Author

Joerg Haehner, Uwe Brinkschulte, Paul Lukowicz, Sanaz Mostaghim, Bernhard Sick, Sven Tomforde

Abstract

Many of today's technical systems are of tremendous complexity that evolves over long periods of time. Today, they are no longer isolated entities but more and more interfere with each other. In this article, we address challenges related to socalled Interwoven Systems. That is, we address the controllability and manageability of connected or coupled systems that were initially not meant to interact with each other. The general idea is to develop new methods for managing integration of elements, which may be composite systems themselves, based on a novel understanding of how systems can co-exist within the overall Interwoven System. This means that the integration is moved largely from design-time to runtime and to the responsibility of the systems themselves. We will refer to this aspect as selfintegration. The most important aspect in this context is the development over time throughout the complete life-cycle of an element in an Interwoven System: from the creation to the continuous interweaving process to the disintegration.   [Download]

BibTex

@inproceedings {Haehner:Runtime:2015:7844,
	number = {}, 
	month = {}, 
	year = {2015}, 
	title = {Runtime Self-Integration as Key Challenge for Mastering Interwoven Systems}, 
	journal = {}, 
	volume = {}, 
	pages = {}, 
	publisher = {Springer International Publishing}, 
	author = {Joerg Haehner, Uwe Brinkschulte, Paul Lukowicz, Sanaz Mostaghim, Bernhard Sick, Sven Tomforde}, 
	keywords = {}
}