D.V. Plant McGill University / University Street / /
IndustryTerm
light trail mesh networks / all-optical networks / active photonic networks / fiber connection algorithm / filterless optical networks / optical line systems / software tool / active photonic solutions / large search space / photonic network solutions / filterless network / filterless optical network / active photonic switching solutions / wide area network / digital signal processing modules / optical switching network solutions / filterless optical network solutions / tabu search metaheuristic / active photonic switching solution / tabu search algorithms / optical multi-branch optical systems / active photonic network solutions / radio networks / given network / wavelength assignment algorithms / tunable transceiver technologies / optical networking / nearoptimal fiber tree solutions / filterless core networks / optical core networks / filterless solutions / amplified transmission systems / genetic algorithm / long multispan systems / filterless networks / electrical compensation technologies / filterless network solutions / fiber-tree solutions / Active photonic switching network solutions / network design tool / Genetic algorithms / active photonic solution / filterless network design tool / tabu search / filterless solution / filterless network solution / fiber tree solution / proposed network solutions / analytical tool / transparent optical networks / low latency applications / electronic dispersion compensation technologies / photonic device / multicast applications / typical light tree solutions / digital signal processing / filterless optical networking / feasible solutions / validated using the VPItransmissionMakerTM commercial software tool / /
Organization
McGill University / /
Person
É. Archambault Cégep régional de Lanaudière / Michel P. Bélanger / Émile Archambault / François Gagnon / Christine Tremblay / Jean-Philippe Savoie / René-Lévesque Est / Charles Sud / /
Position
VPI model of a wavelength division / WB / Author / /