CN1534544A - Large screen non contact type control mode - Google Patents
Large screen non contact type control mode Download PDFInfo
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- CN1534544A CN1534544A CNA031079008A CN03107900A CN1534544A CN 1534544 A CN1534544 A CN 1534544A CN A031079008 A CNA031079008 A CN A031079008A CN 03107900 A CN03107900 A CN 03107900A CN 1534544 A CN1534544 A CN 1534544A
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Abstract
A non-contact control method for large screen features that a laser pen is used to control screen operations, a red laser pen with wireless left and right mouse keys are used for realizing the functions of mouse, a camera head with red filter is used for picking the information about laser point and increasing S/N ratio, a video acquisition card is used for receiving the data from camera head and processing it to set up the position of system cursor, and a forward interpolation algorithm is used for moving cursor smoothly.
Description
Technical field
The present invention relates to the human-computer interaction technique field of large screen display, relate generally to the straight technology of giant-screen being carried out contactless control mode that connects of red laser of utilizing band wireless mouse right and left key.
Background technology
Arrival along with the information age, the interaction technique of people and information is just being played the part of more and more important role, wherein the large screen projection display system is exactly one of current the most modern video signal instrument, because intuitive, the super large characteristics of itself, be widely applied to every field, especially military combat commander, virtual reality etc.
Large screen display system mainly comprises display control program, projector system, screen wall system.
Display control program is the control center of whole large screen projection display system, and displaying contents and display mode on the Projection Display wall are directly controlled in its response people's various control behaviors.Display control program generally is made up of computing machine, multiple interactive device (as keyboard, mouse, laser pen etc.), multi-channel video display device (during multi-screen splicing).Wherein the multi-screen splicing display control program mainly is divided into two classes: a class is directly the picture on several the computer monitors to be received to amplify on the giant-screen to show; Another kind of is to be presented on the whole giant-screen by the various application windows of multi-channel video display device with same computing machine.Preceding a kind of quantity of information that do not increase just allows everybody can see the information that shows on several the computing machines simultaneously; The back is a kind of then to be that the large screen display wall is shielded as virtual logical, can open any a plurality of application window on screen wall, makes full use of the display area of screen wall, and a large amount of information is provided simultaneously.
When realizing large screen display system, human-computer interaction technology is absolutely necessary, and this directly influences efficient, the difficulty of operation and the applicability of intuitive, different occasions that display system is used.Because the intrinsic super large characteristics of giant-screen itself, make the red laser pen become the first-selection interactive device commonly used of large screen display system, laser pen is used for the red point of direct directive screen generation high brightness, thereby plays indicative function.
There have been some giant-screen contact control modes to obtain application at present.[The Writing ' the s on the Wall:Large of Mark Ashdown and Peter Robinson, Remotely ControlledDisplays] introduced the positional information that detects input pen with the magnetic detection head of two intersections, when pen magnetic transmitter in the pen by on screen the time is just launched electromagnetic wave one time, the detecting head that intersects receives electromagnetic wave respectively and passes to computing machine at once, the reception program of running background calculates the current location that both receive definite pen of electromagnetic mistiming in real time on the computing machine, is converted into screen coordinate again the current location of system's cursor to pen is set.[the Multi-User Laser-Based Interaction on Large Tiled Displays] of James Davis and Xing Chen also mentions with two intersection detecting heads and obtains the input point position.3M company has made integrated demonstration conference system, has realized functions such as interactive electronic white board, Web conference, can directly write on screen, edition function.But contact control mode itself has just limited its range of application and screen size.At first, pen must contact screen, this all is unallowed for most of screen, screen can be hindered by stroke and leave a trace, if the polylith Mosaic screen can influence the track of pen in splicing place, splicing place simultaneously can be subjected to badly damaged, and it needs special wear-resisting material to be additional to screen surface with the protection screen; Secondly, a range of movement is directly received the restriction that staff can reach scope, and screen size just can not be stretched out one's hand scope above common people like this.So the contact control mode generally is applied to the screen interactive display system of the common size of monolithic screen.
Summary of the invention
The object of the invention is to provide the human-computer interaction technology of the contactless control mode of a kind of giant-screen, this technology make the man-machine interaction of large screen display system become quite simple effectively, thereby simultaneously again the simplified system equipment needed thereby reduce the cost of display system.Use the large screen display system of this technology to possess very strong operation simplification, equipment interoperability, system's adjustability.Only need a hand-held small and exquisite red laser pen, control cursor arbitrarily and be with the LR-button operation with laser spots, realization is to all mouse action functions of giant-screen, use very intuitive and convenient, laser points to where cursor is arrived there at once, cooperates LR-button to get final product the Any Application of operating system again.Maximum characteristics are exactly no longer to rely on the physics roll mouse to control cursor position, but depend merely on the red laser assigned address, so just adapt to different far and near distances, contact or contactless any operation.
For achieving the above object, technical solution of the present invention provides the contactless control mode of a kind of giant-screen, be made up of laser pen, giant-screen, projector, camera and high-performance computer, it adopts the red laser pen and the giant-screen of band wireless mouse right and left key; High-performance computer links to each other with giant-screen; Multichannel display card and bull video frequency collection card are arranged in the high-performance computer, and projector links to each other with the multichannel display card, and camera links to each other with the bull video frequency collection card.
The contactless control mode of described giant-screen, its with the red laser pen with the wireless mouse right and left key control the left and right press key and the cursor position of giant-screen operation, be that system's cursor is followed the tracks of laser spots constantly, so just can change cursor position fast arbitrarily, finish all functions of common mouse, realize contactless operation.
The contactless control mode of described giant-screen, its described camera has Red lightscreening plate, and the laser spots information that camera is obtained increases signal to noise ratio (S/N ratio), realizes high precision tracking.
The contactless control mode of described giant-screen, it receives the camera data and handles in real time with video frequency collection card and obtains the laser spots position, thus the initialization system cursor position overlaps with laser spots.
The contactless control mode of described giant-screen, it adopts the forward prediction interpolation algorithm that laser spots is carried out interpolation, realizes smooth moving cursor.
The present invention does not just need pen to contact with screen and realizes operating function owing to adopted laser pen, makes position and size that giant-screen is placed no longer be subjected to user's hand can reach the restriction of scope, and only needing that red laser is pointed to giant-screen can operate.Make giant-screen do not rubbed or scratch simultaneously, improved screen serviceable life and display effect.Certainly hold laser pen and contact too with screen and can operate, as long as red laser is mapped on the giant-screen.
Description of drawings
Fig. 1 is the contactless control mode system construction drawing of giant-screen of the present invention.
Embodiment
Technical scheme system construction drawing of the present invention mainly comprises as shown in Figure 1: laser pen 1, giant-screen 2, projector 3, camera 4 and high-performance computer 5.
Wherein, bull video frequency collection card 51, multichannel display card 52 and network interface card 53 are arranged in the high-performance computer 5; Computing machine 5 also can be operated by Wireless Keyboard 6.
Giant-screen 2 links to each other with high-performance computer 5; Multichannel display card 52 in projector 3 and the high-performance computer 5 links to each other, and camera 4 and high-performance computer 5 interior bull video frequency collection cards 51 link to each other; Network interface card 53 in the computing machine 5 connects high-speed local area network 7.
Red filter plate (not illustrating among the figure) is housed before camera 4 camera lenses.
Laser pen 1 can be launched red laser to giant-screen 2, produces the red luminous point of high brightness.
The contactless control mode of giant-screen of the present invention system also needs the support of software program, and comprise two important procedure: 1, laser spots detects background program in real time; 2, laser spots drafting symbol background program.
The working condition of the contactless control mode of giant-screen of the present invention is as follows:
(a) laser pen 1 and giant-screen 2.Giant-screen 2 can be any display screen, also can be that monolithic screen or polylith screen splicing form, it only influences the display effect of projection, does not influence red laser control accuracy of the present invention and sensitivity, so can choose at random pre-projecting type or rear projection screen.The red laser pen 1 of band wireless mouse right and left key function is realized mouse function, utilizes the left and right press key radio communication function between it and the computing machine to realize the left and right press key operation, utilizes red laser shine the red point of generation on giant-screen 2 and changes system's cursor position.Feature of the present invention is controlled cursor with laser spots exactly, and finishes all mouse control functions with left and right sides wireless push, and more simple, intuitive is convenient to allow giant-screen 2 operations become, and realizes giant-screen 2 contactless controls.Owing to realized the jumbotron demonstration, the mobile of conventional mouse becomes difficult unusually, at first the user need see current cursor position clearly, only found current cursor position to follow current relative direction ability rolling mouse according to the position of wanting to move on to then, next position that wants to move on to is far with current cursor position distance, conventional mouse needs mobile range very big, and operation has also just become trouble.The advantage that laser pen 1 replaces conventional mouse just is this.Right and left key on the laser pen 1 is finished the right and left key function that realizes conventional mouse simultaneously, thereby has increased substantially intuitive, the simplification used.
(b) multichannel display card 52 and projector 3.If the monolithic display screen has not just needed multichannel display card 52, as long as single projector 3 is received in the output of the video card of common computer, general resolution can arrive 1024 * 768.The words of bigger display area if desired, just need the polylith screen splicing to form, so just need the demonstration of computing machine 5 to be processed into multi-channel video signal and pass to a plurality of projectors 3 by multichannel display card 52, each projector's 3 projection goes out partial content reformulate the entire display screen curtain on giant-screen 2 then, for example 1 * 3 arrangement screen and projector 3 just can obtain 3072 * 768,2 * 3 arrangements and just can obtain 3072 * 1536.
(c) camera 4 of filter plate and bull video frequency collection card 51 redly.In order to obtain the positional information of laser spots in real time, directly over each projector 3, be close to and place a camera 4, obtain the interior laser spots information of corresponding screen scope in real time with camera 4.Because giant-screen 2 systems may be applied in the multiple different complex environment, noise just may flood laser spots information and can't obtain correct laser spots position like this, so the present invention on each camera 4 is pre-installed red filter plate, so just the signal to noise ratio (S/N ratio) of laser spots can be brought up to about 10DB from 2DB, approximately improved more than 5 times.Video frequency collection card 51 is contained on the computing machine 5, receives the image that each camera 4 obtains in real time, and deposits buffer zone so that computing machine 5 reads processing in real time.Here camera 4 can be in giant-screen 2 fronts also can be in giant-screen 2 back, if prepositionly certainly just might be blocked and can't obtain laser spots, so preferably rearmounted by people or thing.Adopt rearmounted projector 3 and camera 4, the shortcoming of thoroughly having avoided screen content in general giant-screen 2 systems to be blocked by health or object, the user can walk about arbitrarily before giant-screen 2, makes the user operate like this and more is not subjected to environmental restraint.Also can add that 1394 capture cards realize better acquisition function with digital camera head 4.
(d) high-performance computer 5.It is the processing maincenter of total system, and major function has: handle the realtime graphic acquisition laser spots position that collects and put cursor again to laser spots; The left and right press key of response wireless mouse; Drive multichannel display card 52 outputting video signals; Operational system and each application program; Laser spots among operation the present invention detects background program and laser spots drafting symbol background program in real time.
The present invention also comprises two critical software programs:
(1) laser spots detects background program in real time.Every two field picture that this program is finished every road capture card calculates, therefrom detect the picture element that surpasses certain thresholding with laser spots sample matches degree, calibrate display screen and camera again and obtain the position scaled ratio of image, thereby the picture element coordinate transform is become system's displaing coordinate initialization system cursor position.Here Edge extraction and image matching algorithm have been adopted.Program also provides automatically accurately calibration control interface.Adopt the forward prediction interpolation algorithm that laser spots is carried out interpolation simultaneously, realize smooth moving cursor.
(2) laser spots drafting symbol background program.Under suitable certain situation, the user need directly draw some symbols or write some things with laser spots on giant-screen, and this just needs laser spots drafting symbol background program to respond these operations.After back has obtained the laser spots position, write down each positional information and just form curve, but the video that obtains owing to camera generally all had only about 30 frame/seconds, so the curve shape that can the broken line type curve obviously occur even can not obtain wanting when the laser spots fast moving.For sort this problem out the present invention has adopted the forward prediction interpolation algorithm, promptly on basis, more preceding some position, carry out interpolation and obtain better curve, again this curve is predicted that extension calculates next point and detects some somes positions may arriving before, pointwise is predicted forward successively, finally obtains curve more true to nature.Simultaneously if the piece image that on giant-screen, shows, program fictionalizes all symbols that come the recording laser point-rendering with its empty graph layer of a size so, and drafting, selection, delete function can be arranged, and these symbols are followed the picture roll convergent-divergent with display image coordinate correspondence simultaneously.
Embodiment
The present invention has obtained specific implementation.Contrast accompanying drawing 1, the equipment of selection such as following table:
Title | Concrete equipment | Major parameter |
Screen | The back projection type LCD screen | 60 inches/1024*768,3 * 2,3072*1536,6 |
Laser pen | Sieve skill-blue utmost point flies ermine | Red laser, right and left key, bluetooth/10 meter, USB interface receiver |
Wireless Keyboard | Benq-no shadow hand | Wireless Keyboard, the USB interface receiver |
The bull display card | Matrox-Parhelia?512 | 3 outputs, DirectX9, OpenGL, 2 |
Projector | SONY | 1078*768,6 |
The multi pass acquisition card | Beautiful as picture-PV988 | 4 the road gather simultaneously, PAL/NTSC, 2 |
Camera | The simulation camera | The PAL/NTSC standard, 384*288,25FPS, 6 |
Red filter plate | Red filter plate | Common grade |
Server | High-performance computer | 2.4G, 1G DDR, 120G hard disk |
Network interface card | TP-Link | The 100M/10M self-adaptation |
The leading indicator that obtains on above hardware foundation is as follows:
● the coincidence error of cursor and laser spots: every screen edge area coincidence error is less than 5 pixels (display resolution), and error is less than 4 pixels in 2/3 screen area of center, and center 1/3 screen area is interior less than 2 pixels;
● the relative laser spots of cursor postpones:<40ms visually postpones not obvious;
● the real-time verification and measurement ratio of laser spots:>90%, real-time is better;
● real-time trace routine of laser spots and the direct plotter program of laser pen normally move CPU usage: 1~4% (P4 2.4G);
● laser pen operating distance: in 10 meters; 15 meters (receiver adds the USB extended line);
● screen splicing error:<1 pixel.
Claims (5)
1, the contactless control mode of a kind of giant-screen is made up of laser pen, giant-screen, projector, camera and high-performance computer, it is characterized in that, adopts the red laser pen and the giant-screen of band wireless mouse right and left key; High-performance computer links to each other with giant-screen; Multichannel display card and bull video frequency collection card are arranged in the high-performance computer, and projector links to each other with the multichannel display card, and camera links to each other with the bull video frequency collection card.
2, the contactless control mode of giant-screen as claimed in claim 1, it is characterized in that, with the red laser pen with the wireless mouse right and left key control the left and right press key and the cursor position of giant-screen operation, be that system's cursor is followed the tracks of laser spots constantly, so just can change cursor position fast arbitrarily, finish all functions of common mouse, realize contactless operation.
3, the contactless control mode of giant-screen as claimed in claim 1 is characterized in that, described camera has Red lightscreening plate, and the laser spots information that camera is obtained increases signal to noise ratio (S/N ratio), realizes high precision tracking.
4, the contactless control mode of giant-screen as claimed in claim 1 is characterized in that, receive the camera data and handle in real time with video frequency collection card to obtain the laser spots position, thereby the initialization system cursor position overlaps with laser spots.
5, the contactless control mode of giant-screen as claimed in claim 1 is characterized in that, adopts the forward prediction interpolation algorithm that laser spots is carried out interpolation, realizes smooth moving cursor.
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---|---|---|---|---|
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-
2003
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