CN103677579B - Electronic equipment and control method - Google Patents

Abstract

The embodiment of the invention provides a kind of electronic equipment and control method.Electronic equipment according to an embodiment of the present invention has first mode, second mode and the third mode.The electronic equipment includes: input unit, is configured to obtain input from the user；Processing unit, configuration comes according to input unit input obtained, generate corresponding control instruction, and according to control instruction executive control operation generated, wherein in the case where electronic equipment is in second mode, when input unit detects that operating body keeps the second input, processing unit generates mode and keeps instruction, to keep electronic equipment to be in second mode；In the case where electronic equipment is in second mode, stop keeping the second input in operating body when input unit is detected, when continuing third input, and completing third input, processing unit generates third switching command, and electronic equipment is switched to the third mode from second mode.

Description

Electronic apparatus and control method

Technical Field

Embodiments of the present invention relate to an electronic device and a control method applied to the electronic device.

Background

With the development of communication technology, various electronic devices are widely used, such as desktop computers, portable computers, tablet computers, smart phones, and portable multimedia players. Currently, most electronic devices run applications, and often have multiple modes depending on the application they are running. For example, when playing a video through a video playing application, the electronic device may have a play mode, a pause mode, a fast forward mode, a fast reverse mode, a stop mode, and the like. This requires the user to be familiar with multiple switching instructions to switch between the modes as needed. However, in the existing electronic device, switching instructions for switching to the respective modes are independent of each other, which is not favorable for user memory and operation.

Disclosure of Invention

An object of an embodiment of the present invention is to provide an electronic device and a control method applied to the electronic device, so as to solve the above problems.

One embodiment of the present invention provides an electronic device having a first mode, a second mode, and a third mode. The electronic device includes: an input unit configured to obtain an input from a user; the processing unit is configured to generate a corresponding control instruction according to the input obtained by the input unit and execute a control operation according to the generated control instruction, wherein when the electronic equipment is in the first mode and the input unit detects that the operating body carries out second input, the processing unit generates a second switching instruction so as to switch the electronic equipment from the first mode to the second mode; when the electronic equipment is in the second mode, when the input unit detects that the operation body keeps the second input, the processing unit generates a mode keeping instruction to keep the electronic equipment in the second mode; when the electronic device is in the second mode, the processing unit generates a third switching instruction to switch the electronic device from the second mode to the third mode when the input unit detects that the second input is stopped being held at the operation body, the third input is continued, and the third input is completed.

Another embodiment of the present invention provides a control method applied to an electronic device, wherein the electronic device has a first mode, a second mode, and a third mode, and the electronic device includes: an input unit configured to obtain an input from a user. The control method comprises the following steps: when the electronic equipment is in the first mode and the input unit detects that the operating body carries out second input, generating a second switching instruction to switch the electronic equipment from the first mode to the second mode; when the electronic equipment is in the second mode, generating a mode keeping instruction to keep the electronic equipment in the second mode when the input unit detects that the operation body keeps the second input; when the electronic device is in the second mode, when the input unit detects that the second input is stopped being held at the operation body, the third input is continued, and the third input is completed, a third switching instruction is generated to switch the electronic device from the second mode to the third mode.

By the electronic equipment and the control method, a user can conveniently switch among a plurality of modes of the electronic equipment, and a plurality of switching inputs are correlated, so that the operation of the user is simplified.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below. The drawings in the following description are merely exemplary embodiments of the invention.

FIG. 1 shows an exemplary block diagram of an electronic device according to one embodiment of the invention.

Fig. 2 is a schematic diagram illustrating an electronic device according to an embodiment of the present invention.

FIG. 3 is a schematic diagram illustrating a touch sensitive area of an electronic device according to one embodiment of the present invention.

Fig. 4 is a schematic diagram showing a display unit in the electronic apparatus shown in fig. 2.

Fig. 5 is an exemplary flowchart illustrating a control method according to an embodiment of the present invention.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that in the present specification and the drawings, steps and elements having substantially the same structure are denoted by the same reference numerals, and repeated explanation of the steps and elements will be omitted.

In the following embodiments of the present invention, specific forms of electronic devices include, but are not limited to, desktop computers, portable computers, tablet computers, personal digital assistants, smart phones, game machines, portable multimedia players, head-mounted display devices, and the like.

FIG. 1 is an exemplary block diagram illustrating an electronic device 100 according to one embodiment of the invention. The electronic device 100 may have a first mode, a second mode, and a third mode. As shown in fig. 1, the electronic device 100 includes an input unit 110 and a processing unit 120. The input unit 110 may obtain an input from a user. The processing unit 120 may generate a corresponding control instruction according to the input obtained by the input unit, and execute a control operation according to the generated control instruction.

Specifically, when the input unit 110 detects that the operating body performs the second input while the electronic apparatus 100 is in the first mode, the processing unit 120 may generate a second switching instruction to switch the electronic apparatus 100 from the first mode to the second mode. While when the electronic device 100 is in the second mode, when the input unit 110 detects that the operating body holds the second input, the processing unit 120 generates a mode holding instruction to hold the electronic device 100 in the second mode. On the other hand, when the electronic apparatus 100 is in the second mode, when the input unit 110 detects that the second input is stopped being held at the operating body, the third input is continued, and the third input is completed, the processing unit 120 may generate a third switching instruction to switch the electronic apparatus 100 from the second mode to the third mode. That is, when the user wishes to maintain the electronic apparatus 100 in the second mode, the second input may be continuously made through the input unit 110, and when the user wishes to switch the electronic apparatus 100 to the third mode in the second mode, the third input is started while the second input is ended. When the user wishes to switch the electronic device to the third mode after switching the electronic device to the second mode, the user leaves the input unit of the electronic device after the operation body finishes the second input, and then performs the third input again through the input unit, as in the case of using the existing electronic device.

Furthermore, according to another example of the present invention, when the electronic device 100 is in the first mode, the electronic device may also be directly switched from the first mode to the third mode. Specifically, when the input unit 110 detects that the operating body makes a fourth input to the electronic apparatus 100 and completes the fourth input while the electronic apparatus 100 is in the first mode, the processing unit 120 generates a third switching instruction to switch the electronic apparatus 100 from the first mode to the third mode. Wherein the third input for switching the electronic device to the third mode in the second mode is part of the fourth input. The third input and the fourth input will be further described later. In the electronic apparatus according to the present embodiment, the third input for switching the electronic apparatus 100 to the third mode in the second mode is a part of the fourth input for switching the electronic apparatus to the third mode in the first mode. That is, the third input is associated with the fourth input, thereby facilitating user memory.

Further, according to another example of the present invention, when the electronic apparatus 100 is in the second mode, the electronic apparatus 100 may also be switched from the second mode to the first mode. Specifically, when the electronic apparatus 100 is in the second mode, when the input unit 110 detects that the operation body stops holding the second input and no input is continued to the electronic apparatus after the holding of the second input is stopped, the processing unit 120 generates a first switch instruction to switch the electronic apparatus 100 from the second mode to the first mode. That is, in the electronic apparatus 100 according to the present embodiment, when the input unit 110 detects that the user holds the second input in the second mode, the processing unit 120 generates a mode holding instruction to hold the electronic apparatus 100 in the second mode, and when the input unit 110 does not detect that the user holds the second input and also does not detect that the user makes another input such as the third input described above, the processing unit 120 generates a first switching instruction to switch the electronic apparatus 100 from the second mode to the first mode. In the electronic apparatus according to the present embodiment, when the user wishes to switch the electronic apparatus 100 from the second mode to the first mode, it is not necessary to perform a specific input operation, but only the held second input needs to be stopped, thereby simplifying the operation of the user.

Further, when the input unit 110 detects that the operating body performs the first input while the electronic apparatus 100 is in the third mode, the processing unit 120 generates a first switching instruction to switch the electronic apparatus 100 from the third mode to the first mode, where the first input for switching the electronic apparatus from the third mode to the first mode is different from the stop holding second input for switching the electronic apparatus from the second mode to the first mode in the second mode described above.

According to the electronic equipment provided by the embodiment of the invention, a user can conveniently switch among a plurality of modes of the electronic equipment, and a plurality of switching inputs are correlated, so that the operation of the user is simplified. For example, as described above, the user may consistently switch between multiple modes of the electronic device by starting to make a third input while ending the second input may switch the electronic device from the second mode to the third mode, and switching the electronic device from the second mode to the first mode without making other inputs while ending the second input. Further, as described above, the switching inputs, such as the third input and the fourth input, are correlated to facilitate the user's memorization.

In the electronic device 100 according to the present embodiment, specific forms of the input unit 110 include, but are not limited to, a touch sensing unit, a proximity sensing unit, a voice input unit, a control key, and the like. The following description will be given taking an example in which the input unit 110 includes a touch sensing unit for obtaining a touch input from a user.

Specifically, in a case that the input unit is a touch sensing unit, the second input may be a second touch input performed by the operating body in a touch sensing area of the touch sensing unit. When the electronic equipment is in the first mode and the touch sensing unit detects that the operating body carries out second touch input in the touch sensing area of the operating body, the processing unit generates a second switching instruction so as to switch the electronic equipment from the first mode to the second mode. When the electronic equipment is in the second mode, when the touch sensing unit detects that the operating body keeps the second touch input, the processing unit generates a mode keeping instruction to keep the electronic equipment in the second mode.

According to an example of the present invention, the second touch input may include a continuous touch operation at a fixed position within the touch sensitive area. When the electronic device is in the first mode, and the touch sensing unit detects that the touch operation performed by the operating body at the fixed position in the touch sensing area of the electronic device exceeds a predetermined time, the processing unit may generate a second switching instruction to switch the electronic device from the first mode to the second mode. And when the electronic equipment is in the second mode, when the touch sensing unit detects that the operating body is kept in the touch operation on the fixed position, the processing unit generates a mode keeping instruction so as to keep the electronic equipment in the second mode.

In a case where the input unit is a touch sensing unit, the third input may be a third touch input performed by the operating body in a touch sensing area of the touch sensing unit. When the touch sensing unit detects that the operating body stops maintaining the second touch input at the fixed position in the touch sensing area of the electronic device and simultaneously starts to perform the third touch input when the electronic device is in the second mode, the processing unit may generate a third switching instruction to switch the electronic device from the second mode to the third mode after the touch sensing unit detects that the operating body completes the third touch input.

As described above, the second touch input may include a sustained touch operation at a fixed location within the touch sensitive area. Further, according to another example of the present invention, the third touch input may include a moving operation within the touch sensitive area from a fixed position at which the second touch input is located. When the electronic device is in the second mode, and the touch sensing unit detects that the operation body stops keeping the continuous touch operation at the fixed position in the touch sensing area of the operation body and starts to perform the moving operation, after the touch sensing unit detects that the operation body completes the moving operation, the processing unit may generate a third switching instruction to switch the electronic device from the second mode to the third mode.

In addition, in a case where the third touch input is a movement operation from the fixed position where the second touch input is located within the touch sensitive area, the fourth operation may be a movement operation performed directly within the touch sensitive area after the operation body is in contact with the touch sensitive area of the touch sensitive unit. As described above, when the electronic device is in the first mode, and the input unit detects a moving operation directly performed in the touch sensing area after the operating body is in contact with the touch sensing area of the touch sensing unit, after the moving operation is completed, the processing unit generates a third switching instruction to switch the electronic device from the first mode to the third mode. That is, the fourth touch input includes the third touch input and also includes an action of contacting the touch sensitive area.

In addition, in a case where the second touch input may include a continuous touch operation at a fixed position within the touch sensing area, when the touch sensing unit detects that the operating body stops holding the second touch input at the fixed position within the touch sensing area thereof and leaves the touch sensing area after stopping holding the second touch input in the second mode of the electronic device, the processing unit generates a first switching instruction to switch the electronic device from the second mode to the first mode.

Further, the first input may be, for example, a first touch input of clicking an arbitrary position in the touch sensitive area. When the electronic device is in the third mode, when the touch sensing unit detects that the operation body performs a click input in the touch sensing area, the processing unit may generate a first switching instruction to switch the electronic device from the third mode to the first mode.

In the case where the input unit is a control key, the input of the operating body in the proximity sensing area of the electronic device is similar to the input performed in the touch sensing area of the touch sensing unit, and therefore, the detailed description thereof is omitted.

In the case where the input unit is a proximity sensing unit, the input of the operation body in the proximity sensing area of the electronic device is similar to the input performed in the touch sensing area of the touch sensing unit, and therefore, the detailed description thereof is omitted. And under the condition that the input unit is the proximity sensing unit, the operation body does not need to be contacted with the electronic equipment when inputting, and only needs to be close to the proximity sensing area of the electronic equipment.

Further, as described above, the input unit may also be a voice input unit for obtaining a voice input from the user. In this case, when the voice input unit detects a second voice input made by the user while the electronic apparatus is in the first mode, the processing unit generates a second switching instruction to switch the electronic apparatus from the first mode to the second mode. And when the voice input unit detects that the user keeps making the second voice input, the processing unit generates a mode keeping instruction to keep the electronic device in the second mode. Further, when the voice input unit detects that the user continues to perform the third voice input while stopping issuing the second voice input and completes the third voice input while the electronic device is in the second mode, the processing unit may generate a third switching instruction to switch the electronic device from the second mode to the third mode. Further, when the electronic apparatus is in the second mode, the processing unit generates a first switching instruction to switch the electronic apparatus from the second mode to the first mode when the voice input unit detects that the user stops uttering the second voice input and does not utter the voice input such as the third voice input after stopping the user from uttering the second voice input.

According to another example of the present invention, the electronic device 100 shown in fig. 1 may further include a display unit and/or an audio playing unit. When the electronic device plays a video file and/or an audio file, the first mode may be a play mode, and the second mode may be a pause mode; and the third mode is a stop mode. For example, when the electronic device plays a video file, in the first mode, the processing unit may open and retrieve the video file, and the display unit may play a sound corresponding to the display image displayed by the display unit according to the video file display image and the audio playing unit. In the second mode, the display unit may pause playing the video file, and may maintain a picture displayed in the display unit when the second input is received within the display area, and the audio playing unit may pause sound playing. In the third mode, the processing unit may close the previously read video file, the display unit may stop playing the video file, and the audio playing unit may stop playing the sound. Alternatively, in the third mode, the processing unit may exit the currently running video playback application, the display unit may stop playing the video file, and the audio playback unit may stop sound playback.

Further, according to another example of the present invention, the electronic apparatus may further include a fixing unit and a connecting unit. FIG. 2 is a schematic diagram illustrating an electronic device 200 according to one embodiment of the invention. As shown in fig. 2, the electronic apparatus 200 includes a fixing unit 210, a connection unit 220, a display unit 230, an input unit 240, and a processing unit (not shown). The electronic apparatus 200 can be worn on the head by the fixing unit 210. The connection unit 220 connects the fixing unit 210 and at least a first portion of the display unit 230. The input unit 240 and the processing unit are similar to the input unit 110 and the processing unit 120 shown in fig. 1, and thus, will not be described in detail herein. As described above, the input unit 240 is a touch sensing unit for obtaining a touch from a user. The input unit 240 may be disposed at an outer side of the electronic apparatus. The outside of the electronic device is the side facing away from the head when the electronic device is worn on the head, for example, the input unit 240 may be disposed at the side of the fixing unit 210 facing away from the head when the electronic device 200 is worn on the head, at the side of the connection unit 220 not facing the user, and/or at the side of the display unit 230 not facing the user. Alternatively, as shown in fig. 2, the electronic device 200 further includes a first housing 250 disposed at a first end of the fixing unit 210 and a second housing 260 disposed at a second end of the fixing unit 210. The input unit 240 may be disposed on the first housing 250 and/or the second housing 260. Further, according to another example of the present invention, the processing unit may be provided within the fixing unit 210.

Although the input unit 240 is not located within the visible region when the user wears the electronic apparatus 200 as shown in fig. 2, since a plurality of switching inputs for switching the electronic apparatus according to an embodiment of the present invention are associated with each other as described above, the user does not need to repeatedly fumble about the position of the input unit 240 when performing the switching input, thereby facilitating the user's operation. For example, as described above, the electronic apparatus may be switched from the second mode to the third mode by starting the third input while the second input is ended, that is, when the user wants to switch the electronic apparatus to the third mode in the second mode, the input unit does not need to be located again. For another example, as described above, the electronic apparatus can be switched from the second mode to the first mode without performing another input when the second input is ended, that is, when the user wants to switch the electronic apparatus to the first mode in the second mode, the user does not need to reposition the input unit and only needs to move the operation body away from the touch-sensitive area.

Fig. 3 is a schematic view illustrating a touch sensing area of a touch sensing unit of an electronic device according to an embodiment of the present invention. More specifically, fig. 3 is a schematic diagram illustrating a touch sensing area provided on the first housing 250 and/or the second housing 260 of the electronic device 200, according to an embodiment of the present invention.

As shown in fig. 3, the touch sensing area 300 of the touch sensing unit may include a first sub touch sensing area 310 and a second sub touch sensing area 320 surrounding the first sub touch sensing area 310. According to an example of the present invention, the first sub touch-sensitive area 310 and the second sub touch-sensitive area 320 may correspond to different touch inputs.

For example, the user may perform a touch operation, such as a single click, a double click, a long press, and/or a short distance movement, in the first sub touch-sensitive area 310, and may perform a touch operation, such as a long distance slide, along the second touch-sensitive area 320. As shown in fig. 3, the second touch sensitive area 320 is a closed loop shape, so that a user can perform a sliding operation around the second touch sensitive area 320.

Furthermore, the first sub touch-sensitive sub-area 310 and the second sub touch-sensitive sub-area 320 may correspond to different instruction sets, that is, the first sub touch-sensitive sub-area 310 may correspond to a first instruction set and the second sub touch-sensitive sub-area 320 may correspond to a second instruction set. For example, the first sub touch-sensitive area 310 may correspond to an instruction that needs to be generated according to absolute coordinates of the operation body in the touch-sensitive area, such as a confirmation instruction among a plurality of options. For another example, the first to third switching commands may be included in a first command set, and the first to fourth inputs may be performed in the first sub touch sensitive area 310. And the second sub touch-sensitive area 320 may correspond to an instruction that needs to be generated according to the relative coordinates of the operation body in the touch-sensitive area, such as a page-turning instruction when browsing a document including a plurality of pages. Further, the operator may correspond to a third instruction set different from the first instruction set and the second instruction set when operating across the first sub touch-sensitive area 310 and the second sub touch-sensitive area 320.

For another example, the first sub touch-sensitive area 310 may correspond to an instruction set for an operation object displayed by the display unit in a direction parallel to the display area of the display unit, and the second sub touch-sensitive area 320 may correspond to an instruction set for an operation object displayed by the display unit in a direction perpendicular to the display area of the display unit. For example, when the display unit displays a plurality of pictures stacked together in a three-dimensional display effect and the user wishes to view one of the pictures, when the user detected by the touch sensing unit performs a sliding operation in a clockwise direction in the second sub touch sensing area, the processing unit may determine that the picture positioned at the upper layer of the current picture is the picture selected by the user, and when the user detected by the touch sensing unit performs a sliding operation in a counterclockwise direction in the second sub touch sensing area, the processing unit may determine that the picture positioned at the lower layer of the current picture is the picture selected by the user. And when the touch sensing unit detects that the user performs touch input in the first sub-touch sensing area, the processing unit may generate an editing instruction for performing an editing operation on the currently selected picture according to the touch input.

In addition, different contact areas of the touch sensing area and the operation body operating in the first sub touch sensing area 310 and/or the second sub touch sensing area 320 may correspond to different combinations of instructions. For example, when the user touches with one finger, two fingers, and three fingers, respectively, the fourth, fifth, and sixth instruction sets may be respectively corresponded.

Further, according to another example of the present invention, a first recognition part may be disposed on the first sub touch-sensitive area 310 and/or a second recognition part may be disposed on the second sub touch-sensitive area. The first recognition part may indicate the first sub touch-sensing area, and the second recognition part may indicate the second sub touch-sensing area. When the first sub touch sensing area is provided with a first identification component configured to indicate the first sub touch sensing area and the second sub touch sensing area is provided with a second identification component configured to indicate the second sub touch sensing area, the first identification component and the second identification component are different.

According to an example of the present invention, the first recognition part may be a first touch recognition part and the second recognition part is a second touch recognition part. For example, the first recognition part may be a raised dot matrix array disposed on the first sub touch sensing area, and the second recognition part may be a raised stripe array disposed on the second touch sensing unit. Therefore, the user does not need to rely on vision, and the first sub touch sensing area and the second sub touch sensing area can be distinguished only through touch.

Alternatively, a third touch recognition part is disposed between the first sub touch sensing area and the second sub touch sensing area. The third touch recognition part is configured to separate the first sub touch sensing area and the second sub touch sensing area. For example, the third touch recognition part may be a groove or a protrusion disposed between the first sub touch sensing area and the second sub touch sensing area. Therefore, the user does not need to rely on vision, and the first sub touch sensing area and the second sub touch sensing area can be distinguished only through touch. And the second sub touch sensing area can be prevented from being touched by mistake when the user operates in the first sub touch sensing area, and vice versa.

Further, according to another example of the present invention, the electronic apparatus 200 may further include a proximity sensing unit. When the proximity sensing unit detects that the operating body approaches the first touch sensing area and/or the second touch sensing area, the electronic device may give feedback such as sound, light, vibration, display images, and the like to prompt the user.

It should be noted that although the embodiment shown in fig. 3 has been described taking a head-mounted display device as an example, the touch sensing unit according to the present embodiment is also applied to other electronic devices such as a desktop computer, a portable computer, a tablet computer, a personal digital assistant, a smart phone, a game machine, a portable multimedia player, and the like.

Returning to fig. 2, according to another example of the present invention, the connection unit 220 may have an extended state and a retracted state. In the first mode of the electronic device, the connection unit 220 is in an extended state such that at least a first portion of the display unit 230 is located within a viewable area of the user and faces the user. And in the third mode, the connection unit 220 is in a stowed state such that at least a first portion of the display unit 230 is moved out of the user's view area. Specifically, according to another example of the present invention, the display unit 230 may include a display module, an optical system, a lens member, a first light guide member, and a second light guide member. The display module may display a first image. The optical system may receive light emitted from the display module and perform optical path conversion on the light emitted from the display module to form an enlarged virtual image. The first light guide member is disposed in the optic member. The second light guide member transmits the light passing through the optical system to the first light guide member. And the first light guide member receives light transmitted through the second light guide member and reflects the light toward a user. In this case, the first portion of the display unit 230 may include a lens member and a first light guide member. In the first mode, the connection unit 220 is in an extended state such that the first portion is located within a visible area of a user and faces the user, and the display module displays an image; in the second mode, the connection unit 220 is in an extended state such that the first portion is located within the visible area of the user and faces the user, and the display module stops displaying the image; and in a third mode, the connection unit is in a retracted state, so that the first portion is moved out of the user's visible area and the display module stops displaying the image.

Alternatively, the connection unit 220 may have only the extended state. Fig. 4 is a schematic diagram illustrating a display unit in the electronic apparatus 200 illustrated in fig. 2 according to another example of the present invention. Specifically, as shown in fig. 4, the display unit 400 may include a display module 410, an optical system 420, a lens member 430, a first light guide member 440, and a second light guide member 450. The display module 410 may be disposed in a stationary unit of the electronic device and used to display the first image. The optical system 420 may receive the light emitted from the display module 410 and perform optical path conversion on the light emitted from the display module 410 to form an enlarged virtual image. The first light guide member 440 is disposed in the lens member 430. The second light guide member 450 transmits the light passing through the optical system 420 to the first light guide member 440. And the first light guide member 440 receives light transmitted through the second light guide member 450 to reflect toward the user. In this case, the first portion of the display unit 230 may include a lens member and a first light guide member. In a first mode, the first portion is located within a viewable area of a user and facing the user, and the display module displays an image; and in a third mode, the first portion is located within the user's viewable area and facing the user, and the display module ceases to display the image so that the user is able to view objects located outside the lens. Further, in the second mode, the first portion is located within the viewable area of the user and facing the user, and the display module pauses displaying the image or the display module does not display the image. In the present embodiment, the lens member has a predetermined transmittance, so that at least in the third mode, the user can clearly see the situation of the real environment even if wearing the electronic apparatus, to prevent the user from having an unexpected situation such as falling, hitting an obstacle, or the like.

Next, a control method of an embodiment of the present invention is explained with reference to fig. 5. FIG. 5 is a flow chart depicting a control method 500 according to an embodiment of the invention. The control method 500 may be used in an electronic device such as that shown in fig. 1. In this embodiment, the electronic device may have a first mode, a second mode, and a third mode. And the electronic device comprises an input unit for obtaining input from a user.

As shown in fig. 5, in step S501, when the input unit detects that the operating body performs the second input while the electronic apparatus is in the first mode, a second switching instruction is generated to switch the electronic apparatus from the first mode to the second mode. In step S502, it is determined whether the operation body holds the second input while the electronic apparatus is in the second mode. When the input unit detects that the operation body holds the second input, a mode holding instruction is generated in step S503 to hold the electronic apparatus in the second mode. And when the input unit detects that the second input is stopped being held by the operation body, it is detected in step S504 whether the operation body continues to perform the third input while stopping holding the second input. In a case where the operating body continues to make the third input while stopping holding the second input, in step S505, upon completion of the third input, a third switching instruction is generated in step to switch the electronic apparatus from the second mode to the third mode.

That is, when the user wishes to maintain the electronic apparatus in the second mode, the second input may be continuously made through the input unit, and when the user wishes to switch the electronic apparatus to the third mode in the second mode, the third input is started while the second input is ended. When the user wishes to switch the electronic device to the third mode after switching the electronic device to the second mode, the user leaves the input unit of the electronic device after the operation body finishes the second input, and then performs the third input again through the input unit, as in the case of using the existing electronic device.

Furthermore, according to another example of the present invention, the method illustrated in fig. 5 further includes generating a third switching instruction to switch the electronic device from the first mode to the third mode when the input unit detects that the operating body makes a fourth input to the electronic device and completes the fourth input while the electronic device is in the first mode. Wherein the third input for switching the electronic device to the third mode in the second mode is part of the fourth input. The third input and the fourth input will be further described later. In the electronic apparatus according to the present embodiment, the third input for switching the electronic apparatus to the third mode in the second mode is a part of the fourth input for switching the electronic apparatus to the third mode in the first mode. That is, the third input is associated with the fourth input, thereby facilitating user memory.

Further, according to another example of the present invention, the method shown in fig. 5 further includes generating a first switching instruction to switch the electronic apparatus from the second mode to the first mode when the input unit detects that the operating body stops holding the second input and no input is continued to the electronic apparatus after the holding of the second input is stopped while the electronic apparatus is in the second mode. That is, in the electronic apparatus according to the present embodiment, it is configured such that in the second mode, when the input unit detects that the user holds the second input, the mode holding instruction is generated to hold the electronic apparatus in the second mode, and when the input unit does not detect that the user holds the second input and also does not detect that the user makes another input such as the third input described above, the first switch instruction is generated to switch the electronic apparatus from the second mode to the first mode. In the electronic apparatus according to the present embodiment, when the user wishes to switch the electronic apparatus from the second mode to the first mode, it is not necessary to perform a specific input operation, but only the held second input needs to be stopped, thereby simplifying the operation of the user.

Further, according to another example of the present invention, the method shown in fig. 5 further includes generating a first switching instruction to switch the electronic apparatus from the third mode to the first mode when the input unit detects that the operating body performs the first input while the electronic apparatus is in the third mode, wherein the first input for switching the electronic apparatus from the third mode to the first mode is different from the stop holding second input for switching the electronic apparatus from the second mode to the first mode in the second mode.

By the control method according to the embodiment of the invention, a user can conveniently switch among a plurality of modes of the electronic equipment, and a plurality of switching inputs are correlated with each other, so that the operation of the user is simplified. For example, as described above, the user may consistently switch between multiple modes of the electronic device by starting to make a third input while ending the second input may switch the electronic device from the second mode to the third mode, and switching the electronic device from the second mode to the first mode without making other inputs while ending the second input. Further, as described above, the switching inputs, such as the third input and the fourth input, are correlated to facilitate the user's memorization.

In the electronic device according to the embodiment, the specific form of the input unit includes, but is not limited to, a touch sensing unit, a proximity sensing unit, a voice input unit, a control key, and the like. The following description will be given taking an example in which the input unit includes a touch sensing unit for obtaining a touch input from a user.

Specifically, in a case that the input unit is a touch sensing unit, the second input may be a second touch input performed by the operating body in a touch sensing area of the touch sensing unit. In step S501, when the electronic device is in the first mode, and the touch sensing unit detects that the operating body performs a second input in the touch sensing area of the electronic device, a second switching instruction is generated to switch the electronic device from the first mode to the second mode. When the electronic device is in the second mode and the touch sensing unit detects that the operating body maintains the second touch input, in step S503, a mode maintaining instruction is generated to maintain the electronic device in the second mode.

According to an example of the present invention, the second touch input may include a continuous touch operation at a fixed position within the touch sensitive area. In step S501, when the touch sensing unit detects that the touch operation performed by the operating body at the fixed position in the touch sensing area of the electronic device exceeds a predetermined time while the electronic device is in the first mode, a second switching instruction may be generated to switch the electronic device from the first mode to the second mode. When the electronic device is in the second mode, and the touch sensing unit detects a touch operation of the operating body held at the fixed position, a mode holding instruction may be generated in step S503 to hold the electronic device in the second mode.

In a case where the input unit is a touch sensing unit, the third input may be a third touch input performed by the operating body in a touch sensing area of the touch sensing unit. When the electronic device is in the second mode, when the touch sensing unit detects that the operating body stops holding the second touch input at the fixed position within the touch sensing area thereof and simultaneously starts to perform the third input in step S504, after the touch sensing unit detects that the operating body completes the third input, a third switching instruction may be generated in step S505 to switch the electronic device from the second mode to the third mode.

As described above, the second touch input may include a sustained touch operation at a fixed location within the touch sensitive area. Further, according to another example of the present invention, the third touch input may include a moving operation within the touch sensitive area from a fixed position at which the second touch input is located. When the electronic device is in the second mode, when the touch sensing unit detects that the operating body stops maintaining the continuous touch operation at the fixed position in the touch sensing area thereof and starts performing the moving operation while the touch sensing unit detects that the operating body completes the moving operation in step S504, a third switching instruction may be generated in step S505 to switch the electronic device from the second mode to the third mode.

In addition, in a case where the third touch input is a movement operation from the fixed position where the second touch input is located within the touch sensitive area, the fourth operation may be a movement operation performed directly within the touch sensitive area after the operation body is in contact with the touch sensitive area of the touch sensitive unit. As described above, when the electronic device is in the first mode, and the input unit detects a moving operation directly performed in the touch sensing area after the operating body is in contact with the touch sensing area of the touch sensing unit, after the moving operation is completed, a third switching instruction is generated to switch the electronic device from the first mode to the third mode. That is, the fourth touch input includes the third touch input and also includes an action of contacting the touch sensitive area.

In addition, in a case where the second touch input may include a continuous touch operation at a fixed position within the touch sensing area, when the touch sensing unit detects that the operating body stops holding the second touch input at the fixed position within the touch sensing area thereof and leaves the touch sensing area after stopping holding the second touch input in the second mode of the electronic device, a first switch instruction is generated to switch the electronic device from the second mode to the first mode.

Further, the first input may be, for example, a first touch input of clicking an arbitrary position in the touch sensitive area. When the electronic device is in the third mode, when the touch sensing unit detects that the operation body performs a click input in the touch sensing area, a first switching instruction may be generated to switch the electronic device from the third mode to the first mode.

In the case where the input unit is a control key, the input of the operating body in the proximity sensing area of the electronic device is similar to the input performed in the touch sensing area of the touch sensing unit, and therefore, the detailed description thereof is omitted.

In the case where the input unit is a proximity sensing unit, the input of the operation body in the proximity sensing area of the electronic device is similar to the input performed in the touch sensing area of the touch sensing unit, and therefore, the detailed description thereof is omitted. And under the condition that the input unit is the proximity sensing unit, the operation body does not need to be contacted with the electronic equipment when inputting, and only needs to be close to the proximity sensing area of the electronic equipment.

Further, as described above, the input unit may also be a voice input unit for obtaining a voice input from the user. In this case, in step S501, when the voice input unit detects a second voice input by the user while the electronic apparatus is in the first mode, a second switching instruction is generated to switch the electronic apparatus from the first mode to the second mode. And when the voice input unit detects that the user keeps making the second voice input while the electronic apparatus is in the second mode, a mode holding instruction is generated in step S503 to hold the electronic apparatus in the second mode. Further, when the voice input unit detects that the user continues to make the third voice input while stopping making the second voice input in step S504 and completes the third voice input while the electronic apparatus is in the second mode, a third switching instruction may be generated in step S505 to switch the electronic apparatus from the second mode to the third mode. Further, when the voice input unit detects that the user is stopping uttering the second voice input and when the user is not uttering the voice input such as the third voice input after stopping uttering the second voice input while the electronic apparatus is in the second mode, the first switching instruction is generated to switch the electronic apparatus from the second mode to the first mode.

Those of ordinary skill in the art will appreciate that the various illustrative components, modules, and modules described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate their interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

Although a few embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the modifications of which are intended to be within the scope of the invention.

Claims (21)

1. An electronic device having a first mode, a second mode, and a third mode, the electronic device comprising:

an input unit configured to obtain an input from a user;

a processing unit configured to generate a corresponding control instruction according to the input obtained by the input unit and execute a control operation according to the generated control instruction, wherein

When the electronic equipment is in the first mode and the input unit detects that an operating body carries out second input, the processing unit generates a second switching instruction to switch the electronic equipment from the first mode to the second mode;

when the electronic device is in the second mode, when the input unit detects that the action of the operating body for keeping the second input is unchanged, the processing unit generates a mode keeping instruction to keep the electronic device in the second mode;

when the electronic device is in the second mode, when the input unit detects that the second input action is stopped being kept on the operation body, a third input action is continued, and the third input action is completed, the processing unit generates a third switching instruction to switch the electronic device from the second mode to the third mode;

wherein,

the first mode is a play mode;

the second mode is a pause mode; and

the third mode is a stop mode.

2. The electronic device of claim 1, further comprising:

when the input unit detects that the operating body performs a fourth input to the electronic device and completes the fourth input while the electronic device is in the first mode, the processing unit generates the third switching instruction to switch the electronic device from the first mode to the third mode.

3. The electronic device of claim 2, wherein

The third input is part of the fourth input.

4. An electronic device as claimed in claim 1 or 2, wherein

When the electronic device is in the second mode, the processing unit generates a first switching instruction to switch the electronic device from the second mode to the first mode when the input unit detects that the operation body stops holding the second input and no input is continuously input to the electronic device after the holding of the second input is stopped.

5. The electronic device of claim 4, wherein

The input unit is a touch sensing unit configured to obtain touch input from a user;

the input unit detecting that the operation body performs the second input includes:

the touch sensing unit detects that the operation body carries out second touch input in a touch sensing area of the operation body;

the input unit detecting that the operation body holds the second input includes:

the touch sensing unit detects that the operating body keeps the second touch input in a touch sensing area of the operating body;

the input unit detects that the second input is stopped being held at the operation body, continues to perform a third input, and completing the third input includes:

the touch sensing unit detects that the operation body stops keeping the second touch input in the touch sensing area, continues to perform third touch input and finishes the third touch input;

the input unit detecting that the operation body stops holding the second input, and not continuing to input the electronic device after stopping holding the second input includes:

the touch sensing unit detects that the operating body stops keeping the second touch input in the touch sensing area of the operating body, and leaves the touch sensing area after stopping keeping the second touch input.

6. The electronic device of claim 5, wherein

The second touch input includes: a continuous touch operation at a fixed position within the touch sensitive area;

the third touch input includes: a moving operation within the touch-sensitive area from the fixed position;

the touch sensing unit detects that the operation body stops keeping the second touch input in the touch sensing area, and the continuing of the third touch input comprises the following steps:

the touch sensing unit detects a pressing operation of the operating body stopped at the fixed position, and starts the moving operation from the fixed position without leaving the touch sensing area.

7. The electronic device of claim 4, wherein

The input unit is a voice input unit configured to obtain a voice input from a user;

the input unit detecting that the operation body performs the second input includes:

the voice input unit detects a second voice input sent by a user;

the input unit detecting that the operation body holds the second input includes:

the voice input unit detects that the user keeps making the second voice input;

the input unit detects that the second input is stopped being held at the operation body, continues to perform a third input, and completing the third input includes:

the voice input unit detects that the user stops sending the second voice input, continues to perform third voice input and finishes the third voice input;

the input unit detecting that the operation body stops holding the second input, and not continuing to input the electronic device after stopping holding the second input includes:

the voice input unit detects that the user stops keeping uttering the second voice input and does not continue uttering the voice input.

8. The electronic device of claim 4, wherein

When the electronic device is in the third mode, when the input unit detects that the operating body performs a first input, the processing unit generates the first switching instruction to switch the electronic device from the third mode to the first mode, wherein the first input is different from stopping to hold the second input.

9. The electronic device of claim 1, further comprising:

a display unit;

a fixing unit by which the electronic device can be worn on the head;

a connection unit configured to connect the fixing unit and at least a first portion of the display unit.

10. The electronic device of claim 9, wherein

The input unit is a touch sensing unit configured to obtain a touch from a user, wherein

The touch sensing unit is arranged on the outer side of the electronic equipment, wherein the outer side of the electronic equipment is the side which faces away from the head when the electronic equipment is worn on the head.

11. The electronic device of claim 9, wherein

The linkage unit has an extended state and a retracted state,

in the first mode, the connection unit is in an extended state such that at least the first portion of the display unit is located within a viewable area of a user and facing the user;

in the third mode, the connection unit is in a stowed state such that at least the first portion of the display unit is moved out of the field of view of the user.

12. The electronic device of claim 11, wherein

The display unit includes:

a display module configured to display a first image,

an optical system configured to receive light emitted from the display module and perform optical path conversion on the light emitted from the display module to form an enlarged virtual image;

a lens member;

a first light guide member disposed in the lens member;

a second light guide member configured to transmit the light passing through the optical system to the first light guide member,

wherein the first light guide member is configured to receive light transmitted through the second light guide member to be reflected toward a user,

wherein at least the first portion of the display unit comprises: the optic member and the first light guide member,

in the first mode, the connection unit is in an extended state such that the first portion is located within a user's viewable area and facing the user, and the display module displays an image;

in the second mode, the connection unit is in an extended state such that the first portion is located within a user's viewable area and facing the user, and the display module stops displaying images;

in the third mode, the connection unit is in a stowed state such that the first portion is moved out of a user's visible area and the display module stops displaying an image.

13. The electronic device of claim 9, wherein

The display unit includes:

a display module configured to display a first image,

an optical system configured to receive light emitted from the display module and perform optical path conversion on the light emitted from the display module to form an enlarged virtual image;

a lens member;

a first light guide member disposed in the lens member;

a second light guide member configured to transmit the light passing through the optical system to the first light guide member,

wherein the first light guide member is configured to receive light transmitted through the second light guide member to be reflected toward a user,

wherein at least the first portion of the display unit comprises: the optic member and the first light guide member,

in the first mode, the first portion is located within a viewable area of a user and facing the user, and the display module displays an image;

in the third mode, the first portion is located within a viewable area of a user and facing the user, and the display module stops displaying images so that the user can view objects located outside of the lens.

14. A control method is applied to an electronic device, wherein the electronic device has a first mode, a second mode and a third mode, and the electronic device comprises: an input unit configured to obtain an input from a user, the method comprising:

when the electronic equipment is in the first mode and the input unit detects that an operating body carries out second input, generating a second switching instruction to switch the electronic equipment from the first mode to the second mode;

when the electronic equipment is in the second mode, generating a mode holding instruction to hold the electronic equipment in the second mode when the input unit detects that the action of the operating body for holding the second input is unchanged;

when the electronic equipment is in the second mode, when the input unit detects that the second input action is stopped being kept on the operating body, a third input action is continued, and the third input action is completed, a third switching instruction is generated to switch the electronic equipment from the second mode to the third mode;

wherein,

the first mode is a play mode;

the second mode is a pause mode; and

the third mode is a stop mode.

15. The method of claim 14, further comprising:

when the input unit detects that the operating body performs a fourth input to the electronic device and completes the fourth input while the electronic device is in the first mode, generating the third switching instruction to switch the electronic device from the first mode to the third mode.

16. The method of claim 15, wherein

The third input is part of the fourth input.

17. The method of claim 14 or 15, further comprising:

when the electronic device is in the second mode, when the input unit detects that the operating body stops holding the second input and no input is continuously input to the electronic device after the holding of the second input is stopped, generating a first switching instruction to switch the electronic device from the second mode to the first mode.

18. The method of claim 17, wherein

The input unit is a touch sensing unit configured to obtain touch input from a user;

the input unit detecting that the operation body performs the second input includes:

the touch sensing unit detects that the operation body carries out second touch input in a touch sensing area of the operation body;

the input unit detecting that the operation body holds the second input includes:

the touch sensing unit detects that the operating body keeps the second touch input in a touch sensing area of the operating body;

the input unit detects that the second input is stopped being held at the operation body, continues to perform a third input, and completing the third input includes:

the touch sensing unit detects that the operation body stops keeping the second touch input in the touch sensing area, continues to perform third touch input and finishes the third touch input;

the input unit detecting that the operation body stops holding the second input, and not continuing to input the electronic device after stopping holding the second input includes:

the touch sensing unit detects that the operating body stops keeping the second touch input in the touch sensing area of the operating body, and leaves the touch sensing area after stopping keeping the second touch input.

19. The method of claim 18, wherein

The second touch input includes: a continuous touch operation at a fixed position within the touch sensitive area;

the third touch input includes: a moving operation within the touch sensitive area;

the touch sensing unit detects that the operation body stops keeping the second touch input in the touch sensing area, and the continuing of the third touch input comprises the following steps:

the touch sensing unit detects a pressing operation of the operating body stopped at the fixed position, and starts the moving operation from the fixed position without leaving the touch sensing area.

20. The method of claim 17, wherein

The input unit is a voice input unit configured to obtain a voice input from a user;

the input unit detecting that the operation body performs the second input includes:

the voice input unit detects a second voice input sent by a user;

the input unit detecting that the operation body holds the second input includes:

the voice input unit detects that the user keeps making the second voice input;

the input unit detects that the second input is stopped being held at the operation body, continues to perform a third input, and completing the third input includes:

the voice input unit detects that the user stops sending the second voice input, continues to perform third voice input and finishes the third voice input;

the input unit detecting that the operation body stops holding the second input, and not continuing to input the electronic device after stopping holding the second input includes:

the voice input unit detects that the user stops keeping uttering the second voice input and does not continue uttering the voice input.

21. The method of claim 17, further comprising:

when the electronic device is in the third mode, when the input unit detects that the operating body performs a first input, the first switching instruction is generated to switch the electronic device from the third mode to the first mode, wherein the first input is different from stopping to hold the second input.