We propose the distributed Multi-Destinations Control Protocol (MDCP) for optical flow switching networks that can reduce the destination and path blocking. Numerical studies demonstrate that MDCP can effectively improve the network throughput to over 80%.EI
Present-day networks are being challenged by dramatic increases in bandwidth demand of emerging appl...
Due to the lack of optical buffer, high packer loss caused by packet contention is one of the main c...
In order to reduce packet-processing rate without requiring changes in the end systems, a simplified...
In order to decrease the blocking probability of fast light-path set-up in the network, a novel stra...
We experimentally investigate a flow-controlled optical packet switch node operation. The distribute...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Transmission impairments in wavelength-division- multiplexing (WDM) transparent optical networks acc...
OFS provisions bandwidth in the granularity of one wavelength. With such a coarse granularity, most ...
Optical Burst Switching (OBS) is a promising technology for future optical networks. Due to its less...
Due to provision of connectionless and tremendous transmission service, Optical Burst Switching Netw...
Bandwidth-hungry internet services like cloud computing, social networking and video sharing generat...
This paper focuses on the design and analysis of scheduling approaches for Optical Flow Switching (O...
Switching the traffic in the optical domain has been considerably investigated as a future-proof sol...
In the four decades since optical fiber was introduced as a communications medium, optical networkin...
In Optical Burst Switched networks, each light path carry huge amount of traffic, path failures may ...
Present-day networks are being challenged by dramatic increases in bandwidth demand of emerging appl...
Due to the lack of optical buffer, high packer loss caused by packet contention is one of the main c...
In order to reduce packet-processing rate without requiring changes in the end systems, a simplified...
In order to decrease the blocking probability of fast light-path set-up in the network, a novel stra...
We experimentally investigate a flow-controlled optical packet switch node operation. The distribute...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Transmission impairments in wavelength-division- multiplexing (WDM) transparent optical networks acc...
OFS provisions bandwidth in the granularity of one wavelength. With such a coarse granularity, most ...
Optical Burst Switching (OBS) is a promising technology for future optical networks. Due to its less...
Due to provision of connectionless and tremendous transmission service, Optical Burst Switching Netw...
Bandwidth-hungry internet services like cloud computing, social networking and video sharing generat...
This paper focuses on the design and analysis of scheduling approaches for Optical Flow Switching (O...
Switching the traffic in the optical domain has been considerably investigated as a future-proof sol...
In the four decades since optical fiber was introduced as a communications medium, optical networkin...
In Optical Burst Switched networks, each light path carry huge amount of traffic, path failures may ...
Present-day networks are being challenged by dramatic increases in bandwidth demand of emerging appl...
Due to the lack of optical buffer, high packer loss caused by packet contention is one of the main c...
In order to reduce packet-processing rate without requiring changes in the end systems, a simplified...