Performance Evaluation of MRC Systems Over Sub-Terahertz MFTR Fading Channels

Nathaly Orozco Garzon; Henry Carvajal Mora; Fernando Almeida Garcia; Jose Vega-Sanchez; Diana Moya Osorio

doi:10.1109/LCOMM.2024.3455798

Performance Evaluation of MRC Systems Over Sub-Terahertz MFTR Fading Channels

Nathaly Orozco Garzon
, Henry Carvajal Mora^*
, Fernando Almeida Garcia
, Jose Vega-Sanchez
, Diana Moya Osorio

^*Autor correspondiente de este trabajo

Ingeniería en Ciencias de la Computación

Universidad de las Americas - Ecuador
Harvard University
Linköping University

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

Resumen

We analyze the outage probability (OP), ergodic capacity (EC), and average bit error probability (ABEP) of L-branch diversity systems using maximal-ratio-combining (MRC) over Multi-cluster-Fluctuating-Two-Ray (MFTR) fading channels, a model well-suited for sub-terahertz bands. We derive exact OP, EC, and ABEP expressions. For this latter metric, we assume M-ary quadrature amplitude modulation (M-QAM), and we also perform its asymptotic analysis to obtain the coding gain and diversity order. Unlike previous works for simpler fading models, our expressions retain consistent complexity regardless of the number of MRC branches and depend on functions available in standard mathematical software. The results show that coding gain relies on fading distribution parameters, L, and M. Meanwhile, diversity order is determined by multiplying L with the number of multipath clusters in the MFTR model.

Idioma original	Inglés
Páginas (desde-hasta)	2422-2426
Número de páginas	5
Publicación	IEEE Communications Letters
Volumen	28
N.º	10
DOI	https://doi.org/10.1109/LCOMM.2024.3455798
Estado	Publicada - 2024

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title = "Performance Evaluation of MRC Systems Over Sub-Terahertz MFTR Fading Channels",

abstract = "We analyze the outage probability (OP), ergodic capacity (EC), and average bit error probability (ABEP) of L-branch diversity systems using maximal-ratio-combining (MRC) over Multi-cluster-Fluctuating-Two-Ray (MFTR) fading channels, a model well-suited for sub-terahertz bands. We derive exact OP, EC, and ABEP expressions. For this latter metric, we assume M-ary quadrature amplitude modulation (M-QAM), and we also perform its asymptotic analysis to obtain the coding gain and diversity order. Unlike previous works for simpler fading models, our expressions retain consistent complexity regardless of the number of MRC branches and depend on functions available in standard mathematical software. The results show that coding gain relies on fading distribution parameters, L, and M. Meanwhile, diversity order is determined by multiplying L with the number of multipath clusters in the MFTR model.",

keywords = "MFTR fading, bit-error-probability, maximal-ratio-combining, sub-THz communications",

author = "Garzon, \{Nathaly Orozco\} and Mora, \{Henry Carvajal\} and Garcia, \{Fernando Almeida\} and Jose Vega-Sanchez and Osorio, \{Diana Moya\}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.",

year = "2024",

doi = "10.1109/LCOMM.2024.3455798",

language = "Ingl{\'e}s",

volume = "28",

pages = "2422--2426",

journal = "IEEE Communications Letters",

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TY - JOUR

T1 - Performance Evaluation of MRC Systems Over Sub-Terahertz MFTR Fading Channels

AU - Garzon, Nathaly Orozco

AU - Mora, Henry Carvajal

AU - Garcia, Fernando Almeida

AU - Vega-Sanchez, Jose

AU - Osorio, Diana Moya

PY - 2024

Y1 - 2024

N2 - We analyze the outage probability (OP), ergodic capacity (EC), and average bit error probability (ABEP) of L-branch diversity systems using maximal-ratio-combining (MRC) over Multi-cluster-Fluctuating-Two-Ray (MFTR) fading channels, a model well-suited for sub-terahertz bands. We derive exact OP, EC, and ABEP expressions. For this latter metric, we assume M-ary quadrature amplitude modulation (M-QAM), and we also perform its asymptotic analysis to obtain the coding gain and diversity order. Unlike previous works for simpler fading models, our expressions retain consistent complexity regardless of the number of MRC branches and depend on functions available in standard mathematical software. The results show that coding gain relies on fading distribution parameters, L, and M. Meanwhile, diversity order is determined by multiplying L with the number of multipath clusters in the MFTR model.

AB - We analyze the outage probability (OP), ergodic capacity (EC), and average bit error probability (ABEP) of L-branch diversity systems using maximal-ratio-combining (MRC) over Multi-cluster-Fluctuating-Two-Ray (MFTR) fading channels, a model well-suited for sub-terahertz bands. We derive exact OP, EC, and ABEP expressions. For this latter metric, we assume M-ary quadrature amplitude modulation (M-QAM), and we also perform its asymptotic analysis to obtain the coding gain and diversity order. Unlike previous works for simpler fading models, our expressions retain consistent complexity regardless of the number of MRC branches and depend on functions available in standard mathematical software. The results show that coding gain relies on fading distribution parameters, L, and M. Meanwhile, diversity order is determined by multiplying L with the number of multipath clusters in the MFTR model.

KW - MFTR fading

KW - bit-error-probability

KW - maximal-ratio-combining

KW - sub-THz communications

UR - https://www.scopus.com/pages/publications/85203501682

U2 - 10.1109/LCOMM.2024.3455798

DO - 10.1109/LCOMM.2024.3455798

M3 - Artículo

AN - SCOPUS:85203501682

SN - 1089-7798

VL - 28

SP - 2422

EP - 2426

JO - IEEE Communications Letters

JF - IEEE Communications Letters

IS - 10

ER -

Performance Evaluation of MRC Systems Over Sub-Terahertz MFTR Fading Channels

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