.201041387 ' 六、發明說明: 【發明所屬之技術領域】 本發明涉及一種視頻影像播放方法和設備,特別是涉 及一種控制視頻影像跳臺顯示的方法和資料處理設備。 【先前技術】 一般來說,視頻影像跳臺顯示指的是:預先設定的不 同視頻影像顯示介面之間的切換顯示,為了在一台顯示器 上面顯示多個影像獲取設備獲取的視頻影像,有必要對該 〇 顯示器上的顯示介面進行分割,使得每一個分割的顯示區 域對應一個影像獲取設備,例如,圖1中所示的顯示介面 被分割成4個顯示區域A、B、C及D,每一個分割的顯示 區域用於顯示一個影像獲取設備獲取的視頻影像;同時, 為了使各個影像獲取設備獲取的視頻影像在該顯示器上儘 量以較大圖像顯示,有必要將該多個影像獲取設備獲取的 視頻影像分批次迴圈顯示,例如,將10個影像獲取設備獲 ^ 取的視頻影像分成兩個批次進行迴圈顯示,第一批次顯示 介面顯示4個影像獲取設備獲取的視頻影像(即將顯示介 面分割成4個顯示區域),第二批次顯示介面顯示6個影像 獲取設備獲取的視頻影像(即將顯示介面分割成6個顯示 區域),這樣從第一批次顯示介面切換到第二批次顯示介面 即為一次影像跳臺顯示,所有批次的顯示介面都被顯示一 次稱為一個迴圈。 目前,習知的視頻影像跳臺顯示軟體在處理視頻影像 顯示介面跳臺顯示時不夠靈活,不能夠根據實際要顯示的 4 201041387 視頻影像龍㈣像€岭 的分割情況,例如,春旦彡#從 置,靈活調整顯示介面 區域數量時,就會出白:取設備數量少於分割的顯示 影響視頻f彡像跳臺顯*的效果了區域或者黑屏顯示區域’ 【發明内容】 鑒於以上内谷,有必要提— Ο 〇 示的方法和資料處理設備,能視頻影像跳臺顯 對應的影像獲取設備的數量,=實際要顯示的視頻影像 況’進而改善視頻影像c示介面的分割情 處理理設備,該資料 接。該:#減魏備⑽餘設備通訊連 =頻影像跳臺顯示控制系統。該處理器== 賴影像跳臺顯賴㈣务以執行以下步驟(== :跳:參數,⑻監測需接入顯示器上的當 ,不獲取的視頻影像的影像獲取設備的數量;(i3)根= 疋_臺參數分析監刺的影像獲取設備的數量是^ ,前顯示介©的分割要求’若監_的影像獲取設備的數 量不滿足當前顯示介面的分割要求,則鏟 .. 、』评八下述步驟 (ι4)’或者,若監測到的影像獲取設備的數量义 -人·^ ”〜田月丨j顯 不”面的分割要求,則轉入下述步驟(i5) ; (i4)祀據< 定的跳臺參數及監測到的影像獲取設備的數量自動調敕: 前顯示介面的分割情況,隨後轉入下述步驟(i5);(二^ 將每一個接入的影像獲取設備獲取的視頻影像顯示於對應 5 201041387 的被刀示區域,並根據設定的 像的跳臺顯示。 轉數進订視頻影 示器:^视頻影像跳臺顯示的方法,適用於裝置有顯 的貝枓處理設備,該資料處理設備與 備通訊連拯〜士i 、、夕個衫像獲取設BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video image playback method and apparatus, and more particularly to a method and data processing apparatus for controlling video image jumper display. [Prior Art] In general, video image jumper display refers to: switching display between different video image display interfaces preset, in order to display video images acquired by multiple image acquisition devices on one display, it is necessary Dividing the display interface on the display such that each divided display area corresponds to one image acquisition device. For example, the display interface shown in FIG. 1 is divided into four display areas A, B, C, and D, each A divided display area is used to display a video image acquired by an image acquisition device; at the same time, in order to make the video image acquired by each image acquisition device display as large as possible on the display, it is necessary to acquire the plurality of image acquisition devices. The acquired video images are displayed in batches, for example, the video images obtained by the 10 image acquisition devices are divided into two batches for loop display, and the first batch display interface displays the videos acquired by the four image acquisition devices. Image (dividing the display interface into 4 display areas), the second batch display interface displays 6 image acquisitions The video image acquired by the device (dividing the display interface into 6 display areas), so that switching from the first batch display interface to the second batch display interface is an image jump display, and all batch display interfaces are displayed. Once called a loop. At present, the conventional video image jumping platform display software is not flexible enough to process the video image display interface platform display, and cannot be displayed according to the actual situation of the 4 201041387 video image dragon (four) image, such as, Chundan 彡# When setting and flexibly adjusting the number of display interface areas, it will be white: the number of devices is less than the effect of the split display, and the effect of the video f彡 is like the jump area* or the black screen display area. [Inventive content] It is necessary to mention - 〇 the method and data processing equipment, the number of image acquisition devices corresponding to the video image jump display, = the actual video image condition to be displayed, and thus improve the segmentation processing of the video image c interface. Equipment, the data is connected. The: #减魏备(10) residual device communication = frequency image jumper display control system. The processor == Lai image jumper is shown (4) to perform the following steps (==: hop: parameter, (8) to monitor the number of image acquisition devices that need to access the video image when not acquired on the display; (i3) Root = 疋 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Comment on the following steps (ι4)' or, if the number of images acquired by the image acquisition device is - meaning of "management", then the following steps (i5) are entered; I4) Automatically adjust according to the < fixed jumper parameters and the number of monitored image acquisition devices: the division of the front display interface, and then transfer to the following steps (i5); (2) each access The video image acquired by the image acquisition device is displayed in the iconized area corresponding to 5 201041387, and is displayed according to the set image. The number of video frames is displayed: ^ The method of video image jumping is applicable to the device. Explicit bellow processing equipment, the data processing equipment and Communication and even save ~ i ,, Xi Shi get a shirt like design
Ha 包括步驟.(a)設定桃臺參數;(b) 像的示器上的當前顯示介面簡示獲取的視頻影 Ο 〇 龄測到^備的數量;⑴根據設定的跳臺參數分析 二的:像獲取設備的數量是否滿足當前顯示介面的分 i面監測到的影像獲祕備的數量不从當前顯示 面的刀割要求,則轉人下述步驟(d), ^影像獲取設備的數量毅當前航介面的分割要^則 步驟(e);⑷根據設定的跳臺參數及監測到的 衫像獲取設傷的數量自動調整當前顯示介面的分割情泥, ::轉入下述步驟(e);(e)將每一個接入的影像獲取設 1獲取的視頻影像顯雜對應的被分割的顯示區域,並根 據设定的跳臺參數進行視頻影像的跳臺顯示。 x =習知技術,本發明透過對實際要顯㈣視頻影像 對應的影像獲取設備的數量的監測,及根據監_的實際 要顯示的_影像對應㈣像獲取設備的數量調整顯示^ 面的分割情況,實現了顯示介面分割情況調整的靈活性, 改善了視頻影像跳臺顯示的效果。 【實施方式】 如圖2所示,係本發明控制視頻影像跳臺顯示的資料 處理設備較佳實施例的運行環境圖。該資料處理設備1可 6 201041387 ===:意適用的具有資料處理能力的電子設 二、處…及記憶體(圖中未示出’)== 存視頻影像跳臺顯示控制系統)二= 網路2與多個影像 貝钭處理叹備1透過 Ο Ο 接,以即時接收各個影圖中以三個為例)通訊連 理器10用於運行儲^又叹備3獲取的視頻影像。處 以為顯示n 12提_ 像跳臺顯示控制系統11, 3處趣做各㈣像獲取設備 示=視頻影像在提供的顯示介面上的跳臺顯 的資訊傳播媒^是網際網路、區域網路或其他任意適用 較佳=體=跳—^ 資料處理設備卜 圖方法適用於圖2所示的 :下是結:本實施例逐步實現對視頻影像跳臺顯示 A^ #該處理11 11運行儲存的視頻影像跳 制為顯示器12提供顯示介面,並控制 示介面上的跳臺顯㈣^取的所有視頻影像在提供的顯 ^驟設定跳臺參數。在本實施例中,所述跳臺 一八〇括需_顯不的各個批次顯示介面、每一個批次顯 ::丨面破分割的顯示區域數量、每-個批次顯示介面在一 =圈中需要顯示㈣間、所有批次顯示介 的顯示區域數量。在本實施例中,所有批次顯示介面1許 7 .201041387 ' 被分割的顯示區域數量為1、4、6、8、9、16。 ^在本λ %例中,是以控制從1〇個影像獲取設備3處 丄的10個視頻影像的跳臺顯示為例進行說明的。該10 個影像獲取設備3獲取的視頻影像分成兩個批次進行迴圈 顯不,7第-批次顯示介面顯示4個影像獲取設備3獲取的 視頻=像(即將顯不介面分割成4個顯示區域),第二批次 ’I面顯不6個影像獲取設備3獲取的視頻影像(即將 顯示介面分割成6個顯示區域),這樣從第一批次顯示介面 切換到第二批次顯示介面即為一次視頻影像跳臺顯示,該 Ζ個批次的顯示介面都被顯示—次稱為—個迴圈。每一個 割的顯示區域對應於—個影像獲取設備3,用於顯示對 應的影像獲取設備3獲取的視頻影像。 步驟sii’監測需接入顯示器12上的當前顯示介面以 =不獲取的視頻影像的影像獲取設備3的數量。所述當前 ^介面指較設定的各個批次顯示介面的—個,例如, 〇 =前需顯示較設㈣第二批次顯示介面,則所述當前 *’、、示"面指的是該第二批次顯示介面。 取^驟S12 ’根據投定的跳臺參數分析監測到的影像獲 二3的數量是否滿足當前顯示介面的分割要求。在本 =中,滿足當前顯示介面的分割要求的情況包括·監 顯一^像獲取設備3的數量等於當前顯示介面被分割的 顯=域數量,監測到的影像獲取設備3的數量小於當前 卿2面被分割的顯示區域數量,但相對於其他允許被分 …如區域數量,更接近當前顯示介面被分割的顯示區 8 201041387 — 域數量,例如,當前顯示介面被分割的顯示區域數量為4, ‘ 而監測到的影像獲取設備3的數量為3。3相對於1更接近 於4。 若監測到的影像獲取設備3的數量滿足當前顯示介面 的分割要求,則轉入執行下述的步驟S13,或者,若監測 到的影像獲取設備3的數量不滿足當前顯示介面的分割要 求,則轉入執行下述的步驟S15。 步驟S13,將接入的所有影像獲取設備3與當前顯示 〇 介面被分割的顯示區域進行——對應,以將每一個接入的 影像獲取設備3獲取的視頻影像顯示於對應的被分割的顯 示區域,且在當前顯示介面的顯示時間達到設定的一個迴 圈中需要顯示的時間時,切換到下一批次顯示介面。 步驟S15,根據監測到的影像獲取設備3的數量自動 調整當前顯示介面的分割情況,隨後轉入執行上述的步驟 S13。在本實施例中,若監測到的影像獲取設備3的數量 ^ 小於當前顯示介面被分割的顯示區域數量,且更接近於一 個其他允許被分割的顯示區域數量,例如,當前顯示介面 被分割的顯示區域數量為4,而監測到的影像獲取設備3 的數量為2,2更接近於1,則自動將當前顯示介面按照該 其他允許被分割的顯示區域數量進行分割;若監測到的影 像獲取設備3的數量大於當前顯示介面被分割的顯示區域 數量,則自動將當前顯示介面按照最接近的一個其他允許 被分割的顯示區域數量進行分割,例如,當前顯示介面被 分割的顯示區域數量為1,而監測到的影像獲取設備3的 9 .201041387 •' 數量為3,3最接近於4。 J 以上所述僅為本發明之較佳實施例而已,且已達廣泛 之使用功效,凡其他未脫離本發明所揭示之精神下所完成 之均等變化或修飾,均應該包含在下述之申請專利範圍内。 【圖式簡單說明】 圖1係本發明顯示介面分割情況示意圖。 圖2係本發明控制視頻影像跳臺顯示的資料處理設備 較佳實施例的運行環境圖。 〇 圖3係本發明控制視頻影像跳臺顯示的方法較佳實施 例的具體實施流程圖。 【主要元件符號說明】 資料處理設備 1 網路 2 影像獲取設備 3 處理器 10 視頻影像跳臺顯示控制系統 11 顯示器 12 10Ha includes the steps. (a) setting the parameters of the peach platform; (b) the video display of the current display interface on the display of the image, the number of the measured ages; (1) analyzing the parameters of the platform based on the set : If the number of acquired devices meets the requirements of the current display interface, the number of images obtained by the i-face is not from the current display surface, then the following steps (d), ^ the number of image acquisition devices The division of the current navigation interface should be followed by step (e); (4) automatically adjust the segmentation of the current display interface according to the set jumping parameters and the number of the injured images obtained by the monitored shirt image, :: Transfer to the following steps ( e); (e) acquiring the divided display area corresponding to the video image acquired by setting 1 for each accessed image, and performing the jump display of the video image according to the set hopping parameter. x = conventional technology, the present invention adjusts the number of image acquisition devices corresponding to the actual (4) video images, and adjusts the display surface according to the number of image acquisition devices (4) In this case, the flexibility of adjusting the display interface segmentation is realized, and the effect of the video image jumper display is improved. [Embodiment] As shown in FIG. 2, it is an operating environment diagram of a preferred embodiment of a data processing device for controlling video image jumper display according to the present invention. The data processing device 1 can be 6 201041387 ===: the electronic processing device with data processing capability is applicable, and the memory (not shown in the figure) == save video image jumping platform display control system) The network 2 and the multiple image processing sighs 1 are connected through the Ο , to receive three images in each picture as an example. The communication connector 10 is used to run the video image acquired by the storage and sigh 3 . I think that it shows n 12 mention _ like the platform display control system 11, 3 interesting things (4) like the acquisition device display = video image on the provided display interface, the information spread media is the Internet, regional network Road or any other suitable preferred = body = hop - ^ data processing equipment diagram method is applicable to the following figure: the following is the knot: this embodiment gradually realizes the video image jumper display A ^ # this processing 11 11 operation The stored video image jumps to provide a display interface for the display 12, and controls all the video images of the jump display (4) taken on the display interface to set the jump parameters in the provided display. In this embodiment, the platform includes a plurality of batch display interfaces for each display, and each batch display: the number of display areas of the broken surface, and the display interface of each batch is in one = The number of display areas in the circle (four) and all batch displays is required. In this embodiment, all the batch display interfaces 1 . 201041387 'the number of divided display areas is 1, 4, 6, 8, 9, 16. In the present λ % example, a jumper display for controlling 10 video images from one image capturing device 3 is taken as an example for description. The video images acquired by the 10 image acquisition devices 3 are divided into two batches for loop display, and the 7th-batch display interface displays the video images acquired by the four image acquisition devices 3 (ie, the interface is divided into 4 pieces) Display area), the second batch 'I side shows 6 video images acquired by the image acquisition device 3 (ie, the interface is divided into 6 display areas), thus switching from the first batch display interface to the second batch display The interface is a video image jumper display, and the display interface of the batch is displayed - once called a loop. Each of the cut display areas corresponds to an image capturing device 3 for displaying a video image acquired by the corresponding image capturing device 3. Step sii' monitors the number of image acquisition devices 3 that need to access the current display interface on display 12 to = not acquire video images. The current interface refers to one of the set batch display interfaces, for example, 〇= before the display (4) second batch display interface is displayed, then the current *', and the " face refers to The second batch displays the interface. Step S12' analyzes whether the number of images obtained by the detected jumper parameters satisfies the segmentation requirement of the current display interface. In this case, the situation that satisfies the segmentation requirement of the current display interface includes: monitoring the number of image acquisition devices 3 equal to the number of display domains in which the current display interface is divided, and the number of image acquisition devices 3 monitored is smaller than the current number. The number of display areas divided by 2 sides, but relative to other allowable divisions... such as the number of areas, closer to the display area where the current display interface is divided 8 201041387 - number of fields, for example, the number of display areas in which the current display interface is divided is 4 , ' While the number of image acquisition devices 3 monitored is 3. 3 is closer to 4 with respect to 1. If the number of the image acquisition devices 3 that are monitored meets the segmentation requirements of the current display interface, the process proceeds to step S13 described below, or if the number of image acquisition devices 3 that are monitored does not meet the segmentation requirements of the current display interface, The process proceeds to step S15 described below. In step S13, all the image acquisition devices 3 that are accessed are associated with the display area in which the current display interface is divided, and the video images acquired by each of the accessed image acquisition devices 3 are displayed on the corresponding divided display. The area, and when the display time of the current display interface reaches the time required to be displayed in one of the set loops, switches to the next batch display interface. In step S15, the segmentation of the current display interface is automatically adjusted according to the number of the image acquisition devices 3 that are monitored, and then the process proceeds to step S13. In this embodiment, if the number of image acquisition devices 3 monitored is smaller than the number of display regions in which the current display interface is divided, and is closer to the number of other display regions that are allowed to be divided, for example, the current display interface is divided. The number of display areas is 4, and the number of image acquisition devices 3 monitored is 2, 2 is closer to 1, and the current display interface is automatically divided according to the number of other display areas that are allowed to be divided; if the captured image is acquired If the number of the device 3 is greater than the number of display regions in which the current display interface is divided, the current display interface is automatically divided according to the number of other display regions that are allowed to be divided. For example, the number of display regions in which the current display interface is divided is 1 And the number of monitored image acquisition devices 3 is .201041387 • The number is 3, 3 is closest to 4. The above is only the preferred embodiment of the present invention, and has been used in a wide range of applications. Any other equivalent changes or modifications which are not departing from the spirit of the present invention should be included in the following patent application. Within the scope. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the interface division of the present invention. 2 is a diagram showing the operating environment of a preferred embodiment of a data processing device for controlling video image jumper display according to the present invention. 3 is a detailed implementation flowchart of a preferred embodiment of the method for controlling video image jumper display according to the present invention. [Main component symbol description] Data processing device 1 Network 2 Image acquisition device 3 Processor 10 Video image jump display control system 11 Display 12 10