1259378 93年11月日補充、修正 來,大型資料庫的引進解決了資料閂鎖上的問題,但也造 來,料’贿树賴'⑽業者沒«貞。近兩年 (Mult^t線電視開始整合成幾個大型的集團公司,稱為MS0 希^2 ys!em Operator),並積極整合各有線電視台客戶資料, 要ί人多tli、、單—服務窗口,精簡工程人員等目標。由於需 必須弓口I進大ΐ'ΪΓί公司的客戶資料’使得資料量大幅增加’因而 視台網路,採| ,也採用網際網路串連各地有線電 系統採用分散操作1料2管須資訊管理 Mr〇 τ. Α .貝十、况g理的方式進仃,一般均採用三階架 變管理=,伽咖行開發,循此說明,定址系統 ^ ^^(Loca〇., 訂戶定址錄控ΐίΓΓ植控敝機,完成賴化大量的 【發明内容】 設備視ti:r端定贿碼器αι) 理、分4、 方法,主要技術係整合集中式資料管 α 2)自‘進:控制:見:二:=(1.5)與多部定址系統主機 制方法,稱之為「()的開/關機與存取權限之控1259378 On November, 1993, it was added and revised. The introduction of a large database solved the problem of data latching, but it also caused that the “Bao Shu Lai” (10) industry did not have «贞. In the past two years (Mult^t line TV began to be integrated into several large group companies, called MS0 希^2 ys!em Operator), and actively integrated customer information of cable TV stations, to be more tli, single-service Window, streamline engineering and other goals. Due to the need to enter the company's customer data, the company's customer data has greatly increased the amount of data. Therefore, the network is connected to the network, and the network is connected in series. Information Management Mr〇τ. Α.Bei Shi, the way of the situation, generally adopt the third-order frame change management =, Gagar line development, follow the instructions, address system ^ ^ ^ (Loca〇., subscriber address Recording control ΐ ΓΓ ΓΓ ΓΓ ΓΓ , , , , 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖 赖: Control: See: 2: = (1.5) and the main mechanism of the multi-site addressing system, called "() on/off and access control
Gateway)(l & 〃 伤、#、m 止&制閘道為(AddreSSable Contro1 管理系的客戶 換成本地a〇cal Slde)的定址庫(1·4)之南階指令,轉 網路(1.6)下達給訂戶端解碼I、令,再利用有線電視 序,方便有線電視系統管理者了伊’元成—系列定址化控制程 接收有線電視的權力。為配戶缴費狀態及時控管訂戶 統別控制機制,可同時控制多1 定1 見木®^匕發展,系統採用多系 夕冲疋址糸統主機α· 2),並對特定用戶 1259378 93年Π月日補充、修正 進行存取控制,做為有線電視加值服務之基礎。 【實施方式】 為使貴審查委員瞭解本發明之特徵及產業 — 體之實施例,S己合所附之圖示對本發明做’錄错由具 第一圖係本發明之集團式定址系统 '糸如后. =,主要係包括-定址控制閘道器(1.3)、工多個定機=所 =資料庫㈣、客戶資訊管理系統(15)與用戶端料(解二)哭 人.),成。系統運作流程如下:定址控制閘道器(13)灿串 二面連接”定址控齡機(1.2),每部定健制域(12 = ,線電視網路(1.6),-般而言是以絲點(Fiber 連接端,j =定址测主—機(1.2)可管_光節點下所有錢有定址解碼器 」之用戶。疋址控制閘道$(1·3)的另_端以網際網路連接遠 資料庫(1.4),透過TCP/IP協定將用戶資料庫㈣買定址節目的用戶 繳費狀況,轉成高階指令,並讀回閘道器(1· 3)内進行命令解譯,依 據指令定義讀取適當參數組合成定址控制主機(1·2)命令格式,再^ 過RS485串列匯流排傳送到定址控制主機(1· 2),傳送到用戶端解碼 器(1· 1)進行控制。 ^ 「定址控制閘道器(1· 3)」的功能項目包括: 1·新增解碼器(1.1)。 2·啟動(重設)單向解碼器(initai one way converter)。 3·變更解碼器(l. 1)狀態。 4·設定解碼器(1· 1)多組服務頻道碼,但是不清除以前存在的資料。 5·變更解碼器(1 · 1)的客戶電話號碼。 6·刪除解碼器(1· 1)。 7·清除解碼器(1.1)客戶端的父母密碼。 8·論片計費點數(credit)設定。 9·清除論片計費預約密碼。 10 ·傳送論片計費節目表。 1259378 93年11月日補充、修正 1L由定址控制主機(1.2)讀取解碼器(1· 1)的頻道服務資料。 12.由定址控制主機(12)讀取解碼器的客戶資料。 13·啟動(重設)雙向解碼器(Initlal切〇 way c〇nverter)。 14·單一鎖碼頻道或論片計費節目(ppv)的授權與取消。 15·子母機設定。 16·解碼器(1· 1)開機與關機設定。 ^^定^馬糾^纽服務頻道綠職⑽小會清除以前 18·新增解碼器(1· 1),同時設定解碼器參數。 由於命令繁多,因此必須在資料庫(14)内定義簡易的對 代碼,之為高階指令,由於每個命令所需的參數不完全相同,且 為了系統擴充枝,高階命令及參數喊均讀料表另存,方便隨 時更動。 為了方便系統業者操作,定址控制操作介面與客戶管理系統 合,方便客服人員進行查詢。 · 第二圖係本發明之定址控制問道器(1· 3)架構圖,如圖所示,主 要係包括遠端資料庫連結物件(2. υ、高階指令轉譯物件(2.2)、訊 息記錄物件(2. 4)、觸5收發物件(2. 3)、訊息料物件(2. 5)及訊 息顯示物件(2. 6)組成。系統採用物件導向設計方法,每個物件觸發 均由對應的事件魅生,作業流齡述如τ :遠端f料庫連結物^ α 1)透過TCP/IP讀取資料庫(1,4)内高階指令,並傳遞給高階指令 轉譯物件(2.2) ’組合歧址㈣域職較之命令格式,並將命 令透過麗5收發物件(2.3)傳送敏址控齡機(12),為了記錄命 令使用狀況,當命令由卿5物件(2.3)發送m會傳給訊氣記 錄物件(2.4),作為日後查詢。由於定址控敝機〇 2)會^應 RS485收發物件(2.3)所送出的命令,因此系統增列訊息等射轉 (2.5),並將回應傳送到訊息記錄物件(2 4)登錄。訊息顯示物件 (2^6),収將整健齡令及喊齡在人齡面上,方便操作者 判讀。 1259378 93年11月日補充、修正 第三圖係本發明之定址控制閘道器(1· 3)控制流程圖。當系統啟 動後,先進行初始化動作(3· 1),包括參數設定、TCP/IP連線設定、 RS485狀態偵測等。並讀取遠端資料庫(1.4)内高階指令判斷是否有 待處理資料(3· 2),當命令狀態為1〃表示為待處理資料,並計算筆 數(3· 3)後,進入命令迴圈,將一筆一筆高階轉換成定址控制主機命 令格式(3.4),再由串列埠送出(3· 5),並等待定址控制主機的回應 (3· 6),當回應正確表示(3· 7),該筆資料處理完成(3· 8),並將狀熊 設定為,’C”,否則表示處理錯誤,狀態則設定為”E”,完成上述一g 高階命令處理後,在麟是否完成所有命令(3.1G),依此類推。 第 ==發明之集團式纽系統控㈣統方塊 圖係為本發明之定址控制閘道器架構圖。 第三圖係林發明之定址控綱道器控制^程圖。 【主要元件符號說明】 【圖式簡單說明】 (1· 1)用戶端定址解碼器 (1· 3)定址控制閘道器 (1· 5)客戶資訊管理系統 (2· 1)資料庫連結物件 (2· 3)RS485收發物件 (2. 5)訊息等待物件 圖 2)定址控制主機 (1·4)資料庫 (16)有線電視網路 (2· 2)高階指令轉譯物件 (2· 4)訊息記錄物件 (2· 5)訊息顯示物件Gateway) (l & 伤 、, #, m stop & Guard gate is the southern order of the location library (1·4) of the AddreSSable Contro1 management department (1.6) Release to the subscriber end to decode I, order, and then use the cable TV sequence to facilitate the cable TV system administrator to have the right to receive cable TV from the Yi's Yuan-series addressing control process. The subscribers' unified control mechanism can simultaneously control the development of multiple 1s and 1s. The system adopts multi-system 夕 疋 糸 主机 主机 主机 主机 , , , , , , , , , 特定 特定 特定 特定 1 1 1 1 1 1 1 1 1 1 1 1 Access control, as the basis for cable TV value-added services. [Embodiment] In order to make the members of the present invention aware of the features of the present invention and the embodiments of the industry, the accompanying drawings of the present invention do the same as the group type addressing system of the present invention. Such as after. =, mainly including - address control gateway (1.3), work multiple fixed = = = database (four), customer information management system (15) and user materials (solution 2) crying.) ,to make. The system operation process is as follows: the address control gate device (13) can be connected to the two sides of the "station-controlled age-controlled machine (1.2), each fixed-mode domain (12 =, line TV network (1.6), - in general The user of the wire point (Fiber connection, j = address measurement main machine (1.2) can manage all the money under the optical node has a address decoder". The other end of the gate control gate $ (1·3) The Internet is connected to the remote database (1.4). The user's database (4) purchases the user's payment status of the address program through the TCP/IP protocol, and converts it into a high-level instruction, and reads it back into the gateway (1·3) for command interpretation. According to the instruction definition, the appropriate parameters are read and combined into the address control host (1·2) command format, and then the RS485 serial bus is transmitted to the address control host (1·2) and transmitted to the client decoder (1·1). Control. ^ The functions of the "Addressing Gate Device (1·3)" include: 1. New decoder (1.1) 2. Start (reset) one-way decoder (initai one way converter). 3. Change the state of the decoder (1.1). 4. Set the decoder (1·1) multiple sets of service channel codes, but do not clear the existing ones. 5. Change the customer's telephone number of the decoder (1 · 1). 6. Delete the decoder (1·1). 7. Clear the decoder (1.1) client's parent password. 8. Review the billing point ( Credit) Set 9. Clear the video billing reservation password. 10 · Transfer the theory billing program list. 1259378 November, 1993, supplement, correction 1L read the decoder (1) by the address control host (1.2) Channel service data 12. Read the client data of the decoder by the address control host (12) 13. Start (reset) the bidirectional decoder (Initlal switch c〇nverter) 14 · Single lock channel or theory Authorization and cancellation of the film billing program (ppv) 15. Sub-machine setting. 16·Decoder (1·1) power-on and power-off settings. ^^定^马纠^ New service channel green job (10) will clear the previous 18 · Add a new decoder (1·1) and set the decoder parameters at the same time. Due to the large number of commands, it is necessary to define a simple pair of codes in the database (14), which are high-order instructions, because the parameters required for each command are not It is identical, and for the system expansion branch, the high-order commands and parameter shouting reading tables are saved. In order to facilitate the operation of the system operator, the address control operation interface is combined with the customer management system to facilitate the customer service personnel to make inquiries. · The second figure is the architecture diagram of the address control messenger (1·3) of the present invention, as shown in the figure. The display mainly includes the remote database link object (2. υ, high-order instruction translation object (2.2), message recording object (2.4), touch 5 transceiver object (2.3), and message material object (2.5). And the message display object (2.6). The system adopts the object-oriented design method. Each object trigger is triggered by the corresponding event charm. The working flow is described as τ: remote f library link ^ α 1) Read the database through TCP/IP (1, 4) Internal high-order instructions, and passed to the high-order instruction translation object (2.2) 'combined address (four) domain job comparison command format, and the command transmits the sensitive site control machine (12) through the Li 5 transceiver object (2.3), in order to record the command The status of use, when the order is sent by the Qing 5 object (2.3) m will be passed to the ethical record object (2.4) for future reference. Since the address control machine 2) will respond to the command sent by the RS485 transceiver (2.3), the system will add a message (2.5) and send the response to the message record object (2 4) to log in. The message shows the object (2^6), and the whole ageing order and the age of the call are on the age of the person, which is convenient for the operator to interpret. 1259378 Supplementary and Corrective November, 1993 The third figure is the control flow chart of the addressed control gateway (1.3) of the present invention. When the system is started, the initialization action (3·1) is performed first, including parameter setting, TCP/IP connection setting, and RS485 status detection. And read the high-order instruction in the remote database (1.4) to determine whether there is pending data (3·2). When the command status is 1〃, it is represented as pending data, and the number of pens is calculated (3·3), then enter the command back. Circle, converts a high-order into the address control host command format (3.4), and then sends it out by the serial port (3·5), and waits for the response of the addressed control host (3·6), when the response is correctly expressed (3·7) ), the data processing is completed (3·8), and the bear is set to 'C', otherwise it indicates that the processing error is set, and the status is set to “E”. After completing the above-mentioned g high-order command processing, whether the completion of the lin is completed All orders (3.1G), and so on. The == invention group system control (4) system block diagram is the architecture diagram of the address control gate device of the invention. The third picture is the site control system of the invention Control diagram. [Main component symbol description] [Simple diagram description] (1·1) User-side address decoder (1·3) Address control gate device (1·5) Customer information management system (2·1) ) Database Linked Objects (2·3) RS485 Transceivers (2.5) Message Waiting Objects Figure 2) Addressing Host system (1.4) database (16) Cable network (2.2) higher-order instruction translation object (2.4) recorded message object (2.5) message display objects