corresponding to the second cross section may be a second area, and the area corresponding to the third cross section may be a third area, wherein the first area may be larger than the second area, the first area may be larger than the third area, and the second area may be not smaller than the third area. Wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

Specifically, in this embodiment, the effective region corresponding to at least one of the 3 operands may be a cone region, and the bottom surface of the cone may be located on the first plane. For example, the first effective operation region corresponding to the first operation object in the 3 operation objects may be a cone region, the first effective operation region may correspond to at least three sections, which are the first section, the second section and the third section, respectively, and at this time, the first area may be larger than the second area, the first area may be larger than the third area, and the second area may be larger than the third area.

In this embodiment, the effective region corresponding to at least one of the 3 operands may be a cone region, and the bottom surface of the cone may be located on the first plane. For example, the first effective operation region corresponding to the first operation object in the 3 operation objects may be a cone region, the first effective operation region may correspond to at least three sections, which are the first section, the second section and the third section, respectively, and at this time, the first area may be larger than the second area, the first area may be larger than the third area, and the second area may be larger than the third area.

After obtaining the first operation, the electronic device may first determine whether the second operation performed by the operation body on the second operation object of the 3 operation objects is obtained at a second time before the first time, where the operation body and the detection area need to be kept in contact all the time between the first time and the second time, that is, the operation body needs not to leave the detection area all the time between the first time and the second time. In the embodiment of the present invention, the position targeted by the second operation is the second operation position, the second operation position may not be located in the first plane, and the second distance between the second operation position and the first plane may be greater than 0. I.e. the second operation may also be a spatial operation.

In this embodiment, if it is determined that the second operation is not obtained at the second time, it may be indicated that the first operation is a first operation of the user in the current contact process with the detection area, and the electronic device may respond to the first operation if the first operation is likely to be an operation that the user wants to perform.

Example two:

the electronic equipment is an intelligent television and is provided with a display unit, and the display unit is a display screen of the intelligent television. The display unit has a detection area.

The display unit may display 3 operation objects, and the detection area may include 3 effective operation areas, where the 3 effective operation areas and the 3 operation objects may correspond to each other one to one. In this embodiment, all of the 3 operation objects are icon objects.

In this embodiment, at a first time, the electronic device detects and obtains a first operation performed by a user with respect to a first effective operation area corresponding to a first operation object in the 3 operation objects. In this embodiment, the first operation may be a spatial operation, that is, when the first operation is performed, the first operation position to which the operation body is directed is not located on the first plane on which the display unit is located, in this embodiment, a distance between the first operation position and the first plane on which the display unit is located is greater than 0, that is, the first operation is a spatial operation. In this embodiment, the operation body is a finger of a user.

In this embodiment, the display unit may display the 3 operation objects in a three-dimensional effect, so that the user may perceive that a first display position where the first operation object of the 3 operation objects is located is not located in the first plane.

In this embodiment, the obtaining of the first operation of the operation body for the first effective operation area corresponding to the first operation object in the 3 operation objects may specifically be obtaining of the first operation of the operation body for the first operation position.

In this embodiment, the first operation position may coincide with the first display position.

In this embodiment, at least three cross sections, namely a first cross section, a second cross section and a third cross section, correspond to the effective area corresponding to at least one of the 3 operation objects, where a distance between the first cross section and the first plane where the display unit is located may be a third distance, a distance between the second cross section and the first plane may be a fourth distance, a distance between the third cross section and the first plane may be a fifth distance, the third distance may be smaller than the fourth distance, and the fourth distance may be smaller than the fifth distance.

The area corresponding to the first cross section may be a first area, the area corresponding to the second cross section may be a second area, and the area corresponding to the third cross section may be a third area, wherein the first area may be larger than the second area, the first area may be larger than the third area, and the second area may be not smaller than the third area. Wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

Specifically, in this embodiment, the effective region corresponding to at least one of the 3 operation objects may be visually regarded as a "convex" type space region, and a lower bottom surface of the "convex" type space region may be located on the first plane, where an area of the lower bottom surface of the "convex" type space region is larger than an area of an upper bottom surface of the "convex" type space region. For example, the first effective operation region corresponding to the first operation object in the 3 operation objects may be a space region in a shape of a Chinese character 'tu', and the first effective operation region may correspond to at least three cross sections, which are the first cross section, the second cross section and the third cross section. At this time, the first area may be greater than the second area, the first area may be greater than the third area, and the second area may be equal to the third area.

After obtaining the first operation, the electronic device may first determine whether the second operation performed by the operation body on the second operation object of the 3 operation objects is obtained at a second time before the first time, where the operation body and the detection area need to be kept in contact all the time between the first time and the second time, that is, the operation body needs not to leave the detection area all the time between the first time and the second time. In the embodiment of the present invention, the position targeted by the second operation is the second operation position, the second operation position may not be located in the first plane, and the second distance between the second operation position and the first plane may be greater than 0. I.e. the second operation may also be a spatial operation.

In this embodiment, if it is determined that the second operation is not obtained at the second time, it may be indicated that the first operation is a first operation of the user in the current contact process with the detection area, and the electronic device may respond to the first operation if the first operation is likely to be an operation that the user wants to perform.

Example three:

the electronic equipment is a PAD, the electronic equipment is provided with a display unit, and the display unit is a display screen of the PAD. The display unit has a detection area.

The display unit may display 3 operation objects, and the detection area may include 3 effective operation areas, where the 3 effective operation areas and the 3 operation objects may correspond to each other one to one. In this embodiment, all of the 3 operation objects are icon objects.

In this embodiment, at a first time, the electronic device detects and obtains a first operation performed by a user with respect to a first effective operation area corresponding to a first operation object in the 3 operation objects. In this embodiment, the first operation may be a spatial operation, that is, when the first operation is performed, the first operation position to which the operation body is directed is not located on the first plane on which the display unit is located, in this embodiment, a distance between the first operation position and the first plane on which the display unit is located is greater than 0, that is, the first operation is a spatial operation. In this embodiment, the operation body is a finger of a user.

In this embodiment, the display unit may display the 3 operation objects in a three-dimensional effect, so that the user may perceive that a first display position where the first operation object of the 3 operation objects is located is not located in the first plane.

In this embodiment, the obtaining of the first operation of the operation body for the first effective operation area corresponding to the first operation object in the 3 operation objects may specifically be obtaining of the first operation of the operation body for the first operation position.

In this embodiment, the first operation position may coincide with the first display position.

In this embodiment, the effective area corresponding to at least one of the 3 operation objects may correspond to at least one cross section, and a maximum distance between two points on an ith cross section in the at least one cross section may be smaller than an effective displacement in the effective area.

In this embodiment, an effective displacement may be preset for an effective area, and when an operation is performed on the effective area, if the displacement corresponding to the operation in the effective area is smaller than the effective displacement, the operation may be prohibited from responding, where i is a positive integer. That is, to operate the effective area, the operation body inevitably has a certain displacement in the effective area, and if the displacement corresponding to the operation is smaller than the effective displacement when the operation body operates the effective area, the electronic device may prohibit the operation from being responded, and only if the displacement corresponding to the operation is not smaller than the effective displacement, the electronic device may respond to the operation.

In this embodiment, the first effective operation region corresponding to the first operation object in the M operation objects may correspond to the at least one cross section, for example, the first effective region may be a space region in a shape of a Chinese character 'tu'. The maximum distance between two points on the i-th cross-section in the "convex" shaped spatial region may be smaller than the effective displacement in the first effective region. In this way, even if the hand of the user accidentally slides through the first effective area, the hand of the user may slide through one section in the first effective area, for example, the ith section, and the maximum distance between two points on the ith section is specified to be smaller than the effective displacement in the first effective area, so that the electronic device does not respond to the operation of the user, and the false response rate of the electronic device is reduced.

After obtaining the first operation, the electronic device may first determine whether the second operation performed by the operation body on the second operation object of the 3 operation objects is obtained at a second time before the first time, where the operation body and the detection area need to be kept in contact all the time between the first time and the second time, that is, the operation body needs not to leave the detection area all the time between the first time and the second time. In the embodiment of the present invention, the position targeted by the second operation is the second operation position, the second operation position may not be located in the first plane, and the second distance between the second operation position and the first plane may be greater than 0. I.e. the second operation may also be a spatial operation.

In this embodiment, if it is determined that the second operation is obtained at the second time, it may be indicated that, in the process of the current contact between the user and the detection area, the second operation is a first operation of the user, the second operation is likely to be an operation that the user wants to perform, and the first operation is likely to be an erroneous operation performed by the user after the second operation is completed, and the electronic device may prohibit a response to the first operation.

Referring to fig. 2, an embodiment of the present invention provides an electronic device, which may have a display unit, where M operation objects may be displayed in the display unit, and the electronic device may have a detection area, where the detection area may include M effective operation areas, where the M effective operation areas and the M operation objects may be in one-to-one correspondence, and M is a positive integer. The electronic device may include an acquisition module 201, a determination module 202, and a response module 203.

Preferably, the electronic device may further include a disabling module 204.

The obtaining module 201 may be configured to obtain, at a first time, a first operation of an operation body for a first effective operation area corresponding to a first operation object in the M operation objects, where a first distance between a first operation position targeted by the first operation and a first plane where the display unit is located is greater than 0.

The obtaining module 201 may be specifically configured to obtain the first operation of the operation body for the first operation position.

The determining module 202 may be configured to determine whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, where between the first time and the second time, the operation body needs to be kept in contact with the detection area, and a second distance between a second operation position targeted by the second operation and the first plane is greater than 0.

The response module 203 may be configured to respond to the first operation when the determination is negative.

In this embodiment of the present invention, the response module 203 may include a judgment sub-module and a response sub-module.

The judgment sub-module may be configured to, when the judgment determination is negative, judge whether a displacement of the operation body in the first effective region is not smaller than a first effective displacement corresponding to the first operation object.

The response submodule may be configured to respond to the first operation when the displacement of the operation body in the first effective region is not smaller than the first effective displacement.

In this embodiment of the present invention, the second display interface of the second function corresponding to the second operation object may include at least the first operation object.

In an embodiment of the present invention, at least three cross sections correspond to an effective area corresponding to at least one of the M operation objects, where a distance between a first cross section and a first plane where the display unit is located is a third distance, a distance between a second cross section and the first plane is a fourth distance, a distance between a third cross section and the first plane is a fifth distance, the third distance is smaller than the fourth distance, and the fourth distance is smaller than the fifth distance; a first area corresponding to the first section is larger than a second area corresponding to the second section, the first area is larger than a third area corresponding to the third section, and the second area is not smaller than the third area; wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

In the embodiment of the invention, at least one effective area corresponding to at least one operation object in the M operation objects corresponds to at least one section, wherein the maximum distance between two points on the ith section is smaller than the effective displacement in the effective area; when the effective area is operated, if the displacement corresponding to the operation in the effective area is smaller than the effective displacement, the operation is forbidden to respond; i is a positive integer.

In an embodiment of the present invention, a cross section corresponding to an effective area corresponding to at least one of the M operation objects is parallel to the first plane.

The inhibiting module 204 may be configured to inhibit responding to the first operation when it is determined that the second operation of the operator for the second operation object of the M operation objects is obtained at a second time before the first time.

In this embodiment of the present invention, the display unit may display the M operation objects in a three-dimensional effect, so that a user perceives that a first display position where the first operation object of the M operation objects is located is not located in the first plane.

In this embodiment of the present invention, the first operation position may coincide with the first display position, or a distance between the first operation position and the first display position may not be greater than a preset distance.

In an embodiment of the present invention, a distance between the first plane where the display unit is located and the user may be a sixth distance, a distance between the second plane where the first display position is located and the user may be a seventh distance, the sixth distance may be greater than the seventh distance, and the first plane may be parallel to the second plane.

The response method in the embodiment of the present invention may be applied to an electronic device having a display unit, where M operation objects may be displayed in the display unit, the electronic device may have a detection area, and the detection area may include M effective operation areas, where the M effective operation areas and the M operation objects may be in one-to-one correspondence, and M is a positive integer, and the method may include: at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position corresponding to the first operation and a first plane where the display unit is located is greater than 0; judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is larger than 0; and responding to the first operation when the judgment is determined to be negative.

In the embodiment of the present invention, when the first operation is obtained, it is first determined whether the second operation exists before, and if the second operation is performed before, the response to the first operation may be prohibited. For example, after the second operation is completed, the hand of the user may be naturally put down, and the hand of the user may not leave the detection area during the natural putting down process, and the first effective area corresponding to the first operation object may be touched during the natural putting down process of the hand, which is equivalent to that the user has performed the first operation again, in this case, the electronic device may first determine that: on the premise that the hand of the user does not leave the detection area, whether the second operation is performed before the first operation or not is judged, and if the second operation is judged to be performed, the electronic device can prohibit the response to the first operation, because if the user performs the second operation, the first operation performed again in the process of naturally placing the hand is likely to be a wrong operation, and at the moment, if the electronic device performs the response, the normal use of the user is influenced, the user may be required to perform the operation again, and for the electronic device, unnecessary workload is increased, the wrong response is performed, and the user is inconvenient. By adopting the response method in the embodiment of the invention, the unnecessary workload of the electronic equipment can be obviously reduced, the burden of the electronic equipment is reduced, the false response rate of the electronic equipment is reduced, the user requirement can be met as much as possible, and the user experience is improved.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. A response method is applied to an electronic device with a display unit, wherein M operation objects are displayed in the display unit, the electronic device is provided with a detection area, the detection area comprises M effective operation areas, the M effective operation areas correspond to the M operation objects one by one, M is a positive integer, and the method comprises the following steps:

at a first moment, obtaining a first operation of an operation body on a first effective operation area corresponding to a first operation object in the M operation objects, wherein a first distance between a first operation position corresponding to the first operation and a first plane where the display unit is located is greater than 0;

judging whether a second operation of the operation body on a second operation object in the M operation objects is obtained at a second time before the first time, wherein the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position corresponding to the second operation and the first plane is larger than 0;

responding to the first operation when the judgment is determined to be negative;

the effective area corresponding to at least one operation object in the M operation objects corresponds to at least three sections, wherein the distance between the first section and the first plane where the display unit is located is a third distance, the distance between the second section and the first plane is a fourth distance, the distance between the third section and the first plane is a fifth distance, the third distance is smaller than the fourth distance, and the fourth distance is smaller than the fifth distance; a first area corresponding to the first section is larger than a second area corresponding to the second section, the first area is larger than a third area corresponding to the third section, and the second area is not smaller than the third area; wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

2. The method of claim 1, wherein at least the first operation object is included in a second display interface of a second function corresponding to the second operation object.

3. The method of claim 1, wherein the cross-section of the active area corresponding to at least one of the M operands is parallel to the first plane.

4. The method as claimed in claim 1, further comprising, after determining whether a second operation of the operator on a second one of the M operands is obtained at a second time prior to the first time, the steps of: and when the judgment is determined to be yes, inhibiting the response to the first operation.

5. The method according to claim 1, wherein the display unit displays the M operation objects in a three-dimensional effect such that a user perceives that a first display position where the first operation object of the M operation objects is located is not located in the first plane.

6. The method of claim 5, wherein the first operating position coincides with the first display position, or a distance between the first operating position and the first display position is not greater than a preset distance.

7. The method of claim 5, wherein obtaining a first operation of an operand for a first operand in the M operands comprises: obtaining the first operation of the operation body for the first operation position.

8. The method of claim 5, wherein a distance between a first plane on which the display unit is located and a user is a sixth distance, a distance between a second plane on which the first display position is located and the user is a seventh distance, the sixth distance is greater than the seventh distance, and the first plane is parallel to the second plane.

9. An electronic device, the electronic device having a display unit, wherein M operation objects are displayed in the display unit, the electronic device having a detection area, the detection area including M effective operation areas, wherein the M effective operation areas and the M operation objects are in one-to-one correspondence, and M is a positive integer, the electronic device comprising:

the acquisition module is used for acquiring a first operation of an operation body aiming at a first effective operation area corresponding to a first operation object in the M operation objects at a first moment, wherein a first distance between a first operation position aimed at by the first operation and a first plane where the display unit is located is larger than 0;

a determining module, configured to determine whether a second operation of the operation body on a second operation object of the M operation objects is obtained at a second time before the first time, where the operation body needs to be kept in contact with the detection area between the first time and the second time, and a second distance between a second operation position targeted by the second operation and the first plane is greater than 0;

the response module is used for responding to the first operation when the judgment and the determination are negative;

the effective area corresponding to at least one operation object in the M operation objects corresponds to at least three sections, wherein the distance between the first section and the first plane where the display unit is located is a third distance, the distance between the second section and the first plane is a fourth distance, the distance between the third section and the first plane is a fifth distance, the third distance is smaller than the fourth distance, and the fourth distance is smaller than the fifth distance; a first area corresponding to the first section is larger than a second area corresponding to the second section, the first area is larger than a third area corresponding to the third section, and the second area is not smaller than the third area; wherein the first cross-section, the second cross-section, and the third cross-section are different pairwise.

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