Control strategies for self-adaptive software systems

Antonio Filieri; Martina Maggio; Konstantinos Angelopoulos; Nicolás D'Ippolito; Ilias Gerostathopoulos; Andreas Berndt Hempel; Henry Hoffmann; Pooyan Jamshidi; Evangelia Kalyvianaki; Cristian Klein; Filip Krikava; Sasa Misailovic; Alessandro V. Papadopoulos; Suprio Ray; Amir M. Sharifloo; Stepan Shevtsov; Mateusz Ujma; Thomas Vogel

doi:10.1145/3024188

Control strategies for self-adaptive software systems

Antonio Filieri, Martina Maggio, Konstantinos Angelopoulos, Nicolás D'Ippolito, Ilias Gerostathopoulos, Andreas Berndt Hempel, Henry Hoffmann, Pooyan Jamshidi, Evangelia Kalyvianaki, Cristian Klein, Filip Krikava, Sasa Misailovic, Alessandro V. Papadopoulos, Suprio Ray, Amir M. Sharifloo, Stepan Shevtsov, Mateusz Ujma, Thomas Vogel

Research output: Contribution to journal › Review article › peer-review

Abstract

The pervasiveness and growing complexity of software systems are challenging software engineering to design systems that can adapt their behavior to withstand unpredictable, uncertain, and continuously changing execution environments. Control theoretical adaptation mechanisms have received growing interest from the software engineering community in the last few years for their mathematical grounding, allowing formal guarantees on the behavior of the controlled systems. However, most of these mechanisms are tailored to specific applications and can hardly be generalized into broadly applicable software design and development processes.

This article discusses a reference control design process, from goal identification to the verification and validation of the controlled system. A taxonomy of the main control strategies is introduced, analyzing their applicability to software adaptation for both functional and nonfunctional goals. A brief extract on how to deal with uncertainty complements the discussion. Finally, the article highlights a set of open challenges, both for the software engineering and the control theory research communities.

Original language	English
Article number	24
Journal	ACM Transactions on Autonomous and Adaptive Systems
Volume	11
Issue number	4
DOIs	https://doi.org/10.1145/3024188
Publication status	Published - 2017 Feb 1

Subject classification (UKÄ)

Software Engineering
Control Engineering

Free keywords

Control theory
Formal methods
Non-functional properties
Self-adaptive software

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10.1145/3024188

Cite this

Filieri, A., Maggio, M., Angelopoulos, K., D'Ippolito, N., Gerostathopoulos, I., Hempel, A. B., Hoffmann, H., Jamshidi, P., Kalyvianaki, E., Klein, C., Krikava, F., Misailovic, S., Papadopoulos, A. V., Ray, S., Sharifloo, A. M., Shevtsov, S., Ujma, M., & Vogel, T. (2017). Control strategies for self-adaptive software systems. ACM Transactions on Autonomous and Adaptive Systems, 11(4), Article 24. https://doi.org/10.1145/3024188

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abstract = "The pervasiveness and growing complexity of software systems are challenging software engineering to design systems that can adapt their behavior to withstand unpredictable, uncertain, and continuously changing execution environments. Control theoretical adaptation mechanisms have received growing interest from the software engineering community in the last few years for their mathematical grounding, allowing formal guarantees on the behavior of the controlled systems. However, most of these mechanisms are tailored to specific applications and can hardly be generalized into broadly applicable software design and development processes.This article discusses a reference control design process, from goal identification to the verification and validation of the controlled system. A taxonomy of the main control strategies is introduced, analyzing their applicability to software adaptation for both functional and nonfunctional goals. A brief extract on how to deal with uncertainty complements the discussion. Finally, the article highlights a set of open challenges, both for the software engineering and the control theory research communities.",

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Filieri, A, Maggio, M, Angelopoulos, K, D'Ippolito, N, Gerostathopoulos, I, Hempel, AB, Hoffmann, H, Jamshidi, P, Kalyvianaki, E, Klein, C, Krikava, F, Misailovic, S, Papadopoulos, AV, Ray, S, Sharifloo, AM, Shevtsov, S, Ujma, M & Vogel, T 2017, 'Control strategies for self-adaptive software systems', ACM Transactions on Autonomous and Adaptive Systems, vol. 11, no. 4, 24. https://doi.org/10.1145/3024188

TY - JOUR

T1 - Control strategies for self-adaptive software systems

AU - Filieri, Antonio

AU - Maggio, Martina

AU - Angelopoulos, Konstantinos

AU - D'Ippolito, Nicolás

AU - Gerostathopoulos, Ilias

AU - Hempel, Andreas Berndt

AU - Hoffmann, Henry

AU - Jamshidi, Pooyan

AU - Kalyvianaki, Evangelia

AU - Klein, Cristian

AU - Krikava, Filip

AU - Misailovic, Sasa

AU - Papadopoulos, Alessandro V.

AU - Ray, Suprio

AU - Sharifloo, Amir M.

AU - Shevtsov, Stepan

AU - Ujma, Mateusz

AU - Vogel, Thomas

PY - 2017/2/1

Y1 - 2017/2/1

N2 - The pervasiveness and growing complexity of software systems are challenging software engineering to design systems that can adapt their behavior to withstand unpredictable, uncertain, and continuously changing execution environments. Control theoretical adaptation mechanisms have received growing interest from the software engineering community in the last few years for their mathematical grounding, allowing formal guarantees on the behavior of the controlled systems. However, most of these mechanisms are tailored to specific applications and can hardly be generalized into broadly applicable software design and development processes.This article discusses a reference control design process, from goal identification to the verification and validation of the controlled system. A taxonomy of the main control strategies is introduced, analyzing their applicability to software adaptation for both functional and nonfunctional goals. A brief extract on how to deal with uncertainty complements the discussion. Finally, the article highlights a set of open challenges, both for the software engineering and the control theory research communities.

AB - The pervasiveness and growing complexity of software systems are challenging software engineering to design systems that can adapt their behavior to withstand unpredictable, uncertain, and continuously changing execution environments. Control theoretical adaptation mechanisms have received growing interest from the software engineering community in the last few years for their mathematical grounding, allowing formal guarantees on the behavior of the controlled systems. However, most of these mechanisms are tailored to specific applications and can hardly be generalized into broadly applicable software design and development processes.This article discusses a reference control design process, from goal identification to the verification and validation of the controlled system. A taxonomy of the main control strategies is introduced, analyzing their applicability to software adaptation for both functional and nonfunctional goals. A brief extract on how to deal with uncertainty complements the discussion. Finally, the article highlights a set of open challenges, both for the software engineering and the control theory research communities.

KW - Control theory

KW - Formal methods

KW - Non-functional properties

KW - Self-adaptive software

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U2 - 10.1145/3024188

DO - 10.1145/3024188

M3 - Review article

AN - SCOPUS:85017638966

SN - 1556-4665

VL - 11

JO - ACM Transactions on Autonomous and Adaptive Systems

JF - ACM Transactions on Autonomous and Adaptive Systems

IS - 4

M1 - 24

ER -

Control strategies for self-adaptive software systems

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