Vedran Batoš scite author profile

Vedran Batoš

5Publications

16Citation Statements Received

98Citation Statements Given

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University of Dubrovnik

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Extending OTDR Distance Span by External Front-End Optical Preamplifier

Lipovac

Hamza

et al. 2021

Electronics

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Optical time-domain reflectometer (OTDR) is used to characterize fiber optic links by identifying and localizing various refractive and reflective events such as breaks, splices, and connectors, and measuring insertion/return loss and fiber length. Essentially, OTDR inserts a pulsed signal into the fiber, from which a small portion that is commonly referred to as Rayleigh backscatter, is continuously reflected back with appropriate delays of the reflections expressed as the power loss versus distance, by conveniently scaling the time axis. Specifically, for long-distance events visibility and measurement accuracy, the crucial OTDR attribute is dynamic range, which determines how far downstream the fiber can the strongest transmitted optical pulse reach. As many older-generation but still operable OTDR units have insufficient dynamic range to test the far-end of longer fibers, we propose a simple and cost-effective solution to reactivate such an OTDR by inserting a low-noise high-gain optical preamplifier in front of it to lower the noise figure and thereby the noise floor. Accordingly, we developed an appropriate dynamic range and distance span extension model which provided the exemplar prediction values of 30 dB and 75 km, respectively, for the fiber under test at 1550 nm. These values were found to closely match the dynamic range and distance span extensions obtained for the same values of the relevant parameters of interest by the preliminary practical OTDR measurements conducted with the front-end EDFA optical amplifier, relative to the measurements with the OTDR alone. This preliminary verifies that the proposed concept enables a significantly longer distance span than the OTDR alone. We believe that the preliminary results reported here could serve as a hint and a framework for a more comprehensive test strategy in terms of both test diversification and repeating rate, which can be implemented in a network operator environment or professional lab.

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Testing TCP Traffic Congestion by Distributed Protocol Analysis and Statistical Modelling

Lipovac¹,

Batoš²,

Nemsic³

2012

PROMET

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Integrated Dual-Display-Based 3G Mobile Phone / Wireless Terminal

Lipovac

Majer²,

Batoš

2009

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Testing traffic congestion by distributed protocol analysis

Lipovac

Batoš

Nemsic³

2010

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Optical OFDM Error Floor Estimation by Means of OTDR Enhanced by Front-End Optical Preamplifier

Lipovac

Hamza

et al. 2021

Sensors

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Optical time-domain reflectometer (OTDR) enables simple identification and localization of a plethora of refractive and reflective events on a fiber link, including splices, connectors and breaks, and measuring insertion/return loss. Specifically, large enough OTDR dynamic range (DR) and thus high signal-to-noise-ratio (SNR) enable clear far-end visibility of longer fibers. We point out here that, under such conditions, the optical bit-error-rate (BER) floor is dominantly determined by reflective events that introduce significant return loss. This complements the OTDR legacy tests by appropriate optical BER floor estimation in the field. As high SNR implies inter-symbol interference as dominating error generating mechanism, we could apply the classical time-dispersion channel model for the optical BER floor determined by the root-mean-square (rms) delay spread of the actual fiber channel power-delay profile. However, as the high-SNR condition is not always fulfilled mostly due to insufficient DR, we propose here inserting a low-noise optical preamplifier as the OTDR front-end to reduce noise floor and amplify the backscattered signal. In order to verify the model for the exemplar test situation, we measured BER on the same fiber link to find very good matching between the measured BER floor values and the ones predicted from the OTDR trace.

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Vedran Batoš

Extending OTDR Distance Span by External Front-End Optical Preamplifier

Testing TCP Traffic Congestion by Distributed Protocol Analysis and Statistical Modelling

Integrated Dual-Display-Based 3G Mobile Phone / Wireless Terminal

Testing traffic congestion by distributed protocol analysis

Optical OFDM Error Floor Estimation by Means of OTDR Enhanced by Front-End Optical Preamplifier

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