<p class="bodytext">Self–Organization is a key technique to handle the growing complexity of upcoming computing systems. This refers to both hard– and software. Distributed systems running hundreds of tasks on dozens of processors, each equipped with a multiple cores, require selforganization principles to ensure efficient and reliable operation. Therefore, substantial research has been done in the last years to address the so–called Self–X features like selfconfiguration,<br>self–optimization, self–adaptation, self–healing, self–protection, etc. </p> <p class="bodytext">Additionally, real–time properties are another key issue in many complex systems (e.g., in the embedded systems area). Combining the flexible and – to some extent – uncertain behavior of self–organizing systems with time–predictability necessary for real–time systems is a grand challenge.<br></p><p class="bodytext"><br></p><p class="bodytext"><b>Topics of Interest</b> </p> <p class="bodytext">Papers pertaining to all aspects of self organizing real–time systems are sought, including but not limited to the following</p><p class="bodytext">– Self–organizing embedded systems<br></p><p class="bodytext">– Self–organizing sensor and actor networks<br></p><p class="bodytext">– Self–organization in automotive, avionics and space<br></p><p class="bodytext">– Real–time aspects in Organic and Autonomic Computing</p>– Modelling and behaviour prediction of self–organizing systems<br>– Self–X versus trust, dependability, reliability, safety, and security<br>– Bio–Inspired real–time Computing<br>– Applications of self–organizing real–time systems<br>– Overviews and comparisons<br>
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United States
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