CN111176535B - Screen splitting method based on intelligent sound box and intelligent sound box - Google Patents

Abstract

A screen splitting method based on an intelligent sound box and the intelligent sound box are provided, wherein the method comprises the following steps: detecting a first touch gesture on a touch screen of the intelligent sound box; judging whether the first touch control gesture is matched with a preset split screen gesture of the intelligent sound box or not; if the touch screen is matched with the touch screen, dividing a display area of the touch screen of the intelligent sound box into at least two partitions; respectively zooming the current application interface displayed by the display area to each of the at least two subareas; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition. By implementing the embodiment of the invention, a plurality of users can simultaneously control the intelligent sound box by utilizing split screens, so that the interactivity among a plurality of people is improved.

Description

Screen splitting method based on intelligent sound box and intelligent sound box

Technical Field

The invention relates to the technical field of intelligent sound boxes, in particular to a screen splitting method based on an intelligent sound box and the intelligent sound box.

Background

Currently, smart speakers with touch screens are increasingly popular with users. In practice, it is found that in the prior art, the control of the smart sound box through the touch screen is usually limited to a single user, and the requirement that multiple users control the same smart sound box at the same time cannot be met, so that the use of certain functions of the smart sound box in a multi-user scene is influenced, and the interactivity among the multiple users is reduced.

Disclosure of Invention

The embodiment of the invention discloses a screen splitting method based on an intelligent sound box and the intelligent sound box, which can enable a plurality of users to simultaneously control the intelligent sound box by using split screens, and improve the interactivity among a plurality of people.

The first aspect of the embodiment of the invention discloses a screen splitting method based on an intelligent sound box, which comprises the following steps:

detecting a first touch gesture on a touch screen of the intelligent sound box;

judging whether the first touch control gesture is matched with a preset split screen gesture of the intelligent sound box or not;

if the touch screen is matched with the touch screen, dividing the display area of the touch screen into at least two partitions;

zooming a current application interface displayed by the display area to each of the at least two partitions respectively; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

As an optional implementation manner, in the first aspect of the embodiment of the present invention, the detecting a first touch gesture on the touch screen of the smart sound box includes:

detecting whether a touch action on a touch screen of the intelligent sound box exists or not;

if so, judging whether the duration time of the touch action exceeds preset false touch prevention time or not;

and if the preset mistaken touch prevention time is exceeded, recording the change track of the touch point of the touch action on the touch screen as a first touch gesture.

As another optional implementation manner, in the first aspect of the embodiment of the present invention, after the current application interface displayed in the display area is respectively zoomed to each of the at least two partitions, the method further includes:

detecting a second touch gesture on the touch screen of the intelligent sound box;

identifying a target partition for inputting the second touch gesture from the at least two partitions;

and executing the corresponding control of the second touch gesture on the current application interface zoomed into the target partition.

As another optional implementation manner, in the first aspect of the embodiment of the present invention, the current application interface is a game application interface, and after the game application interface displayed in the display area is respectively zoomed to each of the at least two partitions, the method further includes:

obtaining a game target set through the game application interface of any one of the partitions;

synchronously displaying the game target in each partition so as to allow a plurality of people to simultaneously perform game interaction;

or, the current application interface is a learning application interface, and after the learning application interface displayed in the display area is respectively zoomed to each of the at least two partitions, the method further includes:

acquiring a learning target set through the learning application interface of any one of the partitions;

and synchronously displaying the learning target in each subarea so as to allow a plurality of people to simultaneously perform learning interaction.

As another optional implementation manner, in the first aspect of the embodiment of the present invention, after the game object is synchronously displayed in each of the partitions, the method further includes:

respectively acquiring the game completion progress and the game completion effect aiming at the game target in each subarea;

respectively calculating a game score corresponding to each subarea according to the game completion progress and the game completion effect;

outputting and displaying the game scores corresponding to each partition for comparison and viewing by a user;

alternatively, after synchronously displaying the learning objective in each of the partitions, the method further comprises:

respectively acquiring learning completion progress and learning completion effect aiming at the learning target in each subarea;

respectively calculating the learning score corresponding to each subarea according to the learning completion progress and the learning completion effect;

and outputting and displaying the learning score corresponding to each partition for comparison and viewing by a user.

As another optional implementation manner, in the first aspect of the embodiment of the present invention, the current application interface is a game application interface, and after the game application interface displayed in the display area is respectively zoomed to each of the at least two partitions, the method further includes:

obtaining a game instruction set through the game application interface of any one of the partitions;

extracting a first game parameter and a second game parameter from the game instruction; the first game parameter is used for controlling the action of the virtual game image in the subarea, and the second game parameter is used for controlling the voice of the virtual game image in the subarea;

according to the first game parameter, the virtual game image in the partition is controlled to complete corresponding action so as to realize interaction with the virtual game image in other partitions;

and controlling the virtual game image in the partition to send out corresponding voice according to the second game parameter so as to realize the dialogue with the virtual game image in other partitions.

A second aspect of the embodiments of the present invention discloses an intelligent speaker, including:

the first detection unit is used for detecting a first touch gesture on a touch screen of the intelligent sound box;

the judging unit is used for judging whether the first touch control gesture is matched with a preset split screen gesture of the intelligent sound box;

the dividing unit is used for dividing a display area of the touch screen into at least two partitions when the judging unit judges that the first touch gesture is matched with a preset screen splitting gesture of the intelligent sound box;

the zooming unit is used for zooming the current application interface displayed by the display area to each of the at least two partitions respectively; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

As an optional implementation manner, in a second aspect of the embodiment of the present invention, the first detection unit includes:

the detection subunit is used for detecting whether a touch action on a touch screen of the intelligent sound box exists or not;

the judging subunit is used for judging whether the duration time of the touch action exceeds preset mistaken touch preventing time or not when the detecting subunit detects that the touch action on the touch screen of the intelligent sound box exists;

and the recording subunit is used for recording the change track of the touch point of the touch action on the touch screen as a first touch gesture when the judging subunit judges that the duration time of the touch action exceeds the preset mistaken touch prevention time.

As another optional implementation manner, in the second aspect of the embodiment of the present invention, the smart sound box further includes:

the second detection unit is used for detecting a second touch gesture on the touch screen of the intelligent sound box after the zooming unit zooms the current application interface displayed in the display area to each of the at least two zones respectively;

the identification unit is used for identifying a target partition for inputting the second touch gesture from the at least two partitions;

and the execution unit is used for executing the control corresponding to the second touch gesture on the current application interface zoomed into the target partition.

As another optional implementation manner, in a second aspect of the embodiment of the present invention, the smart sound box further includes a first obtaining unit and a first output unit, where:

the first obtaining unit is configured to, when the current application interface is a game application interface, obtain a game target set by the game application interface of any one of the partitions after the scaling unit scales the game application interface displayed in the display area to each of the at least two partitions; the first output unit is used for synchronously displaying the game target in each partition so as to allow a plurality of people to simultaneously perform game interaction;

or, the first obtaining unit is configured to, when the current application interface is a learning application interface, obtain a learning target set by the learning application interface of any one of the partitions after the zooming unit zooms the learning application interface displayed in the display area to each of the partitions; the first output unit is used for synchronously displaying the learning target in each subarea so as to allow a plurality of people to simultaneously perform learning interaction.

As another optional implementation manner, in a second aspect of the embodiment of the present invention, the smart sound box further includes a second obtaining unit, a calculating unit, and a second output unit, where:

the second obtaining unit is configured to, when the current application interface is a game application interface, obtain, after the first output unit synchronously displays the game target in each of the partitions, a game completion progress and a game completion effect for the game target in each of the partitions, respectively; the computing unit is used for respectively computing the game scores corresponding to the subareas according to the game completion progress and the game completion effect; the second output unit is used for outputting and displaying the game scores corresponding to each partition so as to be contrasted and viewed by a user;

or, the second obtaining unit is configured to, when the current application interface is a learning application interface, after the first output unit synchronously displays the learning target in each of the partitions, respectively obtain a learning completion progress and a learning completion effect for the learning target in each of the partitions; the calculation unit is used for calculating the learning score corresponding to each subarea according to the learning completion progress and the learning completion effect; and the second output unit is used for outputting and displaying the learning score corresponding to each partition so as to be contrasted and viewed by a user.

As another optional implementation manner, in a second aspect of the embodiment of the present invention, the current application interface is a game application interface, and the smart sound box further includes:

a third obtaining unit, configured to obtain a game instruction set by the game application interface of any one of the partitions after the scaling unit scales the game application interface displayed in the display area to each of the partitions;

an extracting unit for extracting a first game parameter and a second game parameter from the game instruction; the first game parameter is used for controlling the action of the virtual game image in the subarea, and the second game parameter is used for controlling the voice of the virtual game image in the subarea;

the first control unit is used for controlling the virtual game image in the subarea to finish corresponding action according to the first game parameter so as to realize interaction with the virtual game image in other subareas;

and the second control unit is used for controlling the virtual game image in the subarea to send corresponding voice according to the second game parameter so as to realize the dialogue with the virtual game image in other subareas.

The third aspect of the embodiment of the present invention discloses another smart speaker, including:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute all or part of the steps of any one of the split-screen methods based on the intelligent sound box disclosed by the first aspect of the embodiments of the present invention.

The fourth aspect of the present invention discloses a computer-readable storage medium, which stores a computer program, wherein the computer program enables a computer to execute all or part of the steps of any one of the screen splitting methods based on an intelligent sound box disclosed in the first aspect of the present invention.

The fifth aspect of the embodiments of the present invention discloses a computer program product, which, when running on a computer, causes the computer to execute all or part of the steps of any one of the screen splitting methods based on an intelligent sound box of the first aspect of the embodiments of the present invention.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, a first touch gesture on a touch screen of the intelligent sound box is detected; then, judging whether the first touch control gesture is matched with a preset split screen gesture of the intelligent sound box; if the touch screen is matched with the touch screen, dividing the display area of the touch screen into at least two subareas; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition. Therefore, by implementing the embodiment of the invention, the split screen of the intelligent sound box can be realized, so that a plurality of users can control the intelligent sound box by utilizing the split screen, and the interactivity among a plurality of users is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, those skilled in the art will understand that other drawings can be obtained according to the drawings that need to be used in the embodiments without creative efforts.

Fig. 1 is a schematic flow chart of a screen splitting method based on an intelligent sound box disclosed in an embodiment of the present invention;

fig. 2 is a schematic flow chart of another screen splitting method based on a smart sound box disclosed in the embodiment of the present invention;

fig. 3 is a schematic flow chart of another screen splitting method based on a smart sound box disclosed in the embodiment of the present invention;

FIG. 4 is a schematic flow chart of another method for splitting a screen based on a smart sound box according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of an intelligent sound box disclosed in the embodiment of the present invention;

fig. 6 is a schematic structural diagram of another smart sound box disclosed in the embodiment of the present invention;

fig. 7 is a schematic structural diagram of another smart sound box disclosed in the embodiment of the present invention;

fig. 8 is a schematic structural diagram of another smart sound box disclosed in the embodiment of the present invention;

fig. 9 is a schematic structural diagram of another smart sound box disclosed in the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "comprises" and "comprising," and any variations thereof, of embodiments of the present invention are intended to cover non-exclusive inclusions, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The embodiment of the invention discloses a screen splitting method based on an intelligent sound box and the intelligent sound box, which can enable a plurality of users to simultaneously control the intelligent sound box by using split screens, and improve the interactivity among a plurality of people. The following detailed description is made with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic flow chart of a screen splitting method based on an intelligent sound box according to an embodiment of the present invention. As shown in fig. 1, the screen splitting method may include the following steps:

101. the smart sound box detects a first touch gesture to its touch screen.

The embodiment of the invention discloses an intelligent sound box with a touch screen, which can be used for acquiring a corresponding control instruction by detecting a touch gesture on the touch screen, so that the intelligent sound box can be controlled. Illustratively, the step 101 may include: detecting whether a touch action on a touch screen of the intelligent sound box exists or not; if yes, judging whether the duration time of the touch action exceeds preset mistaken touch prevention time or not; if the touch gesture exceeds the first touch gesture, recording the change track of the touch point of the touch action on the touch screen of the intelligent sound box to serve as the first touch gesture.

By implementing the method, the touch gesture of the touch screen of the intelligent sound box can be prevented from being detected by mistake in partial scenes (such as the user touches the touch screen by mistake or sundries are placed on the touch screen), so that the false triggering probability is reduced, and the accuracy of the intelligent sound box in responding to the touch operation is improved.

102. The intelligent sound box judges whether the first touch gesture is matched with a preset split screen gesture, and if the first touch gesture is matched with the preset split screen gesture, the step 103 to the step 104 are executed; if not, the flow is ended.

103. The display area of the touch screen of the intelligent sound box is divided into at least two partitions.

For example, when the smart speaker divides the display area of the touch screen into at least two partitions, the dividing manner may include vertical equal division, horizontal equal division, and angle equal division, where the angle equal division refers to using a connecting line between the center and the boundary of the display area of the touch screen as a dividing line, and each dividing line forms the same angle (e.g., when three equal times, each dividing line forms 120 °); in addition, various unequal divisions may be included, and embodiments of the present invention are not particularly limited.

As an optional implementation manner, before the smart speaker divides the display area of the touch screen thereof into at least two partitions, the following steps may be further performed: judging whether the split screen gesture matched with the first touch gesture is unique; if not, displaying the screen splitting mode corresponding to each matched screen splitting gesture in a thumbnail mode for a user to preview; acquiring a screen splitting mode selected by a user; and according to the screen splitting mode selected by the user, dividing the display area of the touch screen of the intelligent sound box into at least two subareas.

By implementing the method, the intelligent sound box can realize diversified screen splitting, so that the requirement of a user for carrying out multi-person interaction in different forms by utilizing different screen splitting modes is met.

104. The intelligent sound box respectively zooms the current application interface displayed in the display area into each of the at least two subareas; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

As an optional implementation manner, after the smart sound box respectively zooms the current application interface displayed in the display area to each of the at least two partitions, the following steps may be further performed: detecting a long-time pressing action on a touch screen of the intelligent sound box; if so, determining whether the long pressing action is input by any one of the at least two partitions; if yes, setting the partition for inputting the long press action as a main control partition; and displaying a menu button on the main control partition so that a user controlling the main control partition can set the split-screen state of the intelligent sound box.

The setting of the split-screen state of the intelligent sound box can include resetting the split-screen mode, resetting the main control partition, exiting the split-screen state and the like.

By implementing the method, the intelligent sound box can be ensured to have the only main control partition after screen splitting as an entrance for setting the screen splitting state of the intelligent sound box, the influence of misoperation on the screen splitting state is reduced, and the multi-user interaction stability is improved.

Further, after the menu button is displayed on the main control partition, the following steps can be executed: detecting the user identity for controlling the main control partition; searching whether a user file corresponding to the user identity exists according to the user identity, and if not, establishing a user file corresponding to the user identity; the user file at least comprises information such as user identity, user touch habit and the like; according to the user control habit in the user file, the touch control gesture detected in the main control partition is intelligently fine-tuned, so that the influence caused by misoperation of the user is reduced, and the accuracy of the touch control gesture recognition of the user is improved.

Furthermore, the above steps may also be performed in other partitions besides the main control partition, so as to improve the accuracy of the user touch gesture recognition in the multi-user interaction scene.

Therefore, by implementing the screen splitting method described in fig. 1, the display area of the touch screen of the smart sound box can be divided into a plurality of partitions, and the smart sound box can be independently controlled through the current application interface zoomed into each partition, so that a plurality of users can simultaneously control the smart sound box by using the split screens, and interactivity among multiple users is improved.

Referring to fig. 2, fig. 2 is a schematic flowchart of another screen splitting method based on an intelligent sound box according to an embodiment of the present invention. As shown in fig. 2, the screen splitting method may include the following steps:

201. the intelligent sound box detects whether a touch action on a touch screen exists, and if so, the step 202 is executed; if not, the flow ends.

202. The intelligent sound box judges whether the duration time of the touch action exceeds preset false touch prevention time or not, and if so, the steps 203 to 204 are executed; if not, the flow is ended.

203. The intelligent sound box records the change track of the touch point of the touch action on the touch screen of the intelligent sound box as a first touch gesture.

By implementing the steps 201 to 203, the touch gesture of the touch screen of the smart sound box can be prevented from being detected by mistake in a partial scene (for example, a user touches the touch screen by mistake or sundries are placed on the touch screen), so that the false triggering probability is reduced, and the accuracy of the smart sound box in responding to the touch operation is improved.

204. The intelligent sound box judges whether the first touch control gesture is matched with a preset split screen gesture, and if the first touch control gesture is matched with the preset split screen gesture, the steps 205 to 209 are executed; if not, the flow is ended.

205. The display area of the touch screen of the intelligent sound box is divided into at least two partitions.

206. The intelligent sound box respectively zooms the current application interface displayed in the display area into each of the at least two subareas; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

207. The smart speaker detects a second touch gesture to its touch screen.

208. And the intelligent sound box identifies a target partition for inputting the second touch gesture from the at least two partitions.

209. And the intelligent sound box executes the control corresponding to the second touch control gesture on the current application interface zoomed into the target partition.

In the embodiment of the present invention, by implementing the step 207 to the step 209, the current application interface of each partition can be used as a control interface for independently controlling the smart sound box through the partition, so that a plurality of users can simultaneously control the smart sound box by using the split screens.

As an optional implementation manner, the smart sound box may further enter a demonstration mode, record the second touch gesture and input the target partition of the second touch gesture; after the smart sound box executes the control corresponding to the second touch gesture on the current application interface zoomed into the target partition, the control can be repeatedly executed on the current application interfaces in other partitions; optionally, the smart sound box may further display the thumbnail of the second touch gesture on the current application interface in the other partition for simulating learning.

For example, the current application interface may be a chinese character writing application interface, and the second touch gesture may be a writing stroke; the intelligent sound box enters a demonstration mode, writing strokes of users (such as parents) in a target partition are recorded, the writing strokes are repeated on Chinese character writing application interfaces in other partitions, and an abbreviated drawing is displayed at the same time, so that the Chinese character writing process can be displayed in a vivid mode, and users (such as children) controlling other partitions can learn to write Chinese characters better.

Therefore, by implementing the screen splitting method described in fig. 2, a plurality of users can simultaneously control the smart sound box by using the split screen, and interactivity among a plurality of people is improved.

In addition, by implementing the screen splitting method described in fig. 2, a user can further control multiple partitions on the basis of controlling a single partition, so that the effect of demonstration is achieved, the teaching function in a multi-person scene is realized, and the application range of the intelligent sound box is expanded.

Referring to fig. 3, fig. 3 is a schematic flowchart of another screen splitting method based on an intelligent sound box according to an embodiment of the present invention. As shown in fig. 3, the screen splitting method may include the following steps:

301. the intelligent sound box detects whether a touch action on a touch screen exists, and if so, step 302 is executed; if not, the flow ends.

302. The intelligent sound box judges whether the duration time of the touch action exceeds preset false touch prevention time, and if so, the steps 303 to 304 are executed; if not, the flow is ended.

303. The intelligent sound box records the change track of the touch point of the touch action on the touch screen of the intelligent sound box as a first touch gesture.

304. The intelligent sound box judges whether the first touch gesture is matched with a preset split-screen gesture, and if the first touch gesture is matched with the preset split-screen gesture, the steps 305 to 311 are executed; if not, the flow is ended.

305. The display area of the touch screen of the intelligent sound box is divided into at least two partitions.

306. The intelligent sound box respectively zooms the current application interface displayed in the display area into each of the at least two subareas; the current application interface is a game application interface, and the game application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

307. And the intelligent sound box acquires a game target set through the game application interface of any one partition.

For example, the game goal may be a goal of accumulated points in the game or a goal of the number of completed sub-game tasks in the game.

308. The intelligent sound box synchronously displays the game target in each subarea so as to allow a plurality of people to simultaneously play game interaction.

309. And the intelligent sound box respectively acquires the game completion progress and the game completion effect aiming at the game target in each partition.

For example, the game goal may be a goal of the number of completed sub-game tasks in the game, the game completion progress for the game goal may be a percentage of the number of completed sub-game tasks in the total number, and the game completion effect may include the current elapsed time, the current game character attribute, and the like; by executing the following steps 310 to 311, the game score corresponding to each partition can be calculated according to the game completion progress and the game completion effect, so that the competitiveness and playability of a multiplayer game are improved, and the experience of a user in an interactive game by using the intelligent sound box in a split screen manner is improved.

310. And the intelligent sound box respectively calculates the game scores corresponding to each subarea according to the game completion progress and the game completion effect.

311. And the intelligent sound box outputs and displays the game scores corresponding to each partition so as to be contrasted and viewed by the user.

As an optional implementation manner, the current application interface may also be a learning application interface, and after the learning application interface displayed in the display area is respectively zoomed into each of the at least two partitions, the following steps may be further performed: acquiring a learning target set through a learning application interface of any one partition; synchronously displaying the learning target in each subarea so as to allow a plurality of people to simultaneously carry out learning interaction; respectively acquiring the learning completion progress and the learning completion effect aiming at the learning target in each partition; respectively calculating the learning score corresponding to each subarea according to the learning completion progress and the learning completion effect; and outputting and displaying the learning scores corresponding to each partition for comparison and viewing by the user.

For example, the current application interface may be a word memory application interface; after the intelligent sound box performs steps 301 to 306 to realize screen splitting, a word memory amount target set through a word memory application interface of any one partition can be obtained; synchronously displaying the word memory amount target in each partition, so that a plurality of users can perform memory racing; every time a user finishes memorizing a word through the controlled subarea, the learning score corresponding to the subarea can be calculated according to the memorizing progress and the memorizing condition of the user (including the error times before the word is correctly spelled, the accuracy of translating the word and the like); the learning scores corresponding to each subarea can be updated and displayed in real time in the whole memory racing process so as to be contrasted and viewed by the user.

Furthermore, the intelligent sound box can also screen out words with the error frequency higher than a certain preset value according to the memory condition (including the error frequency before correctly spelling the word, the accuracy of translating the word and the like) of the user to the word in the whole memory racing process, and the words are taken as key words; then, the key words can be played in a voice mode so that the user can deepen memory; on the basis, the number of the key words is set as a new word memory amount target, and the new word memory amount target is synchronously displayed in each partition so that a plurality of users can perform a new round of memory racing; and repeating the steps until the number of the key words is zero.

By implementing the method, the interestingness of interactive learning by the user by utilizing the intelligent loudspeaker box in a multi-user scene in a split screen mode can be increased, and the use experience of the user is improved.

Therefore, by implementing the screen splitting method described in fig. 3, a plurality of users can simultaneously control the smart sound box by using the split screen, and interactivity among a plurality of people is improved.

In addition, by implementing the screen splitting method described in fig. 3, the experience of multiple users in performing interactive games or interactive learning by using the smart sound boxes in a screen splitting manner can be improved.

Referring to fig. 4, fig. 4 is a schematic flowchart of another screen splitting method based on an intelligent sound box according to an embodiment of the present invention. As shown in fig. 4, the screen splitting method may include the following steps:

401. the intelligent sound box detects whether a touch action on a touch screen exists, and if so, the step 402 is executed; if not, the flow ends.

402. The intelligent sound box judges whether the duration time of the touch action exceeds preset false touch prevention time or not, and if so, the steps 403 to 404 are executed; if not, the flow is ended.

403. The intelligent sound box records the change track of the touch point of the touch action on the touch screen of the intelligent sound box as a first touch gesture.

404. The intelligent sound box judges whether the first touch control gesture is matched with a preset split screen gesture, and if the first touch control gesture is matched with the preset split screen gesture, the steps 405 to 410 are executed; if not, the flow is ended.

405. The display area of the touch screen of the intelligent sound box is divided into at least two partitions.

406. The intelligent sound box respectively zooms the current application interface displayed in the display area into each of the at least two subareas; the current application interface is a game application interface, and the game application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

407. The intelligent sound box obtains a game instruction set through a game application interface of any one partition.

408. The intelligent sound box extracts a first game parameter and a second game parameter from the game instruction; the first game parameter is used for controlling the action of the virtual game image in the subarea, and the second game parameter is used for controlling the voice of the virtual game image in the subarea.

409. And the intelligent sound box controls the virtual game image in the partition to complete corresponding action according to the first game parameter so as to realize interaction with the virtual game image in other partitions.

410. And the intelligent sound box controls the virtual game image in the partition to send out corresponding voice according to the second game parameter so as to realize conversation with the virtual game image in other partitions.

In the embodiment of the present invention, by executing steps 401 to 406, the display area of the touch screen of the smart speaker can be divided into a plurality of partitions, and the smart speaker can be independently controlled through the current application interface zoomed into each partition; wherein, the current application interface is a game application interface. On the basis, the steps 407 to 410 are continuously executed, and the action and the voice of the virtual game image in the partition where the game application interface is located can be controlled by setting the game instruction in the game application interface, so as to interact and converse with the virtual game image in other partitions.

Further, as an optional implementation manner, the smart sound box is applied to an indoor environment, and the virtual game image can be projected on a plane (such as an indoor wall surface) outside the smart sound box; according to the game instruction set by the user on the game application interface, the virtual game image can be controlled to interact and converse with other users in the indoor environment; furthermore, by monitoring the sound in the indoor environment, the number of users in the indoor environment and the attribute of each user can be analyzed, wherein the attribute of each user at least comprises the age, the gender and the activity degree of the user; according to the number of the users and the attribute of each user, the appearance and the sound of the virtual game image can be changed to obtain the virtual game image which is most suitable for the users in the indoor environment, so that the acceptance of the users in the indoor environment to the virtual game image can be improved, and the virtual game image is favorable for better exciting and guiding multi-user interaction.

Therefore, by implementing the screen splitting method described in fig. 4, a plurality of users can simultaneously control the smart sound box by using the split screen, and interactivity among a plurality of people is improved.

In addition, the split screen method described in fig. 4 can be implemented to control multiple virtual game images by using split screen, so as to better stimulate and guide multi-person interaction.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an intelligent sound box according to an embodiment of the present invention. As shown in fig. 5, the smart speaker may include:

a first detection unit 501, configured to detect a first touch gesture on a touch screen of the smart speaker;

a determining unit 502, configured to determine whether the first touch gesture matches a preset split-screen gesture of the smart sound box;

a dividing unit 503, configured to divide the display area of the touch screen into at least two partitions when the determining unit 502 determines that the first touch gesture matches a preset screen splitting gesture of the smart speaker;

a zooming unit 504, configured to zoom the current application interface displayed in the display area to each of the at least two partitions respectively; and the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition.

As an optional implementation manner, after the zooming unit 504 zooms the current application interface displayed in the display area to each of the at least two partitions, the first detecting unit 501 may further detect a long-press action on the touch screen of the smart sound box; if so, determining whether the long pressing action is input by any one of the at least two partitions; if yes, setting the partition for inputting the long press action as a main control partition; and displaying a menu button on the main control partition so that a user controlling the main control partition can set the split-screen state of the intelligent sound box.

The setting of the split-screen state of the intelligent sound box can include resetting the split-screen mode, resetting the main control partition, exiting the split-screen state and the like.

Furthermore, the intelligent sound box can also detect the user identity for controlling the main control partition; searching whether a user file corresponding to the user identity exists according to the user identity, and if not, establishing a user file corresponding to the user identity; the user file at least comprises information such as user identity, user touch habit and the like; according to the user control habit in the user profile, the touch control gesture detected by the first detection unit 501 in the main control partition is intelligently fine-tuned, so that the influence caused by misoperation of the user is reduced, and the accuracy of the user touch control gesture recognition is improved.

Furthermore, the intelligent sound box can also implement the optional implementation mode in other partitions besides the main control partition, so as to improve the accuracy of the user touch gesture recognition in the multi-person interaction scene.

It can be seen that, with the implementation of the intelligent sound box described in fig. 5, the display area of the touch screen of the intelligent sound box can be divided into a plurality of partitions, and the intelligent sound box can be independently controlled through the current application interface zoomed to each partition, so that a plurality of users can control the intelligent sound box simultaneously by using the partitions, and interactivity among multiple users is improved.

Referring to fig. 6, fig. 6 is a schematic structural diagram of another intelligent sound box disclosed in the embodiment of the present invention. The smart sound box shown in fig. 6 is obtained by optimizing the smart sound box shown in fig. 5. Compared with the smart sound box shown in fig. 5, the smart sound box shown in fig. 6 further includes:

a second detecting unit 505, configured to detect a second touch gesture on the touch screen of the smart speaker after the zooming unit 504 zooms the current application interface displayed in the display area to each of the at least two partitions respectively;

the identifying unit 506 is configured to identify a target partition for inputting the second touch gesture from the at least two partitions;

the executing unit 507 is configured to execute the corresponding manipulation of the second touch gesture on the current application interface zoomed into the target partition.

As an alternative embodiment, in the smart speaker shown in fig. 6, the first detecting unit 501 includes:

the detection subunit 5011 is configured to detect whether a touch action on the touch screen of the smart speaker exists;

the judging subunit 5012 is configured to, when the detecting subunit 5011 detects that there is a touch action on the touch screen of the smart speaker, judge whether a duration of the touch action exceeds a preset false touch prevention time;

the recording subunit 5013 is configured to record a change trajectory of a touch point of the touch action on the touch screen as a first touch gesture when the determining subunit 5013 determines that the duration of the touch action exceeds a preset mistaken touch prevention time.

As another optional implementation manner, the smart sound box may further enter a demonstration mode, and when the second detection unit 505 detects a second touch gesture on the smart sound box, record the second touch gesture, and the recognition unit 506 recognizes a target partition where the second touch gesture is input; after the execution unit 507 executes the manipulation corresponding to the second touch gesture on the current application interface zoomed into the target partition, repeatedly executing the manipulation on the current application interfaces in other partitions; optionally, the smart sound box may further display the thumbnail of the second touch gesture on the current application interface in the other partition for simulating learning.

Therefore, by implementing the intelligent sound box described in fig. 6, a plurality of users can control the intelligent sound box by using split screens, and interactivity among multiple users is improved.

In addition, the intelligent sound box described in fig. 6 is implemented, so that a user can further control a plurality of partitions on the basis of controlling a single partition, thereby playing a role in demonstration and expanding the application range of the intelligent sound box.

Referring to fig. 7, fig. 7 is a schematic structural diagram of another intelligent sound box disclosed in the embodiment of the present invention. The smart sound box shown in fig. 7 is obtained by optimizing the smart sound box shown in fig. 5. Compared with the smart sound box shown in fig. 5, the smart sound box shown in fig. 6 further includes a first obtaining unit 508, a first output unit 509, a second obtaining unit 510, a calculating unit 511, and a second output unit 512, wherein:

the first obtaining unit 508 is configured to, when the current application interface is a game application interface, obtain a game target set by the game application interface of any one partition after the zooming unit 504 zooms the game application interface displayed in the display area of the touch screen of the smart sound box to each of the at least two partitions; the first output unit 509 is configured to synchronously display the game object in each partition, so that multiple players can simultaneously perform game interaction; the second obtaining unit 510 is configured to obtain a game completion progress and a game completion effect for the game target in each partition; the calculating unit 511 is configured to calculate a game score corresponding to each partition according to the game completion progress and the game completion effect; the second output unit 512 is configured to output and display the game score corresponding to each partition for the user to compare and view;

or, the first obtaining unit 508 is configured to, when the current application interface is a learning application interface, obtain a learning target set by the learning application interface of any partition after the zooming unit 504 zooms the learning application interface displayed in the display area to each of the at least two partitions; the first output unit 509 is configured to synchronously display the learning object in each partition for multiple users to perform learning interaction simultaneously; the second obtaining unit 510 is configured to obtain a learning completion progress and a learning completion effect for the learning target in each partition; the calculating unit 511 is configured to calculate a learning score corresponding to each of the partitions according to the learning completion progress and the learning completion effect; the second output unit 512 is configured to output and display the learning score corresponding to each partition for the user to compare and view.

For example, the current application interface may be a word memory application interface; after the zooming unit 504 zooms the current application interface displayed in the display area into each of the at least two partitions, the first obtaining unit 508 may obtain a word memory amount target set through a word memory application interface of any one of the partitions; the first output unit 509 synchronously displays the word memory amount target in each partition, so that a plurality of users can perform memory racing; every time a user completes the memory of a word through the partition controlled by the user, the calculation unit 511 may calculate the learning score corresponding to the partition according to the memory progress and memory condition (including the number of errors before correctly spelling the word, the accuracy of translating the word, etc.) of the user acquired by the second acquisition unit 510; the second output unit 512 can update and display the learning score corresponding to each partition in real time during the whole memory race for the user to compare and view.

Furthermore, the intelligent sound box can also screen out words with the error frequency higher than a certain preset value according to the memory condition (including the error frequency before correctly spelling the word, the accuracy of translating the word and the like) of the user to the word in the whole memory racing process, and the words are taken as key words; then, the key words can be played in a voice mode so that the user can deepen memory; on the basis, the number of the key words is set as a new word memory amount target, and the key words are synchronously displayed in each partition through the first output unit 509 so that a plurality of users can perform a new memory race; and repeating the steps until the number of the key words is zero.

As an alternative embodiment, in the smart speaker shown in fig. 7, the first detecting unit 501 includes:

the detection subunit 5011 is configured to detect whether a touch action on the touch screen of the smart speaker exists;

the judging subunit 5012 is configured to, when the detecting subunit 5011 detects that there is a touch action on the touch screen of the smart speaker, judge whether a duration of the touch action exceeds a preset false touch prevention time;

the recording subunit 5013 is configured to record a change trajectory of a touch point of the touch action on the touch screen as a first touch gesture when the determining subunit 5013 determines that the duration of the touch action exceeds a preset mistaken touch prevention time.

Therefore, by implementing the intelligent sound box described in fig. 7, a plurality of users can control the intelligent sound box by using split screens, and interactivity among multiple users is improved.

In addition, the intelligent sound box described in fig. 7 can increase the interest of the user in interactive learning by using the split screen of the intelligent sound box in a multi-user scene, and improves the use experience of the user.

Referring to fig. 8, fig. 8 is a schematic structural diagram of another intelligent sound box disclosed in the embodiment of the present invention. The smart sound box shown in fig. 8 is obtained by optimizing the smart sound box shown in fig. 5. Compared with the smart sound box shown in fig. 5, the smart sound box shown in fig. 8 further includes:

a third obtaining unit 513, configured to, when a current application interface displayed in a display area of the touch screen of the smart speaker is a game application interface, obtain a game instruction set through the current application interface of any one partition after the scaling unit 504 scales the game application interface to each of the at least two partitions;

an extracting unit 514 for extracting the first game parameter and the second game parameter from the game instruction; the first game parameter is used for controlling the action of the virtual game image in the subarea, and the second game parameter is used for controlling the voice of the virtual game image in the subarea;

a first control unit 515, configured to control the virtual game image in the partition to complete a corresponding action according to the first game parameter, so as to implement interaction with the virtual game image in another partition;

and a second control unit 516, configured to control the virtual game image in the partition to emit corresponding voice according to the second game parameter, so as to implement a dialog with the virtual game image in another partition.

As an alternative embodiment, in the smart speaker shown in fig. 8, the first detecting unit 501 includes:

the detection subunit 5011 is configured to detect whether a touch action on the touch screen of the smart speaker exists;

the judging subunit 5012 is configured to, when the detecting subunit 5011 detects that there is a touch action on the touch screen of the smart speaker, judge whether a duration of the touch action exceeds a preset false touch prevention time;

the recording subunit 5013 is configured to record a change trajectory of a touch point of the touch action on the touch screen as a first touch gesture when the determining subunit 5013 determines that the duration of the touch action exceeds a preset mistaken touch prevention time.

As another optional implementation, the smart sound box is applied to an indoor environment, and the virtual game image may be projected on a plane (e.g., an indoor wall surface) outside the smart sound box; according to the game instruction obtained by the third obtaining unit 513 from the game application interface, the virtual game character can be manipulated to interact and converse with other users in the indoor environment through the first manipulating unit 515 and the second manipulating unit 516; furthermore, by monitoring the sound in the indoor environment, the number of users in the indoor environment and the attribute of each user can be analyzed, wherein the attribute of each user at least comprises the age, the gender and the activity degree of the user; according to the number of the users and the attribute of each user, the appearance and the sound of the virtual game image can be changed to obtain the virtual game image which is most suitable for the users in the indoor environment, so that the acceptance of the users in the indoor environment to the virtual game image can be improved, and the virtual game image is favorable for better exciting and guiding multi-user interaction.

Therefore, by implementing the intelligent sound box described in fig. 8, a plurality of users can control the intelligent sound box by using split screens, and interactivity among multiple users is improved.

In addition, the intelligent sound box described in fig. 8 can control a plurality of virtual game images by using split screens, so as to better stimulate and guide multi-person interaction.

Referring to fig. 9, fig. 9 is a schematic structural diagram of another intelligent sound box disclosed in the embodiment of the present invention. As shown in fig. 9, the smart speaker may include:

a memory 901 in which executable program code is stored;

a processor 902 coupled to a memory 901;

the processor 902 calls the executable program code stored in the memory 901 to execute all or part of the steps in any one of the screen splitting methods based on the smart speaker in fig. 1 to 4.

It should be noted that, in this embodiment of the application, the smart sound box shown in fig. 9 may further include a speaker module, a camera module, a display screen, a light projection module, a battery module, a wireless communication module (such as a mobile communication module, a WIFI module, a bluetooth module, etc.), a sensor module (such as a proximity sensor, a pressure sensor, etc.), an input module (such as a microphone, a button), and undisplayed components such as a user interface module (such as a charging interface, an external power supply interface, a card slot, a wired earphone interface, etc.).

In addition, the embodiment of the invention further discloses a computer-readable storage medium storing a computer program for electronic data exchange, wherein the computer program enables a computer to execute all or part of the steps in any one of the screen splitting methods based on the smart sound box in fig. 1 to fig. 4.

In addition, the embodiment of the invention further discloses a computer program product, and when the computer program product runs on a computer, all or part of steps in any one of the computer 1-fig. 4 based on the screen splitting method of the intelligent sound box are enabled to be performed.

It will be understood by those skilled in the art that all or part of the steps in the methods of the embodiments described above may be implemented by hardware instructions of a program, and the program may be stored in a computer-readable storage medium, where the storage medium includes Read-Only Memory (ROM), Random Access Memory (RAM), Programmable Read-Only Memory (PROM), Erasable Programmable Read-Only Memory (EPROM), One-time Programmable Read-Only Memory (OTPROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), Compact Disc Read-Only Memory (CD-ROM), or other Memory, such as a magnetic disk, or a combination thereof, A tape memory, or any other medium readable by a computer that can be used to carry or store data.

The screen splitting method based on the intelligent sound box and the intelligent sound box disclosed by the embodiment of the invention are described in detail, a specific example is applied in the text to explain the principle and the implementation mode of the invention, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (12)

1. A screen splitting method based on an intelligent sound box is characterized by comprising the following steps:

detecting a first touch gesture on a touch screen of the intelligent sound box;

judging whether the first touch control gesture is matched with a preset split screen gesture of the intelligent sound box or not;

if the touch screen is matched with the touch screen, dividing the display area of the touch screen into at least two partitions;

zooming a current application interface displayed by the display area to each of the at least two partitions respectively; the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition;

detecting a long-time pressing action on a touch screen of the intelligent sound box; determining whether the long press action is input by any one of the at least two partitions; if yes, setting the partition for inputting the long press action as a main control partition; displaying a menu button on the main control partition so that a user controlling the main control partition can set the split-screen state of the intelligent sound box;

after a menu button is displayed on the main control partition, detecting the identity of a user operating the main control partition; searching whether a user profile corresponding to the user identity exists or not according to the user identity, and if not, establishing a user profile corresponding to the user identity, wherein the user profile at least comprises user identity information and user touch habit information; and according to the user touch habit in the user file, intelligently fine-tuning the touch gesture detected in the main control partition.

2. The screen splitting method of claim 1, wherein the detecting a first touch gesture to the touch screen of the smart sound box comprises:

detecting whether a touch action on a touch screen of the intelligent sound box exists or not;

if so, judging whether the duration time of the touch action exceeds preset false touch prevention time or not;

and if the preset mistaken touch prevention time is exceeded, recording the change track of the touch point of the touch action on the touch screen as a first touch gesture.

3. The screen splitting method according to any one of claims 1 to 2, wherein after zooming the current application interface displayed by the display area to each of the at least two sections respectively, the method further comprises:

detecting a second touch gesture on the touch screen of the intelligent sound box;

identifying a target partition for inputting the second touch gesture from the at least two partitions;

and executing the corresponding control of the second touch gesture on the current application interface zoomed into the target partition.

4. The screen splitting method according to any one of claims 1 to 2, wherein the current application interface is a game application interface, and after the game application interface displayed in the display area is respectively zoomed into each of the at least two partitions, the method further comprises:

obtaining a game target set through the game application interface of any one of the partitions;

synchronously displaying the game target in each partition so as to allow a plurality of people to simultaneously perform game interaction;

or, the current application interface is a learning application interface, and after the learning application interface displayed in the display area is respectively zoomed to each of the at least two partitions, the method further includes:

acquiring a learning target set through the learning application interface of any one of the partitions;

and synchronously displaying the learning target in each subarea so as to allow a plurality of people to simultaneously perform learning interaction.

5. The screen splitting method of claim 4, wherein after synchronously displaying the game object in each of the partitions, the method further comprises:

respectively acquiring the game completion progress and the game completion effect aiming at the game target in each subarea;

respectively calculating a game score corresponding to each subarea according to the game completion progress and the game completion effect;

outputting and displaying the game scores corresponding to each partition for comparison and viewing by a user;

alternatively, after synchronously displaying the learning objective in each of the partitions, the method further comprises:

respectively acquiring learning completion progress and learning completion effect aiming at the learning target in each subarea;

respectively calculating the learning score corresponding to each subarea according to the learning completion progress and the learning completion effect;

and outputting and displaying the learning score corresponding to each partition for comparison and viewing by a user.

6. An intelligent sound box, comprising:

the first detection unit is used for detecting a first touch gesture on a touch screen of the intelligent sound box;

the judging unit is used for judging whether the first touch control gesture is matched with a preset split screen gesture of the intelligent sound box;

the dividing unit is used for dividing a display area of the touch screen into at least two partitions when the judging unit judges that the first touch gesture is matched with a preset screen splitting gesture of the intelligent sound box;

the zooming unit is used for zooming the current application interface displayed by the display area to each of the at least two partitions respectively; the current application interface zoomed to each partition is used as a control interface for independently controlling the intelligent sound box through the partition;

the intelligent sound box is further used for: detecting a long-time pressing action on a touch screen of the intelligent sound box; determining whether the long press action is input by any one of the at least two partitions; if yes, setting the partition for inputting the long press action as a main control partition; displaying a menu button on the main control partition so that a user controlling the main control partition can set the split-screen state of the intelligent sound box;

the intelligent sound box is also used for detecting the user identity of the main control partition after the menu button is displayed on the main control partition; searching whether a user profile corresponding to the user identity exists or not according to the user identity, and if not, establishing a user profile corresponding to the user identity, wherein the user profile at least comprises user identity information and user touch habit information; and according to the user touch habit in the user file, intelligently fine-tuning the touch gesture detected by the first detection unit in the main control partition.

7. The smart sound box of claim 6, wherein the first detection unit comprises:

the detection subunit is used for detecting whether a touch action on a touch screen of the intelligent sound box exists or not;

the judging subunit is used for judging whether the duration time of the touch action exceeds preset mistaken touch preventing time or not when the detecting subunit detects that the touch action on the touch screen of the intelligent sound box exists;

and the recording subunit is used for recording the change track of the touch point of the touch action on the touch screen as a first touch gesture when the judging subunit judges that the duration time of the touch action exceeds the preset mistaken touch prevention time.

8. The smart sound box of any one of claims 6 to 7, further comprising:

the second detection unit is used for detecting a second touch gesture on the touch screen of the intelligent sound box after the zooming unit zooms the current application interface displayed in the display area to each of the at least two zones respectively;

the identification unit is used for identifying a target partition for inputting the second touch gesture from the at least two partitions;

and the execution unit is used for executing the control corresponding to the second touch gesture on the current application interface zoomed into the target partition.

9. The smart sound box according to any one of claims 6 to 7, wherein the current application interface is a game application interface, the smart sound box further comprises a first obtaining unit and a first output unit, wherein:

the first obtaining unit is configured to obtain a game target set by the game application interface of any one of the at least two partitions after the scaling unit scales the game application interface displayed in the display area to each of the at least two partitions; the first output unit is used for synchronously displaying the game target in each partition so as to allow a plurality of people to simultaneously perform game interaction;

or, the current application interface is a learning application interface, and the first obtaining unit is configured to obtain a learning target set by the learning application interface of any one of the partitions after the zooming unit zooms the learning application interface displayed in the display area to each of the at least two partitions; the first output unit is used for synchronously displaying the learning target in each subarea so as to allow a plurality of people to simultaneously perform learning interaction.

10. The smart sound box of claim 9, further comprising a second acquisition unit, a calculation unit, and a second output unit, wherein:

the second obtaining unit is configured to obtain a game completion progress and a game completion effect for the game target in each of the partitions after the first output unit synchronously displays the game target in each of the partitions; the computing unit is used for respectively computing the game scores corresponding to the subareas according to the game completion progress and the game completion effect; the second output unit is used for outputting and displaying the game scores corresponding to each partition so as to be contrasted and viewed by a user;

or, the second obtaining unit is configured to obtain a learning completion progress and a learning completion effect for the learning target in each of the partitions after the first output unit synchronously displays the learning target in each of the partitions; the calculation unit is used for calculating the learning score corresponding to each subarea according to the learning completion progress and the learning completion effect; and the second output unit is used for outputting and displaying the learning score corresponding to each partition so as to be contrasted and viewed by a user.

11. An intelligent sound box, comprising:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute the screen splitting method of any one of claims 1 to 5.

12. A computer-readable storage medium storing a computer program, wherein the computer program causes a computer to execute the screen splitting method according to any one of claims 1 to 5.

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