4 research outputs found
Recommended from our members
Packetized-voice/data integrated transmission on a token passing ring local area network
This paper investigates the performance of a token passing ring network with packetized-voice/data mixed traffic through extensive simulations. Both data and voice users are modeled in the simulations. Data users produce bursty traffic. Voice traffic is modeled as having alternating talkspurts and silences, with generation of voice packets at a constant rate during talkspurts and no packet generation during silence periods.The network performance measures obtained include: the distribution of transmission delays for voice packets, the average transmission delay and loss probabilities for voice packets, the number of voice users allowed on a network while satisfying the real-time constraints of speech, and the average transmission delay for data packets.Token passing ring local area networks are shown to effectively handle both voice and data traffic. The effects of system parameters (e.g., voice packet length, talkspurt/silence lengths, data traffic intensity, and limited versus exhaustive service disciplines) on network performance are discussed
Multimedia performance evaluation of ethernet and token ring media access protocols: a network comparison
This paper and accompanying project examines which type of time-division multiplexing media access protocol, the Carrier Sense Multiple Access (CSMA) of Ethernet or the token passing of token ring, is best able to fulfill the stringent isochronous performance demands required of today's resource-hungry multimedia networks, specifically the requirements of high throughput, low latency and jitter, and minimal error rates. Using performance bounds accepted by other researchers as sufficient to ensure quality isochronous transmission, that of (1) the throughput rate being equal to or less than the playback rate; (2) the latency in transmitting each packet ranging from 20 to 400 milliseconds and the variance or jitter being less than 80 milliseconds; and (3) the rate of lost packets ranging from 0.01--1.001, this paper approaches a solution first from the theoretical and then integrates into the final conclusion an analytical, C++ software evaluation test component that models network performance under optimum conditions. The immediate benefit of the entire study is the identification of one media access protocol, Ethernet or Token Ring, over its counterpart as being superior for isochronous applications as defined by the above performance requirements, and the long-term consequence of this identification will be facilitating for future network designers, including those of digital libraries, the selection of the best network architecture for their multimedia environments
Recommended from our members
Packetized-voice/data integrated transmission on a token passing ring local area network
This paper investigates the performance of a token passing ring network with packetized-voice/data mixed traffic through extensive simulations. Both data and voice users are modeled in the simulations. Data users produce bursty traffic. Voice traffic is modeled as having alternating talkspurts and silences, with generation of voice packets at a constant rate during talkspurts and no packet generation during silence periods.The network performance measures obtained include: the distribution of transmission delays for voice packets, the average transmission delay and loss probabilities for voice packets, the number of voice users allowed on a network while satisfying the real-time constraints of speech, and the average transmission delay for data packets.Token passing ring local area networks are shown to effectively handle both voice and data traffic. The effects of system parameters (e.g., voice packet length, talkspurt/silence lengths, data traffic intensity, and limited versus exhaustive service disciplines) on network performance are discussed
Integração M2M de sistemas embebidos em gestão de activos industriais
Tese de doutoramento em Física (Pré-Bolonha), Especialidade de Física Tecnológica, apresentada à Faculdade de Ciências e Tecnologia da Universidade de CoimbraEsta dissertação apresenta um estudo de um modelo para o exercício
da gestão de activos industriais, baseado na integração de sistemas
embebidos de medida e controlo com módulos de comunicação sem fios
de baixo consumo, num quadro de comunicações Máquina-a-Máquina
(M2M), e subsequentes realizações para aplicações industriais diversas .
São aqui apresentados e discutidos os aspectos que caracterizam
sistemas de informação locais e remotos, para aplicações industriais de
manutenção preditiva de activos, segurança de pessoas e activos, e
optimização da produção. São apresentados sistemas realizados para
cenários e aplicações industriais com características bem distintas:
subestações da rede eléctrica, perímetros de processo químico, e minas
subterrâneas. É aqui demonstrado que os sistemas embebidos têm
capacidade para conduzir aplicações simples de disgnóstico e reduzir o
volume de dados desde a origem, sem perder a qualidade da informação,
constituindo-se assim como agentes de suporte à decisão, em tempo útil.
O trabalho conclui também que uma autonomia energética necessária à
viabilidade dos sistemas é conseguida com a simplificação da sua
programação, com o exacto dimensionamento da sua memória interna, e
com a correcta selecção da frequência de operação