Optical burst switching (OBS) is a compromising method combining the advantages of optical circuit switching and optical packet switching and is a promising optical internetworking form in the future.
光突发交换(OBS)是兼顾光电路交换和光分组交换优点的一种折衷方案,是未来光互联网的一种实现形式。
The optical burst switching technology has the advantage of higher efficiency of channel usage and more suitable for packet transfer comparing with the optical wavelength switching.
光突发交换技术相对于光波长交换技术而言,具有信道资源利用率高、更适于传输分组业务等优点。
CC1100 provides extensive hardware support for packet handling, data buffering, burst transmissions, clear channel assessment, link quality indication and wake-on-radio.
CC 1100为数据包处理、数据缓冲、突发数据传输、清晰信道评估、连接质量指示和电磁波激发提供广泛的硬件支持。
The synchronization techniques for burst packet transmission mode OFDM systems is studied, including timing, frequency offset estimation and channel estimation.
本文主要研究适用于突发OFDM传输系统的同步技术,包括定时、频偏估计和信道估计。
So it requires there is a reasonable relationship of time or-der between a burst and its control packet during cross the OBS network.
因此,必须要求突发包和控制分组在传送过程中保持两者之间合理的时序关系。
Recently, optical burst switching, or OBS, which represents a balance between circuit and packet switching, has opened up some exciting new dimensions in optical networking.
最近,光突发交换技术的出现掀开了光通信技术的新篇章,它是光电路交换和光分组交换的折中方案。
The small time constant is applied to the normal burst mode packet and the large time constant is applied to packets with a succession of "1" or "0".
它采用不同的交流耦合时间常数,对规则的突发数据包中的前导码用小时间常数,对数据包中有长连“1”和长连“0”的数据用大的时间常数。
We can look OBS network as two networks, one is transparent optical network for transmitting data burst; the other is optical and electronic hybrid control network for transmitting burst head packet.
OBS网络可以看作两个网络的重叠:传送数据突发的纯光网络和传送突发头分组的光电混合控制网络。
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。
Simulation results show that EB-TDMA has a better performance in terms of packet latency and energy consumption for burst traffic application with high-density deployment and high traffic load.
仿真结果表明,对节点密集时的突发业务,该协议在时延和节能方面都具有良好的性能。
Simulation results show that EB-TDMA has a better performance in terms of packet latency and energy consumption for burst traffic application with high-density deployment and high traffic load.
仿真结果表明,对节点密集时的突发业务,该协议在时延和节能方面都具有良好的性能。
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