本論文提出以非同步傳輸模式網路，作為地理圖資系統與配電監控資料擷取系統的通訊骨幹，並將電力應用訊務整合於寬頻網路中傳送，以提昇資料傳輸效能。其中，本論文係以網際網路協定架構於非同步傳輸模式網路，並擬定適合訊務類型的服務品質等級與壅塞控制管理，以改善訊務經由網路傳輸所造成的時間延遲，而經由理論分析及模擬驗證可知，本論文之方法確可滿足不同類型電力通訊訊務，且經由通訊記錄與程序監測，亦有助於系統偵錯、訊務管控及強化電力通訊資料之即時處理效能。
　　又為期使電力通訊網路之完善，本文同時提出即時傳輸協定，以增強鏈路狀態識別與頻寬管理機制，裨達成接取網路延伸至配電設備端，而經由不同網路結構的測試亦可得知，本論文之成果確可滿足遠端設備與控制中心的訊務傳輸需求。
　　至於在個人區域網路中，本論文則應用藍芽無線通訊技術與儀表資訊描述語言，以解決異質平台間的資訊交換問題，建立個人區域網路架構的電力設備監控模式，以減少監測線路佈設與維護支出，同時裨益於電力工程人員量測施行之安全性。

In this dissertation, an asynchronous transfer mode (ATM)-based network was proposed to serve as the communication backbone that integrated the geography information system (GIS) and supervisory control and data acquisition (SCADA) in anticipation of improving the communication performance. By employing the internet protocol on such an ATM-based network while taking the message traffic into considerations, those different types of power system data can be smoothly transferred over ATM network, ensuring satisfying the quality of service in the communication network. Besides, as this proposed approach has embedded the functions of communication traffics recording and process monitoring, the system debugging and message traffic control can be also achieved in a more efficient manner.
Furthermore, this dissertation has proposed an implementation of real-time transfer protocol (RTP) on the communication network in order to enhance the link status identification and bandwidth management. It was found that through the aid of this protocol, the status of electric power equipment can be accessed more efficiently, while the data transfer between control center and remote equipment is effectively completed.
This dissertation also contributed to the power system data transfer on the personal area network. By utilizing the Bluetooth communication technology, the wireless transmission of power system data was implemented. In addition, considering the communications between different measurements, an instrumentation information meta language was also applied such that the information acquired from various instruments can be better assimilated. This proposed Bluetooth wireless transmission method would help save the monitoring circuit installation and maintenance investment, while the security of personnel can be highly maintained.

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