We present an exact analytical model for single-wavelength quality of service (QoS) differentiation in a two-class optical packet switch. In this system, QoS differentiation is achieved by limiting the set of fiber delay lines (FDLs) to the low-priority class, whereas the high-priority class is allowed to access the entire FDL bank. The analytical model is based on multi-regime Markov fluid queues and is extensible to multi-class systems with more than two classes. Markovian arrival process packet arrivals and phase-type distributed packet sizes are considered for the purpose of generality. The proposed analytical model is validated through simulations. The numerical results provide insight into determining appropriate subsets of FDLs allow...
We propose a multi-class mechanism for Optical Code Division Multiplexing (OCDM), Wavelength Divisio...
We present a performance model for Fiber Delay Line (FDL) buffers having access to multiple waveleng...
Optical buffers are essential components of future optical switches for resolving contentions among ...
Optical Packet Switching (OPS) has emerged as a promising candidate for the next-generation Waveleng...
With the emergence of different kinds of applications, service differentiation has become an importa...
Cataloged from PDF version of article.Optical buffers based on Fiber Delay Lines (FDL) have been pro...
Optical buffering based on fiber delay lines (FDLs) has been proposed as a means for contention reso...
Abstract—We develop analytical models to evaluate the per-formance of optical-burst switch (OBS) arc...
Optical buffering via fiber delay lines is used for contention resolution in optical packet and opti...
Cataloged from PDF version of article.Optical buffering based on fiber delay lines (FDLs) has been p...
Optical switching (optical packet switching, optical burst switching, and others) provides alternati...
In recent years, data traffic has grown exponentially. In order to bypass the bottleneck of electron...
This paper presents a quality of service (QoS) enable optical delay line (ODL) architecture to solve...
Providing a photonic alternative to the current electronic switching in the backbone, optical packet...
AbstractWith the increased usage of time-critical applications, the need for differentiation among s...
We propose a multi-class mechanism for Optical Code Division Multiplexing (OCDM), Wavelength Divisio...
We present a performance model for Fiber Delay Line (FDL) buffers having access to multiple waveleng...
Optical buffers are essential components of future optical switches for resolving contentions among ...
Optical Packet Switching (OPS) has emerged as a promising candidate for the next-generation Waveleng...
With the emergence of different kinds of applications, service differentiation has become an importa...
Cataloged from PDF version of article.Optical buffers based on Fiber Delay Lines (FDL) have been pro...
Optical buffering based on fiber delay lines (FDLs) has been proposed as a means for contention reso...
Abstract—We develop analytical models to evaluate the per-formance of optical-burst switch (OBS) arc...
Optical buffering via fiber delay lines is used for contention resolution in optical packet and opti...
Cataloged from PDF version of article.Optical buffering based on fiber delay lines (FDLs) has been p...
Optical switching (optical packet switching, optical burst switching, and others) provides alternati...
In recent years, data traffic has grown exponentially. In order to bypass the bottleneck of electron...
This paper presents a quality of service (QoS) enable optical delay line (ODL) architecture to solve...
Providing a photonic alternative to the current electronic switching in the backbone, optical packet...
AbstractWith the increased usage of time-critical applications, the need for differentiation among s...
We propose a multi-class mechanism for Optical Code Division Multiplexing (OCDM), Wavelength Divisio...
We present a performance model for Fiber Delay Line (FDL) buffers having access to multiple waveleng...
Optical buffers are essential components of future optical switches for resolving contentions among ...