201123766 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種網路連線管理系統、網路連線管理 方法及其網路資料傳輸方法,特別是一種可方便同時管理 複數之電子裝置之網路連線管理系統、網路連線管理方法 及其網路資料傳輸方法。 【先前技術】 目前的電子裝置通常同時具有許多種有線或無線的網 路通訊模組,例如現今一般的筆記型電腦或桌上型電腦都 擁有藍芽裝置、乙太網路卡或無線網路卡。同時對於不同 的應用程式而言,可能會用到不同的網路通訊裝置。例如 使用者使用聊天軟體時,可能使用乙太網路卡或無線網路 卡經由網際網路做資料傳輸。而使用者使用視訊通話時, 則可能會使用藍芽裝置傳輸語音資料<> 因此對於兩個電子裝置間的檔案傳輸而言,使用者可 以選擇3G、藍芽裝置、乙太網路卡或無線網路卡達到檔案 傳輸的目的,只要這些網路通訊裝置已經建立這兩個裝置 間的連線即可。但是在先前技術中,對於單一電子裝置而 言,不同的網路通訊裝置作檔案傳輸時有不同的存取路 徑。即使是圖形化之使用者介面也不盡相同,對於使用者 在操作上會相當不便。此外不同的電子裝置可能有相同的 名稱,因此當使用者要選擇作為檔案傳輸的目標的電子裝 置時會感到困擾。 201123766 在先前技術中的電子裝Ϊ之作業系統,如Microsoft® 的Windows®系列,已經提供應用程式用以债測個別網路通 訊裝置的連線狀態,以及透過這些應用程式達到在兩網路 通訊裝置間傳輸資料。但是對於目前的作業系統或是應用 程式而言並沒有提供整合電子裝置上複數個網路通訊裝置 作資料傳輸的功能。 因此,有必要發明—穆管理網路連線之方法與系統, 以解決先前技術之缺失。 【發明内容】 本發明之主要目的係在提供一種網路連線管理系統, 以同時管理複數之電子裝J之網路連線。 本發明之另一主要目的係在提供一種網路連線管理方 法。 本發明之又一主要目的係在提供一種網路資料傳輸方 法。 為達成上述之目的,本發明網路連線管理系統係用於 電腦系統。其中電腦系統與複數之電子裝置之間具有至少 一網路連線。網路連線管理系統包括管理模組、擷取模組、 資料庫及使用者介面。管理模組用以偵測電腦系統與複數 之電子裝置之間之網路連線狀態。擷取模組用以讀取該複 ^之^子裝置所各自具有之識別碼。資料庫用以儲存該複 數之電子裝置所各自且古 者介面用以Γ有識別碼與網路連線狀態。使用 貝斗庠以顯示網路連線狀態。其中當管理 5 201123766 模組偵測到網路連線狀態改變時’管理模組係即時儲存新 網路連線狀態於資料庫中,並顯示於使用者介面上。 本發明之網路連線管理之方法包括以下步驟:價測電 腦系統與複數之電子裝置之網路連線狀態;儲存複數之電 子裝置所各自具有之識別碼與網路連線狀態於資料庫中. 根據資料庫,顯示網路連線狀態於使用者介面上;判斷網 路連線狀態是否改變·,以及若是’則即時儲存新網路連線 狀態於資料庫中,並顯示於使用者介面上。 本發明之網路資料傳輸之方法包括以下步驟:於電腦 系統與電子裝置之間建立複數之網路連線;根據複數之網 路連線之網路連線狀態,以決定資料之傳輪方式;以及 輪資料。 【實施方式】 為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂,下文特舉出本發明之具體實施例,並配合所附、, 作詳細說明如下。 以下請—併參考圖1係本發明之網路連線管理系統之 架構圖以及圖2係本發明之電腦系統與複數之電子 接之示意圖。 運 本發明之網路連線管理系統10係用於電腦系統丨,用 =管理電腦系統1與電子裝置70之間之網路連線關係。電 ,系統1與電子裝置7〇皆可為桌上型電腦、筆記型電腦或 疋智慧型手機等具有運算及儲存功能之系統。例如在圖\ 201123766 二及置第71 二電子裝置72係為手機, 彻女恭昍π、及第四電子裝置74係為筆記型電腦, : ^以上述所列舉之裝置為限。同時電腦系絲丨 ;路連Γ行連接。其中網路連線包括有線網 連線、藍牙連線、紅外線連線或3g連線二線 發明並*以上述所列舉的為限。 仁本 需注意的是,本發明之較佳實施 進行網路連社電子裝置%1與其 四電子裝置74,都|古& 電子裝置71到第 於整體之網路連線環缘管理系統1〇。如此-來對 效能。 。才靶具有最佳的管理及傳輸之 連線管理系統10包括管理模組2〇、摘取模植30 貝枓庫40、使用者介品α 和月取模組30、 模組2〇用以偵測電腦系統6〇。管理 網路連線狀態,以判斷電 置〇之間之 否建立網路連線,與魏之電子裝置70是 管理模組20可具有複數 ,之網路連線。 管理模組係用以管理不π祕吕理模組,不同之子網路 理模組20包括第一子铜^網路連線。在本實施例中,管 ㈣Μ 管理模組21、第二子網路管理 量—良第 管理模組23,但本發明並不以此數 量為限。為了方便說明个赞月亚个 第一子網路管理模組21 中以下之實施方式係= 理模組22管理藍牙連線管路連線;第二子網路管 線網路連線為例進行說明第二子:路管理模組23管理有 仁本發明並不以此為限。管理 201123766 模組20係利用不同之子網路管理模組傳輸封包到不同之 電子裝置70,藉此偵測其網路連線情況。 需注意的是,上述的子網路管理模組可為電腦系統1 内之網路傳輸模組或是監控網路傳輸模組之管理模組。舉 例而言,第一子網路管理模組21可為電腦系統1之無線網 路卡或是監控無線網路卡之模組。本發明並不限定子網路 管理模組之形式,只要子網路管理模組能管理網路連線即 在本發明之保護範圍内。 在電腦系統1與電子裝置70進行網路連線後,若電腦 系統1與電子裝置70之間要進行資料傳輸,管理模組20 亦可根據不同的網路環境,以控制不同的子網路管理模組 以進行最佳化之資料傳輸處理。其詳細之處理方式在之後 會有詳細的介紹,故在此不再贅述。 擷取模組30用以讀取複數之電子裝置70所各自具有 之識別碼。由於每一電子裝置70都會具有其所屬且唯一的 識別碼,因此電腦系統1建立網路連線後,擷取模組30可 經由管理模組20讀取電子裝置70之識別碼,即可方便地 辨識電子裝置70。另一方面,擷取模組30亦可讀取電腦 系統1之識別碼再傳送到已建立網路連線之電子裝置70。 資料庫40係為具有儲存功能之電子元件,用以儲存管 理模組20所偵測到的網路連線狀態,以及儲存擷取模組 30所讀取到的識別碼,甚至於儲存過去曾經連綵過之網路 連線記錄。資料庫40可以依照識別碼來分類儲存,但本發 明並不以此為限。 使用者介面50用以讀取資料庫40内所儲存之資料, 201123766 再顯示於使用者介面50上以供使用者確認與操作。使用者 介面50可為圖形化介面或為表格條列式之介面。關於使用 者介面50其中一種實施方式請參考圖3係本發明之使用者 介面之示意圖。在本實施例中,使用者介面50係為圖形化 介面顯示以方便使用者操作,但本發明並不以此為限。 使用者介面50上可以顯示出可與電腦系統1進行網路 連線之第一電子裝置71到第四電子裝置74,並且藉由狀 態顯示欄位51a、51b將不同狀態之電子裝置70分開顯示。 其中狀態顯示攔位51a顯示已經進行網路連線之第一電子 裝置71、第二電子裝置72及第三電子裝置73。狀態顯示 欄位51b則顯示沒有進行連線之第四電子裝置74。需注意 的是,狀態顯示可以利用文字或是顏色等方式顯示,本發 明並不以圖3所示之顯示狀態為限。 在使用者介面50上還可顯示出圖示52、暱稱53、識 別碼54、儲存路徑56及不同之網路連線,即第一網路連 線55a、第二網路連線55b與第三網路連線55c。圖示52 係為顯示出電子裝置70之種類,如第一電子裝置71顯示 為手機,第三電子裝置73則顯示為筆記型電腦。使用者可 以藉由圖示52清楚分辨不同種類之電子裝置70。暱稱53 用以代表電子裝置70之名稱,讓使用者能夠方便辨識。暱 稱53可由使用者自行設定或是電腦系統1進行網路連線時 依排序自行產生,本發明並不以此為限。在前述之擷取模 組30獨取出識別碼54後,使用者介面50上亦可顯示出識 別碼54。 第一網路連線55a、第二網路連線55b與第三網路連線 201123766 55c係代表電腦系統1與電子裝置70之間可以利用之網路 環境。舉例而言,假設第一網路連線5i;a為無線網路連線, 第二網路連線55b為與藍牙連線,第三網路連線55c為有 線網路連線。則由圖3可知,第一電子裝置71與電腦系統 1之間可以利用無線網路連線及藍牙連線,第三電子裝置 73與電腦系統1之間可以利用無線網路連線及有線網路連 線。由於第四電子裝置74與電腦系統1並沒有進行網路連 線,因此第四電子裝置74之攔位可以不顯示出網路連線之 代表圖示,或是顯示出曾經與電腦系統1連接時之網路連 線之代表圖示。 儲存路徑56係代表電腦系統1與電子裝置70進行資 料傳輸時之路徑,可以包括顯示資料傳輸至電腦系統1時 所儲存之資料夾或是傳輸至電子裝置70時所儲存之資料 夾。 藉由上述之使用者介面50,使用者即可方便地得知電 腦系統1與複數之電子裝置70之間之連接狀態。並且使用 者介面50在連接狀態改變時,立即讀取資料庫40之即時 資訊,以改變顯示出之狀態,讓使用者可立即進行管理。 網路連線管理系統10還具有應用程式登記模組60。由 於除了由使用者進行管理之外,電子裝置70還可藉由電腦 系統1所具有之應用程式61進行自動化地管理或傳輸資 料。此應用程式61可為電腦系統1之作業系統。應用程式 61必須經由網路連線管理系統10與電子裝置70進行連 線,並且每一應用程式61都設定有回傳函數(Callback Function ),用以登錄於網路連線管理系統10之應用程式登 201123766 記模組60 β。在網路連線狀態改變時,應201123766 VI. Description of the Invention: [Technical Field] The present invention relates to a network connection management system, a network connection management method, and a network data transmission method thereof, and more particularly to an electronic device capable of conveniently managing a plurality of multiple devices simultaneously Network connection management system, network connection management method and network data transmission method thereof. [Prior Art] Current electronic devices usually have many kinds of wired or wireless network communication modules at the same time. For example, today's general notebook computers or desktop computers have Bluetooth devices, Ethernet cards or wireless networks. card. At the same time, different network communication devices may be used for different applications. For example, when the user uses the chat software, the data may be transmitted via the Internet using an Ethernet card or a wireless network card. When the user uses the video call, the Bluetooth device may be used to transmit the voice data <> Therefore, for the file transfer between the two electronic devices, the user can select the 3G, the Bluetooth device, the Ethernet card. Or the wireless network card achieves the purpose of file transmission, as long as these network communication devices have established a connection between the two devices. However, in the prior art, for a single electronic device, different network communication devices have different access paths for file transmission. Even the graphical user interface is not the same, which is quite inconvenient for the user to operate. In addition, different electronic devices may have the same name, so users may be troubled when they want to select an electronic device that is the target of file transmission. 201123766 The electronic mounting system in the prior art, such as the Windows® series of Microsoft®, has provided applications for testing the connection status of individual network communication devices and achieving communication between the two networks through these applications. Transfer data between devices. However, for the current operating system or application, there is no function of integrating multiple network communication devices on the electronic device for data transmission. Therefore, it is necessary to invent a method and system for managing network connections to solve the lack of prior art. SUMMARY OF THE INVENTION The main object of the present invention is to provide a network connection management system for simultaneously managing network connections of a plurality of electronic devices. Another main object of the present invention is to provide a network connection management method. Another main object of the present invention is to provide a network data transmission method. To achieve the above objects, the network connection management system of the present invention is applied to a computer system. There is at least one network connection between the computer system and the plurality of electronic devices. The network connection management system includes a management module, a capture module, a database, and a user interface. The management module is used to detect the network connection status between the computer system and the plurality of electronic devices. The capture module is configured to read the identification code of each of the plurality of sub-devices. The database is used to store the respective electronic devices of the plurality and the ancient interface is used to connect the identification code to the network. Use Betty to display the network connection status. When the management module 5 201123766 detects the change of the network connection status, the management module instantly stores the new network connection status in the database and displays it on the user interface. The method for network connection management of the present invention comprises the steps of: measuring the network connection status of the computer system and the plurality of electronic devices; storing the identification code and the network connection status of the plurality of electronic devices in the database According to the database, the network connection status is displayed on the user interface; whether the network connection status is changed, and if it is, the new network connection status is immediately stored in the database and displayed on the user. Interface. The method for transmitting network data of the present invention comprises the steps of: establishing a plurality of network connections between the computer system and the electronic device; determining the data transmission mode according to the network connection status of the plurality of network connections; ; and round information. The above and other objects, features, and advantages of the present invention will become more apparent from The following is a schematic diagram of the network connection management system of the present invention and FIG. 2 is a schematic diagram of the computer system of the present invention and a plurality of electronic connections. The network connection management system 10 of the present invention is used in a computer system to manage the network connection relationship between the computer system 1 and the electronic device 70. The system 1 and the electronic device 7 can be a system with computing and storage functions such as a desktop computer, a notebook computer or a smart phone. For example, in the figure \ 201123766 2 and the 71st electronic device 72 is a mobile phone, the CHI CHI 昍 π, and the fourth electronic device 74 are notebook computers, : ^ is limited to the devices listed above. At the same time, the computer is silky; the road is connected. The network connection includes wired network connection, Bluetooth connection, infrared connection or 3g connection and second line invention and * are limited to the above. It should be noted that the preferred embodiment of the present invention performs network connection electronic device %1 and its four electronic devices 74, both | ancient & electronic device 71 to the entire network connection management system 1 Hey. So - come to performance. . The connection management system 10 having the best management and transmission of the target includes a management module 2, a pick-up module 30, a user interface α and a monthly module 30, and a module 2 Detect computer system 6〇. The network connection status is managed to determine whether the network connection is established between the devices, and the management module 20 of the Weizhi electronic device 70 can have a plurality of network connections. The management module is used to manage the module, and the different sub-network module 20 includes the first sub-copper network connection. In this embodiment, the management module 21 and the second sub-network management amount-good management module 23 are not limited to this number. In order to facilitate the description of the following embodiment of the first sub-network management module 21, the following embodiment is used to manage the Bluetooth connection pipeline connection; the second sub-network pipeline network connection is taken as an example. The second sub-section: the road management module 23 manages the invention. The invention is not limited thereto. Management 201123766 Module 20 uses different subnet management modules to transmit packets to different electronic devices 70 to detect network connectivity. It should be noted that the above sub-network management module can be a network transmission module in the computer system 1 or a management module for monitoring the network transmission module. For example, the first sub-network management module 21 can be a wireless network card of the computer system 1 or a module for monitoring the wireless network card. The present invention does not limit the form of the sub-network management module, and it is within the scope of the present invention as long as the sub-network management module can manage the network connection. After the computer system 1 is connected to the electronic device 70, if the data transmission between the computer system 1 and the electronic device 70 is performed, the management module 20 can also control different sub-networks according to different network environments. Manage modules for optimized data transfer processing. The detailed processing method will be described in detail later, so it will not be described here. The capture module 30 is configured to read the identification codes of the plurality of electronic devices 70. Since each electronic device 70 has its own unique identifier, the capture module 30 can read the identification code of the electronic device 70 through the management module 20 after the computer system 1 establishes the network connection. The electronic device 70 is identified. On the other hand, the capture module 30 can also read the identification code of the computer system 1 and transmit it to the electronic device 70 that has established the network connection. The database 40 is an electronic component having a storage function for storing the network connection status detected by the management module 20, and storing the identification code read by the capture module 30, even storing the past. Even the network connection record. The database 40 can be classified and stored according to the identification code, but the present invention is not limited thereto. The user interface 50 is used to read the data stored in the database 40, and the 201123766 is displayed on the user interface 50 for confirmation and operation by the user. The user interface 50 can be a graphical interface or a tabular interface. Regarding one of the embodiments of the user interface 50, reference is made to Figure 3 which is a schematic illustration of the user interface of the present invention. In this embodiment, the user interface 50 is a graphical interface display for user convenience, but the invention is not limited thereto. The first electronic device 71 to the fourth electronic device 74 that can be networked with the computer system 1 can be displayed on the user interface 50, and the electronic devices 70 in different states are displayed separately by the status display fields 51a, 51b. . The status display block 51a displays the first electronic device 71, the second electronic device 72, and the third electronic device 73 that have been networked. The status display field 51b displays the fourth electronic device 74 that is not wired. It should be noted that the status display can be displayed by means of text or color, and the present invention is not limited to the display state shown in FIG. The user interface 50 can also display the icon 52, the nickname 53, the identification code 54, the storage path 56 and different network connections, that is, the first network connection 55a, the second network connection 55b and the Three network connection 55c. The illustration 52 is for displaying the type of the electronic device 70. For example, the first electronic device 71 is displayed as a mobile phone, and the third electronic device 73 is displayed as a notebook computer. The user can clearly distinguish the different types of electronic devices 70 by the illustration 52. The nickname 53 is used to represent the name of the electronic device 70, so that the user can easily identify it. The 称 53 53 can be set by the user or the computer system 1 can generate the network connection according to the order, and the invention is not limited thereto. After the identification module 54 is taken out by the above-mentioned capture module 30, the identification code 54 can also be displayed on the user interface 50. The first network connection 55a, the second network connection 55b, and the third network connection 201123766 55c represent a network environment that can be utilized between the computer system 1 and the electronic device 70. For example, assume that the first network connection 5i; a is a wireless network connection, the second network connection 55b is connected to Bluetooth, and the third network connection 55c is a wired network connection. As can be seen from FIG. 3, the first electronic device 71 and the computer system 1 can use the wireless network connection and the Bluetooth connection, and the third electronic device 73 and the computer system 1 can utilize the wireless network connection and the wired network. Road connection. Since the fourth electronic device 74 and the computer system 1 are not connected to the network, the block of the fourth electronic device 74 may not display the representative icon of the network connection, or display the connection with the computer system 1. A representative icon of the network connection at the time. The storage path 56 represents the path when the computer system 1 and the electronic device 70 perform data transmission, and may include a folder stored when the data is transmitted to the computer system 1 or a folder stored when the data is transmitted to the electronic device 70. With the user interface 50 described above, the user can easily know the connection state between the computer system 1 and the plurality of electronic devices 70. And when the connection state is changed, the user interface 50 immediately reads the instant information of the database 40 to change the displayed state so that the user can manage it immediately. The network connection management system 10 also has an application registration module 60. The electronic device 70 can also automatically manage or transfer data by the application 61 of the computer system 1 in addition to being managed by the user. This application 61 can be the operating system of the computer system 1. The application 61 must be connected to the electronic device 70 via the network connection management system 10, and each application 61 is provided with a callback function for logging into the application of the network connection management system 10. Program 201123766 record module 60 β. When the network connection status changes, it should
Hi用回傳函數以紗應酬61,讓應;·程^ 了進订自動化地管理。 接下來請參考圖4係本發明之網路連 步驟流程圖。 思啄官理之方法之 此處需注意的是,以下雖以網路連線管 明之網路連線管理之方法,但本發明系:網=Hi uses the return function to pay for the yarn 61, so that the process is automatically managed. Next, please refer to FIG. 4, which is a flow chart of the network connection step of the present invention. The method of thinking about the principle of management is to be noted here, although the following is a method of network connection management by network connection, the present invention is: network =
方法並不以使用在網路連線管理系統10為限。 首先進行步驟401:偵測電腦系統與複數之雷 網路連線狀態。 $子裝置之 1首先管理模組2〇控制其具有之子網路管理模組,如圖 ^之第一子網路管理模組2卜第二子網路管理模組22及 第三子網路管理模組23,分別發出封包以偵測電腦系統! 與複數之電子裝置70之網路連線狀態。管理模組2〇藉由 判斷封包是否回傳之方式即可得知電腦系統1與複數乂電 子敦置70是否有連線,以及用何種網路進行連線。 其次進行步驟402:讀取複數之電子裝置所各自具有之 一識別碼。 ” 其次線取模組30係讀取出與電腦系統1進行連線之電 子裝置70所具有之識別碼。另一方面’榻取模組3〇亦可 同時讀取出電腦系統1之識別碼,再傳送到電子裝置7〇。 需注意的是,除了識別碼之外,本發明也可以藉由管 理模組20偵測出電子裝置70之網路連線位址。例如當^ 子敦置70與電腦系統1利用無線網路連線時’管理模組 201123766 20可控制第一子網路管理模組2i偵测電子裝置7〇之Ip 位址,如:10.36.141.132。而當電子裝置70與電腦系統i 利用藍牙連接時’管理模組2〇可控制第二子網路管理模組 22偵測電子装置70之藍牙傳輸模組之識別碼,如: 001813aab87a。 接著進行步驟403:儲存複數之電子裝置所各自具有之 識別碼與網路連線狀態於一資料庫中。 接者將上述步驟4〇1及4〇2中所偵測到之識別碼、網 路連線狀態或其他的資訊儲存於資料庫4〇中。 再進订步驟404:顯示網路連線狀態於使用|介面上。 八接著根據資料庫4〇内所儲存的資訊,將其顯示於使用 者二面%上。其中使用者介面5G即如圖3所示,包括了 3顯示攔位51a、5lb、圖示52、暱稱53、識別碼54及 不同之網路連線%a、55b及55c。 態是=理模組2〇同時進行步驟405:判斷網路連線狀 二子管網會:斷, 包,以_是否有任何一及種電二子組23發出 -種網路連線。種電子裝置%中斷或連接到任 當網路連線狀態 網路連_ 一 時則如步驟彻:即時儲存 -營:上中,並顯示於使用者介面上。 支新網路連線狀態儲存到資料庫40中。 201123766 時使用者介面50即時讀取咨^ 新網路連線狀態於使用者介貝面7上40。之資訊,以同步顯示 早装口’當第一子網路管理模組21偵測到與第一電 50域的L轉料時,纽用者介面 50上係顯不出第一網路連線55a之指示。若 f〇m與第/電子裝置74之網路連線時,使用者介面 50係將第四電子裝置74 韦^丨囟 欄位5lb之範圍下。之顯不出之位置變更到狀態顯示 進仃步驟407 :告知電腦系統之應用程式。 二: 讓應用程式61可同時進行管理 八01 驟流Γ圖請參考圖5係本發明之網路資料傳輪之方法之步 電腦系統1與電手裝番7 程式6!要求進行資之間可以由使用者或是應用 要經由網路連線進行資料傳輸時,首先要進行二Ί7〇 於=統與電子裝置之間建立複數之網路4驟 路連線建Γ第與一=裝置川之_^ Γ之=理,10偵測及管理電腦系統== Ο即·4〇\、'網路連線與第二網路連線。其彳貞測及管理之 ‘ a、述步騍401到407所述,故在此不再贅述。 其人進行步驟5〇2 :根據網路連線之—網路連線狀態, 201123766 以決定資料之傳輸方式。 管理模組20係根據電腦系統i與電子裝置7〇之間的 第一網路連線與第二網路連線的網路連線狀態,以決定資 料之傳輸方式,亦即進行最佳化之資料傳輸處理。其中網 路連線狀態可以根據網路連線頻寬,或是儲存於資料庫40 中的先則之網路連線記錄進行最佳化處理。先前之網路連 線。己錄包括最高頻寬使用量以及使用者之喜好設定。管理 模組20得知網路連線狀態後,即利用下面之步驟以傳輸資 ^驟503 :將資料分配為複數之資料區塊。 g理模組2 〇係根據網路連線之狀態將資料進行切割為 之間之資料區塊。舉例而言,當1腦系統1與電子裝置7〇 5第_網路連線與第二網路連線分別為無線網路連線 餒L 1及藍牙連線時’管理模組20係根據無線網路連線及 資料連線之頻寬100kbps,此時管理樽組20將 大的第二二1個資料區塊,其中10個資料區塊由頻寬較 由頻寬輕j Μ線進行傳輸,另外剩下的1個資料區塊則 由頻=的第二網路連線進行傳輸。 管理方:二了:驟5〇3所述之網路連線狀態之外’ 式。當資料太依照資料之大小以決定資料之傳輸方 之第:網路連線來^^20可W胸具有較大頻寬 訊於:還要進行少驟,:建立-額外資 201123766 管理模組20要先在複數之資料區塊内建立額 用以識別為同―資料所分割之樓案。額外資訊可括 送端之識別碼或是重組複數之資料區塊所需的資訊等。發 再進行步驟505 :傳輸資料。 管理模組20再將處理過之資料,亦即複數之 塊,經過上述的設定由不同之網路連線傳送到電 7〇。電子裝置7〇接收完複數之資料區塊後 資料區塊所具有之額外資訊進行合併,成為 ,。同時使用者可以使料介面50上所㈣之 徑56 ’以得知電腦系統!或電子裝置7〇所儲存資料 料夾。另一方面,使用者亦可直接利用使用者介面% 擇所要儲存之資料夾。 Π時g理模組20同時進行步驟5〇6 :判斷網路連線狀 態是否改變。 ' 管理模組20會不斷地偵測電子裝置7〇是否有中斷或 新連接到任何一種網路連線。由於此步驟5〇6與步驟405 相同’故在此不再贅述。 最後當網路連線狀態改變時,則進行步驟507:根據新 網路連線狀態以重新決定資料之傳輸方式。 2〇舍m組偵剛到網路連線狀態改變時,管理模組 2〇會根據新網路連線狀 . 亦即重新㈣步驟5G2 ^,以重新決定資料之傳輸方式。 舉例而言,當電腦备決定如何傳輸資料。 連線(如Μ·Π)傳輸資^^與電子裝置一^ 第一部份,而經由第二網路(如監 201123766 牙)連線傳輸資料之第二部份。若此時第一網路連線中斷, 則進行將資料重新分配之流程,亦即進行步驟503 :將資 料分配為複數之資料區塊。管理模組20立即將資料之第一 部份改變為經由未中斷之第二網路連線傳輸,而使資料之 第一部份繼續執行傳輸,以應變其中一網路突然斷線之狀 況。同樣地,若有新的網路連線建立,管理模組20會根據 新網路連線的狀態,以決定是否要將資料重新進行分配, 如可將原本設定為兩種網路傳輸之資料區塊分配重新分配 增加到設為三種網路傳輸之資料區塊分配。 需注意的是,本發明並不限定電腦系統1與電子裝置 70之間僅能傳輸一筆資料。若電腦系統1與電子裝置70 之間正在利用第一網路連線傳輸第一資料時,管理模組20 亦可以控制由第二網路連線傳輸第二資料。 此處需注意的是,本發明之網路連線管理與網路資料 傳輸之方法並不以上述之步驟次序為限,只要能達成本發 明之目的,上述之步驟次序亦可加以改變。 藉由本發明之系統與方法,使用者與應用程式61即可 方便地同時管理不同的電子裝置70所具有之不同的網路連 接方式。 綜上所陳,本發明無論就目的、手段及功效,在在均 顯示其迥異於習知技術之特徵,懇請貴審查委員明察, 早曰賜准專利,俾嘉惠社會,實感德便。惟應注意的是, 上述諸多實施例僅係為了便於說明而舉例而已,本發明所 主張之權利範圍自應以申請專利範圍所述為準,而非僅限 於上述實施例。 201123766 【圖式簡單說明】 圖1係本發明之網路連線管理系統之架構圖。 圖2係本發明之電腦系統與複數之電子裝置連接之示意圖。 圖3係本發明之使用者介面之示意圖。 圖4係本發明之網路連線管理之方法之步驟流程圖。 圖5係本發明之網路資料傳輸之方法之步驟流程圖。 • 【主要元件符號說明】 電腦系統1 網路連線管理系統10 管理模組20 第一子網路管理模組21 第二子網路管理模組22 第三子網路管理模組23 $ 擷取模組30 資料庫40 使用者介面50 狀態顯示攔位51a、51b 圖示52 暱稱53 識別碼54 第一網路連線55a 201123766 第二網路連線55b 第三網路連線55c 儲存路徑56 應用程式登記模組60 應用程式61 電子裝置70 第一電子裝置71 第二電子裝置72 第三電子裝置73 第四電子裝置74The method is not limited to use in the network connection management system 10. First, step 401 is performed to detect the connection status between the computer system and the plurality of mines. The sub-device 1 first manages the module 2 and controls the sub-network management module thereof, as shown in the first sub-network management module 2, the second sub-network management module 22 and the third sub-network. The management module 23 separately sends a packet to detect the computer system! The state of the network connection with the plurality of electronic devices 70. The management module 2 can know whether the computer system 1 and the plurality of electronic devices 70 are connected by using the method of judging whether the packet is returned or not, and which network is used for connection. Next, step 402 is performed: reading an identification code of each of the plurality of electronic devices. The second line taking module 30 reads the identification code of the electronic device 70 connected to the computer system 1. On the other hand, the 'tower module 3〇 can also read the identification code of the computer system 1 at the same time. And then transmitted to the electronic device 7 〇. It should be noted that in addition to the identification code, the present invention can also detect the network connection address of the electronic device 70 by the management module 20. For example, when When the computer system 1 is connected to the wireless network, the management module 201123766 20 can control the first sub-network management module 2i to detect the Ip address of the electronic device 7, such as: 10.36.141.132. When the computer system i is connected by using the Bluetooth, the management module 2 can control the second sub-network management module 22 to detect the identification code of the Bluetooth transmission module of the electronic device 70, such as: 001813aab87a. Then proceed to step 403: store The identification code and the network connection status of each of the plurality of electronic devices are in a database. The identification code, network connection status or other detected in the above steps 4〇1 and 4〇2 are received. The information is stored in the database. Resubscribing step 404 : Display the network connection status on the use interface. 八 Then according to the information stored in the database 4, it is displayed on the user's two sides. The user interface 5G is shown in Figure 3, including 3 display blocks 51a, 5lb, 52, nickname 53, identification code 54 and different network connections %a, 55b and 55c. The state is = rational module 2 〇 simultaneously step 405: judge network connection The linear two-tube network will be: off, package, to _ whether there is any one and the second sub-group 23 issued - a kind of network connection. The electronic device is interrupted or connected to the network connection status network _ For a moment, the steps are as follows: Instant Storage - Camp: Up, and displayed on the user interface. The new network connection status is stored in the database 40. 201123766 User Interface 50 Instant Read Advisory Network The connection status is on the user's interface 7 and 40. The information is displayed synchronously to display the early installation port. When the first sub-network management module 21 detects the L-transfer with the first electric 50 domain, the connection is used. The indication of the first network connection 55a is not displayed on the interface 50. If f〇m is connected to the network of the /electronic device 74, The user interface 50 sets the fourth electronic device 74 within the range of 5 lb. The display position is changed to the status display step 407: the application of the computer system is notified. Simultaneous management 8 01 骤 Γ 请 请 请 请 请 请 请 请 请 请 请 请 请 请 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑 电脑When an application wants to transmit data via a network connection, it is necessary to first establish a network between the system and the electronic device. 4 The connection between the system and the electronic device is the first and the second = the device is _^ Γ = Management, 10 detection and management of the computer system == Ο ie · 4 〇 \, 'network connection and the second network connection. The measurement and management of the ‘a, the description of the steps 401 to 407, so will not repeat them here. The person performs step 5〇2: according to the network connection state, the network connection status, 201123766 to determine the transmission mode of the data. The management module 20 determines the data transmission mode, that is, optimizes according to the network connection state between the first network connection and the second network connection between the computer system i and the electronic device 7〇. Data transmission processing. The network connection status can be optimized according to the network connection bandwidth or the prior network connection records stored in the database 40. Previous network connection. The record includes the maximum bandwidth usage and user preferences. After the management module 20 knows the network connection status, it uses the following steps to transmit the resource 503: the data is allocated as a plurality of data blocks. The system module 2 cuts the data into data blocks according to the state of the network connection. For example, when the 1 brain system 1 and the electronic device 7〇5 _ network connection and the second network connection are respectively a wireless network connection 馁L 1 and a Bluetooth connection, the management module 20 is based on The bandwidth of the wireless network connection and data connection is 100kbps. At this time, the management group 20 will have a large second and second data blocks, and 10 of the data blocks are made by the bandwidth of the bandwidth and the light bandwidth. Transmission, the remaining 1 data block is transmitted by the second network connection of frequency=. Management side: Second: Step 5〇3 is outside the network connection status. When the data is too much according to the size of the data to determine the transmission of the data: network connection ^^20 can be a larger bandwidth of the chest: in addition to a small number of steps: establishment - additional resources 201123766 management module 20 It is necessary to first establish a number of items in the data block of the plural to identify the building that is divided into the same data. Additional information may include the identification code of the sending end or the information required to reorganize the plural data blocks. Send another step 505: Transfer the data. The management module 20 then transfers the processed data, that is, the plurality of blocks, to the electrical network through the above-mentioned settings. After the electronic device 7 receives the plural data blocks, the additional information of the data block is merged to become . At the same time, the user can make the path of the (4) path 56 on the material interface 50 to know the computer system! Or the data folder stored in the electronic device 7〇. On the other hand, the user can directly use the user interface to select the folder to be stored. The Π g 理 module 20 simultaneously performs step 5 〇 6 : judging whether the network connection status has changed. The management module 20 continually detects whether the electronic device 7 is interrupted or newly connected to any type of network connection. Since this step 5〇6 is the same as step 405, it will not be described here. Finally, when the network connection status changes, proceed to step 507 to re-determine the data transmission mode according to the new network connection status. When the status of the network connection is changed, the management module 2 will be connected according to the new network. That is, the (4) step 5G2 ^ is used to re-determine the data transmission mode. For example, when the computer is ready to transfer data. The connection (such as Μ·Π) transmits the information and the first part of the electronic device, and the second part of the data is transmitted via the second network (such as the 201123766 tooth). If the first network connection is interrupted at this time, the process of reallocating the data is performed, that is, step 503 is performed: the data is allocated as a plurality of data blocks. The management module 20 immediately changes the first portion of the data to be transmitted via the uninterrupted second network connection, so that the first portion of the data continues to be transmitted to account for a sudden disconnection of one of the networks. Similarly, if a new network connection is established, the management module 20 will decide whether to re-allocate the data according to the status of the new network connection, for example, the original data can be set as two types of network transmission. The block allocation reallocation is increased to the data block allocation set to three network transmissions. It should be noted that the present invention does not limit that only one piece of data can be transmitted between the computer system 1 and the electronic device 70. If the first data is being transmitted between the computer system 1 and the electronic device 70, the management module 20 can also control the second data transmission by the second network connection. It should be noted that the method for network connection management and network data transmission of the present invention is not limited to the above-described sequence of steps, and the order of the above steps may be changed as long as the purpose of the present invention can be achieved. With the system and method of the present invention, the user and application 61 can conveniently manage different network connections of different electronic devices 70 at the same time. To sum up, the present invention, regardless of its purpose, means and efficacy, shows its distinctive features of the prior art. You are requested to review the examinations and grant the patents as soon as possible. It is to be noted that the various embodiments described above are intended to be illustrative only, and the scope of the invention is intended to be limited by the scope of the appended claims. 201123766 [Simple Description of the Drawings] FIG. 1 is an architectural diagram of the network connection management system of the present invention. 2 is a schematic diagram showing the connection of a computer system of the present invention to a plurality of electronic devices. Figure 3 is a schematic illustration of the user interface of the present invention. 4 is a flow chart showing the steps of the method for network connection management of the present invention. Figure 5 is a flow chart showing the steps of the method for transmitting network data of the present invention. • [Main component symbol description] Computer system 1 Network connection management system 10 Management module 20 First subnet management module 21 Second subnet management module 22 Third subnet management module 23 $ 撷Take module 30 database 40 user interface 50 status display block 51a, 51b icon 52 nickname 53 identification code 54 first network connection 55a 201123766 second network connection 55b third network connection 55c storage path 56 Application Registration Module 60 Application 61 Electronic Device 70 First Electronic Device 71 Second Electronic Device 72 Third Electronic Device 73 Fourth Electronic Device 74