Abstract
We propose packet-selective photonic add/drop multiplexing (P-ADM), which can determine the source and destination addresses in the packet header based upon optical code correlation and its novel application to ultrahigh-speed optical data networking in LAN and MAN. It is distinct from conventional wavelength ADM (λ-ADM) having the wavelength granularity, in that P-ADM provides a packet granularity by individually handling optical packets on a single wavelength. As an application of P-ADM to optical data networking, a rate-controlled asynchronous access is studied, and the performance analysis and numerical examples are presented. The optical implementation of P-ADM is also presented, in which the photonic label selector, structured with a fiber Bragg grating (FBG), is a key to the ultrahigh-speed processing capability up to a few tens of Gpps (packet per second).
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Kitayama, Ki., Murata, M. (2002). Packet-selective photonic add/drop multiplexer and its application to ultrahigh-speed optical data networkings in LAN and MAN. In: Jukan, A. (eds) Towards an Optical Internet. ONDM 2001. IFIP Advances in Information and Communication Technology, vol 76. Springer, New York, NY. https://doi.org/10.1007/978-0-387-35491-0_11
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