The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Os protocolos MAC orientados por CSMA/CA retêm transmissões de pacotes de estações expostas quando detectam sinal da portadora acima de um determinado limite. Isto é para evitar colisões em outras estações receptoras. No entanto, este esquema conservador muitas vezes expõe muitas estações desnecessariamente e, assim, minimiza a utilização do recurso espectral espacial. Neste artigo, demonstramos que a estimativa remota do status nos receptores ativos é mais eficaz para evitar colisões em redes sem fio do que a detecção da portadora. Aplicamos um novo conceito de faixa de interferência, denominado n- faixa de interferência tolerante, para garantir comunicações confiáveis na presença de n (n≥ 0) transmissões simultâneas de fora da faixa. Nós projetamos um distribuído preventivo de interferência MAC (IP-MAC) usando o nfaixa de interferência tolerante que permite acessos paralelos das estações não interferentes para uma comunicação ativa. No IP-MAC, uma estação exposta passa por uma Verificação de Potencialidade de Interferência (IPC) para determinar se está potencialmente interferindo ou não na comunicação ativa. Durante a operação de resolução, o IPC leva em consideração o efeito de captura em um receptor ativo com sinais de interferência de uma série de possíveis transmissões simultâneas próximas a esse receptor. A melhoria de desempenho oferecida pelo IP-MAC é estudada através de simulações em diferentes ambientes. Os resultados revelam que o IP-MAC melhora significativamente o desempenho da rede em termos de rendimento e atraso.
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Md. Mustafizur RAHMAN, Choong Seon HONG, Sungwon LEE, JangYeon LEE, Jin Woong CHO, "IP-MAC: A Distributed MAC for Spatial Reuse in Wireless Networks" in IEICE TRANSACTIONS on Communications,
vol. E93-B, no. 6, pp. 1534-1546, June 2010, doi: 10.1587/transcom.E93.B.1534.
Abstract: The CSMA/CA driven MAC protocols withhold packet transmissions from exposed stations when they detect carrier signal above a certain threshold. This is to avoid collisions at other receiving stations. However, this conservative scheme often exposes many stations unnecessarily, and thus minimizes the utilization of the spatial spectral resource. In this paper, we demonstrate that remote estimation of the status at the active receivers is more effective at avoiding collisions in wireless networks than the carrier sensing. We apply a new concept of the interference range, named as n-tolerant interference range, to guarantee reliable communications in the presence of n (n≥ 0) concurrent transmissions from outside the range. We design a distributed interference preventive MAC ( IP-MAC ) using the n-tolerant interference range that enables parallel accesses from the noninterfering stations for an active communication. In IP-MAC, an exposed station goes through an Interference Potentiality Check (IPC) to resolve whether it is potentially interfering or noninterfering to the active communication. During the resolve operation, IPC takes the capture effect at an active receiver into account with interfering signals from a number of possible concurrent transmissions near that receiver. The performance enhancement offered by IP-MAC is studied via simulations in different environments. Results reveal that IP-MAC significantly improves network performance in terms of throughput and delay.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.E93.B.1534/_p
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@ARTICLE{e93-b_6_1534,
author={Md. Mustafizur RAHMAN, Choong Seon HONG, Sungwon LEE, JangYeon LEE, Jin Woong CHO, },
journal={IEICE TRANSACTIONS on Communications},
title={IP-MAC: A Distributed MAC for Spatial Reuse in Wireless Networks},
year={2010},
volume={E93-B},
number={6},
pages={1534-1546},
abstract={The CSMA/CA driven MAC protocols withhold packet transmissions from exposed stations when they detect carrier signal above a certain threshold. This is to avoid collisions at other receiving stations. However, this conservative scheme often exposes many stations unnecessarily, and thus minimizes the utilization of the spatial spectral resource. In this paper, we demonstrate that remote estimation of the status at the active receivers is more effective at avoiding collisions in wireless networks than the carrier sensing. We apply a new concept of the interference range, named as n-tolerant interference range, to guarantee reliable communications in the presence of n (n≥ 0) concurrent transmissions from outside the range. We design a distributed interference preventive MAC ( IP-MAC ) using the n-tolerant interference range that enables parallel accesses from the noninterfering stations for an active communication. In IP-MAC, an exposed station goes through an Interference Potentiality Check (IPC) to resolve whether it is potentially interfering or noninterfering to the active communication. During the resolve operation, IPC takes the capture effect at an active receiver into account with interfering signals from a number of possible concurrent transmissions near that receiver. The performance enhancement offered by IP-MAC is studied via simulations in different environments. Results reveal that IP-MAC significantly improves network performance in terms of throughput and delay.},
keywords={},
doi={10.1587/transcom.E93.B.1534},
ISSN={1745-1345},
month={June},}
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TY - JOUR
TI - IP-MAC: A Distributed MAC for Spatial Reuse in Wireless Networks
T2 - IEICE TRANSACTIONS on Communications
SP - 1534
EP - 1546
AU - Md. Mustafizur RAHMAN
AU - Choong Seon HONG
AU - Sungwon LEE
AU - JangYeon LEE
AU - Jin Woong CHO
PY - 2010
DO - 10.1587/transcom.E93.B.1534
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E93-B
IS - 6
JA - IEICE TRANSACTIONS on Communications
Y1 - June 2010
AB - The CSMA/CA driven MAC protocols withhold packet transmissions from exposed stations when they detect carrier signal above a certain threshold. This is to avoid collisions at other receiving stations. However, this conservative scheme often exposes many stations unnecessarily, and thus minimizes the utilization of the spatial spectral resource. In this paper, we demonstrate that remote estimation of the status at the active receivers is more effective at avoiding collisions in wireless networks than the carrier sensing. We apply a new concept of the interference range, named as n-tolerant interference range, to guarantee reliable communications in the presence of n (n≥ 0) concurrent transmissions from outside the range. We design a distributed interference preventive MAC ( IP-MAC ) using the n-tolerant interference range that enables parallel accesses from the noninterfering stations for an active communication. In IP-MAC, an exposed station goes through an Interference Potentiality Check (IPC) to resolve whether it is potentially interfering or noninterfering to the active communication. During the resolve operation, IPC takes the capture effect at an active receiver into account with interfering signals from a number of possible concurrent transmissions near that receiver. The performance enhancement offered by IP-MAC is studied via simulations in different environments. Results reveal that IP-MAC significantly improves network performance in terms of throughput and delay.
ER -