男士穿衣搭配.ppt

Int. J. Communications, Network and System Sciences, 2009, 7, 652-656
doi:.27074 Published Online October 2009 (rnal/s/).


work Traffic Control Algorithm under Variable
Loop Delay: A Simulation Approach
Manoj Kr DUTTA, Vinod Kumar CHAUBEY
Electrical and Electronics Engineering Department, Birla Institute of Technology & Science,
Pilani, Rajasthan, India
Email: mkdutta13@, ******@
Received May 9, 2009; revised July 16, 2009; accepted August 22, 2009
ABSTRACT

In this paper we present a concept of new architectural model consisting of multiple loop delay to increase
the throughput. The simulated behavior of an optical node has been realized by using an n x m optical switch
and recirculating optical delay lines. This investigation infers the scaling behaviors of the proposed architec-
ture to maintain efficient use of the buffer under Poisson traffic loading. The analysis also reports the traffic
handling capacity for the plexity of the node architectural design.

Keywords: Fiber Delay Line, Recirculation, Traffic, Throughput

1. Introduction buffer pool [5–6] will essentially reduce the cost and
complexity as well. In a WDM a packet that cannot be
ALL-munication has been proposed as a directly sent to the output fiber is sent back to one of the
promising candidate for providing high-work- delay lines for recirculation and after being delayed by
ing [1–4] owing to huge bandwidth of optical channels. some specific time, that packet e out of the de-
Wide bandwidth available in low attenuation window in lay line pete for throughput with the newly arriv-
the optical fiber can be divided into a number of inde- ing packets. In case of essful throughput it gets
pendent wavelength channels as work standard back into the delay line for the next round trip with addi-
and specification leading to , SDH or wavelength tional delays.
division-multiplexing (WDM) based all work In the proposed