200945893 九、發明說明: '【發明所屬之技術領域】 本發明涉及一種電子設備,尤其涉及一種影像擷取裝置 及其圖片排列方法。 【先前技術】 目前,影像擷取裝置如數位相機等一般具有將一圖片排 列至一圖形框内之功能。利用圖形框排列圖片讓圖片顯示效 ❹果更加生動,增加影像擷取裝置之趣味性。 然而,一圖片對應排列至一圖形框内,圖形框顯示之圖 片較單一。當使用者利用圖形框按需要進行複數圖片排列 時,需要使用複數圖形框,給使用者操作造成不便。 【發明内容】 有鑒於此,有必要提供一種可以方便使用者操作之影像 擷取裝置及其圖片排列方法。 一種影像擷取裝置,其包括至少一圖形框、一區域確定 ❹模組、一圖片分割模組、一圖片排列模組及一圖片修正模 組。所述區域確定模組用於確定一包含圖形框之邊界區域。' 所述圖片分割模組用於分割邊界區域以確定複數與所述圖 形框至少部分重疊之圖片區域。所述圖片排列模組用於選擇 與圖片區域之數量相同之圖片,並將所選擇之各圖片根據各 圖片區域之大小進行縮放以將縮放之複數圖片對應排列至 各圖片區域。所述圖片修正模組用於移除在各圖片區域内且 在圖形框外之圖片。 一種影像擷取裝置之圖片排列方法,其用於在一圖形框 7 200945893 内排列複數圖片,所述影像操取裝置之圖片排列方法包括以 下步驟: 確定一包含所述圖形框之邊界區域; 分割所述邊界區域以確定複數與所述圖形框至少部分 重疊之圖片區域; 選擇與所述圖片區域之數量相同之複數圖片; 將所選擇之複數圖片根據所述各圖片區域之大小分別 ❹進行縮放以將縮放之複數圖片對應排列至所述複數圖片區 域; 移除在所述各圖片區域内且在所述圖形框外之圖片。 相較於先前技術,所述影像擷取裝置及其圖片排列方法 能將複數圖片排列至一圖形框中,方便使用者操作。 【實施方式】 下面將結合附圖對本發明實施方式作進一步之詳細說 日月° ' ❹ 請參閱圖ι其為本發明實施方式之影像擷取裝置1〇〇。 該影像擷取裝置100包括至少一圖形框10、一區域確定模組 2〇、一圖片分割模組40、一圖片排列模組6〇及一圖片修正 模組80。200945893 IX. INSTRUCTIONS: 'Technical field to which the invention belongs>> The present invention relates to an electronic device, and more particularly to an image capturing device and a picture arrangement method thereof. [Prior Art] At present, an image capturing device such as a digital camera or the like generally has a function of arranging a picture into a graphic frame. Arranging pictures with a graphic frame makes the picture display more vivid, increasing the fun of the image capture device. However, a picture is correspondingly arranged in a graphic frame, and the picture displayed in the graphic frame is relatively simple. When the user uses the graphic frame to arrange the plurality of pictures as needed, it is necessary to use a plurality of graphic frames, which causes inconvenience to the user. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide an image capturing device that can be conveniently operated by a user and a method for arranging the images thereof. An image capturing device includes at least one graphic frame, an area determining module, a picture dividing module, a picture arrangement module and a picture correction module. The area determination module is configured to determine a boundary area including a graphic frame. The picture segmentation module is configured to segment the boundary region to determine a plurality of picture regions that at least partially overlap the frame. The picture arrangement module is configured to select the same number of pictures as the picture area, and scale the selected pictures according to the size of each picture area to arrange the scaled plurality of pictures correspondingly to each picture area. The picture correction module is configured to remove pictures in the picture area and outside the graphic frame. A method for arranging pictures of an image capturing device for arranging a plurality of pictures in a graphic frame 7 200945893, the image arrangement method of the image capturing device comprising the steps of: determining a boundary region including the graphic frame; Determining, by the boundary area, a plurality of picture regions at least partially overlapping the graphic frame; selecting a plurality of pictures having the same number as the picture area; and scaling the selected plurality of pictures according to the size of each picture area Arranging the scaled plural pictures correspondingly to the plurality of picture areas; removing pictures in the picture areas and outside the picture frame. Compared with the prior art, the image capturing device and the image arrangement method thereof can arrange a plurality of pictures into a graphic frame to facilitate user operation. [Embodiment] Hereinafter, embodiments of the present invention will be further described in detail with reference to the accompanying drawings. FIG. 1 is an image capturing apparatus 1 according to an embodiment of the present invention. The image capturing device 100 includes at least one graphic frame 10, an area determining module 2, a picture dividing module 40, a picture arrangement module 6A, and a picture correction module 80.
所述圖形框10用於排列至少一圖片。圖形框1〇之彤狀 為任意形狀,如“等個性化圖案。當然圖形框 1〇可為使用者自己設定之圖形框,利用影像擷取裝置工⑻ 將自設定之圖形框手繪後拍攝下來根據圖形框内外之色彩 差異或者其他使用者自定之形式進行辨識以能將圖形框I 8 200945893 圖案識別出來以作為圖形框使用。本實施方式中,圖形框ίο 之形狀為。 所述區域確定模組20於圖形框10所在之區域内建立一 座標系’請參閱圖2, X軸為橫轴,Υ軸為縱軸。區域確定 模組20確定圖形框1〇在所述座標軸内之橫座標值及縱座標 值之最大點及最小點。如圖2所示,圖形框1〇之橫座標值 之最大點及最小點分別為Μ!、Μ2,縱座標值之最大點及最 ❹小點分別為Ni、Ν2。Μ2、所在之垂直於X軸之直線與The graphic frame 10 is used to arrange at least one picture. The shape of the graphic frame 1 is any shape, such as "such as a personalized pattern. Of course, the graphic frame 1 can be a graphic frame set by the user, and the image capturing device (8) is used to draw the self-set graphic frame. According to the color difference inside and outside the graphic frame or other user-defined forms, the graphic frame I 8 200945893 pattern can be recognized as a graphic frame. In the embodiment, the shape of the graphic frame ίο is. The module 20 establishes a calibration system in the area where the graphic frame 10 is located. Please refer to FIG. 2, the X axis is the horizontal axis, and the Υ axis is the vertical axis. The area determining module 20 determines the horizontal direction of the graphic frame 1 所述 in the coordinate axis. The maximum and minimum points of the coordinate value and the ordinate value. As shown in Figure 2, the maximum and minimum points of the horizontal coordinate value of the graphic frame 1 are Μ!, Μ2, the maximum point of the ordinate value and the smallest value. The points are respectively Ni, Ν2. Μ2, the line perpendicular to the X axis and
Ni、&所在之垂直於γ轴之直線分別相交於a、b、C、D 四點,即區域確定模組20所確定之邊界區域為長方形 ABCD。 圖片分割模組40用於確定邊界區域ABCD各邊之長度 以將邊界區域ABCD分割為複數區域並於複數區域中確定 與圖形框10部分重疊及全部重疊之區域為圖片區域。 施方式中,AB之長度為20個單位長度,AC之長度為扣個 ❹^位長度。可以理解,單位長度可以為i釐米,i毫米,工 英寸等單位長度。圖片分割模組4〇以圖片格式大小如4χ6, 3x8, 5x5等將邊界區域ABCD進行分割。圖片格式可於 像揭取裝置1GG出廠前設定,也可於使用過程中 ^ 設定。本實施方式中,設^之圖片格式為5χ5。 2 ^即將就D分割為5x5個子區域,即分割為25個子區 /圖片分割模組40在25個子區域中確定出與 °° 部分重叠及全部重疊之子區域為圖片區域。如圖;圖所开^匡^ 9 200945893 實施方式中,邊界區域ABCD有21個圖片區域(圖2中斜線 區域部分)。 可以理解,若邊界區域ABCD之各邊長度無法全部按設 定之圖片格式進行等分分割時,如AB之長度為20毫米 (mm),AC之長度為32mm,設定圖片格式為5x5,將AB之 長度分割可均分為5等分(每等分4mm),AC之長度無法有 效分割為5等分,AC之長度分割為5等分(每等分6mm)之 後餘下之2mm所形成之5個子區域也為圖片區域,圖片格 式為1x5。如圖3所示,斜線表示之5個子區域同樣設定為 圖片區域。 可以理解,AB及CD之長度也可以不等分之方式分割, 只要滿足設定之圖片格式大小即可,即可將AC之長度以每 等分6mm先分為4部分,餘下之8mm為1部分,則即同樣 滿足5x5之圖片格式大小。 所述圖片排列模組60包括一偵測單元62、一選擇單元 φ 64、一縮放單元66及一排列單元68。所述偵測單元62偵測 圖片分割模組40分割之與圖形框10部分重疊及全部重疊之 圖片區域之數量為21及各圖片區域之圖片大小為 4mmx6mm。所述選擇單元64在影像擷取裝置100内選擇21 個圖片。所述縮放單元66根據偵測單元62偵測之圖片區域 之圖片大小將選擇單元64選擇之21個圖片進行縮放。可以 理解,若複數圖片區域之圖片大小不相同,如存在兩種圖片 格式5x5,1x5且相應之圖片大小分別為4mmx6mm, 4mmx2mm。則分別偵測出不同之圖片區域大小及相應之個 200945893 數。縮放單元66根據相應之圖片區域大小及數量進行相應 縮放。排列單元68將縮放之21個圖片分別對應排列至圖片 分割模組40分割之21個圖片區域中。選擇之圖片可以手動 選擇,也可設計多種選擇條件自動選擇如拍攝日期、時間等 自動選擇後依次對應21個圖片排列。 所述圖片修正模組80包括一位置確定單元82及一移除 單元84。所述位置確定單元82用於確定圖形框1〇外與所述 ❹圖片區域内之間之區域,即為修正區域p,如圖4所示。位 置確定單元82可依據圖形框10之圖像資料中記錄之圖形框 1〇之位置座標及區域確定模組20確定之邊界區域abcd之 位置座標來確定修正區域P。 所述移除單元84根據位置確定單元82確定之修正區域 P將排列在修正區域P内之圖片移除。圖片移除之方式可採 用將修正區域P内之圖片之畫素點之值設定為0M,即全 黑或全白以使修正區域P内之圖片内容無法顯示。則選 ❹7064選擇之21個圖片中可顯示之圖片形狀為“◊,,。 施方式t,將修正區域P内之圖片之晝素點值設定為〇 修正區域P内之圖片為全黑。如圖 線所示區域。 所不,修正區❹為斜 之2本發明實施方式之—種影像操取震置 之圖片排财法’其用於在—圖形框中排列複數圖片 影像擷取裝置之圖片排列方法包括以下步驟: ^ S100 :確定一包含圖形框之邊界區域. 謂:分割所述邊界區域以料複數與所述圖形框至少 11 200945893 部分重疊之圖片區域; S300:選擇與所述圖片區域之數量相同之複數圖片,將 所選擇之複數圖片根據所述各圖片區域之大小分別進行縮 放以將縮放之複數圖片對應排列至所述複數圖片區域; S400 ·移除在所述各圖片區域内且在所述圖形框外之圖 片。 在步驟S100中,利用區域確定模組20在圖形框1〇所 ❹在之區域内建立一座標系,並根據圖形框1〇於座標軸内橫 座標值之最大點Μ!及最小點河2,縱座標值之最大點化及 最小點N2確定邊界區域ABCD。 在步驟S200中,利用圖片分割模組4〇將邊界區域 ABCD以5x5之格式分割為25個區域並確定出與圖形框1〇 部分重疊及全部重疊之圖片區域。 在步驟S300中:利用偵測單元62偵測出圖片區域之數 量為21個及各圖片區域之格式5χ5。利用選擇單元在影 ❹像,取裝置1〇〇内選擇21個圖片。並利用縮放單元的將^ 擇單元64選擇之21個圖片以4mmx6mm大小進行縮放。利 用排列單元68將已縮放之21個圖片分別對應排列至21個 圖片區域中。 在步驟S400中,利用位置確定單元82依據圖形框ι〇 之圖像資料中記錄之圖形框10之位置座標及區域確定模組 20確定之圖片區域之位置座標來確定修正區域p。利用移除 早几84將排列在修正區域p内之圖片之畫素點值設定為… 即修正區域Ρ内之圖片顯示為全黑。 ’ 12 200945893 所述影像擷取裝置及其圖片排列方法能將複數圖片排 列成圖形框10之形狀,方便使用者操作,同時圖形框10之 形狀可以為任意個性化圖案,增強了影像擷取裝置之人性化 設計。 綜上所述,本發明確已符合發明專利要件,爰依法提出 專利申請。惟,以上所述者僅為本發明之較佳實施方式,舉 凡熟悉本案技藝之人士,於援依本案發明精神所作之等效修 ©飾或變化,皆應包含於以下之申請專利範圍内。 【圖式簡單說明】 圖1為本發明實施方式之影像擷取裝置之模組示意圖。 圖2為圖1中影像擷取裝置之圖形框之分割示意圖。 圖3為圖1中影像擷取裝置之圖形框之另一種分割方式 示意圖。 圖4為圖2之圖形框之修正區域示意圖。 圖5為本發明實施方式之圖片排列方法流程圖。 ©【主要元件符號說明】 影像擷取裝置 100 圖形框 10 區域確定模組 20 圖片分割模組 40 圖片排列模組 60 偵測單元 62 選擇單元 64 縮放單元 66 排列單元 68 圖片修正模組 80 位置確定單元 82 移除單元 84 13The lines perpendicular to the γ axis of Ni, & are respectively intersected at four points a, b, C, and D, that is, the boundary area determined by the area determining module 20 is a rectangle ABCD. The picture segmentation module 40 is configured to determine the length of each side of the boundary area ABCD to divide the boundary area ABCD into a plurality of areas and determine, in the plurality of areas, an area partially overlapping and overlapping with the graphic frame 10 as a picture area. In the embodiment, the length of AB is 20 unit lengths, and the length of AC is a length of 扣^ bits. It can be understood that the unit length can be i cm, i mm, working inches and the like. The picture segmentation module 4 divides the boundary area ABCD by a picture format size such as 4χ6, 3x8, 5x5, and the like. The picture format can be set before the factory pick-up device 1GG is shipped from the factory, or it can be set during use. In the present embodiment, the picture format of the image is 5χ5. 2 ^ The D is divided into 5x5 sub-regions, that is, divided into 25 sub-regions. The picture segmentation module 40 determines, in the 25 sub-regions, the sub-regions that partially overlap and overlap with the °° as the picture region. As shown in the figure; in the embodiment, the boundary area ABCD has 21 picture areas (the oblique line area portion in Fig. 2). It can be understood that if the length of each side of the boundary area ABCD cannot be equally divided according to the set picture format, for example, the length of AB is 20 mm (mm), the length of AC is 32 mm, and the format of the picture is 5x5, which will be AB. The length division can be divided into 5 equal parts (4 mm per aliquot), the length of the AC cannot be effectively divided into 5 equal parts, and the length of the AC is divided into 5 equal parts (6 mm per aliquot) and the remaining 5 mm are formed. The area is also a picture area, and the picture format is 1x5. As shown in Fig. 3, the five sub-areas indicated by diagonal lines are also set as picture areas. It can be understood that the lengths of AB and CD can also be divided in an unequal manner. As long as the size of the set picture format is satisfied, the length of the AC can be divided into 4 parts by 6 mm per aliquot, and the remaining 8 mm is 1 part. , that is, the image format size of 5x5 is also satisfied. The picture arrangement module 60 includes a detection unit 62, a selection unit φ 64, a scaling unit 66, and an arranging unit 68. The detecting unit 62 detects that the number of picture areas partially overlapped and completely overlapped by the picture segmentation module 40 is 21 and the picture size of each picture area is 4 mm x 6 mm. The selection unit 64 selects 21 pictures in the image capturing device 100. The scaling unit 66 scales the 21 pictures selected by the selecting unit 64 according to the picture size of the picture area detected by the detecting unit 62. It can be understood that if the picture size of the plurality of picture areas is different, if there are two picture formats 5x5, 1x5 and the corresponding picture sizes are 4mmx6mm, 4mmx2mm respectively. Then, the size of different picture areas and the corresponding number of 200945893 are detected respectively. The scaling unit 66 scales accordingly according to the size and number of corresponding picture regions. The arranging unit 68 arranges the scaled 21 pictures correspondingly into the 21 picture areas divided by the picture dividing module 40. The selected picture can be selected manually, or multiple selection conditions can be designed to automatically select such as shooting date, time, etc. After automatic selection, 21 pictures are arranged in order. The picture correction module 80 includes a position determining unit 82 and a removing unit 84. The position determining unit 82 is configured to determine an area between the outside of the graphic frame 1 and the inside of the ❹ picture area, that is, the modified area p, as shown in FIG. The position determining unit 82 can determine the correction area P based on the position coordinates of the graphic frame 1〇 recorded in the image data of the graphic frame 10 and the position coordinates of the boundary area abcd determined by the area determining module 20. The removing unit 84 removes the picture arranged in the correction area P according to the correction area P determined by the position determining unit 82. The picture removal method can be set to set the value of the pixel point of the picture in the correction area P to 0M, that is, all black or all white so that the picture content in the correction area P cannot be displayed. Then, the shape of the image that can be displayed in the 21 pictures selected by the selection 7064 is “◊,,. By applying t, the pixel value of the picture in the correction area P is set to the picture in the correction area P is all black. The area indicated by the figure line. No, the correction area is slanted. 2 The image acquisition method of the image manipulation operation of the embodiment of the present invention is used for arranging a plurality of picture image capturing devices in the graphic frame. The picture arranging method comprises the following steps: ^ S100: determining a boundary area including a graphic frame. The dividing: the dividing the boundary area is a picture area partially overlapping the graphic frame with at least 11 200945893; S300: selecting and the picture a plurality of pictures having the same number of regions, and the selected plurality of pictures are respectively scaled according to sizes of the picture areas to correspondingly arrange the scaled plurality of pictures to the plurality of picture areas; S400: removing the picture areas And a picture outside the graphic frame. In step S100, the area determining module 20 establishes a marking system in the area where the graphic frame 1 is located, and according to the graphic frame 1 The maximum point 横 of the abscissa value in the coordinate axis and the minimum point river 2, the maximum point of the ordinate value and the minimum point N2 determine the boundary area ABCD. In step S200, the boundary area ABCD is used by the picture segmentation module 4〇 The image is divided into 25 regions in a 5x5 format and the image regions partially overlapping and overlapping with the graphic frame 1〇 are determined. In step S300, the number of image regions detected by the detecting unit 62 is 21 and each image region is detected. The format is 5χ5. With the selection unit in the image, 21 devices are selected in the device 1〇〇, and 21 pictures selected by the selection unit 64 of the scaling unit are scaled by 4 mm×6 mm size. The zoomed 21 pictures are respectively arranged in the 21 picture areas. In step S400, the position determining unit 82 determines the position coordinates and the area determining module 20 of the graphic frame 10 recorded in the image data of the graphic frame. The position coordinates of the picture area are used to determine the correction area p. The pixel point value of the picture arranged in the correction area p is set to be... by the removal of the early 84. The image capturing device and the image arrangement method thereof can arrange the plurality of pictures into the shape of the graphic frame 10, which is convenient for the user to operate, and the shape of the graphic frame 10 can be any personalized pattern, and is enhanced. The ergonomic design of the image capturing device. In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above is only a preferred embodiment of the present invention, and is familiar with the skill of the present invention. The equivalents of the inventions in the spirit of the invention are included in the scope of the following patent application. [FIG. 1] FIG. 1 is a model of an image capturing device according to an embodiment of the present invention. Group diagram. 2 is a schematic diagram showing the division of the graphic frame of the image capturing device of FIG. 1. FIG. 3 is a schematic diagram showing another division manner of the graphic frame of the image capturing device of FIG. 1. FIG. 4 is a schematic view of a modified area of the graphic frame of FIG. 2. FIG. 5 is a flowchart of a method for arranging pictures according to an embodiment of the present invention. ©【Main component symbol description】 Image capture device 100 Graphic frame 10 Area determination module 20 Picture segmentation module 40 Picture arrangement module 60 Detection unit 62 Selection unit 64 Zoom unit 66 Arrangement unit 68 Picture correction module 80 Position determination Unit 82 removal unit 84 13