Add to ORKGThis paper presents design methods for highly efficient optimisation of geometrically shaped constellations to maximise data throughput in optical communications. It describes methods to analytically calculate the information-theoretical loss and the gradient of this loss as a function of the input constellation shape. The gradients of the \ac{MI} and \ac{GMI} are critical to the optimisation of geometrically-shaped constellations. It presents the analytical derivative of the achievable information rate metrics with respect to the input constellation. The proposed method allows for improved design of higher cardinality and higher-dimensional constellations for optimising both linear and nonlinear fibre transmission throughput. Nea...
The autoencoder concept for geometric constellation shaping is discussed. Applications in coherent o...
We experimentally demonstrate a multidimensional global optical spectral shaping optimization based ...
We propose Huffman-coded sphere shaping (HCSS) as a method for probabilistic constellation shaping w...
This paper presents design methods for highly efficient optimisation of geometrically shaped constel...
This paper presents design methods for highly efficient optimisation of geometrically shaped constel...
Constellation shaping is a practical and effective technique to improve the performance and the rate...
End-to-end learning has become a popular method to optimize a constellation shape of a communication...
This paper presents a modified soft-decoding strategy, which improves performance in the presence of...
We introduce a simplified method for calculating the loss function for use in geometric shaping, all...
The increasing demand for higher data rates is driving the adoption of high-spectral-efficiency (SE)...
Voronoi constellations (VCs) are considered as an effective geometric shaping method due to their hi...
Constellation shaping is a practical and effective technique to improve the performance and the rate...
In this article, we experimentally demonstrate the combined benefit of artificial neural network-bas...
Optimised constellation for the paper High-Cardinality Geometrical Constellation Shaping for the Non...
The autoencoder concept for geometric constellation shaping is discussed. Applications in coherent o...
We experimentally demonstrate a multidimensional global optical spectral shaping optimization based ...
We propose Huffman-coded sphere shaping (HCSS) as a method for probabilistic constellation shaping w...
This paper presents design methods for highly efficient optimisation of geometrically shaped constel...
This paper presents design methods for highly efficient optimisation of geometrically shaped constel...
Constellation shaping is a practical and effective technique to improve the performance and the rate...
End-to-end learning has become a popular method to optimize a constellation shape of a communication...
This paper presents a modified soft-decoding strategy, which improves performance in the presence of...
We introduce a simplified method for calculating the loss function for use in geometric shaping, all...
The increasing demand for higher data rates is driving the adoption of high-spectral-efficiency (SE)...
Voronoi constellations (VCs) are considered as an effective geometric shaping method due to their hi...
Constellation shaping is a practical and effective technique to improve the performance and the rate...
In this article, we experimentally demonstrate the combined benefit of artificial neural network-bas...
Optimised constellation for the paper High-Cardinality Geometrical Constellation Shaping for the Non...
The autoencoder concept for geometric constellation shaping is discussed. Applications in coherent o...
We experimentally demonstrate a multidimensional global optical spectral shaping optimization based ...
We propose Huffman-coded sphere shaping (HCSS) as a method for probabilistic constellation shaping w...