CN110147169A - At least one display window distributing adjustment and touch-control automatic calibrating method and system - Google Patents

Abstract

The invention discloses the method and system of at least one a kind of display window distributing adjustment and automatic calibration touch-control, it is adjusted the described method includes: carrying out layout on the screen at least one display window on screen, and records the newest layout information of the corresponding relationship and display window of all signal sources and display window after adjustment on the screen；Receive the touch-control input in any one display window of user on the screen；Touch-control input is analyzed, the touch-control is obtained and inputs the touch information of corresponding contact on the screen, the touch information includes location information；According to the location information and the newest layout information of the contact on the screen, the display window that the contact is located at is determined.When the layout of the display window of signal source on the screen changes, touch accuracy can be adaptively adjusted, guarantees the accuracy and rapidity of touch-control.

Description

At least one display window distributing adjustment and touch-control automatic calibrating method and system

Technical field

The present invention relates to human-computer interaction technique fields, and in particular at least one display window distributing adjustment and touch-control are automatic Calibration method, equipment, system and computer readable storage medium.

Background technique

Man-machine interactive system based on screen is increasingly becoming current most modern one of video signal tool, straight due to itself The property seen feature, has been widely used in every field.The man-machine interactive system includes the touch-control input device based on screen And display device, the screen is stitched together by multiple the small screen or sub-screen by splicing controller, or passes through software Form includes that splicing controller in man-machine interactive system is stitched together.

The man-machine interactive system can be pressed the display window of different signal source by splicing controller pre-set Layout type is shown on different screens.By carrying out touch-control on different screen, different screen pair can be correspondingly operated The display window for the signal source answered, however, the layout type of the window in existing such interactive system be it is fixed, do not receive User does random change to layout, this part not can solve the touch-control calibration problem after layout changing derived from system, for example, when one After the window's position and size that the display window of a signal source is shown on the screen change, asking for touch-control inaccuracy will cause Topic, so that can not effectively be manipulated again to the content in corresponding signal source display window.

Summary of the invention

In view of this, the present invention provides the method, apparatus of a kind of multisignal source distributing adjustment and automatic calibration touch-control, setting Standby, computer readable storage medium and system.

In a first aspect, the present invention provides at least one a kind of display window distributing adjustment and touch-control automatic calibrating method, The described method includes: being shown at least one display window on screen with a kind of scheduled layout, wherein the screen is suitable for Acquisition touch-control is inputted and is shown to display window, the method also includes:

The distributing adjustment instruction inputted in one of display window of at least one display window is received, according to the cloth The layout of the operated display window of distributing adjustment instruction on the screen is placed in adjustable integral pattern by office's adjustment instruction；

The window adjustment instructions inputted in the display window for being placed in adjustable integral pattern are received and identified, according to the window tune Whole instruction is adjusted to the layout of the display window of adjustable mode on the screen is placed in,

Receive the touch-control input in any one display window of user on the screen；

Touch-control input is analyzed, the touch-control is obtained and inputs the touch-control letter of corresponding contact on the screen Breath, the touch information includes location information；

According to the location information and the newest layout information of the contact on the screen, the contact is determined The display window being located at.

In some embodiments, after determining the display window that the contact is located at, all signal sources after record adjustment With the newest layout information of the corresponding relationship and display window of display window on the screen, according to signal source and display window Corresponding relationship determines the operated signal source of touch-control input, and touch-control input is sent to corresponding to the display window that contact is located at Signal source so that the signal source according to the touch-control input carry out response and in the display window that the contact is located at Output response result.

In some embodiments, it after determining the display window that the contact is located at, is inputted according to touch-control, to the touching Point the be located at layout of display window or the layout of all display windows are adjusted.

In some embodiments, described to adjust to being placed in the layout of the display window of adjustable mode on the screen It is whole, including the display window for being placed in adjustable mode is amplified, reduces, moves or is closed.

In some embodiments, the layout of the display window that the contact is located at or all display windows Layout is adjusted, including is amplified, reduces, moves or closed to display window.

Second aspect, the present invention provides at least one a kind of display window distributing adjustment and touch-control autoalign unit, It is characterised in that it includes memory and processor；

The memory is for storing executable program code；

The processor is for reading the executable program code stored in the memory to execute described in first aspect Display window distributing adjustment and touch-control automatic calibrating method.

The third aspect, the present invention provides a kind of computer readable storage mediums, including instruction, when it is transported on computers When row, so that the computer executes display window distributing adjustment and touch-control automatic calibrating method described in first aspect.

Fourth aspect, the present invention provides at least one a kind of display window distributing adjustment and touch-control automated calibration system, The system comprises screens and server；At least one described display window is shown in via server with a kind of scheduled layout On screen；The screen is suitable for the input of acquisition touch-control and shows to display window；The server includes；Memory and place Manage device；

The memory is for storing executable program code；

The processor is for reading the executable program code stored in the memory to execute described in first aspect Display window distributing adjustment and touch-control automatic calibrating method.

In some embodiments, the screen includes that infrared light curtain formation device and infrared camera, infrared light curtain are formed Device is used to form infrared light curtain in screen surface；The touch-control is inputted and is sent out for acquiring touch-control input by infrared camera Give server.

In some embodiments, the system comprises laser remote-controlling pen, the screen includes camera；Laser remote-controlling pen is used In on transmitting laser beam to the screen, touch-control input is formed；Camera is for acquiring touch-control input, and by the touch-control Input is sent to server.

In some embodiments, the screen include with vector pressure sensing type, condenser type, resistance-type, infrared frame type, The component that Near-Field Radar Imaging formula, induction, in surface acoustic wave type one way in which acquisition touch-control input, and further include Liquid crystal display, plasma display units, organic light-emitting diode display unit, vacuum fluorescence display unit or Projection Display Unit.

At least one display window distributing adjustment and touch-control automatic calibrating method provided by the invention and system, can be real-time Realize the display window layout change on the screen of signal source, and when the display window layout hair on the screen of signal source When changing, touch accuracy can be adaptively adjusted, guarantees the accuracy and rapidity of touch-control.

Detailed description of the invention

Fig. 1 is that at least one the display window distributing adjustment provided according to an embodiment of the present invention and touch-control are calibrated automatically The part flow diagram of method.

Fig. 2 a is the schematic layout pattern of the multisignal source (or more display windows) provided according to an embodiment of the present invention.

Fig. 2 b is a kind of schematic diagram when the layout provided according to an embodiment of the present invention is adjusted.

Fig. 2 c is another schematic diagram when layout provided according to an embodiment of the present invention is adjusted.

Fig. 2 d is another schematic diagram when the layout provided according to an embodiment of the present invention is adjusted.

Fig. 3 be another embodiment of the present invention provide multisignal source distributing adjustment after calibrate automatically touch-control device knot Structure schematic diagram.

Fig. 4 is another embodiment offer of the invention for calibrating setting for touch-control automatically after multisignal source distributing adjustment Standby schematic diagram.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The application is described in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

As shown in Figure 1, Fig. 1 is at least one the display window distributing adjustment provided according to an embodiment of the present invention and touching The partial process view of automatic calibrating method is controlled, at least one described display window is via splicing device with a kind of scheduled layout It is shown on screen, the corresponding relationship of each display window and signal source from splicing device it is known that or can read.The screen Curtain is suitable for the input of acquisition touch-control and shows to display window, and the method can for example be executed by a server, The described method includes:

S11: the distributing adjustment instruction inputted in one of display window of at least one display window is received, according to institute Distributing adjustment instruction is stated, the layout of the operated display window of distributing adjustment instruction on the screen is placed in adjustable integral pattern.

The screen for example can pass through multi-screen splicing processor (or video-splicing processor by least two sub-screens Or large screen splicing processor etc.) be stitched together, the sub-screen being stitched together can be spatially placed adjacent, can also be It is spatially provided separately, such as placement can be separated by a distance.Herein, multi-screen splicing processor can also make at least two sons Screen shows unlike signal source contents or same signal source contents respectively, alternatively, at least two sub-screens can also be made to show not Same picture, the different picture splicing is at a complete signal source contents or image content.

Splicing device can realize by way of hardware, can also be real in a manner of a software in server It is existing, in view of splicing device widely known to technical field personnel where the present invention, therefore not reinflated explanation herein.

Herein, the received distributing adjustment instruction of server institute, or, one of display window of at least one display window The distributing adjustment of middle input instructs, and server can be generated and inputed to various forms such as sound, light or electricity, such as can pass through Keyboard inputs dependent instruction to server.Certain touch-control of the display window on screen can also be acted on by server analysis The case where inputting and being inputted according to touch-control instructs (as follows to be described) to obtain or receive distributing adjustment.

In this application, the sub-screen or screen are suitable for the input of acquisition touch-control and show to display window.It is described Screen may include infrared light curtain formula Touch Screen, also may include other a variety of touch screens, and the touch-control input can also lead to It crosses corresponding various sensors to capture with various other ways, such as vector pressure sensing type, condenser type, resistance-type, infrared frame Formula, Near-Field Radar Imaging formula, various touch-control acquisition modes that are induction, being shown in surface acoustic wave type touch screen, that is, described Screen can be with vector pressure sensing type, condenser type, resistance-type, infrared frame type, Near-Field Radar Imaging formula, induction, surface One way in which acquisition touch-control input in sound wave type.The screen can also show with liquid crystal display, plasma, You Jifa Optical diode is shown, vacuum fluorescence is shown, one of Projection Display mode shows signal source.It is defeated in view of these touch-controls Enter capture and display mode, and be integrated with these touch-control input modes and display mode in the screen of one, widely ability Known to field technique personnel, therefore it is not unfolded to illustrate herein.In this application, for convenience of description, this kind of acceptable touch-control is inputted Screen, with this corresponding, those skilled in the art are referred to as with the screen shown it is understood that the screen of the application is intended to wrap Containing the touch sensing (or collector) and display unit for realizing the touch-control input and display, for example, the screen of the application is contained Lid is with sub-screen:

The screen includes with vector pressure sensing type, condenser type, resistance-type, infrared frame type, Near-Field Radar Imaging formula, electromagnetism In induction type, surface acoustic wave type one way in which acquisition touch-control input component, and further include liquid crystal display, etc. Ion display unit, organic light-emitting diode display unit, vacuum fluorescence display unit, projection display unit.

In some embodiments, the screen may include that infrared light curtain forms device and infrared camera, infrared light curtain Device is formed to be used to form infrared light curtain in screen surface；Infrared camera is for acquiring touch-control input.The infrared camera Touch-control input is sent to server.

The screen of the application can also be covered such as sub-screen: the screen includes camera.Laser remote-controlling pen is for emitting On laser beam to the screen, touch-control input is formed；The touch-control is inputted and is sent out for acquiring the touch-control input by camera Give server.

For ease of description, it is described by taking infrared light curtain formula touch screen as an example in the following embodiments of the present invention.It is red Outer light curtain can be formed in screen surface by infrared laser above screen or laser array, make when by finger etc. When for being disposed with the screen of infrared light curtain, touch-control of the user in screen being captured by infrared camera and is inputted.For example, working as When carrying out touch-control input in the display window on any one sub-screen, the light distribution of the infrared light curtain of touch-control input will be because of touching Control behavior and change, such as the part infrared light of touch-control input is frameed out by touch-control finger diffusing reflection, and then by position Infrared camera in front of screen or the sub-screen takes；Or the part infrared light of touch-control input is because of the work of touch-control finger With being transmitted through screen, and then the infrared camera for being located at screen or the sub-screen rear takes, later infrared camera Infrared image including touch-control input is sent to server in electrical signal form, server to the electric signal received into Row processing and analysis obtain touch information when user carries out touch-control in the display window on any sub-screen.The touch-control Information may include that position of touch information and/or touch trajectory information and/or shape information (such as exist a hand expansion pressing When on screen, a touch-control shape will form).It later, can be by the touch information of acquisition and the preset touch being previously stored item Part is compared, and after comparing successfully, receives or obtain distributing adjustment instruction associated with preset touch input namely front institute The distributing adjustment instruction inputted in reception at least one display window stated.Later, server is instructed according to the distributing adjustment, Control splicing device is to be placed in adjustable integral pattern for the layout of the operated display window of distributing adjustment instruction on the screen.

In some embodiment of the invention, after the distributing adjustment instruction inputted in receiving at least one display window, Before executing distributing adjustment instruction, the method can also include: judge the distributing adjustment instruct whether meet it is pre- If condition, if so, the distributing adjustment instruction is executed, if it is not, user can then be prompted to re-enter or prompt operation to lose It loses.

Such as: when there is gesture W (or other draft in advance gesture) to be captured by infrared camera, infrared camera will be adopted The signal collected is sent to server；Server will analyze the signal and identify whether the signal corresponds to gesture W, if so, It obtains distributing adjustment and instructs and execute the distributing adjustment instruction, thus at least one display that distributing adjustment instruction is operated The layout of window on the screen is placed in adjustable integral pattern.

The distributing adjustment instruction can also occur gloves etc. by laser remote controller, infrared laser and be touched on the screen It controls and generates, arrangement infrared light curtain can not had at this time.For example, the laser beam of different characteristic can be emitted by laser remote controller Realize that the touch-control input that instruction different operation is intended to, the touch-control input are caught by the incidental camera of screen on to screen It obtains, the laser beam of the different characteristic includes having different shape, various durations, different motion tracks, different wave length Laser beam.

In some embodiments of the invention, the distributing adjustment instruction can be by different users in different sub-screens On display window in input realize.

Splicing device mentioned above can realize by way of hardware, as server outside a component exist, In addition, splicing device can also be realized in a manner of a component or software in server, in splicing device as clothes Be engaged in device in a component or software realization in the case where, can be made at this time by server itself at least one display window with The scheduled layout of one kind is shown on screen.

S12: the window adjustment instructions inputted in the display window for being placed in adjustable integral pattern are received and identified, according to the window Mouth adjustment instruction, is adjusted to the layout of the display window of adjustable mode on the screen is placed in, and owns after recording adjustment The newest layout information of the corresponding relationship and display window of signal source and display window on the screen.

In this step, user can continue to refer into input window adjustment in the display window after distributing adjustment mode It enables, herein, the distributing adjustment instruction can be generated with various forms such as sound, light or electricity and input to server；Or it can also In certain touch-control input on screen and to obtain or receive window tune the case where input according to touch-control by dissection Whole instruction.

After server receives the window adjustment instructions, multi-screen splicing processor is controlled by server, it is adjusted, with Adjust the display of the operated display window of distributing adjustment instruction on the screen；In some embodiments, subsidiary infrared of screen Camera acquisition touch-control is entered and sent to server, server can according to gesture that it is identified (>,<, move to left or move to right Deng) the default corresponding relationship of situation and gesture situation and window adjustment instructions, window adjustment instructions are obtained and execute, with control Multi-screen splicing processor, so that layout of the display window at least two sub-screens operated by distributing adjustment instruction changes, Such as makes display window amplification, diminution, movement or be suspended on other display windows and (move to left, move to right, moving up, moving down) or disappear Lose etc..

Such as: the process that adjustment is laid out to a display window is described in detail below with reference to such as Fig. 2 a-2d.

Fig. 2 a is the schematic layout pattern of the multisignal source provided according to an embodiment of the present invention, and multisignal source is corresponding more A display window is shown on screen c via splicing device with a kind of scheduled layout, and screen c arranges totally 10 pieces of sons by 2 rows × 5 Screen (11,12,13,14,15,21,22,23,24,25) is spliced, wherein the display on the sub-screen of the first row first row The two-dimensional map in certain region is shown in window 11, shows air quality in the display window 21 on the sub-screen of the second row first row Sub-screen, the second row of data, the tertial sub-screen of the sub-screen of the first row secondary series, the first row and the second row secondary series The sub-screens of three column show the three-dimensional map in certain region, the son that the first row the 4th arranges totally in the display window 23 on 4 pieces of sub-screens The monitored picture of camera is shown in display window 14 on screen, in the display window 24 on sub-screen that the second row the 4th arranges It shows video pictures, photo picture is shown in the display window 15 on sub-screen that the first row the 5th arranges, the second row the 5th column The satellite cloud picture in certain region is shown in display window 25 on sub-screen.Wherein, the screen c passes through multi-screen splicing processor B It is connected with each auxiliary 101,102,103 ... n of computer, for the signal source contents in each auxiliary 101,102,103 ... n of computer are aobvious Show in the display window on corresponding sub-screen, multi-screen splicing processor B is also connected with server A (or master computer), is used for Layout information is sent to the processor in server to handle for it, meanwhile, the server is also used to receive to screen C On at least one display window in the distributing adjustment instruction that inputs and window adjustment instructions, distributing adjustment instruction and window Adjustment instruction can for example generate with various forms such as sound, light or electricity and input to server, such as can be inputted by keyboard Dependent instruction to server, can also be acted on by server analysis the display window on screen the input of certain touch-control and The case where being inputted according to touch-control instructs to obtain or receive distributing adjustment；On the screen C that the server also collects The various gesture operations inputted at least one display window.

For example, as shown in Figure 2 b, Fig. 2 b is one kind when the layout provided according to an embodiment of the present invention is adjusted Schematic diagram is shown here only screen portions to protrude distributing adjustment effect.When user is on the sub-screen that the second row the 4th arranges Display video pictures display window 24 in input distributing adjustment instruction when, distributing adjustment instruction is executed, so that described The display window 24 of display video pictures on the sub-screen of secondary series fourth line is placed in adjustable integral pattern, and later, user is setting Input window adjustment refers in the display window 24 of the display video pictures on the 4th column sub-screen of the second row of adjustable integral pattern It enables, the window adjustment instructions for example correspond to the gesture operation of both hands kneading, and the gesture operation is collected as touch-control input Afterwards, after being identified via server, multi-screen splicing processor is adjusted by server, to adjust the son screen of the second row the 4th column The display of the display window 24 of display video pictures on curtain on the screen, so that the display window for showing video pictures be contracted It is small.

For example, as shown in Figure 2 c, Fig. 2 c is another when the layout provided according to an embodiment of the present invention is adjusted Kind schematic diagram is shown here only screen portions to protrude distributing adjustment effect.When user is entering the second of adjustable integral pattern When inputting the gesture operation moved to left in the display window 24 on sub-screen that row the 4th arranges, the second of video pictures can will be shown The display window 24 on sub-screen that row the 4th arranges is moved to the left, thus with the display window on the tertial sub-screen of the second row 23 partly overlap.

For another example as shown in Figure 2 d, Fig. 2 d be when the layout provided according to an embodiment of the present invention is adjusted again A kind of schematic diagram is shown here only screen portions to protrude distributing adjustment effect.In Fig. 2 c to the 4th column sub-screen of the second row On the basis of the display window 24 of upper display video pictures is moved to the left, user can be further in the display video pictures Display window 24 in input window adjustment instruction, such as both hands two fingers be placed in display video pictures display window 24 Edge after expand outwardly, after being identified by server, can will show video pictures display window 24 amplification display.

In addition, other than the moving to left, amplify, reduce the example of display window of Fig. 2 b- Fig. 2 d distributing adjustment enumerated, also The operation such as it can be moved to right, be moved up, being moved down to display window, no longer being enumerated herein.

Server receives and identifies the window adjustment instructions inputted in the display window for being placed in adjustable integral pattern, according to described Window adjustment instructions control splicing device to be adjusted to being placed in the layout of the display window of adjustable mode on the screen Afterwards, server further obtains the corresponding relationship and all displays of all signal sources and display window after adjustment from splicing device The newest layout information of window on the screen.The newest layout information refers to after above-mentioned distributing adjustment, each display The distributed intelligence of window on the screen, for example, may include all display windows position on the screen and window size information or The coordinate information on each vertex of display window.

Above-mentioned splicing device realized by way of hardware, as server outside a component exist, Splicing device is also used as in the presence of the mode of a component or software in server, can be come in the following manner It completes step S12: the window adjustment instructions inputted in the display window for being placed in adjustable integral pattern is received and identified, according to the window Mouth adjustment instruction, is adjusted to the layout of the display window of adjustable mode on the screen is placed in, and owns after recording adjustment The newest layout information of the corresponding relationship and display window of signal source and display window on the screen.

S13: the touch-control input in any one display window of user on the screen is received.

In this step, after the completion of user is at least one display window distributing adjustment on the screen, user can be with Continue at least one described display window carry out touch-control input, the touch-control input by gesture acquisition device (such as: with it is infrared The corresponding infrared camera of light veil type touch screen) capture when, collected signal is sent to server by gesture acquisition device, Server will analyze the signal and identify that the touch-control inputs the touch information for including, wherein the touch information can for example wrap It includes touch-control and inputs location information, trace information, shape information and the area information etc. of corresponding contact on the screen.

In this step, when being adjusted to the display window is suspended in it on other display windows, the touching Control input can carry out touch-control in being laid out the changed display window, alternatively, touch-control input can be laid out The laminated portions of the changed display window and other display windows carry out touch-control.Referring to Fig. 2 c and Fig. 2 d, The touch-control input can input (white portion in figure in display window 24) in display window 24, can also be in display window Mouth 24 and the laminated portions of other display windows input (dash area in figure).

S14: touch-control input is analyzed, the touch-control is obtained and inputs the touching of corresponding contact on the screen Information is controlled, the touch information includes location information.

In this step, server analyzes touch-control input, obtains touch-control and inputs corresponding touch information, institute It states touch information and inputs location information and/or trace information and/or shape of the corresponding contact in screen for example including touch-control Information and/or area information, wherein can determine that touch-control inputs corresponding contact and shielding according to the location information in touch information Location information on curtain, meanwhile, it can determine that the corresponding touch-control of touch information refers to according to content pre-stored in server It enables.Such as: it can by location information in touch information and/or trace information and/or shape information and/or area information and in advance The trace information and/or shape information and/or area information of storage are matched, when the two successful match, according to server In pre-stored location information and/or trace information and/or shape information and/or area information and relevant operation instruction pair It should be related to, execute relevant operation instruction.

For example, server controls splicing device if identifying that the track of gesture is M from touch information, so that its All screen layouts are restored to initial default layout state.

In the presence of mode of the splicing device as a component or software in server, if from touch-control Information identifies that the track of gesture is M, then all screen layouts are restored to initial default layout state by server.

S15: according to the location information and the newest layout information of the contact on the screen, determine described in The display window that contact is located at, and the operated signal of touch-control input is determined according to the corresponding relationship of signal source and display window Source.

In this step, the position of the location information of contact on the screen and all display windows on the screen can be believed Breath is compared, and the operated display window of touch-control input is determined according to comparison result, for example, by comparing all display windows Coordinate distribution and contact coordinate, it can be determined which display window contact falls in.

Later, touch-control can be inputted and is sent to that touch-control input is operated or display window that contact is located at is corresponding Signal source, so that the signal source is responded or executed corresponding operation according to touch-control input, and in the signal source Output response result in corresponding display window.For example, signal source is according to the position of touch and/or touch-control for including in touch information The corresponding relationship of track and/or touch-control area and/or touch-control shape and these touch informations and relevant operation instruction, to touching Control input is responded, for example, opening or closing some program, carries out the operation such as page turning, picture to PPT.

In some embodiments, after determining the display window that the contact is located at, touch-control can not also be inputted and is sent out It send to the corresponding signal source of display window that touch-control input is operated or contact is located at, but it is defeated according to touch-control by server Enter, controls splicing device, be adjusted with the layout for the display window being located to the contact.Such as server is according to touching The position of touch and/or touch trajectory and/or touch-control area and/or touch-control shape and these touch-controls letter for including in control information The corresponding relationship that breath is instructed with relevant operation, control splicing device respond touch-control input, for example, amplification, diminution, shifting Dynamic or closing display window.In some embodiments, it if server identifies that the track of gesture is M from touch information, takes Business device also can control splicing device, so that all screen layouts are restored to initial default layout state by it.

It, can be by servicing in the presence of mode of the splicing device as a component or software in server Device is inputted according to touch-control, and the layout for the display window being directly located to the contact is adjusted.Such as server is according to touching The position of touch and/or touch trajectory and/or touch-control area and/or touch-control shape and these touch-controls letter for including in control information The corresponding relationship that breath and relevant operation instruct responds touch-control input, for example, amplifying, reducing, mobile or closing display window Mouthful.

At least one display window distributing adjustment provided in an embodiment of the present invention and touch-control automatic calibrating method are utilized as a result, When, after the display window layout on the screen of at least one signal source changes, can adaptive calibration user shielding After the layout of the corresponding display window of touch-control on curtain, i.e. arbitrary signal generator on the screen changes, when user returns this When the content of signal source carries out touch-control, the touch accuracy of the signal source contents is remained unchanged.In the practice process of inventor, It was found that technical solution provided in an embodiment of the present invention, the position of the corresponding display window of at least one signal source on the screen and big It is small be adjusted after, the automatic time for calibrating touch-control can touch signal source contents so as to ensure less than 0.1 millisecond in real time The accuracy of control.It should be noted that the time of the automatic calibration touch accuracy in the present embodiment is for explaining only the invention, and Non- limitation of the invention.

For the side convenient for better implementation multisignal source distributing adjustment provided in an embodiment of the present invention and automatic calibration touch-control Method, the embodiment of the present invention also provide the device of a kind of multisignal source distributing adjustment and automatic calibration touch-control.Wherein, the meaning of noun Identical as above-mentioned multisignal source distributing adjustment and the automatic calibration method of touch-control, specific implementation details can refer to embodiment of the method In explanation.

As shown in figure 3, Fig. 3 is at least one display window distributing adjustment that another embodiment of the present invention provides and automatic Calibrate the structural schematic diagram of the device of touch-control.Described device includes the first receiving unit 31, the second receiving unit 32, third reception Unit 33, processing unit 34 and determination unit 35.

Wherein, the first receiving unit 31 is executed for receiving the distributing adjustment inputted at least one display window instruction The screen adjustment instruction, the layout of at least one operated display window of distributing adjustment instruction on the screen is placed in can Adjustment modes.

Second receiving unit 32, for receiving and identifying the window at least one display window for being placed in adjustable integral pattern Adjustment instruction is adjusted according to the window adjustment instructions to the layout of the display window of adjustable mode on the screen is placed in It is whole.

Third receiving unit 33, for receiving the input of the touch-control in any one display window of user on the screen.

Processing unit 34 obtains the touch-control and inputs corresponding contact in institute for analyzing touch-control input The touch information on screen is stated, the touch information includes location information.

Determination unit 35, for the location information and the newest layout letter according to the contact on the screen Breath, determines the display window that the contact is located at.

In some embodiments, further include transmission unit 36, determining what the contact was located at for determination unit 35 After display window, the operated signal source of touch-control input is determined according to the corresponding relationship of signal source and display window, touch-control is defeated Enter to be sent to signal source corresponding to the display window that contact is located at, is carried out so that the signal source is inputted according to the touch-control Response and the output response result in the display window that the contact is located at.

In some embodiments, it is adjusted to being placed in the layout of the display window of adjustable mode on the screen, including The display window for being placed in adjustable mode is amplified, reduced, moved or closed.

The device and at least one display window above of at least one described display window distributing adjustment and automatic calibration touch-control The method of mouth distributing adjustment and automatic calibration touch-control belongs to same design, at least one display window distributing adjustment and automatic school It can run in the embodiment of the method for at least one display window distributing adjustment and automatic calibration touch-control and mention on the device of quasi- touch-control Any one method supplied, specific implementation process are detailed in the side of at least one display window distributing adjustment and automatic calibration touch-control Method embodiment, details are not described herein again.

At least one display window distributing adjustment provided in an embodiment of the present invention and the dress of automatic calibration touch-control are utilized as a result, When setting, after the display window layout on the screen of at least one signal source changes, can adaptive calibration user exist After the layout of the corresponding display window of touch-control on screen, i.e. arbitrary signal generator on the screen changes, when user returns When the content of the signal source carries out touch-control, the touch accuracy of the signal source contents is remained unchanged.

Fig. 4 is another embodiment offer of the invention at least one display window distributing adjustment and automatic calibration The schematic diagram of the equipment of touch-control.As shown in figure 4, in conjunction with the side of above-mentioned multisignal source distributing adjustment and automatic calibration touch-control At least part of the device of method and multisignal source distributing adjustment and automatic calibration touch-control can be by adjusting for multisignal source layout The equipment 400 of whole and automatic calibration touch-control is realized, including processor 403, memory 404 and bus 410.

In some instances, which can also include input equipment 401, input port 402, output port 405 and output equipment 406.Wherein, input port 402, processor 403, memory 404 and output port 405 pass through Bus 410 is connected with each other, and input equipment 401 and output equipment 406 are respectively by input port 402 and output port 405 and total Line 410 connects, and then connect with the other assemblies for calculating equipment 400.It should be noted that output interface and input here connects Mouth can also be indicated with I/O interface.Specifically, input equipment 401 is received from external input information, and passes through input port Input information is transmitted to processor 403 by 402；Processor 403 is based on the computer executable instructions pair stored in memory 404 Input information is handled to generate output information, output information is temporarily or permanently stored in memory 404, then Output information is transmitted to output equipment 406 by output port 405；Output information is output to equipment 400 by output equipment 406 Outside.

Above-mentioned memory 404 includes the mass storage for data or instruction.For example it rather than limits, memory 404 may include HDD, floppy disk drive, flash memory, CD, magneto-optic disk, tape or universal serial bus (USB) driver or two The combination of a or more the above.In a suitable case, memory 404 may include that can be removed or non-removable (or solid Medium calmly).In a suitable case, memory 404 can be inside or outside equipment 400.In a particular embodiment, it stores Device 404 is non-volatile solid state memory.In a particular embodiment, memory 404 includes read-only memory (ROM).

Bus 410 includes hardware, software or both, and the component of equipment 400 is coupled to each other together.

In a particular embodiment, the I/O interface being connected with output equipment may include hardware, software or both, provide use In one or more interfaces of the communication between equipment 400 and one or more I/O equipment.In a suitable case, equipment 400 may include one or more of these I/O equipment.One or more of these I/O equipment allow logical between people and equipment 400 Letter.For example rather than limit, I/O equipment may include handwriting pad, touch screen, video camera or two or more more than These combination.I/O equipment may include one or more sensors.The embodiment of the present invention considers for any suitable of them I/O equipment and any suitable I/O interface.In a suitable case, I/O interface may include one or more devices or can permit Perhaps processing unit 403 drives the software driver of one or more of these I/O equipment.In a suitable case, I/O interface can wrap Include one or more I/O interfaces.Although specific I/O interface, the embodiment of the present invention has been described and illustrated in the embodiment of the present invention Consider any suitable I/O interface.

According to some embodiments, a kind of computer readable storage medium is provided, may include instruction, when it is in computer When upper operation, computer can be made to execute the side of above-mentioned at least one display window distributing adjustment and automatic calibration touch-control Method.

In some instances, a kind of computer program product comprising instruction is provided, when run on a computer, So that the method that computer executes above-mentioned at least one display window distributing adjustment and automatic calibration touch-control.

In some instances, a kind of computer program is provided, when run on a computer, so that computer executes The method of above-mentioned at least one display window distributing adjustment and automatic calibration touch-control.

In the examples described above, it can be realized wholly or partly by software, hardware, firmware or any combination thereof. When implemented in software, it can entirely or partly realize in the form of a computer program product.The computer program produces Product include one or more computer instructions.When loading on computers and executing the computer program instructions, whole or portion Ground is divided to generate according to process or function described in the embodiment of the present invention.The computer can be general purpose computer, dedicated computing Machine, computer network or other programmable devices.The computer instruction can store in computer readable storage medium In, or from a computer readable storage medium to the transmission of another computer readable storage medium, for example, the computer Instruction can pass through wired (such as coaxial cable, optical fiber, number from a web-site, computer, server or data center User's line (DSL)) or wireless (such as infrared, wireless, microwave etc.) mode to another web-site, computer, server or Data center is transmitted.The computer readable storage medium can be any usable medium that computer can access or It is comprising data storage devices such as one or more usable mediums integrated server, data centers.The usable medium can be with It is magnetic medium, (for example, floppy disk, hard disk, tape), optical medium (for example, DVD) or semiconductor medium (such as solid state hard disk Solid State Disk (SSD)) etc..

Some embodiments of the present invention also provide at least one display window distributing adjustment and touch-control automated calibration system, institute The system of stating includes screen, server and splicing device；At least one described display window is via splicing device with a kind of pre- Fixed layout is shown on screen, and such as in fig. 2 a, a display window can be distributed on a sub-screen；The screen is suitable In the input of acquisition touch-control and display window is shown；The server includes；Memory and processor；The memory is used In storing executable program code；The processor is for reading the executable program code stored in the memory to hold The mentioned-above display window distributing adjustment of row and touch-control automatic calibrating method, have retouched relevant method in view of front It states, details are not described herein again.

As previously mentioned, in this application, screen is suitable for the input of acquisition touch-control and shows to display window.The screen It may include infrared light curtain formula Touch Screen, also may include other a variety of touch screens, touch-control input also correspondingly can be with It is captured by corresponding various sensors with various other ways, such as vector pressure sensing type, condenser type, resistance-type, infrared side Frame, Near-Field Radar Imaging formula, various touch-control acquisition modes that are induction, being shown in surface acoustic wave type touch screen, that is, institute Stating screen can be with vector pressure sensing type, condenser type, resistance-type, infrared frame type, Near-Field Radar Imaging formula, induction, table One way in which acquisition touch-control input in the sound wave type of face.The screen can also be shown with liquid crystal display, plasma, is organic Diode displaying, vacuum fluorescence show, one of Projection Display mode shows signal source.In view of these touch-controls Input capture and display mode, and it is integrated with these touch-control input modes and display mode in the screen of one, widely originally Known to the technical staff of field, therefore it is not unfolded to illustrate herein.In this application, for convenience of description, this kind of acceptable touch-control is defeated The screen for entering and being shown is referred to as screen, with this corresponding, those skilled in the art it is understood that the screen of the application is intended to Touch sensing (or collector) and display unit comprising realizing the touch-control input and display, for example, the screen of the application Cover with sub-screen:

The screen includes with vector pressure sensing type, condenser type, resistance-type, infrared frame type, Near-Field Radar Imaging formula, electromagnetism In induction type, surface acoustic wave type one way in which acquisition touch-control input component, and further include liquid crystal display, etc. Ion display unit, organic light-emitting diode display unit, vacuum fluorescence display unit, projection display unit.

In some embodiments, the screen may include that infrared light curtain forms device and infrared camera, infrared light curtain Device is formed to be used to form infrared light curtain in screen surface；Infrared camera is for acquiring touch-control input.The infrared camera Touch-control input is sent to server.

The screen of the application can also be covered such as sub-screen: the screen includes camera.Laser remote-controlling pen is for emitting On laser beam to the screen, touch-control input is formed；The touch-control is inputted and is sent out for acquiring the touch-control input by camera Give server.

In some embodiments, infrared light curtain can be formed by infrared laser above screen or laser array In screen surface, when pass through finger the effects of when being disposed with the screen of infrared light curtain, user is captured by infrared camera and is existed Touch-control input in screen.For example, when carrying out touch-control input in the display window on any one a sub-screen, touch-control input The light distribution of the infrared light curtain at place will change because of touch-control behavior, for example, touch-control input part infrared light by touch-control hand Refer to that diffusing reflection frames out, and then is taken by the infrared camera being located in front of screen or the sub-screen；Or touch-control input Part infrared light be transmitted through screen because of the effect of touch-control finger, and then be located at screen or the infrared of the sub-screen rear is taken the photograph As head takes, the infrared image including touch-control input is sent to service by infrared camera in electrical signal form later Device, server are handled and are analyzed to the electric signal received, obtain user in the display window on any sub-screen into Touch information when row touch-control, the touch information may include the position, track and/or area information of touch point.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.Some or all of unit therein can be selected to realize the embodiment of the present invention according to the actual needs Purpose.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can readily occur in various equivalent modifications or replace It changes, these modifications or substitutions should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with right It is required that protection scope subject to.

Claims (11)

1. at least one display window distributing adjustment and touch-control automatic calibrating method, which comprises make at least one display Window is shown on screen with a kind of scheduled layout, wherein the screen be suitable for the input of acquisition touch-control and to display window into Row display, the method also includes:

The distributing adjustment instruction inputted in one of display window of at least one display window is received, is adjusted according to the layout The layout of the operated display window of distributing adjustment instruction on the screen is placed in adjustable integral pattern by whole instruction；

The window adjustment instructions inputted in the display window for being placed in adjustable integral pattern are received and identified, are referred to according to window adjustment Enable, be adjusted to the layout of the display window of adjustable mode on the screen is placed in, and record adjustment after all signal sources and The newest layout information of the corresponding relationship and display window of display window on the screen；

Receive the touch-control input in any one display window of user on the screen；

Touch-control input is analyzed, the touch-control is obtained and inputs the touch information of corresponding contact on the screen, The touch information includes location information；

According to the location information and the newest layout information of the contact on the screen, contact institute position is determined In display window.

2. display window distributing adjustment according to claim 1 and touch-control automatic calibrating method, which is characterized in that in determination After the display window that the contact is located at, determined operated by touch-control input according to the corresponding relationship of signal source and display window Signal source, by touch-control input be sent to signal source corresponding to the display window that contact is located at so that the signal source according to The touch-control input carries out response and the output response result in the display window that the contact is located at.

3. display window distributing adjustment according to claim 1 and touch-control automatic calibrating method, which is characterized in that in determination It after the display window that the contact is located at, is inputted according to touch-control, the layout for the display window that the contact is located at or institute There is the layout of display window to be adjusted.

4. display window distributing adjustment according to claim 1,2 or 3 and touch-control automatic calibrating method, which is characterized in that It is described to be adjusted to being placed in the layout of the display window of adjustable mode on the screen, including to being placed in adjustable mode Display window is amplified, reduces, moves or is closed.

5. display window distributing adjustment according to claim 3 and touch-control automatic calibrating method, which is characterized in that described The layout of display window or the layout of all display windows be located to the contact is adjusted, including to display window into Row amplification is reduced, mobile or closing.

6. at least one display window distributing adjustment and touch-control autoalign unit, which is characterized in that including memory and processing Device；

The memory is for storing executable program code；

The processor is used to read the executable program code stored in the memory and requires to appoint in 1 to 5 with perform claim Display window distributing adjustment described in one and touch-control automatic calibrating method.

7. a kind of computer readable storage medium, which is characterized in that including instruction, when run on a computer, so that institute State display window distributing adjustment and touch-control automatic calibrating method of the computer execution as described in any one of claims 1 to 5.

8. at least one display window distributing adjustment and touch-control automated calibration system, the system comprises screens and server；Institute It states at least one display window and is shown on screen via server with a kind of scheduled layout；The screen is suitable for acquisition touch-control It inputs and display window is shown；The server includes；Memory and processor；

The memory is for storing executable program code；

The processor is used to read the executable program code stored in the memory and requires to appoint in 1 to 5 with perform claim Display window distributing adjustment described in one and touch-control automatic calibrating method.

9. display window distributing adjustment according to claim 8 and touch-control automated calibration system, which is characterized in that the screen Curtain includes that infrared light curtain forms device and infrared camera, and infrared light curtain forms device and is used to form infrared light in screen surface Curtain；Infrared camera is sent to server for acquiring touch-control input, and by touch-control input.

10. display window distributing adjustment according to claim 8 and touch-control automated calibration system, which is characterized in that described System includes laser remote-controlling pen, and the screen includes camera；Laser remote-controlling pen is for emitting laser beams on the screen, shape It is inputted at touch-control；Camera is sent to server for acquiring the touch-control input, and by touch-control input.

11. display window distributing adjustment and touch-control automated calibration system according to claim 8 or claim 9, which is characterized in that institute Stating screen includes with vector pressure sensing type, condenser type, resistance-type, infrared frame type, Near-Field Radar Imaging formula, induction, table The component of one way in which acquisition touch-control input in the sound wave type of face, and further include that liquid crystal display, plasma are shown Unit, organic light-emitting diode display unit, vacuum fluorescence display unit or projection display unit.