In order to decrease the blocking probability of fast light-path set-up in the network, a novel strategy for optical flow switching is proposed, named dynamically initialized wavelength number protocol (DIWP), which can dynamically change the initialized wavelength number according to the traffic load of the network. Computer simulations are conducted to analyze the performance of the proposed strategy, which is based on forward reservation backward release (FRBR) mechanism. The results show that the initialized wavelength number can affect the blocking probability of the network. ? 2009 Tianjin University of Technology and Springer Berlin Heidelberg.EI05368-371
With demand for huge bandwidth, fast connections and varieties of services, Dense Wavelength Divisio...
In sparse wavelength conversion networks only a few nodes support wavelength conversion. The optical...
Next generation optical network design is driven by the rapid growth of Internet data traffic, and i...
Abstract—we study dynamic routing and wavelength assign-ment scheme when there are any available wav...
We propose the distributed Multi-Destinations Control Protocol (MDCP) for optical flow switching net...
This paper focuses on the design and analysis of scheduling approaches for Optical Flow Switching (O...
The landscape of the telecommunications environment is constantly evolving; in terms of architecture...
Optical switches and wavelength converters are recognized as two of the most important DWDM system c...
With new optical transport systems able to provide sub-wavelength granularity, the dynamic character...
With the evolvement of Grid applications, the need for user controlled network infrastructure is app...
In the study of dynamic routing and wavelength assignment (DRWA) algorithms and protocols in optical...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The main contributions of this thesis are, firstly, proposing the Bottleneck Congestion Avoidance al...
The concept of optical burst switching (OBS) aims to allow access to optical bandwidth in dense wave...
The development of wavelength division multiplexing opens a new horizon in optical networks and prom...
With demand for huge bandwidth, fast connections and varieties of services, Dense Wavelength Divisio...
In sparse wavelength conversion networks only a few nodes support wavelength conversion. The optical...
Next generation optical network design is driven by the rapid growth of Internet data traffic, and i...
Abstract—we study dynamic routing and wavelength assign-ment scheme when there are any available wav...
We propose the distributed Multi-Destinations Control Protocol (MDCP) for optical flow switching net...
This paper focuses on the design and analysis of scheduling approaches for Optical Flow Switching (O...
The landscape of the telecommunications environment is constantly evolving; in terms of architecture...
Optical switches and wavelength converters are recognized as two of the most important DWDM system c...
With new optical transport systems able to provide sub-wavelength granularity, the dynamic character...
With the evolvement of Grid applications, the need for user controlled network infrastructure is app...
In the study of dynamic routing and wavelength assignment (DRWA) algorithms and protocols in optical...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The main contributions of this thesis are, firstly, proposing the Bottleneck Congestion Avoidance al...
The concept of optical burst switching (OBS) aims to allow access to optical bandwidth in dense wave...
The development of wavelength division multiplexing opens a new horizon in optical networks and prom...
With demand for huge bandwidth, fast connections and varieties of services, Dense Wavelength Divisio...
In sparse wavelength conversion networks only a few nodes support wavelength conversion. The optical...
Next generation optical network design is driven by the rapid growth of Internet data traffic, and i...