15:40 - 15:55
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Paper No. 2015-SAT-S0205-O001
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Hung-Hsien Lin
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A Hybrid Lightwave Transmission System Based on SMF and VCSEL-Based VLLC Convergence
A single-mode fiber and vertical cavity surface emitting laser-based visible laser light communication (VLLC) convergence hybrid lightwave transmission system with light injection and optoelectronic feedback techniques is proposed and demonstrated. This study is the first to apply light injection and optoelectronic feedback techniques in SMF and VLLC convergence lightwave transmission systems.
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15:55 - 16:10
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Paper No. 2015-SAT-S0205-O002
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Ting-Chieh Lu
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A 10 m/25 Gbps LiFi Transmission System
A 10 m/25 Gbps light-based WiFi (LiFi) transmission system based on a two-stage injection-locked 680 nm vertical-cavity surface-emitting laser (VCSEL) transmitter is proposed. A LiFi transmission system with a data rate of 25 Gbps is experimentally demonstrated over a 10-m free-space link.
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16:10 - 16:25
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Paper No. 2015-SAT-S0205-O003
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Yao-Zhong Dong
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Radio Frequency Signal Stability of the Monolithic Two-Section Distributed Feedback Laser
The frequency stability of the discrete system and monolithic system are examined. The frequency drift of RF signal is five times less in monolithic system design case than that of discrete system.
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16:25 - 16:40
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Paper No. 2015-SAT-S0205-O004
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Ching-Hung Chang
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Hybrid Wired and Wireless Transport Systems Based on Optical Wavelength Reuse Technique
Hybrid wired and wireless transport systems based on optical wavelength reuse technique is proposed and demonstrated experimentally. It transport an orthogonal frequency-division multiplexing (OFDM) and a radio frequency (RF) signals in a single optical carrier. The performance of this system is confirmed by low bit error rate (BER) values and clear eye and consternation diagrams.
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16:40 - 16:55
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Paper No. 2015-SAT-S0205-O005
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Lin Chi Hsiang
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Simple 2x2 MIMO OFDM RoF System at V-band Based on Single DP-MZM
We propose a 2x2 MIMO OFDM RoF scheme using optical subcarrier multiplexing and 60-GHz MIMO wireless transmission. 61.5-Gbits/s OFDM signals with BER of 10-3 can be achieved over 25-km fiber and 3-m wireless transmission.
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