CN116719471A - Device and method for realizing dynamic change of content based on file bottom plate definition gesture - Google Patents

Abstract

The invention provides a device and a method for realizing dynamic change of content based on a file base plate definition gesture, which are characterized in that a whiteboard file is constructed on a reader, a gesture library and a dynamic effect library are constructed, the corresponding relation between a general gesture and a dynamic effect is set, a user can check a default gesture model or operate according to personal habits in a gesture control center, a mapping model of the gesture and the dynamic effect is constructed or adjusted, and the gestures are combined; when a user reads or edits the file, capturing the gesture of the user, analyzing and matching the gesture model of the user, and automatically triggering related dynamic effects; the invention innovates a gesture based on a file, and a user can customize the dynamic effect of the gesture according to the operation habit, and the invention provides a gesture learning mode, thereby providing expandable, adjustable and trainable conditions for adding new gestures, greatly improving the reading effect of the file, and greatly improving the interactive humanized interestingness of file reading.

Description

Device and method for realizing dynamic change of content based on file bottom plate definition gesture

Technical Field

The invention relates to the field of custom gestures, in particular to a device and a method for realizing dynamic change of content based on a file bottom plate definition gesture.

Background

Whiteboard software is an electronic whiteboard that mimics the functionality of a conventional whiteboard so that users can draw, write, annotate, interpret, display, share and save information on a computer screen. Whiteboard software typically has a variety of tools, such as pens, brushes, erasers, geometric shapes, text boxes, pictures, etc., that a user can use to operate on the whiteboard. The whiteboard software can also support multi-person collaboration and real-time sharing, so that team members can remotely collaborate and share ideas and information, and the whiteboard has the following problems in the mobile terminal operation process:

1. when each terminal reads the file, the reading or signing or the operation is complicated;

2. gestures are basically based on an operating system, undefined, and not modifiable;

3. the operations are not smooth enough without distinction or distinction of gestures under reading or file editing.

Disclosure of Invention

The invention aims to provide a device and a method for realizing dynamic change of content based on a file bottom plate definition gesture, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the device and the method for realizing dynamic change of the content based on the file bottom plate definition gesture are characterized by comprising the following steps:

step S1: a whiteboard file is constructed on the reader, and various elements, various format files, various application services, various signing tools, various signing information and emotion special effects are attached to the whiteboard;

step S2: constructing a gesture library and a dynamic effect library, and setting the corresponding relation between the general gestures and the dynamic effects, wherein the operation scene is specifically divided into a reading state and an editing state;

step S3: in the gesture control center, a user can check a default gesture model or construct or adjust a mapping model of gestures and dynamic effects according to personal habit operation, and the gestures are combined;

step S4: when a user reads or edits the file, the gesture of the user is captured, a gesture model of the user is analyzed and matched, and related dynamic effects are automatically triggered.

Preferably, the file formats include, but are not limited to wps, doc/docx, xls/xlsx, ppt/pptx, cad, bmp, jpg, tif, gif, png, pdf, html, txt, true, ofd, wmv, rm, mov, mp4, mp3, avi, and combinations or merges of the above.

Preferably, the gesture library comprises traditional finger operations and simple gestures, and the operation meanings of all the gestures are defined in a gesture control center.

Preferably, the dynamic effects in the reading state include but are not limited to file viewing, interface enlargement, interface reduction, whiteboard folding, 100% proportion display, whiteboard translation one screen, quick positioning, handwriting signing;

the gesture corresponding to the dynamic effect of the file is to amplify the file content by double-clicking the file;

the gesture corresponding to the dynamic effect of the interface amplification is that two points of finger touch extend to opposite directions;

the gesture corresponding to the dynamic effect of interface shrinkage is inward folding of two points of finger touch;

gestures corresponding to the dynamic effects of folding the whiteboard are inward folding of four points and more points of finger touch;

the gesture corresponding to the dynamic effect displayed in 100% proportion is that four points or more points are outwards unfolded in finger touch;

the gesture corresponding to the dynamic effect of the whiteboard translational touch is parallel up-down and left-right movement after one or two points are touched by a finger;

the gesture corresponding to the dynamic effect of the whiteboard translation one screen is that the gesture corresponding to the gesture of four points or more of finger touch is released after sliding up and down and left and right;

the gesture corresponding to the dynamic effect of quick positioning is to double-click four corners of the whiteboard screen, and the gesture is quickly positioned to the position of the boundary of the whiteboard.

Preferably, the dynamic effect in the editing state comprises whiteboard element selection, enlarged display, position movement, rotation, multi-selection, emotion special effect and more operations;

the gesture corresponding to the dynamic effect of the selected whiteboard element is to click any element on the whiteboard, so that the element can be selected;

gesture corresponding to the dynamic effect of the amplification display is a single-finger double-click whiteboard element, and the expansion group forms a single element amplification;

the gesture corresponding to the dynamic effect of the position movement is a dragging movement position after the element is clicked;

after the gesture corresponding to the dynamic effect of rotation is the click element, the double-finger selected element rotates clockwise or anticlockwise;

the gesture corresponding to the multi-selection dynamic effect is to press a certain element for two seconds for a long time, and a multi-selection mode is entered;

and the gesture corresponding to the dynamic effect of the more operations is to click any element on the whiteboard at two points at the same time, and pop up the more operations of the display element.

Preferably, the special emotion effect comprises emotion selection and emotion preview, elements on a whiteboard are quickly double-clicked by double fingers, all around the elements are weakened, all special emotion effects are displayed around the elements, when the special emotion effect is pressed on characters of a certain special emotion effect for a long time, the special emotion effect preview is automatically entered, and after the special emotion effect is determined to be selected, the special emotion effect is rendered on the elements.

Preferably, the further operations include copying, cutting, pasting, rotating, zooming in, zooming out, copying patterns, deleting, layers, emotions, merging, locking/unlocking, sending to communication, generating tasks.

Preferably, the gesture combination selects two or more gestures to combine and appends other requirements.

Preferably, the file reading or editing process includes the following steps:

step 1: when reading or editing, capturing gesture information which is only done by a user, and acquiring actions, tracks and gesture time differences of gestures;

step 2: analyzing the captured gesture information, and comparing the gesture information with a gesture model matched with the gesture action and a gesture library at the time;

step 3: if the gesture model is matched with the corresponding gesture model, feeding back the gesture model to the file base plate program, and triggering related events.

Preferably, a monitoring module is arranged in the file bottom plate, and the monitoring module automatically records gestures matched with the gesture model and gestures not matched with the gesture model;

recording the occurrence times of each gesture for the gestures which are not matched with the gesture model, performing hot ranking according to the occurrence times of the gestures, analyzing hot gestures, and constructing a dynamic effect corresponding to the new gestures;

and reading binding of the gesture and the dynamic effect for the matched gesture, and optimizing the gesture implementation effect.

Compared with the prior art, the invention has the beneficial effects that:

the method and the device innovate gestures based on files, capture different gestures of a user to realize different dynamic effects, and the user can customize the dynamic effects of the gestures according to operation habits in the using process;

the invention innovates the combination of multiple gestures based on the file bottom plate, so that the meaning of the gestures is not limited to realizing a function;

the method and the device distinguish the gesture captured in the reading state and the editing state, and realize the dynamic effect of the gesture in multiple modes.

The invention provides a gesture learning mode, so that the habit of a user can be statistically analyzed and accumulated, and expandable, adjustable and trainable conditions are provided for adding new gestures.

The invention greatly improves the reading effect of the file, so that the interactive humanized interestingness of file reading is greatly improved.

Drawings

FIG. 1 is a flow chart of the present invention.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

When gesture operation is performed on a whiteboard file, dynamic change of file content is realized by defining gestures, and the method comprises the following steps:

step S1: a whiteboard file is constructed on the reader, and various elements, various format files, various application services, various signing tools, various signing information and emotion special effects are attached on the whiteboard, wherein file formats include but are not limited to wps, doc/docx, xls/xlsx, ppt/pptx, cad, bmp, jpg, tif, gif, png, pdf, html, txt, true, ofd, wmv, rm, mov, mp4, mp3, avi and combined or merged files of the files;

step S2: constructing a gesture library and a dynamic effect library, setting the corresponding relation between a general gesture and a dynamic effect, wherein the gesture library comprises traditional finger operation and simple gestures, and defining the operation meanings of all gestures in a gesture control center, wherein an operation scene is specifically divided into a reading state and an editing state;

step S3: in the gesture control center, a user can check a default gesture model or construct or adjust a mapping model of gestures and dynamic effects according to personal habit operation, the gestures are combined, two or more gestures are selected for combination by gesture combination, and other requirements are added;

step S4: when a user reads or edits the file, capturing the gesture of the user, analyzing and matching the gesture model of the user, and automatically triggering related dynamic effects;

a monitoring module is arranged in the file bottom plate and automatically records gestures matched with the gesture model and gestures not matched with the gesture model;

recording the occurrence times of each gesture for the gestures which are not matched with the gesture model, performing hot ranking according to the occurrence times of the gestures, analyzing hot gestures, and constructing a dynamic effect corresponding to the new gestures;

and reading binding of the gesture and the dynamic effect for the matched gesture, and optimizing the gesture implementation effect.

When in a reading state, the dynamic change of the file content is realized through defining gestures, and the following steps are realized:

step 1: constructing a corresponding relation between a gesture library and a dynamic effect library in a reading state, wherein gestures corresponding to the dynamic effect of the file in the reading state are double-click files for amplifying file contents;

gesture corresponding to the dynamic effect of interface amplification is that two points of finger touch extend to opposite directions;

the gesture corresponding to the dynamic effect of interface shrinkage is inward folding of two points of finger touch;

gestures corresponding to dynamic effects of folding the whiteboard are that four points or more points are folded inwards by finger touch;

the gesture corresponding to the dynamic effect displayed in 100% proportion is that four points or more points are outwards unfolded by finger touch;

the gesture corresponding to the dynamic effect of the whiteboard translational touch is parallel up-down and left-right movement after the finger touches one or two points;

gestures corresponding to dynamic effects of the whiteboard translating a screen are that four points or more are touched by fingers, and the gestures slide up and down and left and right and then are released;

the gesture corresponding to the dynamic effect of quick positioning is to double-click four corners of the whiteboard screen, and the gesture is quickly positioned to the position of the boundary of each whiteboard;

step 2: capturing gesture information which is only done by a user, and acquiring actions, tracks and gesture time differences of gestures;

step 3: analyzing the captured gesture information, and comparing the gesture information with a gesture model matched with the gesture action and a gesture library at the time;

step 4: if the corresponding gesture model is matched, feeding back to the file base plate program, triggering related events, and displaying corresponding dynamic effects;

step 5: in the reading state, a user can look at a default gesture model or construct or adjust a mapping model of gestures and dynamic effects according to personal habit operation, the gestures are combined, and the gesture combination selects two or more gestures to be combined and adds other requirements.

When in an editing state, the dynamic change of the file content is realized through defining gestures, and the following steps are realized:

step 1: constructing a corresponding relation between a gesture library and a dynamic effect library in an editing state, wherein a gesture corresponding to a dynamic effect of a whiteboard element selected in the editing state is to click any element on the whiteboard, so that the element can be selected;

gesture corresponding to the dynamic effect of the enlarged display is a single-finger double-click whiteboard element, and the unfolded groups form a single element for enlargement;

the gesture corresponding to the dynamic effect of the position movement is to drag and move the position after the element is clicked;

after the gesture corresponding to the rotating dynamic effect is the click element, the double-finger selected element rotates clockwise or anticlockwise;

the gesture corresponding to the multi-selection dynamic effect is to press a certain element for two seconds for a long time, and a multi-selection mode is entered;

the special emotion effect comprises emotion selection and emotion preview, elements on a whiteboard are quickly double-clicked by double fingers, all surrounding elements are virtual, all special emotion effects are displayed around the elements, when the special emotion effect is pressed on characters of a certain special emotion effect for a long time, the special emotion effect preview is automatically entered, and the special emotion effect is rendered on the elements after the special emotion effect is determined to be selected;

the gestures corresponding to the dynamic effects of more operations are that any element on the whiteboard is clicked at two points at the same time, more operations of popup display elements are performed, and more operations comprise copying, cutting, pasting, rotating, amplifying, shrinking, copying patterns, deleting, layers, emotions, merging, locking/unlocking, sending to communication and generating tasks;

step 2: capturing gesture information which is only done by a user, and acquiring actions, tracks and gesture time differences of gestures;

step 3: analyzing the captured gesture information, and comparing the gesture information with a gesture model matched with the gesture action and a gesture library at the time;

step 4: if the corresponding gesture model is matched, feeding back to the file base plate program, triggering related events, and displaying corresponding dynamic effects;

step 5: in the editing state, a user can look at a default gesture model or construct or adjust a mapping model of gestures and dynamic effects according to personal habit operation, the gestures are combined, two or more gestures are selected for combination by gesture combination, and other requirements are added.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The device and the method for realizing dynamic change of the content based on the file bottom plate definition gesture are characterized by comprising the following steps:

step S1: a whiteboard file is constructed on the reader, and various elements, various format files, various application services, various signing tools, various signing information and emotion special effects are attached to the whiteboard;

step S2: constructing a gesture library and a dynamic effect library, and setting the corresponding relation between the general gestures and the dynamic effects, wherein the operation scene is specifically divided into a reading state and an editing state;

step S3: in the gesture control center, a user can check a default gesture model or construct or adjust a mapping model of gestures and dynamic effects according to personal habit operation, and the gestures are combined;

step S4: when a user reads or edits the file, the gesture of the user is captured, a gesture model of the user is analyzed and matched, and related dynamic effects are automatically triggered.

2. The device and method for implementing dynamic content change based on file backplane definition gesture according to claim 1, wherein: the file formats include, but are not limited to wps, doc/docx, xls/xlsx, ppt/pptx, cad, bmp, jpg, tif, gif, png, pdf, html, txt, true, ofd, wmv, rm, mov, mp4, mp3, avi, and combinations or merges of the above.

3. The device and method for implementing dynamic content change based on file backplane definition gesture according to claim 1, wherein: the gesture library comprises traditional finger operation and simple gestures, and the operation meanings of all the gestures are defined in a gesture control center.

4. The device and method for implementing dynamic content change based on file backplane definition gesture according to claim 1, wherein: the dynamic effects in the reading state include but are not limited to file viewing, interface enlargement, interface reduction, whiteboard folding, 100% proportion display, whiteboard translation, quick positioning and handwriting signing;

the gesture corresponding to the dynamic effect of the file is to amplify the file content by double-clicking the file;

the gesture corresponding to the dynamic effect of the interface amplification is that two points of finger touch extend to opposite directions;

the gesture corresponding to the dynamic effect of interface shrinkage is inward folding of two points of finger touch;

gestures corresponding to the dynamic effects of folding the whiteboard are inward folding of four points and more points of finger touch;

the gesture corresponding to the dynamic effect displayed in 100% proportion is that four points or more points are outwards unfolded in finger touch;

the gesture corresponding to the dynamic effect of the whiteboard translational touch is parallel up-down and left-right movement after one or two points are touched by a finger;

the gesture corresponding to the dynamic effect of the whiteboard translation one screen is that the gesture corresponding to the gesture of four points or more of finger touch is released after sliding up and down and left and right;

the gesture corresponding to the dynamic effect of quick positioning is to double-click four corners of the whiteboard screen, and the gesture is quickly positioned to the position of the boundary of the whiteboard.

5. The device and method for implementing dynamic content change based on file backplane definition gesture according to claim 1, wherein: the dynamic effect in the editing state comprises whiteboard element selection, enlarged display, position movement, rotation, multi-selection, emotion special effects and more operations;

the gesture corresponding to the dynamic effect of the selected whiteboard element is to click any element on the whiteboard, so that the element can be selected;

gesture corresponding to the dynamic effect of the amplification display is a single-finger double-click whiteboard element, and the expansion group forms a single element amplification;

the gesture corresponding to the dynamic effect of the position movement is a dragging movement position after the element is clicked;

after the gesture corresponding to the dynamic effect of rotation is the click element, the double-finger selected element rotates clockwise or anticlockwise;

the gesture corresponding to the multi-selection dynamic effect is to press a certain element for two seconds for a long time, and a multi-selection mode is entered;

and the gesture corresponding to the dynamic effect of the more operations is to click any element on the whiteboard at two points at the same time, and pop up the more operations of the display element.

6. The apparatus and method for implementing dynamic content change based on file backplane definition gesture according to claim 5, wherein: the special emotion effect comprises emotion selection and emotion preview, elements on a whiteboard are quickly double-clicked by double fingers, all surrounding elements are weakened, all special emotion effects are displayed around the elements, when the special emotion effect is pressed on characters of a certain special emotion effect for a long time, the special emotion effect preview is automatically entered, and the special emotion effect is rendered on the elements after the special emotion effect is determined to be selected.

7. The apparatus and method for implementing dynamic content change based on file backplane definition gesture according to claim 5, wherein: the further operations include copying, cutting, pasting, rotating, zooming in, zooming out, copying patterns, deleting, layering, emotions, merging, locking/unlocking, sending to a communication, generating tasks.

8. The device and method for implementing dynamic content change based on file backplane definition gesture according to claim 1, wherein: the gesture combination selects two or more gestures to combine and appends other requirements.

9. The device and method for implementing dynamic content change based on file backplane definition gesture according to claim 1, wherein: the file reading or editing process comprises the following steps:

step 1: when reading or editing, capturing gesture information which is only done by a user, and acquiring actions, tracks and gesture time differences of gestures;

step 2: analyzing the captured gesture information, and comparing the gesture information with a gesture model matched with the gesture action and a gesture library at the time;

step 3: if the gesture model is matched with the corresponding gesture model, feeding back the gesture model to the file base plate program, and triggering related events.

10. The device for realizing dynamic change of file content based on file base plate definition gestures is characterized in that: a monitoring module is arranged in the file bottom plate and automatically records gestures matched with the gesture model and gestures not matched with the gesture model;

recording the occurrence times of each gesture for the gestures which are not matched with the gesture model, performing hot ranking according to the occurrence times of the gestures, analyzing hot gestures, and constructing a dynamic effect corresponding to the new gestures;

and reading binding of the gesture and the dynamic effect for the matched gesture, and optimizing the gesture implementation effect.