i7934twf.doc/n 201003576 九、發明說明: 【發明所屬之技術領域】 本發明是有II於監料制領域,且制是有關於 :種利用減通訊狀進行安全監控m统及其方 法。 【先前技術】I7934twf.doc/n 201003576 IX. Description of the invention: [Technical field to which the invention pertains] The present invention has a field in the field of monitoring systems, and the system is related to: the use of reduced communication for safety monitoring and its method. [Prior Art]
Ik著土身安全及財產安全越來越受到重視,就目前 :不官疋住宅、社區道路、捷運設施、停車場…等私 人空間或是公共空間,普遍都會設置監控系統,以便守衛 (guard)或保全人員(security service㈣⑽皿叫透過監控系 統來對監視區域進行監控。 而’由於傳統的監控系統必須藉由守衛或保全人 =看監視器來進行監控,一但守衛或保全人員沒有注音 ”暫_開位置去巡察,而此時監視區域又發^ 二日口 人員無法即時觀看到攝影機所拍攝到 窗期及=有人能夠即時處理,造成安全監控的空 3在ϋ卜’對於傳統的住宅用監控系統而言,住戶往往 透過守衛或保全人員的告知戶而= 間的掌麼事’無法對發生的事件有第—日夺 必須改進成文全上的漏洞。因此,習知的作法有 【發明内容】 本發明提出-種_無線通訊協定進行安全監控之 201003576 .27934twf.doc/n 監控系統及其方法’當有外物進域影機之監視區域時, 其可透過無線通訊模組讓遠端的使用者透 監控區域的即時影像,以便使用者於第一時間:二 進行處置。 基於上述及其他目的,本發明提供一種利用無線通 訊協定進行安全監社監控祕,其包財影像擷取農 置、無線通訊模組及數位視訊錄影裝置。影像擷取裝置用 以對一監控區域進行拍攝,當有外物進入影像擷取裝置負 責之監控區域時,影像擷取裝置便輸出影像訊號和第一控 制讯?虎。數位視訊錄影裝置透過第一傳輸介面分別耦接影 像擷取裝置及無線通訊模組,用以透過第一傳輸介面接收 影像訊號和第一控制訊號,並儲存該影像訊號於一儲存裝 置並依據弟一控制訊號啟動無線通訊模組,以透過第一傳 輸介面傳送影像訊號至無線通訊模組。其中,無線通訊模 組將透過無線傳輸的方式將影像訊號傳送至接收端。 基於上述及其他目的,本發明另提供一種利用無線 通訊協定進行安全監控之監控方法,在此方法中,當一物 體進入一監控區域内時,數位視訊錄影裝置便擷取並儲存 此段時間内由影像擷取裝置所拍攝到的影像訊號,並透過 第一傳輸介面傳送影像訊號至無線通訊模組,無線通訊模 组再透過無線通訊協定即時地將此影像訊號傳送至接收 端。 在本發明之一實施例所述之監控系統中,當接收端 接收到影像訊號時,更可透過無線通訊模組回傳控制訊號 6 201003576 --7934twf.doc/n 至數位視訊錄影裝置,以便由數位視訊錄影裝置透過第一 傳輸介面對影像擷取裝置進行操作。 在本發明之一實施例所述之監控系統中,上述之第 一傳輸介面為一同軸電纔。 在本發明之一實施例所述之監控方法中,更包括從 接收端透過通訊協定傳輸控制訊號,據以調整影像的 方式。 本發明由於在一物體進入一監控區域内時,數位視 讯錄影裝置擷取並儲存一影像擷取裝置所拍攝到的影像訊 唬,然後再透過無線通訊模組以無線通訊協定即時地將影 像訊遽傳送至接收端。如此一來,使用者便可透過接收端 而即時觀看影像,以便於第一時間内對此事件進行處置。 為讓本發明之上述特徵和優點能更明顯易懂,下文 特舉較佳實施例,並配合所附圖式,作詳細說明如下。 【實施方式】 圖1纷示有依照本發明一實施例之監控系統的方塊 圖。此監控系統主要包括有影像擷取裝置1〇2及1〇4、數 位視訊錄影襞置106及無線通訊模組1〇8。數位視訊錄影 裝置106透過第一傳輸介面110分別耦接無線通訊模組 108及影像擷取裝置102及1〇4。在本實施例中,第一傳輸 介面no可以是一同軸電纜(coaxial cable)。數位視訊錄影 裝置可以是一數位影像錄影裝置(digital video recorder, DVR) °影像擷取裝置1〇2及1〇4皆可以是一攝影機 (camera)。無線通訊模組1〇8可以是一具有3G(即third 201003576 --7934twf.doc/n generation)通訊模組之無線通訊模粗 訊錄影裝置刪透過第-傳輸介面u =數^視 並藉由3G通訊模組傳送該影像訊號至使用 讓使用者可透過手機直接觀看影像。 % 在-些實_巾’本實_所提供的監控純 =螢ίΓ、如16以及遙控器,例如遙控請 /、中’電版116可以是桌上型電腦或是筆記型電 以透過一網路傳輸介面128(例如是 «彡裝置刚。觀,㈣者相透過電腦 116來對數位視_影裝置1G6、影像擷取裝置 進行設定。 旦1 H者可㈣過電腦116設定數位視訊錄 裝請和104,讓數位視訊錄影裝置1〇6可上; 益m和遙控器12〇進行認證。更詳細地說,由於不同^ 遙控器可叫有各自的硬體朗碼,因此#本實施例所提 供的監控祕要進行初始化的設定時,使料就需要透過 ,腦116設定數減訊錄影μ 1G6,而由數位視訊錄影 ,置106再透過傳輸介自11()傳送遙控器的硬體識別碼到 衫像擷取裝置1〇2和104。影像擷取装置1〇2和1〇4會記 錄各自的硬體識別碼’因此,使用者即可透過遙控器^別 向對應的影像擷取裝置102 # 1〇4進行硬體識別碼的認 證二以利用影像擷取裝置102對遙控器118進行硬體識別 碼認證來說,假^遙控n 118内的硬體識別碼為嶋,因 8 27934twf.doc/n 201003576 此使用者在透過電腦116設定數位視訊錄影裝置1〇6時, 就必須將影像擷取裝置1〇2的硬體識別碼設定為〇〇〇1,再 由數位視訊錄影裝置1〇6透過傳輸介面11〇傳送硬體識別 碼0001到影像擷取裝置1〇2。設定完成後,使用者便只能 透過遙控器118控制影像擷取裝置102。相同的道理,假 設使用者將影像擷取裝置1〇4的硬體識別碼設為〇〇〇2,那 麼影像擷取裝置10 4也只能對硬體識別碼設為0002的遙控 ^ 器120進行認證。藉此硬體識別碼的設定’可設定使用者 控制影像擷取裝置的權限,同時,也可保護使用者透過遙 控器118和120分別控制影像擷取裝置1〇2和1〇4的動作。 然而’在另外一些實施例中,影像擷取裝置1〇2和 104也可以§忍證多個遙控器的硬體識別碼。例如,影像擷 取裝置102可以同時對遙控器118和12〇進行硬體識別碼 的s忍證。因此’不同的使用者可以利用不同的遙控器來遙 控影像擷取裝置102。 ^在本實施例中,影像擷取裝置102及104可以分別負 - 貝各自的監控區域’影像擷取裝置102及104用以將所拍 攝之影像訊賴送至數位視崎影裝置,由數位視訊 錄衫裝置106進行錄影並儲存在其内部的硬碟(hard_d刪 在本實施例中,影像擷取裝置102和104也且有紅 :卜:感測的功能。其中,使用者可以透過遙控器ιΐ8和 120而蚊是否啟動各影像操取襄置搬和遍的紅外線 感測功此。猎此’若是在影像擷取裝置1G2和舰的紅外 201003576 .27934twf.doc/n 線感測功能被啟動的狀態下,有物體,例如竊賊13〇,進 入其中一影像擷取裝置的監控區域的時候(例如進入影像 擷取裝置104的監控區域),透過紅外線感測對物體進行 感測確認後,影像擷取裝置104將同時傳輸一影像訊號和 第一控制訊號至數位視訊錄影裝置106。承上述,影像訊 號和第一控制訊號可以透過第一傳輸介面110傳送到數位 視訊錄影裝置106。當數位視訊錄影裝置106接收到影像 訊號和第一控制訊號時,便可以依據第一控制訊號啟動無 線通訊模組108。另外,數位視訊錄影裝置1〇6還可以將 剛剛由影像擷取裝置104拍攝到的影像訊號送至榮幕 114。藉此’使用者就可以透過螢幕Π4而收看到影像梅 取裝置104所擷取到的視訊。 無線通訊模組108可以被内建在數位視訊錄影裝置 106中,或者透過例如第一傳輸介面110耦接至數位視訊 錄影裝置106。當數位視訊錄影裝置106依據第一控制訊 號啟動無線通訊模組108時,無線通訊模組1〇8可以依據 一預先的設定(例如是手機號碼)而呼叫一接收端124 (例 如是手機)’並將剛剛的物體入侵的影像透過3G通訊模 組傳送到使用者的3G手機上。在本實施例中,接收端 124的型態可以是任意的手持式通訊裝置,例如行動電話 或PDA(personal digital assistant,譯為個人數位助理)行動 電話等。而上述所謂預先的設定’可以是使用者透過電腦 116而輸入的一組預設的電話號碼。當無線通訊模組1〇8 被數位視訊錄影裝置106啟動時,就可以依據此預設的電 .27934twf.doc/n 話號碼進行撥號,以呼叫接收端丨24。 在一些實鉍例中,接收端124可以具有第三代(Third Generation,3G)行動通訊的功能。當無線通訊模組1〇8呼 叫接收端124 ’並且接收端124被接通時,無線通訊模組 刚就可以與接收端124建立連線。此時,無線通訊模組 刪可以透過—通訊協定122而將上述之影像訊號傳送給 接收端124。其中,通訊協定122可以是第三代行動通訊 (、 協定。藉此,遠端的使用者就可以藉由接收端124而觀看 影像擷取裝置102和104所擷取到的影像。 在一些實施例中,遠端的使用者除了可以在接收端 124接收透過無線通訊模組1〇8所傳送來的視訊,還可以 從接收端124遙控影像擷取裝置1〇2和1〇4的狀態。由於 無線通訊模組108和接收端124之間的連線是雙向的,因 此使用者在利用接收端124收看無線通訊模組1〇8所傳送 來的視訊時,也可以利用操作接收端124所附的輸入介面 (像是鍵盤或者是觸控式螢幕)來發出控制訊號,將控制訊 U __触觀騎裝置1G6,喊透過數位視轉影 裝置106對影像擷取裝置1〇2及1〇4進行控制。 例如,當使用者在接收端124利用鍵盤輸入「丨」時, 接收端可以輸出對應的訊息給無線通訊模組1〇8。當 無線通訊模組108接收到接收端124所傳送來的訊息時, 可以將其送至數位視訊錄影裝置1〇6。而數位視訊錄影裝 置106可以内建一查照表,以在接收到從接收端124傳送 來的訊息時,可以透過第一傳輸介面11〇傳送對應的第二 控制訊號給影像擷取裝置1〇2和1〇4。當像擷取裝置ι〇2 11 201003576 ,27934twf.doc/n 和104接收到第二控制訊號時,就可以進行相對應的動 作,例如控制影像擷取裝置之鏡頭進行向上下左右移 動。 此外,為了避免閒雜人等竄改設定或資料,使用者 更可以透過電腦116而對數位視訊錄影襞置1〇6設定使用 - 者帳號及密碼,以進行使用者權限的控管。 圖2為依照本發明一實施例之監控方法的流程圖。請 同時參關1及圖2 ’以便再清楚地說明使用者如何利用 本發明之監控系統來進行監控。假設一住戶B要離開住處 去上班,因此住戶B便可透過自行保管的遙控器12〇來啟 動設置在其住處之影像擷取裝置104的紅外線感測功能 (也就是啟動監控功能,如步驟幻02所示),然後安心地出 門。此時,數位視訊錄影裝置1〇6將影像擷取裝置刚所 拍攝到的影像儲存在硬碟中,同時,影像擷取裝置1〇4的 紅外線感測功能一旦啟動,就會開始判斷是否有物體進入 其監控區域内(如步驟S204所示)。一旦有物體(例如竊賊 Ο 13〇)進入影像掘取裝置丨04的監控區域時’將會觸發紅外 線感測,同時,影像擷取裝置104將會產生影像訊號和第 控制sfl號(如步驟S206所示)。然後,影像擷取裝置104 會再透過弟一傳輸介面110將影像訊號和第一控制訊號傳 送給數位視訊錄影裝置106。 數位視訊錄影裝置106在接收到影像擷取裝置1〇4所 傳來的影像訊號和第一控制訊號之後,就可依據影像擷取 裝置104的硬體識別碼,而從記錄的電話號碼中找出住戶 12 201003576 _7934twfdoc/n β的電話號碼’並依據第—洲訊錢動無線通訊模电 108,然後數純_影裝置⑽聽影像減及取得的 電話號碼透過第-傳輸介面11G傳送給減通訊模組 108_’以便透過無線通訊模組1〇8進行撥號(如步驟幻⑽ 所示)’並將景>像讯號的透過通訊協定而即時地以無線方式 進行傳送(如步驟S210所示)。如此一來,住戶b便可即時 透過接收端124(例如是手機)觀看即時影像(竊賊13〇入侵 (' .的衫像汛唬)。同時,住戶B亦可直接利用接收端124輸入 影像擷取裝置104的控制訊號,進而藉由前述之通訊協定 來傳輸控制§fl號,以便控制位於自己住處之影像榻取裝置 104的操作,藉此調整影像的擷取方式(如步驟^212所 示)而調整影像的擷取方式例如是進行視野的上移、下 移、左移、右移,或是影像的縮小與放大)。據此,住戶 B便可於第一時間内對此事件進行處置。 雖然在上述實施例中,係以運用在住宅社區的監控 系統來舉例,然此領域具有通常知識者應當知道,本發明 ϋ 之監控系統及方法亦可以監控單一住宅的方式來實施,而 只提供給單一住戶來使用。此外,若是監控系統僅提供給 單住戶使用,那麼其數位視訊錄影裝置便不需具有使用 者帳號、密碼及硬體碼的設定功能。 綜上所述,本發明由於在一物體進入一影像擷取裝 置負責的監控區域内時,影像擷取裝置就會將影像訊號傳 送到數位視訊錄影裝置,並由數位視訊錄影裝置傳送到無 線通訊模組’然後再透過無線通訊協定即時地將影像訊號 傳送至接收端。如此一來,使用者便可透過接收端而即時 13 201003576 J7934twf.doc/n 取知该物體的影像,以便於第一時間内對此事件進行處 置。另外,由於影像訊5虎和控制訊號被允許在相同的第一 傳輸介面上傳輸,因此本發明也可以節省硬體的成本。 雖然本發明已以較佳實施例揭露如上,然其並非用 以限定本發明,任何所屬技術領域中具有通常知識者,在 不脫離本發明之精神和範圍内,當可作些許之更動與潤 飾’因此本發明之保護範圍當視後附之申請專利範圍所界 定者為準。 【圖式簡單說明】 圖1繪示有依照本發明一實施例之監控系統的方塊 圖。 圖2為依照本發明一實施例之監控方法的流程圖。 【主要元件符號說明】 102、104 :影像擷取裝置 106 :數位視訊錄影裝置 108 :無線通訊模組 110 :第一傳輸介面 114 :螢幕 116 :電腦 118、120 :遙控器 122 :通訊協定 124 :接收端 128 :網路傳輸介面 130 :竊賊 S202〜S212 :步驟 14Ik is paying more and more attention to the safety of the soil and property safety. At present, the private space or public space such as unofficial houses, community roads, rapid transit facilities, parking lots, etc., are generally equipped with monitoring systems for guards. Or security service (4) (10) said to monitor the surveillance area through the monitoring system. And 'because the traditional monitoring system must be monitored by guard or security = watch the monitor, once the guard or security personnel have no phonetic" _Open position to inspect, and at this time the surveillance area is issued again. The two-day staff can't immediately watch the camera shooting window and = someone can handle it immediately, resulting in the safety monitoring of the empty 3 in the 'for traditional residential use In the case of monitoring systems, households often use the guards or security personnel to inform the households that there is a problem between the two. It is impossible to improve the written loopholes in the incidents. Therefore, the conventional practice has the invention. Contents] The present invention proposes a kind of wireless communication protocol for security monitoring 201003576 .27934twf.doc/n monitoring system and method thereof When there is a foreign object entering the surveillance area of the video camera, the remote communication module can enable the remote user to transparently monitor the real-time image of the area, so that the user can perform the treatment at the first time: two. Based on the above and other purposes, The invention provides a security supervision company using a wireless communication protocol, and the packaged image captures a farm setting, a wireless communication module and a digital video recording device. The image capturing device is used for shooting a monitoring area, when there is When the object enters the monitoring area in which the image capturing device is responsible, the image capturing device outputs the image signal and the first control device. The digital video recording device is coupled to the image capturing device and the wireless communication module through the first transmission interface. The image signal and the first control signal are received through the first transmission interface, and the image signal is stored in a storage device and the wireless communication module is activated according to the control signal of the first one to transmit the image signal to the wireless communication mode through the first transmission interface. The wireless communication module transmits the video signal to the receiving end by means of wireless transmission. And other objects, the present invention further provides a monitoring method for security monitoring using a wireless communication protocol, in which, when an object enters a monitoring area, the digital video recording device captures and stores the image during the period of time. The image signal captured by the device is captured, and the image signal is transmitted to the wireless communication module through the first transmission interface, and the wireless communication module transmits the image signal to the receiving end through the wireless communication protocol. In the monitoring system of the embodiment, when the receiving end receives the image signal, the control signal 6 201003576 -7934twf.doc/n can be transmitted back to the digital video recording device through the wireless communication module, so as to be digital video recording device. The image capturing device is operated through the first transmission medium. In the monitoring system according to an embodiment of the invention, the first transmission interface is a coaxial power. In the monitoring method according to an embodiment of the present invention, the method further includes: transmitting, by the receiving end, a control signal through a communication protocol, and adjusting the image according to the method. In the present invention, when an object enters a monitoring area, the digital video recording device captures and stores the image information captured by the image capturing device, and then instantly images the wireless communication protocol through the wireless communication protocol. The message is transmitted to the receiving end. In this way, the user can instantly view the image through the receiving end, so that the event can be disposed of in the first time. The above described features and advantages of the present invention will be more apparent from the following description. [Embodiment] FIG. 1 is a block diagram showing a monitoring system in accordance with an embodiment of the present invention. The monitoring system mainly includes image capturing devices 1〇2 and 1〇4, a digital video recording device 106 and a wireless communication module 1〇8. The digital video recording device 106 is coupled to the wireless communication module 108 and the image capturing devices 102 and 104 via the first transmission interface 110. In this embodiment, the first transmission interface no may be a coaxial cable. The digital video recording device can be a digital video recorder (DVR). The image capturing devices 1 〇 2 and 1 〇 4 can all be a camera. The wireless communication module 1〇8 can be a wireless communication module with a 3G (ie third 201003576 -7934twf.doc/n generation) communication module, and the coarse video recording device is deleted through the first transmission interface u=number and The 3G communication module transmits the image signal to the user so that the user can directly view the image through the mobile phone. % In the actual - _ towel 'this _ provided by the monitoring pure = firefly, such as 16 and remote control, such as remote control /, the 'Electric version 116 can be a desktop computer or notebook type to pass through a The network transmission interface 128 (for example, the device is just like the device, the camera device is used to set the digital video device 1G6 and the image capturing device through the computer 116. Once the 1 H is available, the computer 116 sets the digital video recording device. Install the 104 and let the digital video recording device 1〇6; the m and the remote control 12〇 perform authentication. In more detail, since the different remote controllers can be called with their own hard code, this implementation When the monitoring secret provided by the example is initialized, the material needs to be transmitted. The brain 116 sets the number of sub-recording video μ 1G6, and the digital video recording, 106 and then transmits the hard disk through the transmission of the remote control. The body identification code is connected to the shirt image capturing devices 1〇2 and 104. The image capturing devices 1〇2 and 1〇4 record their respective hardware identification codes. Therefore, the user can transmit the corresponding image through the remote controller. The capturing device 102 #1〇4 performs the authentication of the hardware identification code to utilize the image The hardware identification code in the remote control n 118 is 嶋, because the user 102 sets the digital video recording device through the computer 116. At 1 〇6, the hardware identification code of the image capturing device 1〇2 must be set to 〇〇〇1, and then the digital video recording device 1〇6 transmits the hardware identification code 0001 to the image through the transmission interface 11〇. The device 1〇2 is taken. After the setting is completed, the user can only control the image capturing device 102 through the remote controller 118. For the same reason, the user assumes that the hardware identification code of the image capturing device 1〇4 is set to 〇〇. 〇2, then the image capturing device 104 can only authenticate the remote controller 120 whose hardware identification code is 0002. The setting of the hardware identification code can set the user's authority to control the image capturing device. At the same time, the user can also be protected from the actions of the image capturing devices 1〇2 and 1〇4 through the remote controllers 118 and 120. However, in other embodiments, the image capturing devices 1〇2 and 104 can also be configured. Tolerate the hardware identification of multiple remote controls For example, the image capturing device 102 can perform the hardware identification code for the remote controllers 118 and 12 at the same time. Therefore, different users can remotely control the image capturing device 102 by using different remote controllers. In an embodiment, the image capturing devices 102 and 104 can respectively negatively monitor the respective monitoring areas of the image capturing devices 102 and 104 for transmitting the captured image signals to the digital visual imaging device, and the digital video recording device. The device 106 records and stores the hard disk inside it (hard_d is deleted in the embodiment, and the image capturing devices 102 and 104 also have a red: function: sensing function. Among them, the user can use the remote controllers ιΐ8 and 120 to control whether the mosquitoes activate the infrared sensation of each image manipulation device. Hunting this 'If the image capturing device 1G2 and the ship's infrared 201003576 .27934twf.doc/n line sensing function are activated, there are objects, such as thieves 13〇, entering the monitoring area of one of the image capturing devices. At the same time (for example, entering the monitoring area of the image capturing device 104), after the object is sensed and confirmed by the infrared sensing, the image capturing device 104 simultaneously transmits an image signal and the first control signal to the digital video recording device 106. The image signal and the first control signal can be transmitted to the digital video recording device 106 through the first transmission interface 110. When the digital video recording device 106 receives the image signal and the first control signal, the wireless communication module 108 can be activated according to the first control signal. In addition, the digital video recording device 1〇6 can also send the image signal just captured by the image capturing device 104 to the honor screen 114. Thereby, the user can view the video captured by the image capturing device 104 through the screen 4. The wireless communication module 108 can be built into the digital video recording device 106 or coupled to the digital video recording device 106 via, for example, the first transmission interface 110. When the digital video recording device 106 activates the wireless communication module 108 according to the first control signal, the wireless communication module 1 8 can call a receiving end 124 (for example, a mobile phone) according to a predetermined setting (for example, a mobile phone number). The image of the newly invaded object is transmitted to the user's 3G mobile phone through the 3G communication module. In this embodiment, the type of the receiving end 124 can be any hand-held communication device, such as a mobile phone or a PDA (personal digital assistant) mobile phone. The so-called pre-set " can be a set of preset telephone numbers input by the user through the computer 116. When the wireless communication module 1 〇 8 is activated by the digital video recording device 106, it can be dialed according to the preset power number of 27934 twf.doc/n to call the receiving terminal 丨24. In some embodiments, the receiving end 124 may have the function of a third generation (Third Generation, 3G) mobile communication. When the wireless communication module 1〇8 calls the receiving end 124' and the receiving end 124 is turned on, the wireless communication module can just establish a connection with the receiving end 124. At this time, the wireless communication module deletes the above-mentioned video signal to the receiving end 124 through the communication protocol 122. The communication protocol 122 may be a third generation mobile communication (and agreement), whereby the remote user can view the images captured by the image capturing devices 102 and 104 by the receiving end 124. In some implementations. In the example, the remote user can receive the video transmitted through the wireless communication module 1 to 8 at the receiving end 124, and can remotely control the state of the image capturing devices 1〇2 and 1〇4 from the receiving end 124. Since the connection between the wireless communication module 108 and the receiving end 124 is bidirectional, when the user uses the receiving end 124 to view the video transmitted by the wireless communication module 1 to 8, the user can also use the operating receiving terminal 124. The input interface (such as a keyboard or a touch screen) is used to send a control signal, and the control signal U __ touches the ride device 1G6, and yells through the digital video transfer device 106 to the image capture device 1〇2 and 1 For example, when the user inputs "丨" by using the keyboard at the receiving end 124, the receiving end can output a corresponding message to the wireless communication module 1〇8. When the wireless communication module 108 receives the receiving end 124 When sending a message The digital video recording device 106 can be sent to the digital video recording device 1 to 6. The digital video recording device 106 can be built in a lookup table to transmit the corresponding information through the first transmission interface 11 when receiving the message transmitted from the receiving terminal 124. The second control signal is given to the image capturing devices 1〇2 and 1〇4. When the image capturing devices ι〇2 11 201003576 , 27934twf.doc/n and 104 receive the second control signal, the corresponding control signals can be performed. Actions, such as controlling the lens of the image capture device to move up, down, left, and right. In addition, in order to avoid tampering with settings or data, the user can also use the computer 116 to set the digital video recording device to use the user account. And a password for controlling the user's rights. Figure 2 is a flow chart of a monitoring method according to an embodiment of the present invention. Please refer to both 1 and 2' to clearly explain how the user utilizes the monitoring of the present invention. The system monitors. Assume that a resident B wants to leave the residence to go to work, so the resident B can use the remote control 12 自行 to start the image capture in his residence. 104 infrared sensing function (that is, start monitoring function, as shown in step 02), and then go out safely. At this time, the digital video recording device 1〇6 stores the image captured by the image capturing device in the hard In the dish, at the same time, once the infrared sensing function of the image capturing device 1〇4 is activated, it starts to judge whether an object enters its monitoring area (as shown in step S204). Once there is an object (such as a thief Ο 13〇) When entering the monitoring area of the image capturing device 丨04, the infrared sensing will be triggered, and at the same time, the image capturing device 104 will generate the image signal and the control sfl number (as shown in step S206). Then, the image capturing device The video signal and the first control signal are transmitted to the digital video recording device 106 through the transmission interface 110. After receiving the image signal and the first control signal transmitted by the image capturing device 1〇4, the digital video recording device 106 can find the hardware identification code of the image capturing device 104 according to the hardware identification code of the image capturing device 104. Out of the household 12 201003576 _7934twfdoc / n β phone number 'and according to the first - continent news money wireless communication mode 108, then the number of pure _ shadow device (10) listen to the image minus the obtained phone number transmitted through the first transmission interface 11G minus The communication module 108_' can be dialed through the wireless communication module 1〇8 (as shown in step (10)), and the video is transmitted wirelessly through the communication protocol (such as step S210). Show). In this way, the resident b can immediately view the instant image through the receiving end 124 (for example, a mobile phone) (the thief 13 〇 invasion ('. 衫 汛唬 。). At the same time, the resident B can also directly input the image using the receiving end 124撷The control signal of the device 104 is taken, and then the control §fl number is transmitted by the foregoing communication protocol, so as to control the operation of the image reclining device 104 located at the home, thereby adjusting the image capturing mode (as shown in step 214). The method of adjusting the image is, for example, moving up, down, left, and right of the field of view, or zooming in and out of the image. According to this, the resident B can dispose of the incident in the first time. Although in the above embodiments, the monitoring system used in the residential community is exemplified, those skilled in the art should know that the monitoring system and method of the present invention can also be implemented by monitoring the manner of a single house, and only provide For a single household to use. In addition, if the monitoring system is only available to single-occupants, the digital video recording device does not need to have the user account, password and hardware code setting functions. In summary, the present invention transmits an image signal to a digital video recording device and transmits it to the wireless communication device by the digital video recording device when an object enters the monitoring area in which the image capturing device is responsible. The module' then transmits the video signal to the receiving end in real time via a wireless communication protocol. In this way, the user can immediately access the image of the object through the receiving end, so that the event can be disposed in the first time. In addition, since the video signal and the control signal are allowed to be transmitted on the same first transmission interface, the present invention can also save hardware cost. Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the invention. The scope of the invention is therefore defined by the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block diagram of a monitoring system in accordance with an embodiment of the present invention. 2 is a flow chart of a monitoring method in accordance with an embodiment of the present invention. [Main component symbol description] 102, 104: image capturing device 106: digital video recording device 108: wireless communication module 110: first transmission interface 114: screen 116: computer 118, 120: remote controller 122: communication protocol 124: Receiver 128: Network Transport Interface 130: Thief S202~S212: Step 14