1306349 七、指定代表圖: 本案指定代表圖為:第(二)圖。 第一影像; 第二影像; 放大功能; 影像區域;及 壓縮程式。 -)本代表®之元件符號簡單說明: 21 :輸入單元; $ 222 223 231 241 22:影像擷取單元; 23 :處理單元; 24 :儲存單元; 211 :控制信號;1306349 VII. Designated representative map: The representative representative figure of this case is: (2). First image; second image; zoom function; image area; and compression program. -) A simple description of the component symbols of this representative: 21: input unit; $222 223 231 241 22: image capture unit; 23: processing unit; 24: storage unit; 211: control signal;
本案若有化學式時,請揭示最能顯示發明特徵的化學式: 九、發明說明: 【發明所屬之技術領域】If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention: IX. Description of the invention: [Technical field to which the invention belongs]
本發明係揭露一種 根據影像區域及放大功 置及其方法。 影像擷取裝置及其方法,特別是關於 能’以擷取並結合影像之影像擷取裝 【先前技術】 哭位相機所能擷取之影像的解析度,通常受到影像感測 ™^ a且,通常解析度愈高的數位相機,其製造成本相對 =冋、。士有限的成本内,為改善數位相機所擷取之影像的品 管虚^,擷取複數張相關的影像以根據反覆修正法作運 舁處理,稭此整合成一張品質較好的影像。 疋 1306349 請參閱第一圖,其係習知技藝之一種應用反覆修正法以 產生高解析度影像之方法之步驟流程圖,其係利用Μ張低解 析度的第一影像,以產生高解析度影像。且該Μ張第一影像 皆關於同一影象,第一影像由複數個像素(Pixel)所組成,高 ,解析度影像與該Μ張第一影像之間具有一放大參數的關係, 此方法包含以下步驟·· 步驟S11 :儲存Μ張第一影像; 步驟S12 :從Μ張第一影像中選取一張作為雛型影像, 且(Μ-1)張未被選取的第一影像即歸類為(Μ-1)張第二影像; _ 步驟S13:根據該放大參數,對雛型影像插入額外像素; i 步驟S14 :再根據每一額外像素之鄰近像素之值,以推 . 算出額外像素之值,產生經插補的離型影像; 步驟S15 :針對(M-1)張第二影像作自動挑選,其係計算 出與經插補的雛型影像之間個別存有的二維平移量,再將二 維平移量除以放大參數,以根據餘數從中挑選N張第三影像; 步驟S16 :藉由N張第三影像個別與經插補的雛型影像 之間存有的二維平移量,對該經插補的雛型影像進行縮小取 樣,以產生N張第四影像; • 步驟S17:計算每一第三影像與對應之第四影像之差值; 步驟S18 :根據N個差值之平均值,以修正雛型影像之 像素之值;及 步驟S19 :判斷經插補的雛型影像之像素之值是否收斂 至一符合要求的結果;若是,則雛型影像即為高解析度影像; 若否,則返回步驟S16。 然而,應用反覆修正法以產生高解析度影像之方法,需 耗費較長的時間。且,在僅需提升影像之部分區域的品質的 情況下,此方法相當不實用。 1306349 因此,本發明人基於諸多實務經驗與專題探討,遂 發明提出一種影像擷取裝置及其方法,以滿足提升影像 分區域的品質及減少耗費時間的需求。 〜 【發明内容】 本發明之目的為提供一種影像擷取裝置及其方法, 是關於根據影像區域及放大功能,以擷取並結:影像’,特別 提升影像之部分區域的品質’並減少耗費時間。、 用以 為達上述目的,依本發明所揭露之影像擷取辈置复 少包含-影賴取單元及-處理單元。其中,影軸^至 根據一影像區域及一放大功能,以榻取一第一影像及一#70 影像,且第一影像及第二影叙像素數i或影二 第-影像包含影像區軸之影像,第二影像與 :’ 影像相同,但像素數量或影像大小係具有—倍數之 早儿根據此倍數關係壓縮第二影像,以產生H縮^理 f進-步結合第-影像及第二壓縮影像。再者,影像:’ J由本”裝置另設置—輸入單元以提供操作端;二可 放大功能係為t彡賴取單元進行光學魏,以改變g, 大倍數,藉此放大功能可提供複數個放大倍數。〜象之放 ,為使本發明之技術特徵及所達成之 暸:與認識’下文謹提供較佳之實施例 之 之用,並以詳細之說明文字配合說明如後。 為辅佐 【實施方式】 說明依本發明較佳實施例之影像 以下將參照相關圖式 顧取裝置及其方法。 1306349 請參閱第二圖’其係本發明之影像擷取裝置之方塊示意 ^,其包含—輸入單元21、一影像擷取單元22、一處理單元 儲存單元24。其中,輸入單元21提供操作端輸入控 =號211,以設定一影像區域231,其係藉由處理單元23 供至影像擷取單元22。影像擷取單元22用於擷取影像且 2°2,行光學變焦以提供一放大功能223,藉此影像擷取單元 ^根據影像區域231及放大功能223所提供之放大倍數, :二影請。且,第一影請包含影像區影 像去第t影像222與影像區域23丨内之影像相同,但兩者之 域篁及影像大小具有倍數關係。處理單元23根據影像區 以控制影像操取單元22擷取第一影像221及第二影像 24] °、f處理單元23可至儲存單元24處讀取—壓縮程式 ,,而加以執行’以根據影像區域231之影像之像素數量 二=大小,或根據放大功能223所提供之放大倍數,將第 2進行㈣處理以產生第二壓縮影像,且第二壓縮 單有與影像區域231相等之像素數量及影像大小。處理 進步根據影像區域231,將第二壓縮影像妹合至 第一影像221 +,即產生一整人醫。炒* „汾傢 壓》 像儲存單元24用於儲存 及影!221、第二影像222、第二壓縮影像 I S衫像,以提供予處理單元23進行譫& , , 21較佳為觸控式螢幕或按鍵’影像擷取單& &車:為;焦 鏡頭,處理單元23較佳為微處理器,储存佳& 憶卡灿1Card,SDCard)或快閃記憶 Memory) ° 請-併^第三圖至第五圖’第三圖係為本發明之影像 擷取裝置之實施例之方塊示意圖’第四圖係為本發明之第一 7 1306349 影像及第二影像之實施例之示意圖,第五圖係為本發明之第 一影像與第二影像結合之實施例之示意圖。 如第三圖所示’此影像擷取裝置31包含一觸控式螢幕 311、一變焦鏡頭312、一微處理器313及一記憶卡314。其 中’觸控式螢幕311提供操作端輸入控制信號3111,以設定 如第四圖所示之影像區域43為像素數量320x240之影像,此 影像區域43用於使微處理器313控制變焦鏡頭312。變焦鏡 頭312用於擷取影像,且可進行光學變焦以拉近影像,以產The present invention discloses a method according to an image area and an amplification function and a method thereof. Image capturing device and method thereof, in particular, image capturing device capable of capturing and combining images [Prior Art] The resolution of images that can be captured by a crying camera is usually subjected to image sensing TM^ a The higher the resolution of a digital camera, the higher the manufacturing cost is =冋. In the limited cost, in order to improve the image quality of the image captured by the digital camera, a plurality of related images are taken to be processed according to the repeated correction method, and the straw is integrated into a better quality image.疋1306349 Please refer to the first figure, which is a flow chart of a method for applying a repetitive correction method to generate a high-resolution image, which utilizes a low-resolution first image to generate high resolution. image. And the first image of the tensor is about the same image, the first image is composed of a plurality of pixels (Pixel), and the high-resolution image has an amplification parameter relationship with the first image, the method includes The following steps: Step S11: storing the first image of the image; Step S12: selecting one of the first images from the first image as the prototype image, and (Μ-1) the first image that is not selected is classified as (Μ-1) second image; _ step S13: inserting additional pixels into the prototype image according to the amplification parameter; i step S14: further calculating the extra pixel according to the value of the neighboring pixel of each additional pixel Value, generating an interpolated release image; Step S15: automatically selecting (M-1) the second image, which calculates the two-dimensional translation amount existing between the interpolated and the reconstructed prototype image And dividing the two-dimensional translation amount by the amplification parameter to select N third images from the remainder according to the remainder; Step S16: two-dimensional translation between the N third image and the interpolated prototype image Volume, the interpolated prototype image is downsampled to generate N Step S17: calculating a difference between each third image and the corresponding fourth image; Step S18: correcting a value of a pixel of the prototype image according to an average of the N differences; and step S19 : determining whether the value of the pixel of the interpolated prototype image converges to a satisfactory result; if so, the prototype image is a high-resolution image; if not, returning to step S16. However, the method of applying the repetitive correction method to generate high-resolution images takes a long time. Moreover, this method is quite impractical in the case where it is only necessary to improve the quality of a part of the image. 1306349 Therefore, the inventors have based on a number of practical experiences and special topics, and have proposed an image capturing device and method thereof to meet the requirements of improving the quality of image subregions and reducing time consuming. ~ [Explanation] The object of the present invention is to provide an image capturing device and a method thereof, which are characterized in that the image area and the zooming function are used to extract and combine the image ', especially to improve the quality of a part of the image' and reduce the cost. time. For the above purposes, the image capture method according to the present invention includes a plurality of acquisition units and a processing unit. Wherein, the image axis ^ to take a first image and a #70 image according to an image area and an amplification function, and the first image and the second image pixel number i or the shadow image-image include the image area axis The image, the second image is the same as: 'the image is the same, but the number of pixels or the image size has a multiple of the second to compress the second image according to the multiple relationship to generate the H-finished f-step combined with the first image and the first Two compressed images. Furthermore, the image: 'J is set by the device' is additionally provided - the input unit is provided to provide the operation end; and the second enlargeable function is to perform optical adjustment for the unit to change g, a large multiple, whereby the amplification function can provide a plurality of functions Magnifications. In order to achieve the technical features and accomplishments of the present invention: and the following description is provided for the preferred embodiments, and the detailed descriptions are followed by the following description. DESCRIPTION OF THE PREFERRED EMBODIMENTS The image according to the preferred embodiment of the present invention will be referred to below with reference to the related drawings and the method thereof. 1306349 Please refer to the second figure, which is a block diagram of the image capturing device of the present invention, which includes - input The unit 21, an image capturing unit 22, and a processing unit storage unit 24. The input unit 21 provides an operation input control number 211 to set an image area 231, which is supplied to the image capturing unit by the processing unit 23. The image capturing unit 22 is configured to capture an image and optically zoom at 2° 2 to provide an amplification function 223, whereby the image capturing unit is configured according to the image area 231 and the zooming function 223. The magnification provided is: two shadows, and the first image includes the image area image to the t image 222 and the image in the image area 23, but the domain and the image size have a multiple relationship. According to the image area, the image capturing unit 22 captures the first image 221 and the second image 24], and the f processing unit 23 can read the compression program from the storage unit 24 to perform 'based on the image area. The number of pixels of the image of 231 is two = size, or according to the magnification provided by the zoom function 223, the second (4) processing is performed to generate a second compressed image, and the second compressed image has the same number of pixels and images as the image area 231. The processing advances according to the image area 231, and the second compressed image is merged into the first image 221 +, that is, a whole person is generated. The fried * „ 汾 压 压 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 221, the second image 222, the second compressed image IS shirt image, provided to the processing unit 23 for 谵 &, 21 is preferably a touch screen or button 'image capture single &&&car; For the focal lens, the processing unit 23 is preferably a microprocessor, which stores a good & 1 card, SDCard or flash memory. ° Please - and ^ 3 to 5 'the third picture is the invention The block diagram of the embodiment of the image capturing device is a schematic diagram of an embodiment of the first 7 1306349 image and the second image of the present invention, and the fifth image is the first image and the second image of the present invention. A schematic diagram of an embodiment in combination. As shown in FIG. 3, the image capturing device 31 includes a touch screen 311, a zoom lens 312, a microprocessor 313, and a memory card 314. The touch screen 311 provides an operation input control signal 3111 to set an image area 43 as shown in FIG. 4 as an image of a pixel number 320x240, and the image area 43 is used to cause the microprocessor 313 to control the zoom lens 312. The zoom lens 312 is used to capture images, and optical zoom can be performed to zoom in on the image.
生一至五倍的放大功能,藉此變焦鏡頭312可根據影像區域 43,以一倍的放大功能擷取如第四圖所示之第一影像&,再 以二倍的放大功能擷取如第四圖所示之第二影像42。其中, 第一影像41及第二影像42之像素數量為64〇χ48〇,第一影 像41包含影像區域43内之影像431,第二影像42與影像區 域43内之影像431相同。微處理器313藉由影像區域43以 控制變焦鏡頭312分別以—倍及二倍的放大功能來擷取第一 影像41及第二影像42。且微處理器313可至記憶卡314讀 :冬式3141,進而加以執行’以根據影像區域43為 fit 影像’或根據二倍的放大功能,將像素 J。5第一影像42壓縮為像素數量320x240之壓縮 :數旦3ϋ進—步根據影像區域43之位置,將像 第五Ξ所Λ後if縮影像結合至第一影像41中,即產生如 弟五圖所不之像素數量為刚 處理器313可針對壓縮岑禮办外爻正口衫像51此外,微 縮办像與弟一影像41結合之邊緣部位, 進订”,以維持整 用於儲存壓縮程式3141 就卞d14 51 > 41第一衫像41、第二影像42及整合 以象51叫供予微處理器灿進行讀取。 1306349 再者’此影像擷取裂£ 31可藉由擷取多張影像以加強增 、、旦=的功效。觸控式榮幕311提供操作端輸入控制信號, 以=疋操取四張影像,及擷取像素數量為64{)χ之影像。 ^理斋313根據控制信號以控制變焦鏡頭312分別使用一 ^三分之四倍、二倍及四倍的放大功能來擷取第—影像、 像u像及第四影像。微處理器313再至記憶卡 禮芬二取1縮程式3141再加以執行,以對第二影像、第三影 旦48^ 像進行M縮處理,其中第二影像被壓縮為像素數 ΐ傻,之影像’第三影像被壓縮為像素數量320x240之 Ϊ器313:Z影像被壓縮為像素數量16°xl2Q之影像。微處 壓縮後=^龍^之影像結合至第一影像中,並且對 理,以產生德/、弟一衫像結合之邊緣部位,進行模糊化處 成以2影像整合影像。料上述,即達 圖,圖係本發明之影像搁取方法之步驟流程 步驟Sfii .二 •错由一輸入單元輸入一影像區域; . 62 ·精由一影像擷取單元以擷取一第一影像; Μ.藉由影像擷取單元根據影像區域及一放大功 此,:擷取―第二影像; ▼步驟S64 :藉由一處理單元根據影像區域之像素數量及 =小,或根據放大功能提供之放大倍數,以壓縮第二影 步驟S65 :藉由處理單元將壓縮後之第二影像與第一影 像結合。 ^ 上,步驟+,第一影像包含影像區域內之影像,且第一 影像與第二影像具有相同之像素數量及影像大彳、。藉由放大 1306349 功能提供不同的放大倍數’使第二旦 相同’但兩者之像素數量及影像大心影像區域内之影像 兀係至-儲存單元處讀取—壓縮 ^倍數關係;處理單 壓縮第二影像外 =並根據此倍數關係 焦所產生。且,輸人單元較iLtL象擷取單元進行光學變 取單元較佳為魏鏡頭’處理單幕或按鍵,影像擷 元較=為記憶卡或㈣記Μ。 4騎理器,儲存單 請參閱第七圖,其係本發明之旦 步驟流程圖,其包含以下步驟:〜軸取方法之實施例之 步驟S71 :藉由一觸控式螢幕輪 -影像區域為像素數量32Qx24G之影像:控制信號’以設定 步驟S72 :藉由一變焦鏡頭栋田 像素數量為640x480之第:影像;—麵放大功能以擷取 大功Ϊ^73 :藉由變焦鏡頭根據影像區域以使用—件的放 大功此來棘像素數量為64 ^使用-倍的放 與影像區域内之晝面相同; 之第二影像,使第二影像 步驟S74 :藉由一微處理器牵— 再加以執行,錄魏像區域為像=卡讀取—壓縮程式 或根據二倍的放大功能,將像2 = l32Qx24G,像’ 壓縮為像素數量320x240之影像;‘、、40x480之第二影像 步驟S75 :藉由微處理器根撼旦 後之影像結合至第—影 像區域之位置,將壓縮 整合影像;及 產生像素數量為640x480之 步輝S76 .藉由微處理哭 合之邊緣部位,崎模糊化處之f像與第一影像結 以维持整合影像之自然度。 1306349 請參閱第八圖’其係本發明之影像擷取方法之另一實施 例之步驟流程圖,其藉由榻取多張影像以加強增進晝質的功 效,本方法包含以下步驟: 步驟S81 ··藉由一觸控式榮幕輪入一控制信號,以設定 擷取四張影像,及擷取像素數量為640x480之影像; 步驟S82:控制一變焦鏡頭分別使用一倍、三分之四倍、 二倍及四倍的放大功能以擷取第一影像、第二影像、第三影 像及第四影像; 步驟S83 :藉由一微處理器至一記憶卡讀取—歷縮程式A zoom function of one to five times is generated, whereby the zoom lens 312 can capture the first image & as shown in the fourth figure by using the zooming function according to the image area 43, and then take the zoom function twice. The second image 42 shown in the fourth figure. The first image 41 and the second image 42 have a pixel number of 64 〇χ 48 〇. The first image 41 includes the image 431 in the image area 43 , and the second image 42 is the same as the image 431 in the image area 43 . The microprocessor 313 captures the first image 41 and the second image 42 by using the image area 43 to control the zoom lens 312 to zoom in and out twice. And the microprocessor 313 can read to the memory card 314: Winter 3141, and then perform 'to make a fit image according to the image area 43' or to convert the pixel J according to the double magnification function. 5 The first image 42 is compressed into a compression of the number of pixels 320×240: a plurality of deniers are forwarded into a first image 41 according to the position of the image area 43 and the image is merged into the first image 41. The number of pixels in the figure is that the processor 313 can be used to compress the 爻 办 爻 口 像 像 像 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 51 The program 3141 is 卞d14 51 > 41 first shirt image 41, second image 42 and integrated with the image 51 for the microprocessor to read. 1306349 Furthermore, 'this image capture crack 31 can be obtained by 撷Take multiple images to enhance the effect of adding, denier = 1. The touch-type honor screen 311 provides the operation input control signal, taking four images, and capturing the image with 64# pixels. According to the control signal, the razor 313 controls the zoom lens 312 to use the four-thirds, two-fold, and four-fold magnification functions to capture the first image, the image u image, and the fourth image. The memory card is used to perform the second image and the third image. Once the 48^ image is subjected to M reduction processing, the second image is compressed into a number of pixels, and the image 'the third image is compressed into a number of pixels 320×240. The Z image is compressed into an image with a pixel number of 16°×l2Q. After the micro-compression, the image of the ^^^^ is combined into the first image, and the opposite is used to generate the edge portion of the combination of the German and the younger one, and the blurring is performed to integrate the image with 2 images. That is, the figure is the step of the image capturing method of the present invention. The step Sfii is input by an input unit; an image is captured by an image capturing unit to capture a first image; By the image capturing unit according to the image area and an amplification function,: capturing the second image; and step S64: by a processing unit according to the number of pixels of the image area and = small, or according to the amplification function provided by the amplification a multiple to compress the second shadow step S65: the compressed second image is combined with the first image by the processing unit. ^, step +, the first image includes the image in the image area, and the first image and the second image Image has the same The number of pixels and the image size are large. By zooming in on the 1306349 function, different magnifications are provided to 'make the second identical', but the number of pixels of the two and the image in the image center of the image are tied to the storage unit. - compressing the ^ multiple relationship; processing the single compressed second image outside = and generating according to the multiple of the focal point. Moreover, the input unit is better than the iLtL image capturing unit for the optical variable taking unit, which is preferably a 'lens' processing single screen or button The image unit is compared to the memory card or (4). 4 rider, storage list, please refer to the seventh figure, which is a flow chart of the steps of the present invention, which comprises the following steps: Step S71: using a touch screen wheel-image area as the image number of pixels 32Qx24G: control signal 'to set step S72: by a zoom lens, the number of pixels is 640x480: image;撷大功Ϊ^73: The zoom lens is used by the zoom lens according to the image area. The number of spine pixels is 64^ use-times is the same as the image inside the image area; the second image makes the first Image step S74: by a microprocessor pull--execution, recording the image area as image=card reading-compression program or according to double magnification function, like 2 = l32Qx24G, like 'compressed to pixel number 320x240 The image; ',, 40x480 second image step S75: the image is integrated into the image area by the microprocessor after the image is compressed, and the integrated image is compressed; and the number of pixels is 640x480. By micro-processing the edge of the crying, the image of the fuzzification is combined with the first image to maintain the naturalness of the integrated image. 1306349 Please refer to the eighth figure, which is a flow chart of another embodiment of the image capturing method of the present invention, which is used to enhance the efficacy of the enamel by taking multiple images on the couch. The method comprises the following steps: Step S81 ································································································· Multiple, quadruple, and quadruple magnification functions for capturing the first image, the second image, the third image, and the fourth image; Step S83: reading by a microprocessor to a memory card
再加以執行,以根據放大功能提供之放大倍數來壓縮第二影 像、第三影像及第四影像; 吩 步驟S84:藉由微處理器將所有壓縮後之影像結合至第 一影像中;及 ° 口 步驟S85 :藉由微處理器對壓縮後之影像與第一影像衾 合之邊緣雜’進行翻化處理,以経像素數量為斷从 之整合影像。 上述步驟中’第二影像被壓縮為像素數量伽测之 像、,第三影像被壓縮為像素數量32〇χ24〇之影像,及i 像被壓縮為像素數量16〇χΐ2〇之影$。|人 〃 影像在最下層,壓縮後之第二影;;象第 之第三影像在壓縮後之第二影像 _丨 由上述,㈣树_絲料編^影像 含於後附之中請專利範圍;:進仃之4效修改或變更,均⑹ 11 1306349 【圖式簡單說明】 第一圖係習知技藝之一種應用反覆修正法以產生高解析度影像之 方法之步驟流程圖; 第二圖係本發明之影像擷取裝置之方塊示意圖; 第三圖係本發明之影像擷取裝置之實施例之方塊示意圖; f 第四圖係本發明之第一影像及第二影像之實施例之示意圖; 第五圖係本發明之第一影像與第二影像結合之實施例之示意圖; I 第六圖係本發明之影像擷取方法之步驟流程圖; 第七圖係本發明之影像擷取方法之實施例之步驟流程圖;及 第八圖係本發明之影像擷取方法之另一實施例之步驟流程圖。 【主要元件符號說明】 S11〜S19 :流程步驟; 21 :輸入單元; 22 :影像擷取單元; 23 ··處理單元; 24 :儲存單元; 211 :控制信號; 221 :第一影像; 222 :第二影像; 223 :放大功能; 231 :影像區域; 241 :壓縮程式; 31 :影像擷取裝置; 311 :觸控式螢幕; 3111 :控制信號; 312 :變焦鏡頭; 313 ·•微處理器; 314 :記憶卡; 3141 :壓縮程式; 41 :第一影像; 42 :第二影像; 43 :影像區域; 431 :影像區域内之影像 51 :整合影像; S61〜S65 :流程步驟; S71~S76 :流程步驟;及 S81〜S85 :流程步驟。 12And performing, in order to compress the second image, the third image, and the fourth image according to the magnification provided by the amplification function; and step S84: combining all the compressed images into the first image by the microprocessor; and Step S85: The microprocessor performs a doubling process on the edge of the compressed image and the first image, and the integrated image is broken by the number of pixels. In the above step, the second image is compressed into a pixel number gamma image, the third image is compressed into an image of 32 像素 24 像素, and the i image is compressed into a pixel number of 16 〇χΐ 2 。. 〃 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像 影像Range;: 4 effect modification or change of the entrance, all (6) 11 1306349 [Simple description of the diagram] The first diagram is a flow chart of the steps of the conventional technique for applying the over-correction method to generate high-resolution images; The block diagram of the image capturing device of the present invention; the third drawing is a block diagram of an embodiment of the image capturing device of the present invention; f. The fourth drawing is an embodiment of the first image and the second image of the present invention. 5 is a schematic diagram of an embodiment of the first image and the second image of the present invention; I is a flowchart of the steps of the image capturing method of the present invention; and the seventh drawing is an image capturing method of the present invention. The flow chart of the steps of the embodiment of the method; and the eighth figure are the flow chart of the steps of another embodiment of the image capturing method of the present invention. [Main component symbol description] S11~S19: flow step; 21: input unit; 22: image capturing unit; 23 · processing unit; 24: storage unit; 211: control signal; 221: first image; 2 image; 223: zoom function; 231: image area; 241: compression program; 31: image capture device; 311: touch screen; 3111: control signal; 312: zoom lens; 313 · microprocessor; : Memory card; 3141: Compressed program; 41: First image; 42: Second image; 43: Image area; 431: Image in image area 51: Integrated image; S61~S65: Process step; S71~S76: Flow Steps; and S81~S85: process steps. 12