201243800 六、發明說明: 【發明所屬之技術領域】 本發明係有關於影像顯示技術,尤指一種在兩張原始的完整影 ,晝面之顯示資料之間增加至少—張部分影像畫面_示資料以使 得影像晝面之#_示資料可提衫祕送及㈤影像畫面之晝質 可以提升的影像顯示方法與影像顯示系統。 【先前技術】 對於液晶顯示螢幕而言,由於液晶單元(liquid巧缝别的旋 ^身需要耗f—_間才能翻歡,無論是應職晶顯示螢幕 來搭配立體眼鏡(例如快門眼_呈現立離_刪^加權 2果予使用者或者應職晶顯示f幕雜科面細^ 影像予使用者,如何讓畫面提早完成更新崎免晝面間干擾 ^rosstalk)的問題以及如何有效提升畫面的顯示品質便成為此一技 術領域的重要課題。 【發明内容】 ㈣的目的之-在於提供—種在祕縣的完整影像 二主面二t間增加至少—張部分影像晝面的顯示資料以使得 以料的旦^資料可提早完成傳送及/或影像晝面之畫質可 k升的讀_方法與影像顯示系統。 201243800 依據本發明之實施例,其揭示一種影像顯示方法。該影像顯示 方法包含有:傳送一第一影像畫面所對應之一第一掃描線資料以及 一第二掃描線資料至一顯示螢幕,其中該第一掃描線資料至少包含 有一有效顯示資料,以及該第二掃描線資料至少包含有一垂直遮沒 間隔資料;以及一第二影像晝面所對應之一第三掃描線資料以及一 第四掃描線資料至該顯示螢幕,其中該第一、第二影像晝面之一影 像晝面係緊鄰於該第一、第二影像晝面之另一影像畫面,該第三掃 描線資料至少包含有一有效顯示資料,該第四掃描線資料至少包含 有一垂直遮沒間隔資料,以及該第二影像晝面的資料量係小於該第 一影像晝面的資料量。 依據本發明之實施例,其另揭示一種影像顯示系統。該影像顯 示系統包含有一顯示螢幕以及一處理電路。該處理電路用以傳送一 第一影像畫面所對應之一第一掃描線資料以及一第二掃描線資料至 該顯示螢幕,並傳送一第二影像晝面所對應之一第三掃描線資料以 及一第四掃描線資料至該顯示螢幕,其中該第一、第二影像晝面之 一影像晝面係緊鄰於該第一、第二影像晝面之另一影像晝面,該第 一掃描線資料至少包含有一有效顯示資料,該第二掃描線資料至少 包含有一垂直遮沒間隔資料,該第三掃描線資料至少包含有一有效 顯示資料,該第四掃描線資料至少包含有一垂直遮沒間隔資料,以 及該第二影像晝面的資料量係小於該第一影像晝面的資料量。 【實施方式】 201243800 請參閱第1圖,第1圖為本發明影像顯示系統之第一實施例的功 能方塊示意圖。本實施例中,影像顯示系統係由一視訊顯示裝置 100來加以實現,如圖所示’視訊顯示裝置100包含有一顯示螢幕 102以及搞接於顯示螢幕102之一處理電路104。處理電路104會傳送 一第一影像晝面F1所對應之一第一掃描線資料以及一第二掃描 線資料A至顯示螢幕102,並傳送緊接第一影像畫面F1之後一第二 影像晝面F2所對應之一第三掃描線資料a以及一第四掃描線資料 D4至顯示螢幕1〇2,其中第一掃描線資料仏至少包含有一有效顯示 資料(activedata),第二掃描線資料〇2至少包含有一垂直遮沒間 隔(vertical blanking interval,VBI)資料,第三掃描線資料巧至少包含 有一有效顯示資料,第四掃描線資料〇4至少包含有一垂直遮沒間隔 資料,以及第一影像晝面F2的資料量係不同於第一影像晝面η的 資料量(例如第二影像畫面F2中掃描線的總數會不同於第一影像晝 面F1中掃描線的總數)。此外,於本實施例中,處理電路1〇4包含有 -處理單元112與-暫存單元114 ’其中處理單元112可以是影像縮 放處理電路(scalar),以及暫存單元114可以是圖框緩衝器(fr_ buffer),因此,處理單元in可透過内建的微處理器來處理所接收 之一原始影像晝面F一!N,並逐一輸出第一影像畫面F1與第二影像 晝面F2的掃描線資料至暫存單元114,以藉由暫存單元114來暫存欲 傳輸至顯示螢幕102的掃描線資料,之後,再透過逐一輸出第一影 像晝面F1與第二影像晝面F2的掃描線資料至顯示螢幕1〇2,以便於 顯示螢幕102上顯示第一影像畫面打與第二影像晝面?2的晝面内 容。處理電路1〇4巾的處理單元112產生第—影像晝刷與第二影像201243800 VI. Description of the Invention: [Technical Field] The present invention relates to image display technology, and more particularly to adding at least one partial image to each other between two original complete images The image display method and the image display system can be improved by making the image of the image surface and the image of the image display. [Prior Art] For the liquid crystal display screen, due to the liquid crystal cell (the liquid sewing machine needs to be f-_ can be turned over, whether it is the job display screen to match the stereo glasses (such as the shutter eye _ rendering) Separate _ delete ^ weight 2 fruit to the user or the job crystal display f screen miscellaneous face fine ^ image to the user, how to make the screen early to update the problem of updating the surface interference ^rosstalk) and how to effectively improve the picture The display quality has become an important issue in this technical field. [Draft] The purpose of (4) is to provide a display of at least a part of the image surface between the two main faces of the complete image of Mixian County. The method for reading and/or image quality of the image surface can be completed early. 201243800 According to an embodiment of the invention, an image display method is disclosed. The method includes: transmitting a first scan line data corresponding to a first image frame and a second scan line data to a display screen, wherein the first scan line data includes at least Having a valid display data, and the second scan line data includes at least one vertical blanking interval data; and a third scan line data corresponding to a second image buffer surface and a fourth scan line data to the display screen, wherein One of the first and second image planes is adjacent to another image frame of the first and second image planes, and the third scan line data includes at least one effective display material, the fourth scan line The data includes at least one vertical blanking interval data, and the data volume of the second image surface is smaller than the data amount of the first image surface. According to an embodiment of the invention, an image display system is further disclosed. The system includes a display screen and a processing circuit for transmitting a first scan line data corresponding to a first image frame and a second scan line data to the display screen, and transmitting a second image surface Corresponding to one of the third scan line data and the fourth scan line data to the display screen, wherein the first and second images are shadowed The first scan line data includes at least one valid display data, and the second scan line data includes at least one vertical blanking interval data, and the image data of the first scan line is adjacent to another image plane of the first image and the second image plane. The third scan line data includes at least one valid display data, the fourth scan line data includes at least one vertical blanking interval data, and the data amount of the second image side is smaller than the data amount of the first image. [Embodiment] 201243800 Please refer to Fig. 1. Fig. 1 is a functional block diagram of a first embodiment of an image display system according to the present invention. In this embodiment, the image display system is implemented by a video display device 100, such as The video display device 100 includes a display screen 102 and a processing circuit 104 connected to the display screen 102. The processing circuit 104 transmits a first scan line data corresponding to a first image plane F1 and a first Second scan line data A to display screen 102, and send a third scan line data corresponding to a second image plane F2 immediately after the first image frame F1 a and a fourth scan line data D4 to the display screen 1〇2, wherein the first scan line data 仏 at least one active display data (activedata), the second scan line data 〇 2 at least one vertical blanking interval (vertical blanking) Interval, VBI) data, the third scan line data at least includes a valid display data, the fourth scan line data 〇4 at least includes a vertical blanking interval data, and the first image side F2 data amount is different from the first The amount of data of the image plane η (for example, the total number of scan lines in the second image frame F2 may be different from the total number of scan lines in the first image plane F1). In addition, in this embodiment, the processing circuit 1〇4 includes a processing unit 112 and a temporary storage unit 114. The processing unit 112 may be an image scaling processing circuit (scalar), and the temporary storage unit 114 may be a frame buffer. (fr_buffer), therefore, the processing unit in can process one of the received original image planes F!N through the built-in microprocessor, and output the first image frame F1 and the second image plane F2 one by one. The scan line data is sent to the temporary storage unit 114 to temporarily store the scan line data to be transmitted to the display screen 102 by the temporary storage unit 114, and then output the first image plane F1 and the second image plane F2 one by one. Scan the line data to the display screen 1〇2, so that the first image frame is displayed on the display screen 102 and the second image is displayed. 2 face content. The processing unit 112 of the processing circuit 1 4 generates a first image and a second image
6 S 201243800 晝面F2的操作將於下詳述。 請-併參閱第2圖、第3圖以及第4圖,第2圖為第!圖所示之處理 電路104所接收之原始影像晝面f—取之一實施例的示意圖,第3圖 為第1圖所示之處理電路1G4於第—實作方式中所輸出之第一影像畫 面F1的示意圖,以及第4圖為第1圖所示之處理電路1⑽於第一實作 方式中所輸出之第二影像晝面_示意圖。每—影像晝面的資料可 區刀為.會於顯示g幕1〇2之有效顯示區域中顯示时際影像内容 的有效顯示資料’以及不會於顯示螢幕1〇2顯示出任何實際影像内 容的水平歧_Griz_l blanking interval,ΗΒΙ)·與垂直遮沒 間隔區域貝料。如第2圖所示’原始影像晝面f—職寬度與高度分 别為W0與Η0 ’換言之’原始影像畫面F—放可視為具有則條掃描 線以及原始衫像畫面F—IN的每一條掃描線可視為具有個像 素,此外,原始影像畫面FJN的有效顯示資料為从一〇(其對應 H〇l W01個像素的顯示資料,例如,卜以及則问_), 原始〜像直面FJN的垂直遮沒間隔區域資料為他—o (其對應 H〇2*W〇1個像素的顯示資料),原始影像晝面FJN的水平遮沒間隔 區域貝料&含HBIaa-G(賊應至有賴示資料為AA_G,並具有 H〇l*WG2個像音的顯示觸以及hu(其對應至垂直遮沒間隔 區域資料vmj) ’且具有膨職娜素的顯示資料)。 於第實作方式中’處理電路104中的處理單元122是直接以原 心像旦面FJN的資料來作為第一影像晝面F1的資料,如第3圖所 201243800 不,第-影像晝面F1的有效顯示資料从」會等於从一〇,第一影像 畫面F1的垂直遮沒間隔區域資料VBIj會等於vm—Q,以及第一影 像晝面F1的水平遮沒間隔區域資料包含分別等於hbIal〇與 HBIvbi_0的ΗΒΙλ^Ι與hBIVBij ’請注意,於第一實作方式中,上 述的第-掃描線資料D,包切效齡·AA—i與水平遮沒間隔區 域資料HBIaaJ,以及上述的第二掃描線資料D2包含垂直遮沒間隔 責料VBI一1與水平遮沒間隔區域資料Hu,因此,第一掃描線 資料D!的有效顯示資料AA—1會包含原始影像畫面F—沉中所有的有 效顯不資料AA_〇。 另外’對於緊接於第-影像畫面F1之後的第二影像畫面以而 言,其資料量會小於第一影像畫面F1的資料量,如第4圖所示,第 二影像晝面F2的寬度與高度分別為W(^H2(H2<H〇),因此,第二 影像晝面F2可視為具有H2條掃描線,以及第二影像晝面F2的每一 條掃描線可視為具有個像素,此外,第^彡像晝臟的有效顯 示資料為AA—2(其對應H21*W01個像素的顯示資料),第二影像晝 面F2的垂直遮沒間隔區域資料為VBI一2(其對應H22*w〇l個像素的 顯示資料)’第二影像晝面F2的水平遮沒間隔區域資料包含 HBIAA_2(其對應至有效顯示資料為aa一2,並具有H2l*w〇2個像素 的顯示資料)以及HBIvbi_2 (其對應至垂直遮沒間隔區域資料 VBI一2,且具有H22*W02個像素的顯示資料),請注意,於本實施 例中,有效顯示資料AA_2的資料量係不同於有效顯示資料八八^的 資料量,例如,有效顯示資料AA_2的掃描線個數不同於有效顯示 201243800 資料AA_1的掃描線個數(亦即(H21#H01);此外,於本實施例中, 垂直遮沒間隔區域資料VBI—2的資料量不一定要等於垂直遮沒間隔 區域資料VBI—1的資料量,例如,垂直遮沒間隔區域資料vbi 2的 掃描線個數不一定要等於垂直遮沒間隔區域資料VB I_ 1的掃福線個 數(亦即(H22关H02) ’於一實施例中,垂直遮沒間隔區域資料 VBI_2的掃描線個數可小於垂直遮沒間隔區域資料VBI—丨的掃描線 個數,如此一來,有效顯示資料為AA_2的資料量可以增加而進一 步提升平面影像/立體影像的畫質。請注意,於第一實作方式中, 上述的第三掃赠資料d3包含纽顯示資料从―2與水平遮沒間隔 區域㈣ΗΒΙΜ ’以及上述的第四掃描線倾祕含垂直遮沒間 隔資料vm_2與水平遮沒間隔區域資料HBIvbi—2,因此,第一影^ ,面F1與第二影像畫腿於實際顯科會具有各自的水平遮沒?間 由圖可知,相較於第 部分影像畫㈣卜㈣-郷細僅是η 有效顯彻ΛΛ 2的=;^=7,㈣像晝破 有效顯干\ 畫並不會填滿顯示螢幕1〇2中1 域。於處理電路104的第一 面F—IN之有效顯示資料从〇是 胃原始〜像畫 域顯示具有同—顏_像晝面時第⑽之有效顯示[ 資料ΑΛ」可包含一全白畫面 晝磁的有舞 每一像素值均為,,255,,)或一全里有效顯示資料AA—2中 AA-2中每-像素值均為,,〇,,),舉;來二:(例_ 來說虽顯示螢幕102採用—办 201243800 ^液^顯示面板時,則第二影像晝面F2的有效顯示資料aa_2會被 告路104中的處理單仙2設定為全白晝面顯示資料另一方 Fwl·貝不勞幕1〇2採用一VA型液晶顯示面板時,則第二影像晝面 入^效顯示資料ΑΛ—2會被處理電路1〇4中的處理單元ιΐ2設定為 曰晶=面如胃料,如此—來,基於爪魏晶顯示面板與VA型液 3面板本身_不雛來適當地設定第二1 彡像晝©F2的有效顯 2 ’將可使得顯示勞幕102根據第一影像4面F1之有效顯 = ,':AA—1所顯示之同一顏色的晝面可維持較長的時間,因而可 讓吏用者看到更加清楚的平面影像或立體影像。此外,於處理電路 的第-實作方式中,當原始影像畫面p—沉之有效顯示資料从〇 :驅使顯示螢幕102之有效顯示區域顯示具有不同顏色的影像 Γ例如不同畫面内容的影像畫面)時,則處理電路104之處理單 =會將第二制_F2的細_料从_2奴為與原始影像 :JN之有效顯示資料从—物關的顯示資料,而奴第二影像 =^^效_資料AA—2_作可採用以下所述之複數種處理 始為:_細4讀科元112可直接重複原 与僮*旦—顯示資料从-〇中的一部份内容來作為第二 :思面F2之有效顯示㈣从_2,例如,有效顯示資料从2可以 =有效顯轉料AAJ)中位於上半部之魏條掃描線之集合的内 二仅於T半敎概條翻叙#合_容、錄巾心部分 ^描線之集合_容、整個畫財偶數條掃描線之集合的内 10 201243800 合正個旦面中奇數條掃描線之集合的内容或整個晝面中任意掃描 線之集合的内容。 第二種處理方式為:處理電路1〇4之處理單元ιΐ2透過原始影 晝面FJN之有效顯示資料从-0與下一原始影像晝面FJN,之有效 顯示資料來進行_處理(例如平均歧),顧_處理結果中選 取-部份内容來作為第二影像畫鎖之有效顯示資料从2。 第三種處理方式為:處理電路1⑽之處理單元m透過原始影像 晝面FJN之有效顯示資料从一〇與下一原始影像畫面F一取,之有效 顯不貝料來進仃疊合處理’顧#合處職果巾選取—部份内容來 為第〜像旦面F2之有效顯示資料从―2,舉例來說,可針對原 始影像晝面FJN之有效顯示資料ΑΑ_〇與下-原始影像畫面F叹 2效顯示資料分別給予適當的混合比例,之後,再經由相加或相 ^來產生出疊合處理結果,亦即,處理電路ΙΟ*之處理單元⑴ =藉由疊合處理的遞色(馳ering)概念來決定出第二影像畫删的 有效顯示資料AA 2。 金㈣tx U技為·歧電路1G4之處理單元112針對原始影像 Ϊ、-之有效顯示資料AA—0進行特定影像處理(例如對比度的調 ^ = 口度的調整、伽瑪值的調整、銳利度的調整及/或亮度的調 之右影像處理結果帽取—部份⑽來作為第二影像晝面F2 之有政顯示資料AA 2。 201243800 第五種處理方式為:處理電路104之處理單元112僅根據原始影 像畫面F一IN之有效顯示資料从—〇中不是全黑或不是全白之掃描線 内容來設定第二影像晝面F2的有賴示資料AA—2。例如,處理電 路104之處理單元112僅根據原始影像晝面FJN之有效顯示資料 ΑΑ_0中不屬於黑邊(black腑㈣的掃描線内容來設定第二影像畫 面F2的有效顯讀料AA_2,舉例魏,處理電細4之處理單元 112會先伽触影像晝面Ρ-ΪΝ之有賴示資料AA—G巾是否存在位 於晝面上方與晝面下方之黑邊的掃描線内容,若_出原始影像畫 面FJN之有效顯示資料从―〇中包含屬於黑邊的掃描線内容,則第 二影像畫磁的有_讀料从_2將不純含有黑邊崎描線内 容。 第”種處理方式為:處理電路1〇4之處理單元112會基於顯示勞 幕102的το件特性(例如每個液晶單元的反應時間)來決定哪些像 素的顯示需要特別進行優化,例如,處理電路說處理單元⑴可 參考過鶴(_dfive)崎财或麵外建朗賴錄得知顯示 螢幕(例如液晶顯示螢幕)102中具有較長反應時間的液晶單元;並 據此設定第二影像畫㈣的有效顯示資祕一2來使得這些液晶單 兀經由適當驅㈣能加速旋轉以達到所要狀態。 明’主忍’上述僅作為範例說明之用,而非本發明的限制條件, ,、即,任何可在兩_始的完整影像畫面之顯示資料之間增加至少6 S 201243800 The operation of the face F2 will be detailed below. Please - and refer to Figure 2, Figure 3 and Figure 4, Figure 2 is the first! The original image plane f received by the processing circuit 104 shown in the figure is a schematic diagram of an embodiment, and FIG. 3 is the first image outputted by the processing circuit 1G4 shown in FIG. 1 in the first implementation mode. The schematic diagram of the screen F1, and FIG. 4 is a schematic diagram of the second image plane outputted by the processing circuit 1 (10) shown in FIG. 1 in the first implementation mode. The data of each image can be displayed as a knives. The effective display data of the temporal video content will be displayed in the effective display area of the display screen 1 〇 2 and any actual image content will not be displayed on the display screen 1 〇 2 The horizontal difference _Griz_l blanking interval, ΗΒΙ)· and the vertical occlusion interval area. As shown in Fig. 2, the original image has the width and height of W0 and Η0, respectively. In other words, the original image F- can be regarded as having each scan of the scan line and the original shirt image F-IN. The line can be regarded as having a pixel. In addition, the effective display data of the original image frame FJN is from a frame (which corresponds to H〇l W01 pixels of display data, for example, Bu and then _), and the original ~ image faces the FJN vertical. The data of the masked area is his-o (which corresponds to the display data of H〇2*W〇1 pixel), and the horizontal image of the original image is covered by the FJN. The area contains the HBIaa-G (the thief should rely on it) The display data is AA_G, and has a display touch of H〇l*WG2 image sounds and hu (which corresponds to the vertical blanking interval area data vmj) 'and has display information of the expanded syllabus). In the first implementation mode, the processing unit 122 in the processing circuit 104 directly uses the data of the original center surface FJN as the data of the first image plane F1, as shown in FIG. 3, 201243800 No, the first image plane F1 The effective display data will be equal to one from the first image frame F1, the vertical blanking interval area data VBIj will be equal to vm_Q, and the horizontal level of the first image surface F1 will be equal to hbIal〇. ΗΒΙλ^Ι and hBIVBij with HBIvbi_0 'Please note that in the first implementation mode, the above-mentioned first scan line data D, the cut-off age AA-i and the horizontal blanking interval area data HBIaaJ, and the above The second scan line data D2 includes the vertical blanking interval VBI-1 and the horizontal blanking interval area data Hu. Therefore, the effective display data AA-1 of the first scan line data D! will contain the original image frame F-sink all The effective display is not available AA_〇. In addition, for the second image frame immediately after the first image frame F1, the amount of data is smaller than the data amount of the first image frame F1, as shown in FIG. 4, the width of the second image plane F2. And the height is W(^H2(H2<H〇), respectively, therefore, the second image plane F2 can be regarded as having H2 scanning lines, and each scanning line of the second image plane F2 can be regarded as having pixels, in addition The effective display data of the first image is AA-2 (which corresponds to the display data of H21*W01 pixels), and the vertical blanking interval data of the second image surface F2 is VBI-2 (which corresponds to H22*) W〇l pixels display data) 'The horizontal image of the second image plane F2 contains the HBIAA_2 (which corresponds to the effective display data is aa-2, and has H2l*w〇2 pixels display data) And HBIvbi_2 (which corresponds to the vertical blanking interval area data VBI-2, and has display data of H22*W02 pixels), please note that in this embodiment, the data amount of the effective display data AA_2 is different from the effective display data. The amount of data of 八八^, for example, valid display data AA_2 The number of scan lines is different from the number of scan lines that effectively display 201243800 data AA_1 (ie, (H21#H01); further, in this embodiment, the data amount of the vertical blanking interval area data VBI-2 does not have to be equal to The amount of data of the vertical obscuration interval area data VBI-1, for example, the number of scanning lines of the vertical obscuration interval area data vbi 2 is not necessarily equal to the number of the blessing lines of the vertical obscuration interval area data VB I_ 1 (ie, (H22 off H02) In an embodiment, the number of scanning lines of the vertical blanking interval area data VBI_2 may be smaller than the number of scanning lines of the vertical blanking interval area data VBI_丨, so that the effective display data is AA_2 The amount of data can be increased to further improve the image quality of the planar image/stereoscopic image. Please note that in the first implementation mode, the third scanned material d3 includes the display material from the "2" and the horizontal blanking interval area (4). 'And the fourth scan line has a vertical blanking interval data vm_2 and a horizontal blanking interval area data HBIvbi-2, therefore, the first image, the surface F1 and the second image are in the actual video From the horizontal obscuration, it can be seen from the figure that compared with the first part of the image painting (4) Bu (4) - 郷 is only η effective 显 2 ; =; ^ = 7, (4) 昼 有效 有效 有效 有效 \ \ \ \ Will fill up the display field 1 〇 2 field. The effective display data of the first face F-IN of the processing circuit 104 is valid from the 胃 is the stomach original ~ image field shows the same - face _ image face (10) effective Display [Data ΑΛ" can include a full white screen, 昼Magnetic dance, each pixel value is, 255,,) or one full effective display data AA-2 in AA-2, each pixel value is , 〇,,), 举;来二: (Example _ Although the display screen 102 is used to do 201243800 ^ liquid ^ display panel, then the effective display data aa_2 of the second image surface F2 will be treated in the road 104 Single fairy 2 is set to display the full white surface. The other side of the Fwl·Beifu screen 1〇2 uses a VA type liquid crystal display panel, then the second image is displayed in the surface. The processing unit ιΐ2 in 4 is set to twin = face such as stomach material, so - based on the claw Weijing display panel and the VA type liquid 3 panel itself _ not appropriate Setting the effective display 2' of the second image 昼©F2 will cause the display screen 102 to be valid according to the effective display of the first image 4F1, and the face of the same color displayed by ':AA-1 can be maintained longer. The time allows the user to see a clearer image or stereo image. In addition, in the first implementation mode of the processing circuit, when the original image frame p-sinks effectively displays the data from the 〇: driving the effective display area of the display screen 102 to display images having different colors, such as image images of different screen contents. Then, the processing unit 104 of the processing circuit = the second system _F2 fine material from the _2 slave is the original image: JN effective display data from the - material off the display data, and the slave second image = ^ ^ _ _ AA _ 2 _ can be used to do the following kinds of processing as follows: _ fine 4 reading unit 112 can directly repeat the original and children * Dan - display data from a part of - 来 as Second: the effective display of the face F2 (four) from _2, for example, the effective display of data from 2 can = valid display material AAJ) in the upper half of the set of Wei strip scan lines only two T翻翻述#合_容,录巾心部分^The collection of the line _容, the whole painting of the even number of scan lines of the collection 10 201243800 The content of the collection of odd scan lines or the entire face The content of the collection of any scan lines. The second processing method is: the processing unit ι2 of the processing circuit 1〇4 performs _ processing (for example, average ambiguity) through the effective display data of the original image plane FJN from the valid image of the original image plane FJN. ), the result of the selection of the _ processing result is used as the effective display data of the second image-drawing lock from 2. The third processing method is: the processing unit m of the processing circuit 1 (10) transmits the effective display data of the original image plane FJN from one frame to the next original image frame F, and the effective display is not displayed. Gu #合处果巾提取—Partial content for the effective display of the data from the second to the F2 surface from 2, for example, can effectively display the data for the original image FJN ΑΑ 〇 下 下 下 下 原始 原始The image frame F sighs 2 effect display data respectively to give an appropriate mixing ratio, and then, through the addition or phase ^ to produce a superimposed processing result, that is, the processing unit 处理 * processing unit (1) = by superimposing The concept of ering is used to determine the effective display data AA 2 of the second image. The processing unit 112 of the gold (4) tx U technology is configured to perform specific image processing on the original image Ϊ, the effective display data AA-0 (for example, adjustment of contrast, adjustment of mouth degree, adjustment of gamma value, sharpness). The adjustment and/or brightness adjustment of the right image processing result captures the portion (10) as the political display data AA 2 of the second image plane F2. 201243800 The fifth processing method is: the processing unit 112 of the processing circuit 104 The dependent data AA-2 of the second image plane F2 is set only according to the effective display data of the original image frame F_IN from the scan line content of the black and not all white. For example, the processing of the processing circuit 104 The unit 112 sets the effective reading material AA_2 of the second image frame F2 according to the content of the scanning line that does not belong to the black edge (black) in the effective display data ΑΑ_0 of the original image plane FJN. For example, the processing of the processing module 4 The unit 112 will first touch the image, the surface of the image, and the data of the AA-G towel, whether there is a black line on the top of the top surface and below the bottom surface, if the original image image FJN is valid. If the content of the scan line belonging to the black border is included in the 〇, the _read material from the second image will not contain the content of the black line. The first processing method is: processing of the processing circuit 1〇4 The unit 112 will determine which pixels of the display need to be specially optimized based on the characteristics of the display screen 102 (for example, the reaction time of each liquid crystal cell). For example, the processing circuit says that the processing unit (1) can refer to the crane (_dfive). Or the surface of the Lai Lai recorded to display a liquid crystal unit having a longer reaction time in the display screen (for example, the liquid crystal display screen) 102; and accordingly, the effective display of the second image drawing (4) is set to make the liquid crystal unit The rotation can be accelerated to achieve the desired state via the appropriate drive (4). The above description is for illustrative purposes only, rather than the limitations of the present invention, that is, any display material that can be displayed in two images at the beginning. Increase at least between
S 12 201243800 一張部分影像晝面的顯示資料的技術(或者任何透過疊合影像來增 加影像更新率的技術)均可被處理電路1()4之處理單以12所採用二 產生所要的有效顯示資料AA_2。 如前所示,第二影像畫刷係緊接第—影像畫刷之後傳送至 顯示螢_2 ’且第二影像畫_的資料量小於第—影像晝刷的 身料罝’因此’第二影像晝面F2會更新第一影像畫面F1(亦即原始 影像晝面FJN)的-部份内容’舉例來說,原始影像晝磁的姐 顯示資料ΑΑ—0包含有-第一有效顯示資料从―〇1以及一第二有效 顯不資料AA—〇2 ’衫二有效鮮龍从―〇2所齡_容會被有 效顯示資料AA_2_示内容所取代/更新,因此,有效顯示資料 AA一2便可肖絲正姐善帛二纽顯*資料从―μ原本所顯示的 内容,整體而言,依序地被第二有效顯示·从—02(其對應第一 影像晝面F1)财賴简料ΑΑ_2(其職帛二影像晝面F2)所驅動 的掃描線便會呈現較佳的影像輸出結果。 凊注意’第二影像晝面為F2並非是完整影像畫Φ,因此,另可 搭配顯不螢幕1G2的頻寬限制以及細上的需求來適當設定第二影 像畫面為F2的大小(例如有效顯示資料从―2的資料量)。舉例來 說’可基於晝面更新率(refreshrate)、視訊顯示裝置所在的電源環 境及/或概顯稀置所麵光關_率/環境亮絲決定有效顯 不資料AA_2所包含之掃描'線的總數,於一實施例中,當晝面更新 率較问時’有夕欠顯示資料从一2所包含之掃描線的總數會較小,反 13 201243800 =然;顯不裝置所在之電源環境的交流電頻率較高時,有 效顯不貝料ΑΛ—2所包含之掃描線的總數會較少,反之亦n 訊顯示裝置所在之光源閃燦頻率較高時,有效顯示資料从^包 含之掃描線的總數會較少,反之亦然 - 環境亮度較高時,有效顯示資祕2所^^_示裝置所在之 少,反之亦然。 -2所包咖描線的總數會較 言月-併參聰圖、第5_及第_,第5圖為第職示之處理 電路Η)4於第二實作方式#所輸出之第—影像晝刷的示意圖,以 及第6圖為第丨圖所示之處理電路收於第二實作方式中所輸出之第 二影像晝面F2的示意I於第二實作方式中,處理電賴*中的處 理單疋122是以前述之第—實作方式中原始影像畫研_職第一有 效顯示資料AA一01與第二影像畫面咖有效顯示資料从2的集合 來作為第-影像畫的有效顯示資料从」,,並以前述之第一實 作方式巾原始讀晝φ F—IN的第二有賴示資料从』2來設定後續 的第二影像畫磁的纽顯示資料从―2,。請注意,於第二實作方 式中’上述的第-掃描線資料Di會包含有效顯示資料从」,與水平 遮沒間隔區域㈣HBiy,叹战㈣二__瓶會包含 垂直遮沒間隔資料VB[1與水平遮沒間隔區域資料Ηυ,因 此’第-掃描線資料Dl的有效顯示賴从」,會包含原始影像晝面 FJN中-部份的有效顯不資料,此外,上述的第三掃描線資料ο〕 會包含有效顯示資料AA_2’與水平遮沒間隔區域資料醜12,以 及上述的第四掃描線資料Ο*會包含垂直遮沒間隔資料2與水平 14 201243800 遮沒間隔區域資料HU,因此,第三掃描線資料h的有 資料AA_2會包含原始影像晝面心中另一部份的有效顯示資料。 比較第3圖與第5圖以及比較第4圖與第6圖可輕易得知,處理 路104於第二實作方式中是將原始影像晝面f—聊 —部份顯示資料 (亦即第-有效顯示資料AAJH)先藉由第一影像晝面 示資料AAJ,傳送至顯示榮幕1〇2,再將原始影像晝面f—取的另一·、、 部份顯示資料(亦即第二有效顯示資料从—⑻藉由後續的第二影 像^面F2的有效顯示㈣从_2,傳送示螢幕⑽,糾,透過〜 先刖所述之複數種處理方式之一所產生的有效顯示資料从 藉由第主一影像晝面F1的有效顯示資料AAJ,而傳送至顯示螢幕 1〇2 ’請注意’鱗触第二有賴示熟从-财有效顯示 AA—2所驅朗掃描線(第-實作方式)無序地被有效顯示資料 AA—2與第二有效顯示資料从―〇2所驅動的掃描線(第二實作方式)會 產生大致上相同的影像輸出結果,故均可制提升晝質的功效。 於上述之處理電路1()4的第―、第二實作方式巾,主要是在一完 整^像畫面(亦即第—影像畫面F1)之後加人-部分影像晝面(亦即^ -汾^畫面F2),然而’亦可在一完整影像畫面(亦即第一影像晝面 F1)之前加入一部分影像畫面(亦即第二影像晝面F2)。請參閱第7 圖’第7圖為本發明影像顯示系統之第二實施例的功能方塊示意 圖本實施例中,影像顯示系統係由一視訊顯示裝置彻來加以實 現。如圖所不’視訊顯示裝置7⑻包含有顯示螢幕ι〇2以及輪於顯 15 201243800 示螢幕102之一處理電路7〇4,於本實施例中,處理電路7〇4包含有 處理單元7丨2與暫存單元m,針處理單元m可以是影像縮放處 理電路’以及暫存單元丨丨4可以是__器,同樣地,處理單元 712可透過内建的微處理器來處理所接收之原始影像畫面,並 依據輸出第-影像晝©F1,與第二影像畫面Fr的掃描線資料至暫存 單元114 ’進-步來說,處理電路712會傳送第一影像畫面ρι,所對 應之-第-掃描線資料Dl’以及一第二掃描線資料〇2,至顯示榮幕 102,並傳送緊接第—影像畫祕’之_第二影像畫磁,所對靡 之-第三掃描線資料D3’以及—第四掃描線資料认,至顯示勞幕μ 102。然而,於本實施例中,第一影像晝面?1,係為一部分影像佥 面,而第二影像晝面F2’則I完整影像晝面,舉例來說,第一旦影 像晝面F1’係為第娜第6圖所示之第二影像畫(亦即ο!,吗以及 D2-D4) ’以及第二影像晝磁’係為第聊第5騎示之第—約象查 面FU亦即IV=Dl以及!V,。由於熟習技藝者可基於先前的說- 書内容而㈣地瞭解第7_示之視訊顯稍置的 便不另瞽诚。 此 綜上所述,藉由適當地設定新增的第二影像晝面B第 面F1的内容’可達到增進畫質的目的。此外,藉由新增的第二旦旦 ^晝面F2亦可加速其他_傳輸,由於位於第二 月J之第〜像晝面F1的有效顯示資料可由處理電路⑴*提早 送至顯示縣102,_使得_躲卿例如液關㈣ 充格的時間完成整個影像晝面的穩定_ ; _地,藉蝴增的第 16 201243800 -影像晝面F1,亦可加速其 Π,之後之第二影像晝傳輸,由於位於第-影像晝面 成傳送至顯轉幕102,_資料可聽理祕104提早完 有更充裕的時間完成整個寻顯示勞幕102(例如液晶顯示勞幕) 速其他資料祕蛉 里面的穩定顯示。有關新增資料來加 =的,作原理另可參考同一申請人的其它台灣專利 月”》口口4專利申請號1〇〇1〇鑛以及台灣 励101348 ),故於此便不另贅述。 本發明所揭示的驅動機制除了應用於平面影像顯示,亦可適用 敎體影像顯示。請參閱第8圖,第8圖為本發明影像顯示系統之第 二實施例的魏方塊示_。於本實施例巾,影賴示系統卿包 含有-視義7F裝獅2以及-立體眼鏡_。視纖示裝置8〇2包 含有上述的顯示螢幕102與處理電路1〇4,以及用以提供顯示螢幕 (例如液晶顯示螢幕)1〇2所需背光源之一背光模組8〇6。立體眼鏡 804包含有一控制電路8〇8、一左眼鏡片81〇以及一右眼鏡片812。視 訊顯示裝置802搭配立體眼鏡804來提供立體影像予使用者。左眼鏡 片810係用以供使用者觀看左眼影像畫面,而右眼鏡片812則是供使 用者觀看右眼影像畫面,另外,控制電路808電連接於左眼鏡片810 以及右眼鏡片812 ’用以分別輸出控制訊號SI、S2至左眼鏡片810 以及右眼鏡片812,以控制左眼鏡片810於開啟狀態與關閉狀態之間 進行切換並控制右眼鏡片812於開啟狀態與關閉狀態之間進行切 換。舉例來說,立體眼鏡804係為一快門眼鏡,因此,左眼鏡片810 以及右眼鏡片812均是快門鏡片,且分別具有液晶層,而控制訊號 17 201243800 S卜S2可以是控制電壓’用來控制液晶層中液晶單元的轉動以達 到控制光線穿透率的目的,然而,此僅作為範例說明之用,並非用 來作為本發明的限制,例如,任何具有光線穿透率控制的結構均可 被用來實現左眼鏡片81〇以及右眼鏡片812,同樣可達到控制左眼鏡 片810以及右眼鏡⑽2於開啟狀態與賴狀態之間進行切換的目 的。此外,立體眼鏡804並不限定是快門眼鏡,任何可搭配視訊顯 不裝置8G2來觀看立齡彡像並顧本㈣賴示之立齡彡像顯示機 制的立體眼鏡均符合本發明的精神。 於本發明中’上述的「關閉狀態」是指左眼/右眼鏡片(例如快 門鏡片)完全不透光(亦即光線穿透率為〇%),因此,只要左眼/ 右眼鏡>1並非是完全不透光(亦即級穿透率並非為Q%),便可視為 處於「開啟狀態」,舉例來說,當快門鏡片全開(例如光線穿透率 為100%)、半開(例如光線穿透率為50%)或者微開(例如光線穿透率 為0.1%),快門鏡片便可視為處於開啟狀態。簡而言之,當左眼/右 眼鏡片的光線穿透率大於〇〇/0(但小於或等於1〇〇%),則左眼/右眼鏡 片便可視為進入開啟狀態。 立體眼鏡804可供使用者配戴以觀看視訊顯示裝置8〇2透過顯示 螢幕102所呈現的立體影像。舉例來說,於第8圖所示之實施例令, 視訊顯示裝置802可以是一液晶顯示器,因此,顯示螢幕1〇2為一液 晶顯示螢幕,而經由顯示螢幕102所產生的影像光輸出便經由立體 眼鏡804來控制是否可進入使用者的左眼或右眼。請注意,視訊輸 201243800 出裝置802並未限定是液晶顯示器,亦即,視訊輸出裝置8〇2亦可以 疋任何可跟立體眼鏡8〇4—併搭配使用以呈現立體影像予使用者的 視訊輸出裝置,例如有機發光二極體(0rganicLight_Emitting Diode,OLED)顯示器、電漿顯示器、採用數位光源處理技術 (Digital Light Processing,DLP)的顯示器/投影機、採用矽基液晶 (Liquid Crystal on Silicon,LCoS)顯示技術的顯示器/投影機等等,換 言之,若立體眼鏡804為快門眼鏡,則視訊顯示裝置8〇2便是可搭配 快門眼鏡使用之任何的顯示器或投影機。 對於立體眼鏡804為快門眼鏡的範例,可藉由控制電路8〇8適當 控制左眼鏡片81G與右眼鏡片812於開啟狀態與關閉狀態之間進行切 換,舉例來說,視訊顯示裝置8〇2可以藉由一訊號發射器(未顯示) 來與立體眼鏡804進行通訊,例如,立體眼鏡(例如快門眼鏡)綱可 透過有線雜或無鱗輸(例如紅外線傳輸、邮饮傳輸、超寬頻 (Ultrawideband,UWB)傳輸、WiFi傳輸、射頻(Radi〇 明 傳輸、dlp*訊號傳輸或藍芽(Bluet00t_輸)來接收視訊顯示裝 置802所發出的資訊,而控制電路崎可基於所接收的資訊來產生 所需的控制訊號S卜S2。由於熟習技藝者可輕易地得知立體眼鏡 與視訊顯示裝置之間的溝通機制,故相關細節於此便不另資述。 對於第8圖所示之影像顯示系統㈣而言,由於處理電路1〇4會依 序傳送第-影像晝刷(完整影像畫面)與第二影像畫㈣(部分影 像畫面),因此,讀理電編傳送第:、第三、細掃描線資料 19 201243800 D2〜D4的期間’對應顯示螢幕i〇2之背光模組806會開啟以提供顯示 螢幕102所需的背光源及/或控制電路808會開啟左眼鏡片8丨〇與右眼 鏡片812的其中之一。換言之,除了經由新增的第二影像畫面”來 加速其他資料的傳輸鼻提升晝質之外,還可利用傳輸新增之第二影 像晝面F2的時間來讓使用者進行立體影像的觀看(亦即開啟立體眼 鏡804之一鏡片及/或啟動背光模組8〇6)。 於第1圖、第7圖與第8圖所示之實施例中,控制電路1〇4/7〇4係 設置於視訊顯示裝置(例如液晶顯示器)1〇〇/7〇〇/8〇2之中,然而,本 發明並不以此為限。請參閱第9圖,第9圖為本發明影像顯示系統之 第四實施例的功旎方塊示意圖。影像顯示系統9⑻包含有一視訊顯 示裝置902以及第1圖所示之處理電路刚,而視訊顯示裝置9〇2則包 含有前述的·螢幕1〇2,於此_實_巾,處理f _4係設置於 視sfl顯不裝置9G2之外,舉例來說,處理電賴镇設置於一電腦主 機中’因此,處理電路104於完成第一影像畫面?1與第二影像晝面 F2的處理之後,便將第—影像晝面㈣資料與第二影像畫面咖 資料逐-傳送至視訊顯示健,以進―步地傳送至顯示榮幕1〇2 來進行影像晝面顯示。 請參閱第10圖,第10圖為本發明影像顯示系統之第五實施例的 功能方塊料@。影_示系·_包含有第9圖_之視訊顯示 裝置902以及第7圖所示之處理電路1〇4,於此一實施例中,處理電 路704係設置於視訊顯示農置之外,舉例綠,處理電路7〇4係 α 20 201243800 設置於一電腦主機中’因此’處理電路704於完成第一影像書面fi, 與第二影像晝面F2’的處理之後’便將第一影像晝面η,的資^與第 二影像晝面F2’的資料逐一傳送至視訊顯示裝置902,以進一步地傳 送至顯示螢幕102來進行影像晝面顯示。 請參閱第11圖,第11圖為本發明影像顯示系統之第六實施例的 功能方塊示意圖。影像顯示系統1100包含有一視訊顯示裝置11〇2以 及前述的處理電路104與立體眼鏡804,而視訊顯示裝置11〇2包含有 前述的顯示螢幕102以及背光模組806,於此一實施例中,處理電路 1〇4係設置於視訊顯示裝置1102之外,舉例來說,處理電路1〇4係設 置於-電腦主機中,因此,處理電路104於完成第一影像畫面?1與 第一景>像晝面F2的處理之後,便將第一影像晝面F1的資料與第二 影像畫面F2的資料逐-傳送至視訊顯示裝置11()2,以進—步地傳送 裘顯示螢幕102來進行影像晝面顯示。由於第9圖至第u圖中各個元 件的功能與運作已詳述於上,故於此便不另贅述。 請參閱第12圖,第12圖為本發明影像顯示方法之一實施例的流 程圖°本發郷像顯示方法可細於前述之影像顯示緣中,並可 簡要歸納如下: 少驟觀:傳送第—影像晝面所對應之第-掃描線資料以及第二掃 描線資料至顯示螢幕,其中該第一掃描線資料至少包 含有有效顯示資料’以及該第二掃描線資料至少包含 201243800 有垂直遮沒間隔資料;以及 步騵1204傳送第二影像畫面所對應之第三掃描線資料以及第四掃 &線資料至該顯示,其中該第―、第二影像畫面 之一影像晝面係緊鄰於該第一、第二影像畫面之另一 影像晝面(例如第一影像畫面為F1/F1,以及第二影像畫 面為F2/F2 ) ’該第三掃描線資料至少包含有有效顯示 資料’該第四掃描線資料至少包含有垂直遮沒間隔資 料’以及該第二影像晝面的資料量係不同於該第一影 像畫面的資料量。 -由於!’、S技A者可經由上述有關於影像顯示系統的說明内容而 輕易地瞭解第12圖中各個+明a 谷個步驟的㈣,為了說明書簡潔起見,相關 說明於此便不另贅述。 以上所雜為本㈣讀佳實_,驗本發 做之均等變化娜飾,皆闕本發明之涵蓋範圍。 【圖式簡單說明】 圖 f圖為本發明影像顯示系統之第—實施例的功能方塊干音 ΓΓ。細咏㈣肖顺檐輯狄二實施例的 Γ=Γ之處理電路於第-實作顺輸㈣-影像 22 201243800 第4圖為第1圖所示之處理電路於第-實作方4 晝面的示意圖。 式中所輪出之第二影像 第5圖為第!圖所示之處理電路於第 晝面的示意圖。 式中所輸出之第一影像 第6圖為第1_示之處理電路於 畫面的示意圖。 、一實作方式中所輸出之第二影像 第7圖為本發明影像_示 綱為本發明影像,亍系實施例的功能方塊示意圖。 糾…系、4之第三實施例的魏方塊示意圖。 。‘、、' %心顯示系統之第四實施例的功能方塊示意圖。 第〇圖為本像顯示系統之第五實施例的功能方塊示意圖。 第11圖為本發·像顯示系統之第六實施例的功能方塊示意圖。 第U圖為本發明f彡像鮮方法之—實劇的流程圖。 【主要元件符號說明】 100、700、802、902、1102 視訊顯示裝置 102 顯示螢幕 104 、 704 處理電路 112 > 712 處理單元 114 暫存單元 800、900、1000、1100 影像顯示系統 804 立體眼鏡 806 背光模組 808 控制電路 23 201243800 810 左眼鏡片 812 右眼鏡片 9 24S 12 201243800 A technique for displaying data on a partial image (or any technique for increasing the image update rate by superimposing images) can be effectively processed by the processing circuit 1 () 4 by 12 Display data AA_2. As shown in the foregoing, the second image brush is transmitted to the display flash _2 2 ' immediately after the first image brush and the amount of data of the second image _ is smaller than the body 罝 of the image 因此 因此The image plane F2 updates the -partial content of the first image frame F1 (ie, the original image plane FJN). For example, the original image of the magnetic image shows the data ΑΑ-0 contains - the first valid display data from ―〇1 and a second effective display no data AA-〇2 'Shiban 2 effective fresh dragon from 〇 所 2 _ _ will be replaced by the effective display data AA_2_ content / update, therefore, effectively display the data AA 2, you can see the contents of the original information from the "μ", and the second is effectively displayed in the second place. From -02 (which corresponds to the first image, F1) The scan line driven by Lai ΑΑ ΑΑ _2 (the second image of F2) will show better image output.凊Note that the second image is F2 and not the full image. Therefore, you can set the size of the second image to F2 (for example, effective display) with the bandwidth limitation and fineness requirements of the screen 1G2. The data is from the amount of "2"). For example, 'based on the refresh rate (refresh rate), the power supply environment in which the video display device is located, and/or the thinning of the light-off _ rate/environmental bright line determines the scan 'line included in the valid display data AA_2 The total number, in one embodiment, when the face update rate is higher than the time of the query, the total number of scan lines included in the data from the 2nd will be smaller, and the reverse 13 201243800 = the power supply environment When the frequency of the alternating current is high, the total number of scan lines included in the effective display device is less. In other words, when the frequency of the light source where the display device is located is high, the effective display data is scanned from the included The total number of lines will be less, and vice versa - when the ambient brightness is high, the effective display of the 2 secrets is less, and vice versa. The total number of -2 coffee wrap lines will be higher than that of the month - and the Cong Cong Tu, the 5th and the _, the 5th is the processing circuit of the first job description) 4 in the second implementation mode # output - The schematic diagram of the image squeaking brush, and the processing circuit shown in FIG. 6 is a schematic diagram of the second image plane F2 outputted in the second implementation mode in the second implementation mode. The processing unit 122 in the first embodiment is the first image display in the first-implementation mode, and the first effective display data AA-01 and the second video image effective display data are used as the first image. The effective display of the data from ",, and in the first implementation of the first method of the original reading 昼 φ F-IN of the second dependent data from 』 2 to set the subsequent second image magnetic display data from the "2 ,. Please note that in the second implementation mode, the above-mentioned first-scan line data Di will contain valid display data from, and the horizontal obscuration interval area (four) HBiy, sigh (four) two __ bottle will contain vertical blanking interval data VB [1 and horizontally obscured the interval area data, so the 'effective display of the first scan line data Dl' will contain the valid data of the original part of the original image FJN, in addition, the above third scan Line data ο] will contain valid display data AA_2' and horizontal blanking interval area data ugly 12, and the above fourth scan line data Ο* will contain vertical blanking interval data 2 and level 14 201243800 occlusion interval area data HU, Therefore, the data AA_2 of the third scan line data h will contain valid display data of another part of the original image. Comparing Figures 3 and 5 and comparing Figures 4 and 6, it can be easily seen that the processing path 104 in the second implementation mode is to display the original image as a part of the data (ie, the first - The effective display data AAJH) is first transmitted to the display screen 1〇2 by the first image, and then the other image is displayed on the original image. The effective display of the two effective display data from - (8) by the effective display of the subsequent second image surface F2 (four) from _2, the display screen (10), the correction, and the transmission of one of the plurality of processing modes described above. The data is transmitted from the effective display data AAJ of the main image F1 to the display screen 1〇2 'Please note that the scale touches the second and the display is familiar with the AA-2 drive scan line ( The first-implementation method is that the data AA-2 is displayed in an orderly manner and the second effective display data is substantially the same image output result from the scan line driven by the "〇2" (the second implementation mode). It can improve the effect of enamel. The first and second implementation methods of the above processing circuit 1 () 4 Mainly after adding a human-partial image surface (ie, ^-汾^picture F2) after a complete image (ie, the first image image F1), however, it can also be in a complete image frame (ie, first The image plane F1) is preceded by a part of the image frame (that is, the second image plane F2). Please refer to FIG. 7 and FIG. 7 is a functional block diagram of the second embodiment of the image display system of the present invention. The video display system is implemented by a video display device. As shown in the figure, the video display device 7 (8) includes a display screen ι〇2 and a processing circuit 7〇4 of the display screen 201242800. In an example, the processing circuit 7〇4 includes a processing unit 7丨2 and a temporary storage unit m, the needle processing unit m may be an image scaling processing circuit 'and the temporary storage unit 丨丨4 may be a __ device, and similarly, the processing unit The 712 can process the received original image frame through the built-in microprocessor, and according to the output image-image 昼©F1, and the scan line data of the second image frame Fr to the temporary storage unit 114, Processing circuit 712 transmits the first image The surface ρι, the corresponding - the first scan line data Dl ' and a second scan line data 〇 2, to display the honor screen 102, and the second image of the first image is transmitted immediately after the first image The third scan line data D3' and the fourth scan line data are recognized to display the screen μ 102. However, in the embodiment, the first image plane 1 is a part of the image plane, and The second image plane F2' is a complete image plane. For example, once the image plane F1' is the second image frame shown in Figure 6, (ie ο!, and D2- D4) 'and the second image magnetism' is the first of the 5th riding of the first chat - about the image of the face FU, namely IV=Dl and !V,. Since the skilled artisan can understand the video display of the 7th based on the previous content - (4), it is not pious. In summary, the purpose of improving the image quality can be achieved by appropriately setting the content of the first image F face F1 of the second image. In addition, other _transmissions can be accelerated by the addition of the second second 昼 昼 F F2, since the effective display data of the first framing F1 in the second month can be sent to the display county 102 by the processing circuit (1)*. , _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _昼Transmission, since it is located in the first image to be transferred to the display screen 102, the data can be heard early and there is more time to complete the entire search and display screen 102 (such as LCD screen). The stable display inside the 蛉. For the additional information to add =, the principle can also refer to the other applicant's other Taiwan patent month "portal 4 patent application number 1〇〇1〇 mine and Taiwan incentive 101348), so it will not be repeated here. The driving mechanism disclosed in the present invention can be applied to the image display of the image in addition to the flat image display. Please refer to FIG. 8 , which is a diagram showing the second embodiment of the image display system of the present invention. The embodiment towel includes a visual sense 7F lion 2 and a stereo glasses _. The visual display device 8 〇 2 includes the display screen 102 and the processing circuit 1 〇 4 described above, and is used for providing display. A screen (such as a liquid crystal display screen) 1 〇 2 backlight module 8 〇 6 backlight. The stereo glasses 804 include a control circuit 8 〇 8 , a left lens 81 〇 and a right lens 812. Video display device The 802 is provided with stereo glasses 804 to provide a stereoscopic image to the user. The left eyeglass lens 810 is for the user to view the left eye image frame, and the right eyeglass lens 812 is for the user to view the right eye image frame. In addition, the control circuit 808 is used. Electrically connected to the left eye The piece 810 and the right eye piece 812' are used to respectively output the control signals SI, S2 to the left eye piece 810 and the right eye piece 812 to control the left eye piece 810 to switch between the open state and the closed state and control the right eye piece 812. For example, the stereo glasses 804 are a pair of shutter glasses, and therefore, the left lens 810 and the right lens 812 are both shutter lenses and have a liquid crystal layer, respectively, and the control signal 17 201243800 Sb S2 may be a control voltage 'used to control the rotation of the liquid crystal cell in the liquid crystal layer to achieve the control of light transmittance. However, this is for illustrative purposes only and is not intended to be a limitation of the present invention, for example, Any structure having light transmittance control can be used to implement the left eyeglass lens 81〇 and the right eyeglass lens 812, and the same can be achieved for controlling the left eyeglass lens 810 and the right eyeglass lens (10) 2 to switch between the open state and the right eye state. In addition, the stereo glasses 804 are not limited to shutter glasses, and any device that can be used with the video display device 8G2 to view the age-old image and take care of this (four) The stereoscopic glasses of the aging image display mechanism are all in accordance with the spirit of the present invention. In the present invention, the above-mentioned "closed state" means that the left eye/right eyeglass lens (for example, the shutter lens) is completely opaque (that is, the light penetrates). The rate is 〇%). Therefore, as long as the left eye/right glasses >1 is not completely opaque (that is, the grade penetration rate is not Q%), it can be regarded as being "on", for example, when The shutter lens is considered to be fully open when the shutter lens is fully open (eg, 100% light penetration), half open (eg, 50% light penetration), or slightly open (eg, light penetration is 0.1%). In short, when the light penetration rate of the left/right eyeglasses is greater than 〇〇/0 (but less than or equal to 1〇〇%), the left eye/right eyeglasses can be considered to be in an open state. The stereo glasses 804 are available for the user to wear to view the stereoscopic image presented by the video display device 8〇2 through the display screen 102. For example, in the embodiment shown in FIG. 8, the video display device 802 can be a liquid crystal display. Therefore, the display screen 1 is a liquid crystal display screen, and the image light output generated through the display screen 102 is output. Whether the user's left or right eye can be accessed is controlled via the stereo glasses 804. Please note that the video transmission 201243800 out device 802 is not limited to a liquid crystal display, that is, the video output device 8〇2 can also be used with any stereo glasses 8〇4 and used together to present a stereoscopic image to the user's video output. Devices such as organic light-emitting diode (OLED) displays, plasma displays, display/projectors using Digital Light Processing (DLP), and liquid crystal on silicon (LCoS) A display/projector or the like of the display technology, in other words, if the stereo glasses 804 are shutter glasses, the video display device 8〇2 is any display or projector that can be used with the shutter glasses. For the example that the stereo glasses 804 are shutter glasses, the left eye piece 81G and the right eye piece 812 can be appropriately controlled to switch between the open state and the closed state by the control circuit 8〇8, for example, the video display device 8〇2 The stereo glasses 804 can be communicated by a signal transmitter (not shown). For example, stereo glasses (such as shutter glasses) can be transmitted through wired or scaleless (such as infrared transmission, postal transmission, ultra wideband (Ultrawideband). , UWB) transmission, WiFi transmission, radio frequency (Radi 传输 transmission, dlp* signal transmission or Bluetooth (Bluet00t_)) to receive information sent by the video display device 802, and the control circuit can generate based on the received information The required control signal Sb S2. Since the familiar art can easily know the communication mechanism between the stereo glasses and the video display device, the relevant details are not mentioned here. For the image display shown in FIG. In the system (4), since the processing circuit 1〇4 sequentially transmits the first image mask (complete image screen) and the second image frame (four) (partial image screen), Sending: Third, fine scan line data 19 201243800 D2~D4 period 'Backlight module 806 corresponding to display screen i〇2 will be turned on to provide backlight and/or control circuit 808 required to display screen 102 will be turned on One of the left eyeglass lens 8 丨〇 and the right eyeglass lens 812. In other words, in addition to accelerating the transmission of other data through the newly added second image frame, the transmission can be used to enhance the enamel, and the second transmission can be utilized. The time of the image plane F2 allows the user to view the stereoscopic image (ie, open one of the glasses of the stereo glasses 804 and/or activate the backlight module 8〇6). In Figures 1, 7 and 8 In the illustrated embodiment, the control circuit 1〇4/7〇4 is disposed in the video display device (for example, a liquid crystal display) 1〇〇/7〇〇/8〇2, however, the present invention is not limited thereto. Referring to Figure 9, Figure 9 is a block diagram showing a fourth embodiment of the image display system of the present invention. The image display system 9 (8) includes a video display device 902 and a processing circuit shown in Figure 1, and the video is displayed. The display device 9〇2 includes the aforementioned screen 1〇2 In this case, the processing f_4 is set outside the sfl display device 9G2. For example, the processing power is set in a computer host. Therefore, the processing circuit 104 completes the first image frame. After processing with the second image plane F2, the first image (4) data and the second image data are transmitted to the video display and transmitted to the display screen 1〇2. Please refer to FIG. 10, which is a functional block of the fifth embodiment of the image display system of the present invention. The image display device 902 includes the video display device 902 of FIG. 7 is a processing circuit 1〇4 shown in the figure. In this embodiment, the processing circuit 704 is disposed outside the video display farm, for example, green, and the processing circuit 7〇4 is α 20 201243800 is set in a computer host' Therefore, after the processing circuit 704 completes the processing of the first image and the processing of the second image F2, the data of the first image and the second image F2 are transmitted one by one to the processing image 704. Video display device 902 for further transmission to display screen 1 02 to perform image display. Referring to Figure 11, Figure 11 is a functional block diagram of a sixth embodiment of the image display system of the present invention. The image display system 1100 includes a video display device 11〇2 and the foregoing processing circuit 104 and stereo glasses 804. The video display device 11〇2 includes the display screen 102 and the backlight module 806. In this embodiment, The processing circuit 1〇4 is disposed outside the video display device 1102. For example, the processing circuit 1〇4 is disposed in the computer host. Therefore, the processing circuit 104 completes the first image frame. 1 and the first scene> after the processing of the image F2, the data of the first image plane F1 and the data of the second image frame F2 are transmitted to the video display device 11(2) one by one, to further The display screen 102 is transmitted to display the image. Since the functions and operations of the various elements in Figures 9 through u have been described in detail above, they will not be further described herein. Please refer to FIG. 12, which is a flowchart of an embodiment of the image display method of the present invention. The method for displaying the image of the present invention can be finely described in the image display edge, and can be summarized as follows: The first scan line data corresponding to the image plane and the second scan line data to the display screen, wherein the first scan line data includes at least valid display data 'and the second scan line data includes at least 201243800 with vertical cover No interval data; and step 1204 transmits a third scan line data corresponding to the second image frame and a fourth scan & line data to the display, wherein one of the first and second image frames is adjacent to the image The other image plane of the first and second image frames (for example, the first image frame is F1/F1, and the second image frame is F2/F2) 'The third scan line data includes at least valid display data' The fourth scan line data includes at least a vertical blanking interval data 'and a data amount of the second image surface is different from the data amount of the first image frame. - Because of the 'A', the S-A can easily understand the four steps in the 12th figure through the description of the image display system. For the sake of brevity, the relevant description does not Let me repeat. The above is the same as (4) reading the good _, the uniform change of the test is made, the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. f is a functional block dry sound of the first embodiment of the image display system of the present invention.细 咏 四 四 四 四 四 四 四 四 四 四 实施 实施 实施 实施 实施 实施 实施 实施 实施 实施 实施 实施 实施 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 狄 处理 处理 处理 处理 处理 处理 处理 处理 处理 处理 处理 处理Schematic diagram of the surface. The second image that is rotated in the formula. Figure 5 is the first! The schematic diagram of the processing circuit shown in the figure is shown on the first side. The first image outputted in the equation is shown in Fig. 6 as a schematic diagram of the processing circuit of the first embodiment. The second image outputted in a practical mode. Fig. 7 is a functional block diagram showing an image of the present invention as an image of the present invention. A block diagram of the third block of the third embodiment of the method. . A functional block diagram of a fourth embodiment of the ',, '% heart display system. The figure is a functional block diagram of a fifth embodiment of the image display system. Figure 11 is a functional block diagram of a sixth embodiment of the present invention. The figure U is a flow chart of the actual method of the present invention. [Main component symbol description] 100, 700, 802, 902, 1102 video display device 102 display screen 104, 704 processing circuit 112 > 712 processing unit 114 temporary storage unit 800, 900, 1000, 1100 image display system 804 stereo glasses 806 Backlight module 808 control circuit 23 201243800 810 left eye lens 812 right eye lens 9 24