201009754 *> 、 九、發明說明: 【發明所屬之技術領域】 本案係為-種影像監視系統’尤指應用在多個被監控 端與一顯示裝置之間的一種影像監視系统。 【先前技術】 在現代的社會中,影像監視器系統的應用可以說已經 相當的廣泛,舉凡營業場所、公寓大樓、倉庫、公司行號、 居家環境料’幾乎都有使彡像監㈣綠的必要或 時機’透過影像監視系統的架設,可以讓使用者同時對廠 房或辦公室的各個角落做最即時的監控,以防止赏小的聞 入以及得知員工的工作狀況。 . 請參見第-圖,其係為-影像監控系統之功能方塊示 _ 意圖。從射我們可以清楚的看出,該影像監控系統! 主要是由架設在不同地點的多個攝影機1(Π、ι〇2 、n、 -監控主機11以及-監視縣12架構而成,該些架設在 不同地點賴影機⑼、H、n騎拍攝到之n個影像 信號傳送至該監控主機U中,而該監控主機u對這些來 自不同攝影機HH、1G2...、n所傳來的影像信號進行處理 後形成影像資料’然後該監控主機u再將這些影像資料 傳送至該監視螢幕12 t進行減。而為了能在該監視榮 幕12上同時觀看到這些架設在不同地點的攝影機1〇1、 . 1〇2.·.、n所傳送過來的影像畫面,該監控主機U將處理 ' 這些架設在不同地點的攝影機10卜102.·.、n所傳來的影 201009754 : 像仏號而形成的影像資料進行合成處理後,便能夠在該監 視螢幕12上形成多個分割的影像晝面,如此一來,透過 在該監視螢幕12所輸出的分割影像畫面,便能夠在同一 個時間内觀看到這些架設在不同地點的攝影機1〇1、 102...、η所拍攝到的影像晝面。 此外,為了能夠更清楚掌握監控地點的即時狀況或 犬發事件’現今的影像監控系統都會配合異常現場馨報書 面輸出(sP〇t Monitor)的技術使監控的功能更加的完善。 請參見第二圖,其係為搭配有異常現場警報晝面輸出 (Spot Monitor)技術之影像監控系統功能方塊示意圖。 從圖中我們可以清楚的看出,與第一圖中所示之影像監視 . 系統1差別在於此搭配有異常現場警報晝面輸出(Spot201009754 *> IX, invention description: [Technical field of the invention] The present invention is an image monitoring system, particularly an image monitoring system applied between a plurality of monitored terminals and a display device. [Prior Art] In the modern society, the application of the image monitor system can be said to be quite extensive. The business premises, apartment buildings, warehouses, company lines, and home environment materials are almost all made up of the imagery (four) green. Necessary or opportunity's erection through the image monitoring system allows the user to simultaneously monitor the corners of the plant or office at the same time to prevent the small smell and the employee's working condition. Please refer to the figure - which is the function block of the image monitoring system. From the shot we can clearly see the image monitoring system! It is mainly made up of multiple cameras 1 (Π, ι〇2, n, - monitoring host 11 and - monitoring county 12) installed in different locations. These are erected in different locations (9), H, n riding The n image signals are transmitted to the monitoring host U, and the monitoring host u processes the image signals transmitted from the different cameras HH, 1G2, . . . , n to form image data, and then the monitoring host u The image data is transmitted to the monitoring screen 12 t for subtraction, and in order to be able to simultaneously view the cameras 1〇1, .1〇2.., n transmitted at different locations on the monitoring screen 12 In the image screen that comes over, the monitoring host U will process the images 201009754 transmitted by the cameras 10 102.., n that are erected at different locations: after the image data formed by the nickname is synthesized, it can be processed. A plurality of divided image planes are formed on the monitoring screen 12, so that the divided images that are displayed in the different screens can be viewed at the same time through the divided image screen outputted by the monitoring screen 12. , 102... ηThe image captured by η. In addition, in order to be able to more clearly grasp the real-time status of the monitoring location or the dog's incident, the current image monitoring system will cooperate with the technology of the abnormal live report (sP〇t Monitor). The function is more perfect. Please refer to the second figure, which is a block diagram of the function of the image monitoring system with the abnormal scene alarm (Spot Monitor) technology. From the figure we can clearly see that, in the first figure Image surveillance shown. System 1 differs here with an abnormal live alarm output (Spot)
Monitor)技術之影像監控系統2就是在多個架設在不同 地點的攝影機201、202..·、n上分別加裝有動作感應器 (motion sensor,本圖中未示出),當這些攝影機2〇1、 φ 202…、11在進行拍攝的同時,倘若有異物或人進入到其 中某一部攝影機上動作感應器的感應範圍内時,便會觸發 該監控主機21將這部攝影機所拍攝到的影像晝面切換輸 出至另一監視螢幕23進行播放’如此一來,使用者便能 透過觀看另一監視螢幕23所播放有突發狀況產生的影像 晝面,以便更清楚的監控到有異常狀況發生的地點。 然而’在上述搭配有異常現場警報晝面輸出(Sp〇t . Monitor)技術之影像監控系統2中所包含的監視螢幕23 在同一個時間只能播放顯示單一個動作感應器被觸發之 201009754 * * 攝影機所傳來的影像晝面,也就是說,當有多個攝影機上 的動作感應器同時或短時間内被觸發時,由於受限於監視 螢幕23只_放顯示單—頻道的影像晝面,使用者便叙 法透過此監視螢幕23即時全面的掌握多個不同動作感應: 盗被觸發之攝職所傳送過來㈣像畫面,⑽於事後再 料些動作絲||_發之卿機所傳來㈣像晝面逐 一檢視清查,但如此—來便會造成在監控上的漏洞。而如 ❹ 何針對此—問題進行改善,係為發展本案之最主要的目 【發明内容】 本案係為一種影像監視裝置,應用於N個被監控端 ”一顯示裝置之間,該影像監視裝置包含:N個監控裝 置,其係分職_N缝監㈣之雜個影 2料,並因應該Ν個被監控端所分別產生之一影像改 變事=的觸發,進而使得該Μ個影像資料於該顯示裝置 个進行影像晝面顯示,其中Ν為大於i之正整數,而μ 於=於Ν’以及-監控主機,電連接於該顯示裝置與該 二個監控襄置,其仙應該Ν個監控裝置被㈣被監控 端1分別產生之該影像改變事件觸發關料時,並於一 计時區間内因應該Ν個監控裝置所形成Μ個影像資料之 數Μ小於一門檻值而進行一第一景多像處理程序,進而 ,制該顯示裝置顯示―第—影像晝面,因應該ν個監控 ^置,成Μ個影像資料之個數大於該門插值而進行一 。像處理程序’進而控制該顯示裝置顯示一第二影像 201009754 畫面。 根據上述構想,本案所述之影像監視系統,其中該臣七 控主機包含:-類比/數位轉換器,電連接於該N個監= 裝置’其係將該N個監控裝置分攝該N個被監= 之影像所形成之Μ個類比電壓信號轉換成數位: 個影像資料卜影像處理器,電連接於該類比/數位轉換 為’其係接收該類峨位轉換器所輪出數位格式、 影像資料,並_ Μ悔像㈣物該第―影像 序或該第二影像處理程賴輸出;—數位/類比轉私 電連接於該影像處理ϋ與該顯示, 處理器進行該第-影像處理程序或該第、==處由=像 之Μ個影像資料由數位格式轉換成類比格式象二:序 至該顯示裝置上進行顯示;以及一微控制器 ^輪出 Ν個監控裝置與郷像處理,其係於 於該 =控裝置所形成Μ個影像資料之個數 該門權值,响職影像處_進行料— 歲大於 或該第二影像處程序,進而使得該顯示襄置於理裎序 晝面與該第二影像晝面之間進行轉換。、μ第一影像 根據上述構想,本輯述之影像監視系统 個監控裝置所形咸μ個影= 科進订#刀影像畫面合成處理,而 像貝The image monitoring system 2 of the technology is to add motion sensors (not shown in the figure) to a plurality of cameras 201, 202, . . . , n installed at different locations, when these cameras 2 〇1, φ 202...,11 While shooting, if a foreign object or person enters the sensing range of the motion sensor on one of the cameras, the monitoring host 21 is triggered to capture the camera. The image is switched to output to another monitoring screen 23 for playing. In this way, the user can watch the image generated by the sudden occurrence of another monitoring screen 23, so as to more clearly monitor the abnormality. The location where the situation occurred. However, the monitoring screen 23 included in the image monitoring system 2 equipped with the above-mentioned abnormal scene alarm output (Sp〇t. Monitor) technology can only play at the same time and display a single motion sensor triggered 201009754 * * The image transmitted from the camera, that is, when there are multiple camera motion sensors that are triggered at the same time or in a short time, the image is limited to the monitor screen 23 only. In this way, the user can use the monitoring screen 23 to fully grasp a variety of different motion sensors in real time: the thief is triggered by the camera station to transmit (4) the image, (10) after the event, the action wire ||_发之卿机It was transmitted (4) to examine the inventory one by one, but this would cause loopholes in monitoring. For example, how to improve this problem is the most important goal for the development of this case. [Inventive content] This case is an image monitoring device applied to N monitored terminals "a display device, the image monitoring device Including: N monitoring devices, which are divided into _N seam monitoring (four) of a variety of shadows, and because one of the monitored terminals respectively generates a video change event = trigger, and then make the image data Displaying the image on the display device, wherein Ν is a positive integer greater than i, and μ is at Ν' and the monitoring host is electrically connected to the display device and the two monitoring devices. The monitoring device is triggered by (4) the image change event generated by the monitoring terminal 1 respectively, and in a time interval, the number of image data formed by one monitoring device is less than one threshold value. The scene is multi-image processing program, and further, the display device displays the "first image" surface, and the number of image data is greater than the gate interpolation value by the ν monitors. The image processing program is further processed. The display device displays a second image 201009754. According to the above concept, the image monitoring system of the present invention, wherein the seven control host comprises: an analog/digital converter electrically connected to the N monitors The N analog devices divide the analog voltage signals formed by the N monitored images into digital digits: an image data image processor, electrically connected to the analog/digital conversion to 'the system receives The digital converter rotates the digital format, the image data, and the _ confession image (the fourth image) or the second image processing process output; the digital/analog-to-digital connection is connected to the image processing. And the display, the processor performs the first image processing program or the first image of the image is converted from the digital format to the analog format image 2: the display is displayed on the display device; and the micro image is displayed on the display device; The controller ^ rotates out of the monitoring device and the image processing, which is based on the number of the image data formed by the control device, the gate weight value, the signal of the job image - the material is older than the second or the second Image program, The display image is placed between the image processing surface and the second image surface. The first image of the μ image is shaped according to the above concept, and the monitoring device of the image monitoring system of the present series has a salty shadow. Division into the #刀 image screen synthesis processing, and like Bay
該第一影像晝面係為-Μ等分分割影像晝面裝置所顯示之 根據上述構想,本案所狀影像㈣ 二影像處理輕序係為將Ν個監控裝置所形成Μ二:J 201009754 料進行=大小混合影像畫面合成處理,而該顯示裝置所顯 不之該第二影像晝面係為—大小混合分姆彡像畫面。 根據上述構想,本案所述之影像監視系統,其中該大 小混合分像畫面係包含—大分像晝面與複數個 相等之小分鄉像畫面,其找大分魅面與複數個 相等之小分割影像晝面之影像晝面個數總合等於以。 ❹ ❿ ,據上述構想,本案職之f彡健視㈣,其中該微 控制益於該計時區間内,因應N個被監控端沒有產生該 == 牛:使得該N個監控裳置沒有被觸發,則該 微控心對該顯示裝置上所顯示之M個影像晝面進行一 ^除影像晝面動作’且該微控㈣停止輯時區間的計 於主縣,本#所叙影像監視純,其中該監 電連接於該類比/數位轉換 〜、該〜像處理,其係用以館存該影像資料。 像處構想,本案所述之影像監視系統,其中該影 理程序二進:之::一影像處理程序與該第二影像處According to the above concept, the image of the first image is displayed by the Μ Μ 分割 昼 昼 根据 ( ( ( ( ( ( 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 : : : : : : : : : : = size and mixed image frame synthesis processing, and the second image frame displayed by the display device is a size-mixed image. According to the above concept, the image monitoring system of the present invention, wherein the size-mixed and divided image system comprises a large-scale image and a plurality of equal-sized imagery, and the image is divided into a plurality of small-sized images and a plurality of small-sized images. The sum of the number of images on the face is equal to . ❹ ❿ According to the above concept, in this case, 彡 彡 (4), in which the micro-control is beneficial to the time interval, in response to the N monitored terminals not generating the == cow: making the N monitoring skirts not triggered , the micro-control center performs a video removal operation on the M image planes displayed on the display device, and the micro-control (four) stops the time interval of the time zone counted in the main county, The supervisory power is connected to the analog/digital conversion~, the image processing, and is used to store the image data. As imaginary, the image monitoring system described in the present case, wherein the image processing program is:: an image processing program and the second image portion
個監控裝置係分別具監=系統’其中該N 該影像改變事件,其中該感測器係可為-動 作感心、-紅外線感·或—超音波感測器。 根據上述構想’本案所述之影像監視系統,其中該顯 201009754 不裝置係為—電視絲或-電職幕。 、本㈣—方面係為—種影像監視緣,制於Ν個 被監控端與-顯示裝置之間,該影像監視裝置包含:Ν $監控裝置m相拍攝該Ν個被監控端之影像而形 、則固汾像貝料’並因應該Ν個被監控端所分別產生之 景=改I事件的觸發,進而使得該Μ個影像資料於該 叙不裝置上進行影像畫面顯示,其中Ν為大於1之正整 批坡罢甘i控主機’電連接於該顯示裝置與該Ν個監 。生之應該Ν個監控裝置被Μ被監控端所分 另產生之該祕改變事件觸發而開 ==該Ν個監控裝置分别被該Ν個被監控端所^ ===發之次數,進而對該顯示裝置上所顯 5V旦面進仃一影像晝面顯示位置調整。 根據上述構想,本荦 其中該監控主機包含·•二面所边之影像監視系統, Ν個監控裝減/触職11,電連接於該 控端之影像_成置拍_Ν個被監 轉換器,其係接收該類比/數位轉換位 Μ個影像資料,並對該=輸出=式之 序後輸出;-數位進仃—轉處理程 與該顯示裝置,其係將心、& ’電連胁郷像處理器 赵岸夕TU / 、、丄由該影像處理器進行該影像處理 :序之Μ個影像資料由數 像處理 輸出至該顯示裝置上進杆 謂換成類比格式,以利 ”"不,以及一微控制器,電連接 201009754 找置與歸彡倾理11,其料該計時區間 裝置分顺㈣倾監控騎產生之該 Γ 讀,彡料理11進行該影 像處理程序,進而對該顯示裝置上所顯 面進行該影像晝面顯示位置調整。 象旦 ❹ =上述構想’本案另一方面所述之影像監視系統, =顯示裝置所顯示之顯示畫面係為—大小混合分割 里面八巾係包含-大分割影像晝面與複數個相等之 小分割影像晝面,其相大分郷像晝面與複數個相等之 小分割影像畫Φ之影像畫面健總合等於Μ。 根據上賴想’本案另—方面所述之影像監視系統, ”中於該計時區間内根據該Ν個監控裝置被㈣被監控 端所產生之該影像改變事件觸發之次數係指該微控制器 根據該Ν個【控裝置被Ν個被監控端所產生之該影像改 變^件之:纟朗乡絲職齡裝置謂齡之Μ個影 像晝面進行該雜晝面難,該雌制㈣被觸發次數最 多之監控裝置所形成之影像資料以該大小混合分割影像 晝面中的該大分割影像晝面於該顯示裝置上進行顯示。 根據上述構想’本案另一方面所述之影像監視系統, 其中該微控制器因應Ν個監控裝置被Ν個被監控端所產 生之該衫像改變事件觸發之次數相等’則該微控制器根據 該Ν個監控裝置被Ν個被監控端所產生之該影像改變事 ^觸發之先後鱗來對·㈣裝置上所顯示之 Μ個影像 t ®進彳τ該f彡像晝面調整’該微控制器將最晚被觸發之監 12 201009754The monitoring devices are respectively monitored by the system, wherein the sensor is a motion sensitive event, an infrared sensation, or an ultrasonic sensor. According to the above concept, the image monitoring system described in the present invention, wherein the display 201009754 is not a device is a television wire or an electric screen. The (4)-face is a kind of image monitoring edge, which is formed between the monitored end and the display device. The image monitoring device comprises: Ν $ monitoring device m-phase photographing the images of the monitored ends , the solid image is like the bedding material 'and should be triggered by a scene that is generated by the monitored end respectively, and the I event is triggered, so that the image data is displayed on the image display device, wherein Ν is greater than 1 is the whole batch of slopes, and the control host is electrically connected to the display device and the supervisor. It should be triggered that the monitoring device is triggered by the monitoring terminal to generate the secret change event. == The number of times the monitoring device is sent by the monitored terminal respectively ==== The 5V surface displayed on the display device is displayed in an image plane. According to the above concept, the monitoring host includes the image monitoring system on the side of the two sides, one monitoring and loading/receiving 11, and the image connected to the terminal _ _ _ _ _ _ _ _ _ And receiving the analog/digital conversion bit image data, and outputting the sequence of the output ===================================================================================== The image processing of the camera is performed by the image processor: the image data of the sequence is output by the image processing to the display device, and the input is converted into an analog format to facilitate "No", and a microcontroller, electrical connection 201009754 find and blame the reason 11, it is expected that the timing interval device is divided (four) tilt monitoring ride generated by the reading, 彡 cooking 11 to carry out the image processing program, Further, the image display position adjustment is performed on the display surface of the display device. The image monitoring system described in the other aspect of the present invention, the display screen displayed by the display device is a mixed size division. Inside the eight towel system contains - The image of the large segmentation image and the plurality of small segmentation images are equal, and the image of the image is larger than that of the image of the image of the image of the image. The image monitoring system of the aspect, wherein the number of times the image change event is triggered by the (four) monitored end of the monitoring device in the time interval means that the microcontroller is based on the control device The image change that is generated by a monitored terminal: the image of the 纟 乡 乡 乡 乡 乡 谓 谓 谓 谓 昼 昼 昼 昼 昼 昼 昼 昼 , , , , , , , , , , , , , , , , , , , , , 监控 监控 监控 监控 监控The formed image data is displayed on the display device by mixing the large-divided image in the divided image plane with the size. According to the above concept, the image monitoring system according to another aspect of the present invention, wherein the microcontroller triggers the number of times the triggering event is triggered by the monitoring terminal by the monitoring terminal, the microcontroller is based on The monitoring device is triggered by a sequence of the image change events generated by the monitored terminal. (4) The image displayed on the device is t 彳 彳 τ 该 该 该 该 该 该 该 该 该 该The controller will be triggered by the latest 12 201009754
的該大分割影像晝面於該顯示裝置上進行顯示。 根據上述構想,本案另一方面所述之影像監視系統, 其中該微㈣n於料咖_,@應N個被監控端沒 有產生該影纽變事件*使得該N健錄置沒有被觸 示裝置上所顯示之Μ個影像晝 作’且該微控制器停止該計時區 發’則該微控制器對該顯示^ 面進行一清除影像晝面動作, 間的計時。 转另一方面所述之影像監視系統, 一記憶體單元,電連接於該類比/ 根據上述構想,本案另一 其中該li控主機更包含一印和 數位轉換11與該影像處理ϋ,其制赠存郷像資料。 根據上达構想’本案另一方面所述之影像監視系統, 其中該影像處理H所進行之該影聽理料係為進行一 影像比例縮放處理、―影像分減理以及—影像色彩處 根據上述構想,本案另-方面所述之影像監視系統, 其中該Ν個監控裝置係分難有_感㈣,肖以感測該Ν 個被監控端所產生之讀影像改變事件’其巾喊測器係可 為-動作感測H、-紅外線感測器或一超音波感測器。 根據上述構想,本案另一方面所述之影像監視系統, 其中該顯示裝置係為〜電視螢幕或一電腦螢幕。 【實施方式】 請參見第三圖,其係為本案為改善㈣技術手段所產 生之缺失而發展出的一影像監視系統功能方塊示意圖,該 13 201009754 影像監視系統3主要應用在多個被監控端與一顯示裝置 3000之間,該顯示裝置3000係為一般常見的電視螢幕或 電腦螢幕。我們從圖中可以清楚的看出,該影像監視系統 3包含有複數個監控裝置301〜308以及一監控主機300, 其中該等監控裝置301〜308係分別拍攝多個被監控端之 影像進而形成複數個影像資料,該等監控裝置3〇1〜3〇8 因應該等被監控端所分別產生的影像改變事件的觸發(該 專|控裝置上分別設有如動作感測器、紅外線感測器或超 音波感測器來感測被監控端所產生的影像改變事件),進The large segmentation image is displayed on the display device. According to the above concept, in another aspect of the present disclosure, the image monitoring system, wherein the micro (four) n is in the coffee _, @ should N the monitored end does not generate the shadow event* such that the N health record is not touched by the device The image displayed on the screen is 'and the microcontroller stops the timing zone', and the microcontroller performs a clearing of the image masking action on the display surface. Turning to the image monitoring system of the other hand, a memory unit is electrically connected to the analogy/in accordance with the above concept, in another case of the present invention, the control host further includes a print and digital conversion 11 and the image processing system. Gift information. According to the image monitoring system of the present invention, wherein the image processing H performs the image scaling processing, the image division reduction processing, and the image color according to the above. The image monitoring system according to the other aspect of the present invention, wherein the monitoring device is difficult to sense (four), and the camera detects the read image change event generated by the monitored terminals. It can be - motion sensing H, - infrared sensor or an ultrasonic sensor. According to the above concept, the image monitoring system of another aspect of the present invention, wherein the display device is a television screen or a computer screen. [Embodiment] Please refer to the third figure, which is a functional block diagram of an image monitoring system developed in order to improve (4) the technical means. The 13 201009754 image monitoring system 3 is mainly applied to multiple monitored terminals. Between a display device 3000 and a display device 3000, the display device 3000 is a commonly seen television screen or computer screen. As can be clearly seen from the figure, the image monitoring system 3 includes a plurality of monitoring devices 301 to 308 and a monitoring host 300, wherein the monitoring devices 301 to 308 respectively capture images of a plurality of monitored terminals to form an image. For a plurality of image data, the monitoring devices 3〇1~3〇8 should be triggered by an image change event respectively generated by the monitored terminal (the motion sensor, the infrared sensor are respectively disposed on the special control device) Or an ultrasonic sensor to sense the image change event generated by the monitored terminal)
而使得受到被監控端所產生影像改變事件觸發的監控裝 置301〜3〇8所形成的影像資料於該顯示裝置3〇〇〇上進行 影像晝面的顯示。而該監控主機3〇〇包含有一類比/數位 轉換器3001、- &己憶體單元獨2、一影像處理器獅3、 數位/類比轉換器3004以及一微控制器3〇〇5,其中該類 比/數位轉換器3001電連接於該等監控裝置3〇1〜3〇8,其 =將該等個監控裝置3G1〜3()8分別拍攝多個被監控端之 =像所形成之該等類比電壓錢轉換航位格式的影像 貝,,该記憶體單元細電連接於該類比/數位轉換器 300^以暫存該等触格式之影像詩;該影像處理器 元接Ϊ該記憶體單元避,其係讀取該記«單 。巾触像資料’並對所魏㈣像雜進行影 傻Γ程序後輸出;該數位舰轉換11侧電連接於科 ==與該顯示裝置3_,其係將經由二 ° 仃影像處理程序之影像資料由數位袼式轉換 14 201009754 • 成齡格式’以出至_示裝置3_上進行影像畫 面的顯示;該微㈣器·5㈣接於料監控装置 301〜308與該影像處理器3〇〇3,其係因應該等監控裝置 301〜遍被該等被監控端所分別產生之該影像改變事件 觸發而開始計時,並於計時區間内因應該等監控裝置 301〜308所形成影像資料之個數是否超過—門檀值以及 根據該等監控裝置3G1〜遍被多倾監㈣所產生之該 • 影像改變事件觸發之次數,進而控制該影像處理器3003 對該等影像資料進行不_影像處理鱗,進而使得該顯 示裝置3000分別顯示出不同的影像晝面或對該顯示裝置 3000、上所顯示之影像畫面進行影像晝面顯示位置的調 ' 冑。叮再就本案所述之技術手段做進-步詳細的說明。 „ 請參見第四圖(a)(b)(c)⑷⑴,其係 述之影像監視系統之較佳實施例示意圖,在本較佳實施例 說明中,我們以在第三圖中所示之具有人個監控裝置的影 • 像監控純3為舰行以下的朗。當被監控端所產生之 影像改變事件觸發監控裝置3〇1時,該微控制器3〇〇5會 記錄監控裝置301被觸發的次數並開始計時(如開始計時 10秒)’接著微控制器3005便會將監控裴置3〇1所形成 的影像資料透過該類比/數位轉換器3〇〇1轉換 位 的影像資料,再透過該影像處理器3003對影像資料進行 影像處理程序,最後透過該數位/類比轉換器3004將數位 . 格式的影像資料轉換成類比格式輸出至該顯示裝置3〇〇() 進行影像晝面的顯示,此時,於該顯示裝置3000上顯示 15 201009754 的晝面如第四圖(a)所示之對應被觸發監控裝置3〇1所 拍攝到的影像晝面401。倘若在1〇秒鐘的計時區間内, 被監控端所產生的影像改變事件同時觸發了監控裝置 302、 303、304,則該微控制器3〇〇5記錄監控裝置3〇2、 303、 304被觸發的次數且重新開始1〇秒鐘的計時區間, 接著,該微控制器3005將監控裴置3〇2、3〇3、3〇4所形 成的影像資料透過該類比/數位轉換器3〇〇1轉換成數位格 式的影像資料,再透過該影像處理器3〇〇3對影像資料進 行一荨分景>像畫面合成處理程序’例如影像比例縮放處理 (Scaling Processor)、影像分割處理(Multi_Quad pr〇cess〇r 以及景>像色彩處理(OSD Processor),最後透過該數位/類 比轉換器3004將數位格式的影像資料轉換成類比格式輸 出至遠顯示裝置3000進行影像晝面的顯示,此時,於該 顯示裝置3000上顯示的晝面如第四圖(b)所示之對應被 觸發監控裝置301、302、303、304所拍攝到的四等分分 割影像晝面401、402、403、404。同理,倘若在1〇秒鐘 的計時區間内’被監控端所產生的影像改變事件同時觸發 了監控裝置305、306 ’則該微控制器3005記錄監控裝置 305、306被觸發的次數且重新開始1〇秒鐘的計時區間, 由於此時被觸發的監控裝置已有六個,若是採用上述的等 分分割晝面顯示,可能會有顯示晝面太小的顧慮,因此, 該微控制器3005將監控裝置305、306所形成的影像資料 透過該類比/數位轉換器3001轉換成數位格式的影像資料 後,透過該影像處理器3003對影像資料進行一大小混合 16 201009754 影像晝面合成處理程序,最後透過該數位/類比轉換器 3〇〇4將數位袼式的影像資料轉換成類比格式輪出至該顯 不裝置3000進行影像晝面的顯示,此時,於該顯示裝置 3000上顯示的晝面如第四圖(c)所示之對應被觸發監控 裝置301、302、303、304、305、306所拍攝到影像的大 小混合分割影像晝面。 承上述’在第四圖(c)中所示之大小混合分割影像 畫面’由於監控裝置301、302、303、304、305、306被觸 發的次數各為1次,所以在這樣的情況下,在大小混合分 割影像畫面中大分割影像晝面將會顯示最晚被觸發的監 控裝置所拍攝到的影像晝面,因此在第四圖(c)中,大 分割影像晝面所顯示的是監控裝置306所拍攝到的影像 晝面406,而其它監控裝置3(Π、302、303、304、305所 拍攝到的影像則是以小分割影像畫面4〇1、4〇2、4〇3、 404、405呈現。再如第四圖⑷所示,倘若在1〇秒鐘 的計時區間内,被監控端所產生的影像改變事件觸發了監 控裝置301、307 ’則該微控制器3005記錄監控裝置3〇1、 307被觸發的次數且重新開始1()秒鐘的計時區間,由於 此時該微控制器3GG5所記錄監控裝置3G1被觸發的次數 為2次’所以在這樣的情況下,在大小混合分割影像晝面 中大分割影像晝祕會顯示賴發次數累積最多的監控 裝置所拍攝_影像晝面,因此在細圖⑷中,大分 割影像晝面所顯示的是監控裝置3〇1所拍攝到的影像畫 面 4(M,而其它監控裝置 3〇2、3〇3、3〇4、3〇5、3〇6、3〇—7 17 201009754 所拍攝到的影像則是以小分割影像晝面所呈現的影像畫 面 402、403、404、405、406、407。同理,在 10 秒鐘的 計時區間内’被監控端所產生的影像改變事件觸發了監控 裝置302、308,則該微控制器3〇〇5記錄監控裝置3〇2、 308被觸發的次數且重新開始1〇秒鐘的計時區間,由於 此時該微控制器3005所記錄監控裝置3〇1、3〇2被觸發的 次數同為2次,但該微控制器3〇〇5判斷監控裝置302被 觸發的時間較監控裝置301晚,所以在這樣的情況下,在 大小混合分割影像晝面中大分割影像晝面將會顯示被觸 發次數累積最多且最晚被觸發的監控裝置所拍攝到的影 像晝面,因此在第四圖(e)中,大分割影像晝面所顯示 的是監控裝置302所拍攝到的影像晝面402,而其它監控 裝置 301、303、304、305、306、307、308 所拍攝到的影 像則是以小分割影像畫面所呈現的影像晝面、4的、 404、405、406、407、408。 另外’在上述被觸發的監控裝置3〇1、3〇2、303、304、 305、306、307、308 ’倘若在1〇秒鐘的計時區間内沒有 再接收到被監控端所產生新的影像改變事件的觸發,則該 微控制器3005將所記錄各個監控裝置3〇1、3〇2、3〇3、 304、305、306、307、308的被觸發次數歸零,同時關閉 掉10秒鐘區間的計時,並且將該顯示裝置3〇〇〇所顯示之 影像晝面 4(Π、402、403、404、405、406、407、408 進 行清除。 經由上述,我們可以清楚的瞭解到,本案所述之影像 18 201009754The image data formed by the monitoring devices 301 to 3〇8 triggered by the image change event generated by the monitored terminal is displayed on the display device 3A. The monitoring host 3 includes a class of analog/digital converters 3001, - & memory unit 2, an image processor lion 3, a digital/analog converter 3004, and a microcontroller 3〇〇5, wherein The analog/digital converter 3001 is electrically connected to the monitoring devices 3〇1 to 3〇8, and the other monitoring devices 3G1 to 3() 8 respectively capture the image of the plurality of monitored terminals. The image unit is electrically connected to the analog/digital converter 300^ to temporarily store the image poems of the touch format; the image processor unit is connected to the memory. Unit avoidance, which reads the record «single. The towel touches the data and outputs it after the Wei (4) image is mixed; the digital ship is connected to the side 11 and is connected to the display device 3_, which will pass the image of the 2° image processing program. The data is converted by digital 14 14 201009754 • The aging format 'is displayed on the display device 3_ to display the image screen; the micro (four) device 5 (4) is connected to the material monitoring devices 301 308 308 and the image processor 3 〇〇 3. It is because the monitoring device 301 is triggered by the image change event generated by the monitored terminals, and the number of image data formed by the monitoring devices 301 to 308 is determined in the time interval. Whether to exceed the gate value and the number of times the image change event is triggered according to the monitoring device 3G1~multiple dumping (4), thereby controlling the image processor 3003 to perform image processing on the image data In addition, the display device 3000 respectively displays different image planes or adjusts the image display position of the display device 3000 and the displayed image screen. I will make further detailed explanations on the technical means described in this case. „ See Figure 4(a)(b)(c)(4)(1) for a preferred embodiment of the image monitoring system, in the description of the preferred embodiment, we show in the third figure The image monitoring pure 3 is the following for the monitoring device. When the image changing event generated by the monitoring terminal triggers the monitoring device 3〇1, the microcontroller 3〇〇5 records the monitoring device 301. The number of times is triggered and starts timing (such as starting 10 seconds). Then the microcontroller 3005 will convert the image data formed by the monitoring device 3〇1 into the image data of the analog/digital converter 3〇〇1 conversion bit. And performing image processing on the image data through the image processor 3003, and finally converting the digital format data into an analog format through the digital/analog converter 3004, and outputting the image data to the display device 3〇〇() for image scanning At this time, on the display device 3000, the face of the 2010 201054 is displayed as shown in the fourth figure (a) corresponding to the image face 401 captured by the trigger monitoring device 3〇1. Within the time interval of the clock, The image change event generated by the monitoring terminal simultaneously triggers the monitoring device 302, 303, 304, and the microcontroller 3〇〇5 records the number of times the monitoring device 3〇2, 303, 304 is triggered and restarts for 1 second. The time interval, then, the microcontroller 3005 converts the image data formed by the monitoring devices 3〇2, 3〇3, and 3〇4 into the image data of the digital format through the analog/digital converter 3〇〇1, and then The image data is processed by the image processor 3〇〇3, and the image composition processing program, for example, the image scaling processing (Scaling Processor) and the image segmentation processing (Multi_Quad pr〇cess〇r and the scene) The color processing (OSD Processor) finally converts the image data of the digital format into an analog format by the digital/analog converter 3004 and outputs the image data to the remote display device 3000 for display of the image surface. At this time, the display device 3000 displays on the display device 3000. The facets shown in the fourth figure (b) correspond to the four equally divided image faces 401, 402, 403, 404 captured by the triggered monitoring devices 301, 302, 303, 304. Similarly, if at 1〇 Second The image change event generated by the monitored terminal in the time interval simultaneously triggers the monitoring device 305, 306'. The microcontroller 3005 records the number of times the monitoring device 305, 306 is triggered and restarts the time interval of 1 second, because At present, there are six monitoring devices that are triggered. If the above-mentioned equally divided facet display is used, there may be a concern that the display face is too small. Therefore, the microcontroller 3005 forms the monitoring devices 305 and 306. After the image data is converted into the digital format image data by the analog/digital converter 3001, the image data is subjected to a size mixing 16 through the image processor 3003, and the digital/analog converter is finally transmitted through the digital/analog converter 3 〇〇4 converts the digital image data into an analog format and rotates to the display device 3000 to display the image surface. At this time, the surface displayed on the display device 3000 is as shown in the fourth figure (c). Corresponding to the size of the image captured by the trigger monitoring devices 301, 302, 303, 304, 305, and 306, the divided image faces are mixed. In the case where the number of times the monitoring devices 301, 302, 303, 304, 305, and 306 are triggered by the above-described 'mixed and divided video screens shown in the fourth figure (c)' is one time, in this case, In the large and small split image screen, the large split image will display the image captured by the latest triggered monitor. Therefore, in the fourth image (c), the large split image shows the monitor. The image plane 406 captured by the device 306, and the images captured by the other monitoring devices 3 (Π, 302, 303, 304, 305 are small divided image frames 4〇1, 4〇2, 4〇3, 404, 405. As shown in the fourth figure (4), if the image change event generated by the monitored terminal triggers the monitoring device 301, 307 in the time interval of 1 second, the microcontroller 3005 records the monitoring. The number of times the devices 3〇1, 307 are triggered and the time interval of 1 () seconds is restarted. Since the number of times the monitoring device 3G1 is triggered by the microcontroller 3GG5 is triggered twice, in this case, Large segmentation in the mixed-size segmentation image The secret image shows the image taken by the monitoring device with the largest number of times, so in the fine image (4), the image of the large segmentation image is displayed on the image frame 4 (M, which is captured by the monitoring device 3〇1). The other images of the monitoring devices 3〇2, 3〇3, 3〇4, 3〇5, 3〇6, 3〇-7 17 201009754 are the image frames 402 presented by the small segmentation image. 403, 404, 405, 406, 407. Similarly, in the 10 second time interval, the image change event generated by the monitored terminal triggers the monitoring device 302, 308, and the microcontroller 3〇〇5 records the monitoring. The number of times that the device 3〇2, 308 is triggered and restarts the time interval of 1 second, because the number of times the monitoring device 3〇1, 3〇2 recorded by the microcontroller 3005 is triggered twice, but The microcontroller 3〇〇5 determines that the monitoring device 302 is triggered later than the monitoring device 301, so in such a case, the large-divided image surface in the size-mixed divided image will display the most triggered times. And the image captured by the latest triggered monitoring device In the fourth figure (e), the image of the large segmentation image is displayed on the image plane 402 captured by the monitoring device 302, and the other monitoring devices 301, 303, 304, 305, 306, 307, 308 The captured image is the image plane, 4, 404, 405, 406, 407, 408 presented by the small segmentation image. In addition, the above-mentioned triggered monitoring devices 3〇1, 3〇2 303, 304, 305, 306, 307, 308 'If the trigger of a new image change event generated by the monitored terminal is not received again within the time interval of 1 second, the microcontroller 3005 will record each monitored The number of times of triggering of the devices 3〇1, 3〇2, 3〇3, 304, 305, 306, 307, 308 is reset to zero, and the timing of the 10-second interval is turned off, and the display device 3〇〇〇 is displayed. The image planes 4 (Π, 402, 403, 404, 405, 406, 407, 408 are cleared). Through the above, we can clearly understand the image described in this case 18 201009754
監視系統最主制技射段在於影像監視祕中的監押 主機於計__,能夠根據多個監控I置所形成影像資 料的個數(也就是被職監控裝置的_)是否超過—門 檻值或多個監控裝置被多健監控端所產生之影像改變 事件觸發之次數’進而進行不同的影像處理程序,使得該 顯示裝置分麵4不_影像晝面續鋪示裝置^ 所顯示之影像晝面進行影像晝_稀置輕,如此_ ,、,便可贿決在先前技射,#衫個餘裝置被觸發 ㈣皮觸發時,受限於顯示裝置只能播放顯示單-頻道的影 像旦面的缺失,而透過本麟述之技術手段,使用者便能 輕鬆地透賴林置㈣全面时握乡㈣同被觸發之 監控裝置所傳送過來的影像晝面。 視季=3五圖(撕其係為本案所述之她 視f統運作流程之示_。從财我們可以清楚的看出 料概贿錄置拍攝不同兩 二;該等監控裝置所分別拍攝之被置 否產生影像改變事件(步驟S2),條若該等監㈣ 置所为別簡讀处财· 3記錄該等監控裝置被觸發的次數並開 (步驟S3);判斷該等被觸發的監控裳置是否大於一門, 值(步驟⑷,倘若該等被觸發的監控裝 =微控制_顯示裝難—大小混合分=2 像改變事件(步㈣),倘若於計時區間内 19 201009754 的影像改變事件產生,則微控制器重新開始計時區間並判 斷該等監控裝置被觸發的次數是否相等(步驟S7),倘若 該等監控裝置被觸發的次數不相等,則微控制器將被觸發 次數最多的監控裝置所拍攝的影像以大分割晝面進行顯 示(步驟S8),倘若該等監控裝置被觸發的次數相等,則 微控制器將最晚被觸發的監控裝置所拍攝的影像以大分 割晝面進行顯示(步驟S9)。 、承上述,在步驟2中,倘若該等監控裝置所分別拍攝 ,被監控端沒有影像改變事件的產生,則流程回到步驟^ 等待是否有影像改變事件的產生。在步驟86中,倘若於 s十%區間内被監控端沒有新的影像改變事件產生,則微控 器將所記錄該等監控裝置的被觸發次數歸零並關閉計時 區間(步驟S12);在步驟S4中,倘若該等被觸發的監控 裝置不大於該門檻值,則微控制器控制顯示裝置顯示一等 分分割影像晝面(步驟S1G);在顯示裂置顯示該等分八 割晝面時’持續判斷於計時區間内被監控端是否有^ 像改變事件的產生(步驟811),倘若被監控端有新的= 像改變事件產生,則_步驟Μ,倘若被監控端沒ς 的影像改變事件產生,則進行步驟Si2。 , 綜合以上技術說明,本案所述之影像監視系 改善了習用技術手段的缺失,進*完成發展本案之最主ς 的目的。而本發簡由綠此技藝之人士任絲思^ 般修飾’然皆不脫如附申請專利翻所欲保護者。’’’、= 【圖式簡單說明】 20 201009754 本案得藉由下列圖式及說明,俾得一更深入之了解: 第一圖’其係為一影像監視系統之功能方塊示意圖。 第二圖,其係為搭配有異常現場警報晝面輸出(Sp〇t Monitor)技術之影像監控系統功能方塊示意圖。 第三圖’其係為本案為改善習用技術手段所產生之缺失而 發展出一影像監視系統功能方塊示意圖。 第四圖(a) (b) (c) (d) (e),其係為本案所述之影像敗 視系統之較佳實施例示意圖。 现 第五圖(a) (b)’其係為本案所述之影像監視系統運作流 程之示意圖。 & 【主要元件符號說明】 本案圖式中所包含之各元件列式如下:The most master technical segment of the surveillance system lies in the monitoring host of the video surveillance secret. The number of image data that can be formed according to multiple monitoring I (that is, the _ of the employed monitoring device) exceeds the threshold value. Or the number of times the plurality of monitoring devices are triggered by the image change event generated by the multi-monitor monitoring terminal', and then performing different image processing programs, so that the display device is not imaged, and the image displayed by the device is displayed. The image is 昼 _ _ thin, so _ , ,, can be bribed in the previous technical shooting, # 个 个 装置 装置 装置 ( ( ( ( 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四The lack of face, and through the technical means of this narration, the user can easily access the image of the image transmitted by the surveillance device triggered by the forest (4). Depending on the season = 3 five maps (Tear the system as described in the case, she sees the operation of the system _. From the financial we can clearly see that the bribe recording is different for two or two; the monitoring devices are separately photographed If the image change event is generated (step S2), if the monitoring (4) is set to be a short reading, the number of times the monitoring device is triggered is turned on (step S3); determining that the triggering is triggered Whether the monitoring is greater than one, the value (step (4), if the triggered monitoring device = micro control _ display loading difficult - size mixing points = 2 like changing events (step (4)), if in the time interval 19 201009754 When the image change event is generated, the microcontroller restarts the time interval and determines whether the number of times the monitoring devices are triggered are equal (step S7). If the number of times the monitoring devices are triggered is not equal, the number of times the microcontroller will be triggered The images captured by the most monitoring devices are displayed in a large division (step S8). If the number of times the monitoring devices are triggered is equal, the microcontroller will take the image captured by the monitoring device that is triggered the latest. The screen is displayed (step S9). According to the above, in step 2, if the monitoring devices are respectively photographed, and no image change event is generated on the monitored end, the flow returns to step ^ to wait for an image change event. In step 86, if no new image change event is generated by the monitored terminal in the s tenth interval, the micro controller resets the number of times the monitored device is triggered to zero and turns off the time interval (step S12). In step S4, if the triggered monitoring device is not greater than the threshold value, the microcontroller controls the display device to display an equally divided image plane (step S1G); and displays the aliquot in the display splitting When you are in the face, you can continue to judge whether there is a change event in the monitored time zone (step 811). If there is a new = image change event generated by the monitored terminal, then _step Μ, if the monitored terminal does not If the image change event occurs, proceed to step Si2. In summary of the above technical description, the image surveillance system described in the present case improves the lack of conventional technical means, and completes the development of the case. The purpose of this book is to be modified by the person of the green technology, and it is not the same as the patent application. ''', = [Simple description] 20 201009754 From the following diagrams and descriptions, we will get a deeper understanding: The first picture is a functional block diagram of an image monitoring system. The second picture is a combination of abnormal scene alarm output (Sp〇t Monitor) The functional block diagram of the image monitoring system of the technology. The third figure, which is a functional block diagram of the image monitoring system developed for the purpose of improving the conventional technical means. The fourth figure (a) (b) (c (d) (e), which is a schematic diagram of a preferred embodiment of the image rejection system described herein. Figure 5 (a) (b)' is a schematic diagram of the operational process of the image surveillance system described in this case. & [Main component symbol description] The components included in the diagram of this case are listed as follows:
影像監視系統1 監控主機11 影像間或系統2 監控主機21 影像監視系統3 監控主機300 記憶體單元3002 數位/類比轉換器3004 顯示裝置3000 步驛S1〜S12 攝影機 101、102...、1 監視榮幕12 攝影機 201、202...、I 監視螢幕22、23 監控裝置301〜308 類比/數位轉換器3001 影像處理器3003 微控制器3005 影像晝面401〜408 21Image surveillance system 1 Monitoring host 11 Inter-image or system 2 Monitoring host 21 Image monitoring system 3 Monitoring host 300 Memory unit 3002 Digital/analog converter 3004 Display device 3000 Steps S1 to S12 Cameras 101, 102..., 1 Monitoring荣幕12 Cameras 201, 202..., I Monitor Screens 22, 23 Monitoring Devices 301~308 Analog/Digital Converter 3001 Image Processor 3003 Microcontroller 3005 Image Masks 401~408 21