Title :
Improving Worst-Case Latency Analysis for Rate-Constrained Traffic in the Time-Triggered Ethernet Network
Author :
Luxi Zhao ; Huagangh Xiong ; Zhong Zheng ; Qiao Li
Author_Institution :
Dept. of Electron. & Inf. Eng., Beihang Univ., Beijing, China
Abstract :
Traditional performance analysis models based on the network calculus approach are not fit for the time-triggered Ethernet (TTEthernet) network due to the porosity characteristic of timed-triggered (TT) traffic in the TT-schedule. This paper introduces the porosity concept into the arrival curve model of TT traffic and gives a general method for the worst-case end-to-end latency analysis of rate-constrained (RC) traffic. Experiments show that our models give tighter latency bounds than results from other already known models and may be used to guide the design of the TT-schedule.
Keywords :
calculus; curve fitting; local area networks; porosity; scheduling; telecommunication traffic; RC traffic; TT traffic; TT-schedule; TTEthernet network; arrival curve model; network calculus approach; porosity characteristic; porosity concept; rate-constrained traffic; time-triggered Ethernet network; timed-triggered traffic; worst-case end-to-end latency analysis; Aggregates; Benchmark testing; Calculus; Delays; Object oriented modeling; Ports (Computers); Schedules; Avionics; delay; network calculus; performance analysis; time-triggered Ethernet (TTEthernet); upper bound;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2014.2358233
