Optically addressed spatial light modulators based on the photoconductor: liquid crystal structures for real-time optical applications

Vladimirov, Fiodor L.; Pletneva, N. I.; Morichev, I. E.; Chaika, Aleksander N.

doi:10.1117/12.391946

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“…The networks may no longer be limited by transmission bandwidth, but rather by the processing capability of switchers, routers and multiplexers in the network. Switching technologies, based on electro-optical crystals [3], liquid-crystals [4], and other optical media [3] and devices [5] are developed to match the progresses of transmission technologies [6]. Optical implementations of all-optical packet switching nodes able to process IP packet/asynchronous transfer mode (ATM) cells have been reported [6].…”

Section: Introductionmentioning

confidence: 99%

An algebraic model for application of optical neuro-fuzzy systems to networking problems

Павлов

2001

Soft Computing

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Recent developments in architectures, devices, and protocols have dramatically increased the traf®c capacity of telecommunication networks. New control and management techniques are needed for the potential, by this progress promising, to be achieved. Soft computing (SC) is the approach that gives an attractive way to this goal. From the hardware point of view, the main problem is SC based methods are computationally expensive. Optics gives a reasonable alternative for purely electronic hardware. Our main interest in this paper is to establish connections between optics as a physical reality and fuzzy set theory as an abstract construction and develop a model of Fourier-holography set-up as a neuro-fuzzy system. We formulate an algebraic description of both geometrical and Fourier-approximations of optics by using t-norms based approach to take into consideration non-linearity of real optical devices and recording media. We design logic for both approximations. We consider Fourier-holography set-up as a neuro-fuzzy system. We present experimental realisation of General Modus Ponens rule and develop model of partial associations.

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Section: Introductionmentioning

confidence: 99%

An algebraic model for application of optical neuro-fuzzy systems to networking problems

Павлов

2001

Soft Computing

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Optically addressed spatial light modulators based on the photoconductor: liquid crystal structures for real-time optical applications

Cited by 1 publication

References 0 publications

An algebraic model for application of optical neuro-fuzzy systems to networking problems

An algebraic model for application of optical neuro-fuzzy systems to networking problems

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