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Architecture for Multi-criticality Agile Dependable
Evolutionary Open System-of-Systems
The goal of AMADEOS is to establish a sound conceptual basis and a generic architectural framework
that address the challenges of guaranteed responsiveness, evolvability, dynamicity and emergence in
Systems-of-Systems. AMADEOS will provide basic concepts, measurable quality attributes, and propose
a design methodology, supported by extended mainstream UML-based tools, for the representation,
modelling, development, evolution and validation of Systems-of-Systems.
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Introducing explicit, global, synchronized time into System-of-Systems
models. With such an approach, each
constituent system, interface and element has access to a precise, synchronized global time base.
Objectives
Capturing and formalizing System-of-Systems evolvability and dynamicity. Evolution is necessary for
the adaptation to environmental
changes such as new business cases, legal requirements, compliance,
changing safety regulations, evolving environmental protection rules,
etc. On the other hand unforeseen
events can occur, such as a disaster
or a failure of a constituent system.
Managing emerging properties in
Systems-of-Systems. Emerging properties and emerging behaviour in
a SoS may be either desired or undesired. Understanding the mechanisms of emergence will help in the
composition of constituent systems,
especially in predicting the effects of
composition on dependability, safety, security and availability.
Context:
Challenges:
As a proof of concept of the AMADEOS conceptual model, the SoS
AMADEOS will develop a methodology and concrete guidelines for the
design methodology and supporting facilities, two case-studies are
design of SoS. The focus will be on the following aspects:
proposed.
Definition of the basic architectural building-blocks of the AMAThe integration of electric vehicles into the Smart Grid repre-
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sents one of the most attractive scenarios, due to its impact on
the power grid. In this case study, several interests come into
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play; from the charging demands of the drivers, to the energy
DEOS architecture, their interfaces and the required governance
model, and incorporating these in a generic architectural framework for the modeling, development and evolution of time-sensitive SoS.
grid management of Distribution System Operators (DSOs).
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In the Household scenario, each home may be able to both consume and produce electric energy. Thus, each of these homes
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is potentially a prosumer.
Time Management Dependency on time is increasing in business
processes. Networks are becoming increasingly connected; therefore, proper time synchronization is crucial.
Development and implementation of specific elements of the AMADEOS architecture, focusing on the monitoring, prediction and
controlling mechanisms, strategies for guaranteeing responsiveness.
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Development of UML modelling profiles and tool-extensions supporting the design methodology, and handling dynamicity, evolvability, emergence.
Evolution This requirements are based on the increased usage of
both EV charging and smart homes in the future.
Dynamicity This is related to the changing of built-in structure. Indeed, the offered services of the SoS considered in our case studies
remain constant over its interval of disclosure.
Multi-Criticality This is a characteristic of complex SoSs. Each of the
systems constituting the SoS provides services, each with its own
level of criticality, such as safety or security levels.
Current results:
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A coherent conceptual model for the Systems-of-Systems do-
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A basis for the AMADEOS architectural framework and its build-
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main.
ing blocks.
Two comprehensive case studies in the smart grid domain, and
AMADEOS is a collaborative project funded under the European Commission’s FP7 (FP7ICT-2013-610535)
how it applies to the main AMADEOS focus-points: Time Man-
Start date
01/10/2013
Coordinator
Andrea Bondavalli
agement, Evolution, Dynamicity, and Multi-criticality.
Duration
36 months
Contact
+39 055 2751481
Budget
€ 3.4m
Copyright: Power lines at sunset (Matthew T Rader: flic.kr/p/4mqT21), Solar panel (Marufish: flic.kr/p/dH1iuc), Electic vehicles parade (Birmingham News Room: flic.kr/p/8fkTwe), How a smart grid works (Siemens: www.siemens.com/press/photo/SOICSG201201-01e)
[email protected]