Proposta de melhoria de tempo de resposta para o protocolo FTT-CAN : estudo de caso em aplicação automotiva

AUTOR(ES)

Fernando Henrique Ataide

FONTE

IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia

DATA DE PUBLICAÇÃO

2010

RESUMO

Embedded computing systems have become widely used in many areas. The greater part of those systems has time constraints and therefore they can be characterized as real time embedded systems. Nowadays, distributed computing has reached the embedded application, where some fieldbuses are already being used as communication platforms. Some important researches has presented different approaches in the real time distributed embedded system domain aiming to cover the growing demands of performance, predictability and reliability of emerging applications. Such requirements involve low latency, reduced jitter, time composability, fault-tolerance and support for future extensions ¿ flexibility. Particularly in the automotive area, on which several mechanical and/or hydraulic systems are being replaced by electronic "by-wire"systems, the importance of ensuring predictable behavior while also presenting some degree of flexibility plays a key role. Regarding to the flexibility, the Flexible Time Triggered communication model stands out against the others ones due to its high degree of flexibility. In this context, the FTT communication model appears as an interesting approach due to its high degree of flexibility while still ensuring a deterministic timing behavior. A distributed system based on a FTT communication infrastructure can adapts to changing application requirements, making possible the addition of new messages and nodes during operation. In this way, the communication infrastructure needs to schedule newest messages on-line. This master¿s work presents some proposals to improve the FTT-CAN response-time and indicating some drawbacks in already presented approaches. The improvements are concerning messages and tasks scheduling. Despite of its interesting characteristics, FTT CAN present some negative aspects regarding its timing behavior: the issue is on the synchronous message transmission, where there are two neglected points that generate jitter in this traffic; the other one is tasks dispatching, where there are some deficiencies concerning synchronous tasks execution. These disadvantages were not discussed in literature yet. This work presents new proposals to task and message scheduling of FFT-CAN based applications, therefore overcoming some of the main drawbacks of the protocol.

ASSUNTO(S)

sistemas embarcados real-time system automação industrial real-time scheduling indústria automobilística ftt-can sistemas operacionais : tempo real real-time operating system linux

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