The self-improving system integration (SISSY) initiative-sometimes also called self-integration-started over six years ago. Recently, we have seen contributions approaching parts of the scope from different directions. In order to provide a better understanding how these attempts support the development of novel SISSY technology, this paper presents a definition of the term. In addition, it discusses the fundamental challenges stemming from the increasingly interconnected character of large-scale distributed and adaptive systems typically referred to as "Interwoven Systems", with these systems describing the basic motivation for SISSY research.
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%0 Conference Paper
%1 bellman2019self
%A Bellman, K. L.
%A Gruhl, C.
%A Landauer, C.
%A Tomforde, S.
%B Workshop on Self-Improving System Integration (SISSY), FAS*W
%D 2019
%I IEEE
%K adaptive analysis;Complex awareness;self computing;autonomous computing;safety distributed improving integration;Runtime;System integration;Task integration;self learning processing;fault reflection;organic research;adaptive system system;SISSY system;large-scale systems;Measurement;Adaptive systems;Software;self systems;interwoven systems;large-scale systems;self-improving tolerant
%P 1--3
%R 10.1109/FAS-W.2019.00014
%T Self-Improving System Integration -- On a Definition and Characteristics of the Challenge
%X The self-improving system integration (SISSY) initiative-sometimes also called self-integration-started over six years ago. Recently, we have seen contributions approaching parts of the scope from different directions. In order to provide a better understanding how these attempts support the development of novel SISSY technology, this paper presents a definition of the term. In addition, it discusses the fundamental challenges stemming from the increasingly interconnected character of large-scale distributed and adaptive systems typically referred to as "Interwoven Systems", with these systems describing the basic motivation for SISSY research.
@inproceedings{bellman2019self,
abstract = {The self-improving system integration (SISSY) initiative-sometimes also called self-integration-started over six years ago. Recently, we have seen contributions approaching parts of the scope from different directions. In order to provide a better understanding how these attempts support the development of novel SISSY technology, this paper presents a definition of the term. In addition, it discusses the fundamental challenges stemming from the increasingly interconnected character of large-scale distributed and adaptive systems typically referred to as "Interwoven Systems", with these systems describing the basic motivation for SISSY research.},
added-at = {2022-01-07T10:37:59.000+0100},
author = {{Bellman}, K. L. and {Gruhl}, C. and {Landauer}, C. and {Tomforde}, S.},
biburl = {https://www.bibsonomy.org/bibtex/26cbc2ee4edb412584e67bb279dbc6a22/ies},
booktitle = {Workshop on Self-Improving System Integration (SISSY), FAS*W},
doi = {10.1109/FAS-W.2019.00014},
interhash = {dc4d55242883efb67b0bfba760e9b33f},
intrahash = {6cbc2ee4edb412584e67bb279dbc6a22},
keywords = {adaptive analysis;Complex awareness;self computing;autonomous computing;safety distributed improving integration;Runtime;System integration;Task integration;self learning processing;fault reflection;organic research;adaptive system system;SISSY system;large-scale systems;Measurement;Adaptive systems;Software;self systems;interwoven systems;large-scale systems;self-improving tolerant},
pages = {1--3},
publisher = {IEEE},
timestamp = {2022-01-07T10:37:59.000+0100},
title = {Self-Improving System Integration -- {O}n a Definition and Characteristics of the Challenge},
year = 2019
}