M. Yamashita scite author profile

Wavelength-division multiplexing (WDM) technology is considered to have great potential for use in such optical networks as optical crossconnect systems and optical add-drop multiplexing (ADM) systems."' But the issue of monitoring (to ensure effective system maintenance in the practical operation of such networks) has yet to be fully resolved. Specifically, while effective monitoring is available for the regenerators SDH/SONET Regenerator A 1 EDFA Repeater Tho2 Fig. 1. Supervision and control for SDH/SONET regenerator and EDFA repeater. SDH synchronous digital hierarchy; SONET: synchronous optical network; O/E optical-electrical converter; RST regenerator section termination; E/O: electrical-optical converter; OA&M: operation, administration and maintenance; EDFA erbium-doped fiber amplifier; SNR signal-to-noise ratio.used in SDH/SONET system^,^ the only available performance monitors for Er-doped fiber amplifiers (EDFAs) in WDM systems are spectrum analyzers, which are neither fast nor reliable enough. And just as the monitoring of bit errors is important for guaranteeing quality in SDH/ SONET systems, so signal-to-noise ratio (SNR) is important to EDFA monitoring in WDM systems.Tn this paper, we present an optical performance monitor that employs an acousto-optic tunable filter (AOTF), which has previously been utilized as a wavelength channel counter for per-channel output power control in an EDFA repeater? This monitor, which features low cost, high reliability, and high-speed operations, can detect SNRs, output levels per channel, and the number of channels, information which can be used in the supervision and control of EDFA repeaters. Figure 2 shows the optical performance monitor, which employs a polarization-independent AOTF that operates over a wide tunable wavelength range (>110 nm), with a high extinction ratio (>15 dB). The AOTF is driven by pulses ranging in frequencyfrom 172-178 MHz (from Tho2 Fig. 2. Optical performance monitor built-in EDFA repeater. EDFA erbium-doped fiber amplifier; AOTF: acousto-optic tunable filter; PD: photo diode; S(xi): signal power of channel A, ; total power; PXi-bar: channel Xi removed power; N: noise power. 2 -40 -30 -20 -1 0 EDFA Input Power per Channel :Pin [dBm] Tho2 Fig. 3. Experimental setup and results. AWG: arrayed wave guide; LN Mod: LiNb03 external modulator; ATT: optical attenuator; EDFA erbiumdoped fiber amplifier; Pin: EDFA input power per channel; Rx: optical receiver.

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640 Gb/s WDM transmission over 400 km of dispersion-shifted fiber using 1.58 μm band and initial chirp optimization

Yano

Yamashita²,

Suzaki³

et al.

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Femtosecond Response, Highly Nonlinear Pb-doped Glass Single-mode Fiber

Suemura

Ohtani²,

Morita³

et al.

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<title>Optical video transport/distribution system with video-on-demand service</title>

Yamashita

Tsuchiya

1992

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A cost-effective nthcd of rriltip1exing, trannitting and selecting cptical video signals is proposed and demonstrated by using appropriate combinations of bi-directional optical trunk-amplifiers , rredium-density Wt14 aixl optical space switching techniques for rapid costeffective construction. This paper describes the major factors affecting optical video transrx,rt I distrilxtticn systn design.In particular , a thing typa optical locp-shaped trunk section netrk is proposed fran the viewpoint of system reliability, probability of call-loss and UB_ISJJ with analog overlay".

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M. Yamashita

Re-configurable 1:N protection system in an optical cross-connect network using branch state of a LiNbO/sub 3/ optical switch

Optical performance monitor built into EDFA repeaters for WDM networks

640 Gb/s WDM transmission over 400 km of dispersion-shifted fiber using 1.58 μm band and initial chirp optimization

Femtosecond Response, Highly Nonlinear Pb-doped Glass Single-mode Fiber

<title>Optical video transport/distribution system with video-on-demand service</title>

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