[en] EFFICIENT TRANSPORT OF VIDEO CONTENT EMPLOYING FRAME AGGREGATION IN IEEE 802.11N / [pt] TRANSPORTE EFICIENTE DE CONTEÚDOS DE VÍDEO EMPREGANDO AGREGAÇÃO DE QUADROS PARA TRANSMISSÃO DE FLUXOS DE VÍDEO ESCALÁVEL EM REDES IEEE 802.11N

14 December 2021

[pt] Cada vez mais as redes locais sem fio conhecidas por WLAN estão presentes no meio em que vivemos, seja em nossas casas como em escritórios, aeroportos e outros locais públicos. Na busca de possibilitar que mais aplicações sejam viabilizadas pelas redes sem fio, tais como fluxos de vídeo, a qual requer uma maior largura de banda, o IEEE desenvolveu um novo padrão da família do 802.11, o IEEE 802.11n que é capaz de oferecer uma capacidade de transmissão significativamente maior que os padrões 802.11 anteriores. Em principio, o grande aumento de capacidade na camada física deveria ser suficiente para oferta de aplicações de multimídia, inclusive com vídeo em alta definição. Entretanto, a baixa eficiência da camada de controle de acesso ao meio (camada MAC) e de alguns protocolos da camada física poderiam restringir o uso de aplicações que necessitam de altas taxas de transmissão. Para resolver essa questão o padrão 802.11n contempla o recurso de agregação dos quadros que possui dois métodos distintos, A-MPDU (Aggregated MAC Protocol Data Unit) e A-MSDU (Aggregated MAC Service Data Unit). Neste trabalho foram realizadas simulações com sinais de vídeos reais e apresentados resultados que permitem comparar o desempenho destes métodos e avaliar se o uso de agregação permite efetivamente que o padrão 802.11n atenda os requisitos da transmissão de vídeo. Foram também sugeridos valores para os parâmetros da tecnologia 802.11n que permitem que um melhor desempenho seja alcançado. / [en] Wireless LANs are gradually playing an increasingly important role in our day-to-day life. It is common now to find them in airports, hotels, office buildings as well as in individual residences. Due to this success there was an effort at IEEE to develop a new standard that would allow new high data rate applications, such as video streaming, to be provided through a WiFi access point. This new standard added to the IEEE 802.11 family is known as IEEE 802.11n and it offers a significantly higher capacity physical layer. However, to derive the full benefits of this new very powerful physical layer it was necessary to improve the efficiency of the MAC layer as well as of some physical layer protocols. One of techniques included in the standard, to allow high bandwidth services with good quality, was frame aggregation. The 802.11n standard contemplates two forms of aggregation, namely: A-MPDU (Aggregated MAC Protocol Data Unit) and AMSDU (Aggregated MAC Service Data Unit). In this work, simulations were performed to evaluate the performance of both methods of aggregation when transporting real video signals. The objective was to verify whether 802.11n, with the use of aggregation, can indeed provide video and multimedia services with the required quality. We also suggest values for 802.11n system parameters that provide improved performance.

[pt] SIMULACAO

[pt] NS2

[pt] VIDEO ESCALAVEL

[pt] A-MPDU

[pt] A-MSDU

[pt] AGREGACAO DE QUADROS

[pt] 802 11N

[pt] IEEE

[pt] TRANSMISSAO DE VIDEO

[en] SIMULATION

[en] NS2

[en] VIDEO SCALABLE

[en] A-MPDU

[en] A-MSDU

[en] FRAME AGGREGATION

[en] 802 11N

[en] IEEE

[en] TRANSMISSION OF VIDEO

Implementation of the IEEE 802.11a MAC layer in C language / Implementering av IEEE 802.11a MAC lagret i programspråket C

Portales, Maria

January 2004

<p>There are several standards for wireless communication. People that are involved in computers and networking recognize names like Bluetooth, HiperLAN and IEEE 802.11. The last one was standardized in 1997 [2,6]and has begun to reach acceptance as a solid ground for wireless networking. A fundamental part of an IEEE 802.11 node is the Medium Access Controller, or MAC. It establishes and controls communication with other nodes, using a physical layer unit. </p><p>The work has been carried out as final project at Linkopings Universitet, it has been about the improvement of the functions of MAC layer. I have developed some of the required functions that PUM uses to interact with the MAC layer. Because of that, I have implemented the Reception functions of MAC layer, having the possibility of using short control frames RTS/CTS to minimize collision.</p>

Electronics

ACK

AP

CSMA/CA

CTS

CW

DCF

DIFS

EIFS

IEEE

LAN

LLC

MAC

MACA

MMPDU

MPDU

MSDU

NAV

PDU

PHY

PIFS

PUM

RTS

SIFS

STA

WEP

WLAN,

Elektronik

Electronics

Elektronik

Implementation of the IEEE 802.11a MAC layer in C language / Implementering av IEEE 802.11a MAC lagret i programspråket C

Portales, Maria

January 2004

There are several standards for wireless communication. People that are involved in computers and networking recognize names like Bluetooth, HiperLAN and IEEE 802.11. The last one was standardized in 1997 [2,6]and has begun to reach acceptance as a solid ground for wireless networking. A fundamental part of an IEEE 802.11 node is the Medium Access Controller, or MAC. It establishes and controls communication with other nodes, using a physical layer unit. The work has been carried out as final project at Linkopings Universitet, it has been about the improvement of the functions of MAC layer. I have developed some of the required functions that PUM uses to interact with the MAC layer. Because of that, I have implemented the Reception functions of MAC layer, having the possibility of using short control frames RTS/CTS to minimize collision.

Electronics

ACK

AP

CSMA/CA

CTS

CW

DCF

DIFS

EIFS

IEEE

LAN

LLC

MAC

MACA

MMPDU

MPDU

MSDU

NAV

PDU

PHY

PIFS

PUM

RTS

SIFS

STA

WEP

WLAN,

Elektronik

Electronics

Elektronik