The paper presents a node architecture for an all-optical packet router where packet header address and the routing table formats are based on the pulse position modulation (PPM). A single bit-wise AND gate is used for correlation of a packet header address with the PPM based routing table (PPRT) entries, thus resulting in reduced processing time and system complexity. It is also shown that the proposed scheme offer unicast/multi-cast/broadcast transmitting capabilities. We show that the optical power of the correlated packet header address and the switched signal on-off contrast ratio largely depend on the switching window width and the timing offset of the PPM header address
This paper presents an all-optical 1 x M WDM router architecture for packet routing at multiple wave...
This paper presents a study of digital pulse interval modulation (DPIM) as a candidate modulation sc...
This paper assesses the performance of dual header pulse interval modulation (DH-PIM) over indoor op...
The paper presents a node architecture for an all-optical packet router where packet header address ...
The paper presents a node architecture for an all-optical packet router where packet header address ...
The paper presents a node architecture for an all-optical packet router where packet header address ...
Rapidly growing internet traffic volume is the major driving force behind the development of optical...
In future high-speed photonic packet switching networks, it is highly desirable to carry out robust ...
The paper proposes an all-optical 1×M router architecture based on pulse-position-modulation header ...
This paper presents an all-optical 1M router architecture for simultaneous multiple-wavelength packe...
This paper presents an all-optical 1xM router architecture for simultaneous multiple-wavelength pack...
In this paper we present modeling and simulation of multiple-hop all-optical packet routing based on...
All-optical packet switched networks with flexibility and capability to deal with the bursty traffic...
In this paper we present the modeling and simulation of multiple-hop routing in ultrafast all-optica...
The paper presents a new node architecture for an all-optical packet router employing multiple puls...
This paper presents an all-optical 1 x M WDM router architecture for packet routing at multiple wave...
This paper presents a study of digital pulse interval modulation (DPIM) as a candidate modulation sc...
This paper assesses the performance of dual header pulse interval modulation (DH-PIM) over indoor op...
The paper presents a node architecture for an all-optical packet router where packet header address ...
The paper presents a node architecture for an all-optical packet router where packet header address ...
The paper presents a node architecture for an all-optical packet router where packet header address ...
Rapidly growing internet traffic volume is the major driving force behind the development of optical...
In future high-speed photonic packet switching networks, it is highly desirable to carry out robust ...
The paper proposes an all-optical 1×M router architecture based on pulse-position-modulation header ...
This paper presents an all-optical 1M router architecture for simultaneous multiple-wavelength packe...
This paper presents an all-optical 1xM router architecture for simultaneous multiple-wavelength pack...
In this paper we present modeling and simulation of multiple-hop all-optical packet routing based on...
All-optical packet switched networks with flexibility and capability to deal with the bursty traffic...
In this paper we present the modeling and simulation of multiple-hop routing in ultrafast all-optica...
The paper presents a new node architecture for an all-optical packet router employing multiple puls...
This paper presents an all-optical 1 x M WDM router architecture for packet routing at multiple wave...
This paper presents a study of digital pulse interval modulation (DPIM) as a candidate modulation sc...
This paper assesses the performance of dual header pulse interval modulation (DH-PIM) over indoor op...