Advanced Photonic Switching Technology for Communications
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概要
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With the foreseen growth of communication capacity, further capacity and flexibility enhancements are required for future transport networks. Photonic switching is expected to be a key technology to solve the potential bottleneck, which could be found in transport network nodes. This paper first explains the "Optical Fiber Freeway" concept, as an example of future transport networks. Following this, the possible optical transport network structure using photonic switching technologies, for realizing the Optical Fiber Freeway concept, is explained. An Optical Crossconnect (OXC) and optical Add/Drop Multiplexer (ADM) are key components. Examples of recent development of photonic switching systems toward these targets are also reviewed. An OXC using photonic Space-Division (SD) switching technology has been proposed and demonstrated. This type of OXC will realize flexible reconfiguration and optical hitless switching, and it can meet the introduction of Wavelength Division Multiplexing (WDM)technique. Line failure restoration operation at 2.4 Gb/s has been successfully demonstrated. An optical packet network with a slotted ring/bus structure using a wavelength address technique has been proposed as a packet/cell based optical ADM. The experimental system employs a practical media access control system as well as a fast-wavelength switched transmitter suppressing thermally induced wavelength drift. Cell communication at 622 Mb/s has been demonstrated with the experimental system. These results show that hardware technologies have been developed steadily. With a future study on an all optical network management scheme, a high capacity and flexible optical network would be realized.
- 一般社団法人電子情報通信学会の論文
- 1995-05-25
著者
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Fujiwara Masahiko
Opto-Electronics Research Laboratories, NEC Corporation
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Fujiwara Masahiko
Opto-electronics Research Laboratories Nec Corporation
関連論文
- Demand Assign Wavelength Division Multiple Access (DA-WDMA) Hybrid Optical Local Area Network Using Optical Add-Drop Multiplexers (Special Issue on Photonic Switching Technologies)
- Photonic Space-Division Switching Technologies for Broadband Networks (Special Issue on Photonic Switching Technologies)
- Advanced Photonic Switching Technology for Communications