CN101697111A - Method and device for processing multi-screen splicing display - Google Patents
Method and device for processing multi-screen splicing display Download PDFInfo
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Abstract
The invention relates to a method for processing multi-screen splicing display and a functional module framework for realizing the solution, which are especially applied to the multi-screen splicing display processing of high-resolution images. The method and a device for processing multi-screen splicing display are provided for improving the real-time performance of images after multi-screen splicing display processing, especially high-resolution images. The method comprises the following steps of: in processing at least one single-screen image, segmenting before zooming images, namely segmenting one-path images which need displaying on corresponding splicing unit screens into a plurality of sub images to enable the images to be in one path before segmentation but to be in a plurality of sub paths after segmentation, wherein each sub image occupies one sub path; zooming the images into a plurality images which correspond respectively in parallel to the sub images; and after image zooming, splicing the sub images which belong to the same path before segmentation.
Description
Technical field
The present invention relates to the functional module construction of multi-screen splicing display processing method and its solution of realization, be particularly useful for high-definition picture is carried out the multi-screen splicing display process.
Background technology
Needing the occasion of large screen display image, a plurality of screen splicings can got up form a giant-screen, carrying out multi-screen splicing and show that each screen is responsible for one of them part of display image, each screen is called a concatenation unit screen.For example on as the giant-screen of forming by four concatenation unit screen a, b, c, d of Fig. 1, show complete image first and complete image second constantly simultaneously at a frame, can adopt multi-screen splicing display processing method, dispatch pre-treatment, high-speed serial bus scheduling, scheduling aftertreatment and screen splicing successively and show as Fig. 2.Localization conversion and high speed serializationization are carried out in the scheduling pre-treatment successively, format conversion and frame rate conversion are carried out in localization conversion wherein successively: format conversion is meant that the analog or digital picture signal of the foreign format that will be imported converts the digital signal of local form to, frame rate conversion is meant uses the frame buffer district that the frame rate conversion of signal is become local frame per second, for fear of the picture break-up problem that causes because of the mistiming that writes and read, the frame buffer district should have at least three, and each two field picture in these at least three frame buffer districts is read in turn; High speed serializationization wherein is meant the state that conversion of signals is become to be fit to carry out the high-speed serial bus transmission, comprises steps such as packing, coding, serial conversion.
Need show constantly under the situation of several complete images at the giant-screen previous frame, require to carry out concurrently a plurality of scheduling pre-treatments, this example need be carried out two scheduling pre-treatments simultaneously in order to show complete image first and complete image second simultaneously on giant-screen.The task of high-speed serial bus scheduling is that the signal dispatching of self scheduling pre-treatment is in the future given respectively and concatenation unit screen a, b, c, four parallel scheduling aftertreatments that d is corresponding.According to Fig. 1 as can be known, scheduling aftertreatment a needs the top of processes complete image first and the upper left quarter of complete image second, scheduling aftertreatment b only needs the upper right quarter of processes complete image second, scheduling aftertreatment c needs the bottom of processes complete image first and the lower left quarter of complete image second, scheduling aftertreatment d only needs the right lower quadrant of processes complete image second, therefore when carrying out the high-speed serial bus scheduling to scheduling aftertreatment a, c need provide the signal of complete image first and complete image second, and to scheduling aftertreatment b, d only need provide complete image second to get final product at least, is sheared by each scheduling aftertreatment; High-speed serial bus scheduling also can be dispatched the part that aftertreatment need handle according to each complete image first and complete image second are sheared the part that the back provides its needs to handle to each scheduling aftertreatment.
High speed serialization is separated in each scheduling aftertreatment successively, single screen image is handled and show output, and single screen image is wherein handled need are carried out image zoom at the image of the concatenation unit screen display of correspondence.A is an example with the scheduling aftertreatment, as Fig. 3, it is separated the image zoom of the single screen image of high speed serialization and its in handling and all has and need corresponding respectively walk abreast two of the complete image first of corresponding concatenation unit screen display and complete image second, its single screen image is handled the complete image first and the complete image second of passing through image zoom is carried out image overlay, is shown output again.Need not to show simultaneously complete image second if only need show the complete image first, then dispatch pre-treatment and can omit scheduling pre-treatment second among Fig. 2, the scheduling aftertreatment can be omitted separating high speed serialization, the image zoom of second and image overlay (are comprised omitting and separate high speed serialization a second, image zoom a second and image overlay a) among the scheduling aftertreatment a shown in Figure 3 second.
When the input high-definition picture, in single screen image of scheduling aftertreatment is handled, the data volume of the required processing of image zoom will increase greatly, and it handles frame per second well below the processing frame per second to normal image, finally causes the real-time variation of multi-screen splicing display process.
Summary of the invention
Goal of the invention
The present invention is intended to improve the real-time that the multi-screen splicing display image is especially handled high-definition picture.
Technical scheme
The invention provides the multi-screen splicing display processing method for this reason, dispatch pre-treatment, high-speed serial bus scheduling, scheduling aftertreatment and screen splicing successively and show, wherein,
Localization conversion and high speed serializationization are carried out in the scheduling pre-treatment successively, and format conversion and frame rate conversion are carried out in localization conversion wherein successively, and frame rate conversion is carried out frame buffer and frame synchronization successively and read,
The scheduling aftertreatment have with each concatenation unit screen corresponding respectively walk abreast a plurality of, high speed serialization is separated in each scheduling aftertreatment successively, single screen image is handled and show output, single screen image is wherein handled need is carried out image zoom at the image of the concatenation unit screen display of correspondence
It is characterized in that,
During described at least one single screen image is handled, before image zoom, carry out image segmentation, need are become several subimages in one tunnel image segmentation of the concatenation unit screen display of correspondence, make that image was one the tunnel before being cut apart, be divided into many strips road after being cut apart, every width of cloth subimage takies a strip road; Image zoom have with each width of cloth subimage corresponding respectively walk abreast a plurality of; After image zoom, each the way image that belongs to same road before cutting apart is carried out image mosaic.
The present invention also provides the multi-screen splicing display processing unit, comprises scheduling pretreating device, high-speed serial bus dispatching device, scheduling after-treatment device and screen splicing display device from front to back successively, wherein
The scheduling pretreating device comprise successively from front to back localized conversion equipment and high speed serialization the makeup put, localized conversion equipment wherein comprises format conversion apparatus and frame rate conversion device from front to back successively, frame rate conversion comprises frame buffer district and frame synchronization reading device from front to back successively
The scheduling after-treatment device has a plurality of of the parallel connection corresponding with each concatenation unit screen difference, each scheduling after-treatment device comprises from front to back successively to be separated high speed serialization device, single screen image treating apparatus and shows output unit, single screen image treating apparatus wherein comprises the image scaling device that need is carried out image zoom at the image of the concatenation unit screen display of correspondence
It is characterized in that,
In described at least one single screen image treating apparatus, before image scaling device, comprise the image segmentation device, be used for need are become several subimages in one tunnel image segmentation of the concatenation unit screen display of correspondence, make that image was one the tunnel before being cut apart, be divided into many strips road after being cut apart, every width of cloth subimage takies a strip road; Image scaling device have with each width of cloth subimage corresponding respectively walk abreast a plurality of; After image scaling device, comprise the splicing apparatus that each the way image that belongs to same road before cutting apart is carried out image mosaic.
Beneficial effect
Technique scheme is carried out image segmentation to one road image earlier in each single screen image of scheduling aftertreatment is handled, concurrently several subimages are carried out image zoom then, behind image zoom, splice the state that returns to before cutting apart again, can on the concatenation unit screen of correspondence, show.The beneficial effect of technique scheme is embodied in: (1) prior art is carried out image zoom to the big not split image of a width of cloth, and the processing frame per second of image zoom is low; The present invention carries out image zoom concurrently to several subimages, the processing frame per second height of image zoom, and (2) under given processing frame per second required, the not split image big to a width of cloth carried out image zoom, needs superior performance but the high image zoom equipment of price; Several little subimages are carried out image zoom concurrently, only need many group poor-performings but cheap image zoom chip, total cost still is lower than one group of superior performance, the high image zoom chip of price.Technique scheme also can have preferable real-time by handling the processing frame per second that has improved image zoom along separate routes when making multi-screen splicing display process high-definition picture.
Description of drawings
Fig. 1 is the synoptic diagram that shows complete image first and complete image second on the giant-screen of being made up of four concatenation unit screen a, b, c, d at a frame constantly simultaneously.
Fig. 2 is the process flow diagram of multi-screen splicing display processing method.
Fig. 3 is that background technology is that concatenation unit screen a dispatches the process flow diagram of aftertreatment.
Fig. 4 is that the present invention is that concatenation unit screen a dispatches the process flow diagram of aftertreatment.
Embodiment
On as the giant-screen of forming by four concatenation unit screen a, b, c, d of Fig. 1, show complete image first and complete image second constantly simultaneously at a frame, can adopt multi-screen splicing display processing method, dispatch pre-treatment, high-speed serial bus scheduling, scheduling aftertreatment and screen splicing successively and show as Fig. 2.
Localization conversion and high speed serializationization are carried out in the scheduling pre-treatment successively.Format conversion and frame rate conversion are carried out in localization conversion successively: format conversion is meant that the analog or digital picture signal of the foreign format that will be imported converts the digital signal of local form to, and frame rate conversion is meant that signal is carried out frame buffer successively to be read with frame synchronization its frame rate conversion is become local frame per second.High speed serializationization is meant the state that conversion of signals is become to be fit to carry out the high-speed serial bus transmission, comprises steps such as packing, coding, serial conversion.In order on giant-screen, to show complete image first and complete image second (or more several complete images) simultaneously, need carry out two (or more a plurality of) scheduling pre-treatment simultaneously.
The task of high-speed serial bus scheduling is that the signal dispatching of self scheduling pre-treatment is in the future given respectively and concatenation unit screen a, b, c, four parallel scheduling aftertreatments that d is corresponding.According to Fig. 1 as can be known, scheduling aftertreatment a needs the top of processes complete image first and the upper left quarter of complete image second, scheduling aftertreatment b only needs the upper right quarter of processes complete image second, scheduling aftertreatment c needs the bottom of processes complete image first and the lower left quarter of complete image second, scheduling aftertreatment d only needs the right lower quadrant of processes complete image second, therefore when carrying out the high-speed serial bus scheduling to scheduling aftertreatment a, c need provide the signal of complete image first and complete image second, and to scheduling aftertreatment b, d only need provide complete image second to get final product at least, is sheared by each scheduling aftertreatment; High-speed serial bus scheduling also can be dispatched the part that aftertreatment need handle according to each complete image first and complete image second are sheared the part that the back provides its needs to handle to each scheduling aftertreatment.
High speed serialization is separated in each scheduling aftertreatment successively, single screen image is handled and show output, and single screen image is wherein handled need are carried out image zoom at the image of the concatenation unit screen display of correspondence.A is an example with the scheduling aftertreatment, and as Fig. 4, its corresponding concatenation unit screen a need show the top of complete image first and the upper left quarter of complete image second.During single screen image was handled, image segmentation was carried out on the top of the complete image first that need are shown, is divided into n respectively
aWidth of cloth subimage makes that image was one the tunnel, was divided into n after being cut apart before being cut apart
aThe strip road, every width of cloth subimage takies a strip road; The upper left quarter of the complete image second that need are shown carries out image segmentation simultaneously, is divided into m respectively
aWidth of cloth subimage makes that image was one the tunnel, was divided into m after being cut apart before being cut apart
aThe strip road, every width of cloth subimage takies a strip road.Image zoom subsequently have with the complete image first in n
aThe parallel n that width of cloth subimage is corresponding respectively
aIndividual and with complete image second in m
aThe parallel m that width of cloth subimage is corresponding respectively
aIndividual.After image zoom, carry out image mosaic respectively with each width of cloth subimage that belongs to complete image second, then two width of cloth images that correspond respectively to first and second that pass through image mosaic are carried out image overlay, shown output again belonging to the complete image first.Need not to show simultaneously complete image second if only need show the complete image first, then dispatch pre-treatment and can omit scheduling pre-treatment second among Fig. 2, the scheduling aftertreatment can be omitted separating high speed serialization, the image zoom of second and image overlay (are comprised omitting and separate high speed serialization a second, image zoom a second and image overlay a) among the scheduling aftertreatment a shown in Figure 4 second.
Scheduling aftertreatment c is similar with scheduling aftertreatment a, does not give unnecessary details.Scheduling aftertreatment b, d and scheduling aftertreatment a omission to first separate high speed serialization, to similar after the image zoom of first and the image overlay, do not give unnecessary details yet.
Statement is during quantity, and " many " as herein described are meant more than or equal to two, and for example " a plurality of " are meant more than or equal to two, and " several " be meant more than or equal to two width of cloth, or the like.
All or part of step in the method that this paper mentions can be finished by computer program instructions control computer system, and computer program instructions is stored in the computer-readable recording medium.
Claims (4)
1. the multi-screen splicing display processing method is dispatched pre-treatment, high-speed serial bus scheduling, scheduling aftertreatment and screen splicing successively and is shown, wherein,
Localization conversion and high speed serializationization are carried out in the scheduling pre-treatment successively, and format conversion and frame rate conversion are carried out in localization conversion wherein successively, and frame rate conversion is carried out frame buffer and frame synchronization successively and read,
The scheduling aftertreatment have with each concatenation unit screen corresponding respectively walk abreast a plurality of, high speed serialization is separated in each scheduling aftertreatment successively, single screen image is handled and show output, single screen image is wherein handled need is carried out image zoom at the image of the concatenation unit screen display of correspondence
It is characterized in that,
During described at least one single screen image is handled, before image zoom, carry out image segmentation, need are become several subimages in one tunnel image segmentation of the concatenation unit screen display of correspondence, make that image was one the tunnel before being cut apart, be divided into many strips road after being cut apart, every width of cloth subimage takies a strip road; Image zoom have with each width of cloth subimage corresponding respectively walk abreast a plurality of; After image zoom, each the way image that belongs to same road before cutting apart is carried out image mosaic.
2. according to the multi-screen splicing display processing method of claim 1, it is characterized in that described scheduling pre-treatment has parallel a plurality of; Also the image through image mosaic is carried out image overlay in handling from the corresponding single screen image of the concatenation unit screen of a plurality of scheduling pre-treatments showing with need.
3. the multi-screen splicing display processing unit is characterized in that, comprises scheduling pretreating device, high-speed serial bus dispatching device, scheduling after-treatment device and screen splicing display device from front to back successively, wherein
The scheduling pretreating device comprise successively from front to back localized conversion equipment and high speed serialization the makeup put, localized conversion equipment wherein comprises format conversion apparatus and frame rate conversion device from front to back successively, frame rate conversion comprises frame buffer district and frame synchronization reading device from front to back successively
The scheduling after-treatment device has a plurality of of the parallel connection corresponding with each concatenation unit screen difference, each scheduling after-treatment device comprises from front to back successively to be separated high speed serialization device, single screen image treating apparatus and shows output unit, single screen image treating apparatus wherein comprises the image scaling device that need is carried out image zoom at the image of the concatenation unit screen display of correspondence
It is characterized in that,
In described at least one single screen image treating apparatus, before image scaling device, comprise the image segmentation device, be used for need are become several subimages in one tunnel image segmentation of the concatenation unit screen display of correspondence, make that image was one the tunnel before being cut apart, be divided into many strips road after being cut apart, every width of cloth subimage takies a strip road; Image scaling device have with each width of cloth subimage corresponding respectively walk abreast a plurality of; After image scaling device, comprise the splicing apparatus that each the way image that belongs to same road before cutting apart is carried out image mosaic.
4. according to the multi-screen splicing display processing unit of claim 3, it is characterized in that described scheduling pretreating device has a plurality of of parallel connection; Also comprise in single screen image treating apparatus corresponding carry out the image overlay device of image overlay through the image of image mosaic showing from the concatenation unit screen of a plurality of scheduling pre-treatments with need.
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