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Main Authors: Sukhsagar, Kumar, Nagendra, Mishra, Ambuj Kumar, Bhatia, Vimal, Krejcar, Ondrej
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.11224
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author Sukhsagar
Kumar, Nagendra
Mishra, Ambuj Kumar
Bhatia, Vimal
Krejcar, Ondrej
author_facet Sukhsagar
Kumar, Nagendra
Mishra, Ambuj Kumar
Bhatia, Vimal
Krejcar, Ondrej
contents This paper proposes a simple and effective method for constructing higher-order three-dimensional (3D) signal constellations, aiming to enhance the reliability of digital communication systems. The approach systematically extends the conventional two-dimensional hexagonal quadrature amplitude modulation (2D-HQAM) constellation into a 3D-HQAM signal space, forming structured lattice configurations. To address the increased decision complexity resulting from a larger number of constellation points, a dimension reduction (DR) technique is introduced, allowing the derivation of closed-form symbol error probability (SEP) expressions under additive white Gaussian noise (AWGN) conditions. Theoretical SEPs closely match simulation results, validating the accuracy of the proposed method. The minimum Euclidean distance (MED) of the 3D constellations shows a minimum increase of 12.14% over 2D constellation for 8-HQAM, reaching up to 160.81% for 1024-HQAM constellations. This significant improvement in MED leads to enhanced error performance. Therefore, the proposed 3D constellations are promising candidates for high-quality and reliable next-generation digital communication systems.
format Preprint
id arxiv_https___arxiv_org_abs_2511_11224
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle 3D-HQAM Constellation Design and Performance Evaluation under AWGN
Sukhsagar
Kumar, Nagendra
Mishra, Ambuj Kumar
Bhatia, Vimal
Krejcar, Ondrej
Signal Processing
This paper proposes a simple and effective method for constructing higher-order three-dimensional (3D) signal constellations, aiming to enhance the reliability of digital communication systems. The approach systematically extends the conventional two-dimensional hexagonal quadrature amplitude modulation (2D-HQAM) constellation into a 3D-HQAM signal space, forming structured lattice configurations. To address the increased decision complexity resulting from a larger number of constellation points, a dimension reduction (DR) technique is introduced, allowing the derivation of closed-form symbol error probability (SEP) expressions under additive white Gaussian noise (AWGN) conditions. Theoretical SEPs closely match simulation results, validating the accuracy of the proposed method. The minimum Euclidean distance (MED) of the 3D constellations shows a minimum increase of 12.14% over 2D constellation for 8-HQAM, reaching up to 160.81% for 1024-HQAM constellations. This significant improvement in MED leads to enhanced error performance. Therefore, the proposed 3D constellations are promising candidates for high-quality and reliable next-generation digital communication systems.
title 3D-HQAM Constellation Design and Performance Evaluation under AWGN
topic Signal Processing
url https://arxiv.org/abs/2511.11224