Chin-Fu Kuo, Ya-Shu Chen, Tei-Wei Kuo, P. Lin, Cheng Chang
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引用次数: 1
摘要
近年来,许多现代相控阵雷达都采用商用现成的组件来构建,许多硬件组件的功能也通过软件模块重新实现。在这样的系统中,雷达任务可以建模为分布式实时任务,需要端到端的截止日期保证,并具有优先级约束。不同于以往大多数对资源利用有限制的算法或没有可调度性保证分析方法的启发式算法,本工作的目标是提出一种基于离线概率分析和在线许可控制的分析框架的发送/接收和信号处理器工作负载的联合实时调度算法。分析结果和基于防空护卫舰相控阵雷达的一系列实验验证了该方法的有效性[a]。G. huzing et al.(1996)。
Probabilistic real-time guarantees for component-oriented phased array radars
In recent years, many modern phased array radars are built with commercial-off-the-shelf components, and the functions of many hardware components are also re-implemented by software modules. In such systems, radar tasks could be modelled as distributed real-time tasks, which require end-to-end deadline guarantees and have precedence constraints. Different from most previous work on either algorithms with restrictions in resource utilization or heuristics without analytical ways for schedulability guarantees, the objective of This work is to propose a joint real-time scheduling algorithm for both transmitter/receiver and signal processor workloads with an analytical framework for off-line probabilistic analysis and online admission control. The strength of our approach is verified by analysis results and a series of experiments based on a real phased array radar for air defense frigates [A. G. Huizing et al. (1996)].
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