DPSK based low cost radio over fiber system for communication

The field of radio communication always demands high data rate, large bandwidth, low Bit Error Rate and flexible adaptability to different technologies. The Radio Over Fiber (ROF) technology in which the modulated radio frequency signals are optically modulated and transported through the optical fibers, largely reduce the installation costs and complexity. The present work describes a low-cost DPSK based full duplex two channel ROF communication system between a central station and two base stations in which the optical carrier frequency in the downlink is recovered and reused in the uplink communication.

[1]  Gerardo Castañón,et al.  Millimeter-Wave Frequency Radio over Fiber Systems: A Survey , 2013, IEEE Communications Surveys & Tutorials.

[2]  Wenjia Zhang,et al.  40-Gb/s DPSK Data Transmission Through a Silicon Microring Switch , 2012, IEEE Photonics Technology Letters.

[3]  Zabih Ghassemlooy,et al.  24-26  GHz radio-over-fiber and free-space optics for fifth-generation systems. , 2018, Optics letters.

[4]  Nirwan Ansari,et al.  RADIATE: radio over fiber as an antenna extender for high-speed train communications , 2015, IEEE Wireless Communications.

[5]  Yan Yan,et al.  Recent advances in high-capacity free-space optical and radio-frequency communications using orbital angular momentum multiplexing , 2017, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[6]  Lajos Hanzo,et al.  Millimeter-Wave Radio Over Fiber Optical Upconversion Techniques Relying on Link Nonlinearity , 2016, IEEE Communications Surveys & Tutorials.

[7]  R. Pradeep,et al.  A full duplex radio over fiber system using fiber Bragg grating filter , 2014, 2014 First International Conference on Computational Systems and Communications (ICCSC).

[8]  Sang-Kook Han,et al.  A novel hybrid WDM/SCM-PON sharing wavelength for up- and down-link using reflective semiconductor optical amplifier , 2006, IEEE Photonics Technology Letters.

[9]  E.L. Wooten,et al.  A review of lithium niobate modulators for fiber-optic communications systems , 2000, IEEE Journal of Selected Topics in Quantum Electronics.

[10]  Hai-Han Lu,et al.  A Full-Duplex Radio-Over-Fiber Transport System Based on FP Laser Diode With OBPF and Optical Circulator With Fiber Bragg Grating , 2007 .

[11]  Nathan J Gomes,et al.  Radio Over Fiber Link Design for Next Generation Wireless Systems , 2010, Journal of Lightwave Technology.

[12]  Chun-Ting Lin,et al.  W-band OFDM Radio-over-Fiber system with power detector for vector signal down-conversion. , 2015, Optics letters.

[13]  S. M. Idrus,et al.  An overview of radio-over-fiber network technology , 2010, International Conference On Photonics 2010.

[14]  Lajos Hanzo,et al.  Performance Improvement and Cost Reduction Techniques for Radio Over Fiber Communications , 2015, IEEE Communications Surveys & Tutorials.

[15]  Haymen Shams,et al.  Experimental demonstration of multi-Gbps multi sub-bands FBMC transmission in mm-wave radio over a fiber system. , 2018, Optics express.

[16]  D. Novak,et al.  Radio-Over-Fiber Technologies for Emerging Wireless Systems , 2016, IEEE Journal of Quantum Electronics.