Table of Contents

• Efficient analysis of large adaptation spaces in self-adaptive systems using machine learningFederico Quin, Danny Weyns, Thomas Bamelis, Sarpreet Singh Buttar, Sam Michiels. 1-12 [doi]
• On learning in collective self-adaptive systems: state of practice and a 3D frameworkMirko D'Angelo, Simos Gerasimou, Sona Ghahremani, Johannes Grohmann, Ingrid Nunes, Evangelos Pournaras, Sven Tomforde. 13-24 [doi]
• Using unstructured data to improve the continuous planning of critical processes involving humansColin Paterson, Radu Calinescu, Di Wang, Suresh Manandhar. 25-31 [doi]
• TRAPPed in traffic?: a self-adaptive framework for decentralized traffic optimizationIlias Gerostathopoulos, Evangelos Pournaras. 32-38 [doi]
• Machine learning meets quantitative planning: enabling self-adaptation in autonomous robotsPooyan Jamshidi, Javier Cámara, Bradley R. Schmerl, Christian Kästner, David Garlan. 39-50 [doi]
• Self-adaptation in mobile apps: a systematic literature studyEoin Martino Grua, Ivano Malavolta, Patricia Lago. 51-62 [doi]
• Applying evolution and novelty search to enhance the resilience of autonomous systemsMichael Austin Langford, Glen A. Simon, Philip K. McKinley, Betty H. C. Cheng. 63-69 [doi]
• Modelling and analysing resilient cyber-physical systemsAmel Bennaceur, Carlo Ghezzi, Kenji Tei, Timo Kehrer, Danny Weyns, Radu Calinescu, Schahram Dustdar, Zhenjiang Hu, Shinichi Honiden, Fuyuki Ishikawa, Zhi Jin, Jeffrey Kramer, Marin Litoiu, Michele Loreti, Gabriel A. Moreno, Hausi A. Müller, Laura Nenzi, Bashar Nuseibeh, Liliana Pasquale, Wolfgang Reisig, Heinz Schmidt, Christos Tsigkanos, Haiyan Zhao. 70-76 [doi]
• Won't take no for an answer: resource-driven requirements adaptationAmel Bennaceur, Andrea Zisman, Ciaran McCormick, Danny Barthaud, Bashar Nuseibeh. 77-88 [doi]
• Taming uncertainty in the assurance process of self-adaptive systems: a goal-oriented approachGabriela Félix Solano, Ricardo Diniz Caldas, Genaína Nunes Rodrigues, Thomas Vogel 0001, Patrizio Pelliccione. 89-99 [doi]
• Inferring analyzable models from trajectories of spatially-distributed internet of thingsChristos Tsigkanos, Laura Nenzi, Michele Loreti, Martin Garriga, Schahram Dustdar, Carlo Ghezzi. 100-106 [doi]
• Dragonfly: a tool for simulating self-adaptive drone behavioursPaulo Henrique Maia, Lucas Vieira, Matheus Chagas, Yijun Yu, Andrea Zisman, Bashar Nuseibeh. 107-113 [doi]
• Towards secure architecture-based adaptationsNarges Khakpour, Charilaos Skandylas, Goran Saman Nariman, Danny Weyns. 114-125 [doi]
• N-variant systemJessica Jones, Jason D. Hiser, Jack W. Davidson, Stephanie Forrest. 126-138 [doi]
• Blockchain networks as adaptive systemsSotirios Liaskos, Bo Wang, Nahid Alimohammadi. 139-145 [doi]
• Towards the detection of partial feature interactionsByron DeVries, Betty H. C. Cheng. 146-152 [doi]
• Is adaptivity a core property of intelligent systems?: it dependsAbdElRahman ElSaid, Travis Desell, Daniel E. Krutz. 153-154 [doi]
• Self-adaptive artificial intelligenceRogério de Lemos, Marek Grzes. 155-156 [doi]
• All versus one: an empirical comparison on retrained and incremental machine learning for modeling performance of adaptable softwareTao Chen. 157-168 [doi]
• On the practical feasibility of software monitoring: a framework for low-impact execution tracingJhonny Mertz, Ingrid Nunes. 169-180 [doi]
• DARTSim: an exemplar for evaluation and comparison of self-adaptation approaches for smart cyber-physical systemsGabriel A. Moreno, Cody Kinneer, Ashutosh Pandey 0002, David Garlan. 181-187 [doi]
• OCCI-compliant, fully causal-connected architecture runtime models supporting sensor managementJohannes Erbel, Thomas Brand, Holger Giese, Jens Grabowski. 188-194 [doi]
• DingNet: a self-adaptive internet-of-things exemplarMichiel Provoost, Danny Weyns. 195-201 [doi]