2 × 10 Gbit/s–10 GHz Radio over Free Space Optics Transmission System Incorporating Mode Division Multiplexing of Hermite Gaussian Modes
-
Mehtab Singh
and
Jyoteesh Malhotra
Abstract
In this paper, we report the modeling and simulative investigation of a mode division multiplexing (MDM)-based Radio over Free space optics (RoFSO) transmission system. Two separate 10 Gbit/s–10 GHz information signals are transported successfully over 30 km link range using distinct Hermite Gaussian (HG) modes. Also, the decomposition of distinct modes at the receiver terminal has been reported in this work. Furthermore, the impact of different fog conditions and scintillation effect on the performance of the proposed link has also been discussed in this paper.
References
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© 2019 Walter de Gruyter GmbH, Berlin/Boston
Articles in the same Issue
- Frontmatter
- Amplifiers
- Effect of carrier (hole) temperature on performance of optical amplifiers quantum dot structure
- Devices
- 1 × 2 power splitter based on photonics crystals fibers
- Evolution of Adder and Subtractor Circuit Using Si3N4 Microring Resonator
- Fibers
- Different Photonic Crystal Fibers Configurations with the Key Solutions for the Optimization of Data Rates Transmission
- Networks
- Design and implementation of OLT switching function in 40/10G TDM-PON experimental system
- A parallel cross-connection recovery scheme for dual link failure in elastic optical networks
- A Brief Review on the Methods that Improve Optical Burst Switching Network Performance
- MBO-Based Bandwidth Allocation and Traffic Coloring Optimization in PON
- HMM-Based Secure Framework for Optical Fog Devices in the Optical Fog/Cloud Network
- Attack-Aware Dynamic Upstream Bandwidth Assignment Scheme for Passive Optical Network
- Systems
- 2 × 10 Gbit/s–10 GHz Radio over Free Space Optics Transmission System Incorporating Mode Division Multiplexing of Hermite Gaussian Modes
- Impact of Rayleigh-Distributed PAPR on the Performance of a Pre-Clipped DCO-OFDM System
- Suitability of FBG for Gain Flatness of 64 × 10 Gbps DWDM System Using Hybrid (EDFA+YDFA) Optical Amplifier in C + L Band up to 50 GHz (0.4 nm) Channel Spacing
- BER Performance Analysis of an Orthogonal FDM Free Space Optical Communication System with Homodyne Optical Receiver over Turbulent Atmospheric Channel
- Theory
- Numerical Analysis of Soliton Propagation in a Tapered Waveguide
- New Optical Codes Based on Construction of Parity Check Matrix of LDPC Codes
- Performance Analysis of 20 Gbit/s–40 GHz MDM-Ro-FSO Link Incorporating DPSK Modulation Scheme
Articles in the same Issue
- Frontmatter
- Amplifiers
- Effect of carrier (hole) temperature on performance of optical amplifiers quantum dot structure
- Devices
- 1 × 2 power splitter based on photonics crystals fibers
- Evolution of Adder and Subtractor Circuit Using Si3N4 Microring Resonator
- Fibers
- Different Photonic Crystal Fibers Configurations with the Key Solutions for the Optimization of Data Rates Transmission
- Networks
- Design and implementation of OLT switching function in 40/10G TDM-PON experimental system
- A parallel cross-connection recovery scheme for dual link failure in elastic optical networks
- A Brief Review on the Methods that Improve Optical Burst Switching Network Performance
- MBO-Based Bandwidth Allocation and Traffic Coloring Optimization in PON
- HMM-Based Secure Framework for Optical Fog Devices in the Optical Fog/Cloud Network
- Attack-Aware Dynamic Upstream Bandwidth Assignment Scheme for Passive Optical Network
- Systems
- 2 × 10 Gbit/s–10 GHz Radio over Free Space Optics Transmission System Incorporating Mode Division Multiplexing of Hermite Gaussian Modes
- Impact of Rayleigh-Distributed PAPR on the Performance of a Pre-Clipped DCO-OFDM System
- Suitability of FBG for Gain Flatness of 64 × 10 Gbps DWDM System Using Hybrid (EDFA+YDFA) Optical Amplifier in C + L Band up to 50 GHz (0.4 nm) Channel Spacing
- BER Performance Analysis of an Orthogonal FDM Free Space Optical Communication System with Homodyne Optical Receiver over Turbulent Atmospheric Channel
- Theory
- Numerical Analysis of Soliton Propagation in a Tapered Waveguide
- New Optical Codes Based on Construction of Parity Check Matrix of LDPC Codes
- Performance Analysis of 20 Gbit/s–40 GHz MDM-Ro-FSO Link Incorporating DPSK Modulation Scheme
