本論文的主旨在研究具有可重構功能之光纖感測網路和光塞取多工通訊網路。在光纖感測網路的研究部分,包含研究自我修復能功能的光纖感測網路,並且利用遠端節點控制和分時多工與分波多工的技術達成具有可重構功能的感測網路並演示其系統效能。在光塞取多工網路的研究部分,針對網狀網路架構中開發具有自我斷點修復能力的光纖通訊網路。 所提出的架構能有效預防網路整體的癱瘓並且增加網路的存活能力,在網路系統發生故障時皆能自我修復,使其正常運作,能有效提高系統容量與可靠度。感測系統未來更有利運用於大型結構物的監測,例如大樓、橋梁、隧道、山坡地與水壩。
In this dissertation, we study of fiber optic sensor network with reconfigurable function and Optical Add/Drop Multiplexer communication network. The content related to sensor network includes sensor networks with self-healing functions, and using remote nodes、time-division multiplexing(TDM) technology and wavelength division multiplexing(WDM) technology to achieve reconfigurable function and demonstrate performance. The content related to Optical add-drop multiplexer (OADM) mesh network. We focus on development the mesh network with self-healing functions. All the proposed architecture has self-healing functions that can prevent network paralysis that can lead the network back to normal work when there is a link failure. Also, it can be effective to improve the capacity and reliability. In the future, the sensor system always useful to monitor sensor regions such as buildings, bridges, tunnels, mountainsides and dams.