Increasing Achievable Information Rates via Geometric Shaping

04/24/2018

∙

Achievable information rates are used as a metric to design novel modulation formats via geometric shaping. The proposed geometrically shaped 256-ary constellation achieves SNR gains of up to 1.18 dB.

READ FULL TEXT

Increasing Achievable Information Rates via Geometric Shaping

Experiments on Bipolar Transmission with Direct Detection

PAM-6 Coded Modulation for IM/DD Channels with a Peak-Power Constraint

Simple Closed-Form Approximations for Achievable Information Rates of Coded Modulation Systems

Achievable Sum-rate of variants of QAM over Gaussian Multiple Access Channel with and without security

High-Speed Molecular Communication in Vacuum

Theoretical Limits of Backscatter Communications

Regular Perturbation and Achievable Rates of Space-Division Multiplexed Optical Channels

Increasing Achievable Information Rates via Geometric Shaping

Related Research

Experiments on Bipolar Transmission with Direct Detection

PAM-6 Coded Modulation for IM/DD Channels with a Peak-Power Constraint

Simple Closed-Form Approximations for Achievable Information Rates of Coded Modulation Systems

Achievable Sum-rate of variants of QAM over Gaussian Multiple Access Channel with and without security

High-Speed Molecular Communication in Vacuum

Theoretical Limits of Backscatter Communications

Regular Perturbation and Achievable Rates of Space-Division Multiplexed Optical Channels