Just recently, a network that has integrated many optical time-division multiplexing (TDM) technologies such as 100-Gbits/s packet compression and ultrafast demultiplexing has been demonstrated. This article briefly presents the experimental results of this demonstration and addresses the physical layer performance issues including scalability, reliability, and channel constraints of such networks
The development of a practical solution to all-optical buffer remains a challenge for high-speed (> ...
A 20 Gb/s quaternary TDM-PAM passive optical network with chirped and non-linear optical transmitter...
The authors demonstrate the use of time-division multiplexing (TDM) to realize a high capacity optic...
Just recently, a network that has integrated many optical time-division multiplexing (TDM) technolog...
We describe a testbed to study both the theoretical aspects and physical implementation issues assoc...
The next generation computer networks will handle the bandwidth requirements from new applications s...
This paper presents the design and experimental results of an optical packet-switching testbed capab...
Ultrafast processing techniques for the implementation of high-speed all-optical packet-switched net...
This paper presents the design and experimental results of an optical packet-switching testbed capab...
Field experiments of 42.7/128.1 Gb/s wavelength-division multiplexed, optical time-division multiple...
In this paper we present an OTDM multihop prototype network developed in the Lightwave Communication...
The EPSRC project OPSnet addresses the design, modeling and implementation of an asynchronous optica...
This paper discusses key results in the field of high speed optical networking with particular focus...
New insight to the feasibility of all-optical ultra speed switching up to 200 Gb/s. The technique wi...
This thesis examines options for high capacity all optical networks. Specifically optical time divis...
The development of a practical solution to all-optical buffer remains a challenge for high-speed (> ...
A 20 Gb/s quaternary TDM-PAM passive optical network with chirped and non-linear optical transmitter...
The authors demonstrate the use of time-division multiplexing (TDM) to realize a high capacity optic...
Just recently, a network that has integrated many optical time-division multiplexing (TDM) technolog...
We describe a testbed to study both the theoretical aspects and physical implementation issues assoc...
The next generation computer networks will handle the bandwidth requirements from new applications s...
This paper presents the design and experimental results of an optical packet-switching testbed capab...
Ultrafast processing techniques for the implementation of high-speed all-optical packet-switched net...
This paper presents the design and experimental results of an optical packet-switching testbed capab...
Field experiments of 42.7/128.1 Gb/s wavelength-division multiplexed, optical time-division multiple...
In this paper we present an OTDM multihop prototype network developed in the Lightwave Communication...
The EPSRC project OPSnet addresses the design, modeling and implementation of an asynchronous optica...
This paper discusses key results in the field of high speed optical networking with particular focus...
New insight to the feasibility of all-optical ultra speed switching up to 200 Gb/s. The technique wi...
This thesis examines options for high capacity all optical networks. Specifically optical time divis...
The development of a practical solution to all-optical buffer remains a challenge for high-speed (> ...
A 20 Gb/s quaternary TDM-PAM passive optical network with chirped and non-linear optical transmitter...
The authors demonstrate the use of time-division multiplexing (TDM) to realize a high capacity optic...