In this paper, we introduce the development of optical packet switching and the generic architecture of the OPS node.
文中我们介绍了光分组交换的产生背景和技术特点,对交换节点结构作了说明。
To achieve high efficiency and flexibility in bandwidth management, optical packet switching (OPS) is considered as a potential solution by reducing the available bandwidth granularity.
为了实现在带宽管理上的高效性和可扩展性,光分组交换被认为是一种很有潜力的解决方法,因为它能够减小可用的带宽粒度。
This dissertation focuses on the optical clock recovery techniques in optical packet switching (OPS) network.
本文主要研究应用于光分组交换网络的全光时钟恢复(提取)技术。
Combining the advantages of optical packet switching (OPS) and wavelength routing (OCS) while eliminating the drawbacks, it is widely expected to be the core technology for the new optical network.
由于光突发交换结合光路交换(ocs)和光分组交换(ops)的优点,同时也克服了二者的不足,有望成为下一代光网络的核心交换技术。
OBS (Optical Burst Switching) combines advantages of Optical Circuit Switching (OCS) and Optical Packet Switching (OPS).
光突发交换集合了光线路交换和光分组交换的优点。
OBS (Optical Burst Switching) combines advantages of Optical Circuit Switching (OCS) and Optical Packet Switching (OPS).
光突发交换集合了光线路交换和光分组交换的优点。
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