Development and testing of a novel all-optical signal regeneration technique

“…Because from source to the destination without any conversion of optical to electrical and electrical to optical (OEO) Conversion, the signal can be regenerated [16]. It has been reported that during the high-speed transmission of more than 10 Gb/s at long haul distances, the signal quality is lost and BER is increased that reduces the quality transmission and also degrade the Q-factor of the system [17,18]. Existing optical signal regenerator supports a limited data rate of 10 Gb/s with limited BER and Q-factor [19].…”

Phase Sensing Technology Based Optical Signal Regeneration for 40 Gb/s Optical System

“…Because from source to the destination without any conversion of optical to electrical and electrical to optical (OEO) Conversion, the signal can be regenerated [16]. It has been reported that during the high-speed transmission of more than 10 Gb/s at long haul distances, the signal quality is lost and BER is increased that reduces the quality transmission and also degrade the Q-factor of the system [17,18]. Existing optical signal regenerator supports a limited data rate of 10 Gb/s with limited BER and Q-factor [19].…”

Phase Sensing Technology Based Optical Signal Regeneration for 40 Gb/s Optical System

“…At the same time, for many researchers and students it is not affordable to buy the commercial software package [5]. The optical communication systems has utilized many techniques for designing the long haul communication [6][7][8][9][10][11]. These techniques include, erbium-doped fiber amplifiers (EDFAs) [7], On-off Keying (OOK) and optical-amplifier repeaters [12].…”

A Novel Noise Free Transmission Technique for Designing 100Gb/s Future Generation Optical Communication System