Here you can find a consolidated (a.k.a. slowly updated) list of my publications. A frequently updated (and possibly noisy) list of works is available on my Google Scholar profile.
Please find below a short list of highlight publications for my recent activity.
Macher, G.; Akarmazyan, S.; Armengaud, E.; Bacciu, D.; Calandra, C.; Danzinger, H.; Dazzi, P.; Davalas, C.; Gennaro, M. C. De; Dimitriou, A.; Dobaj, J.; Dzambic, M.; Giraudi, L.; Girbal, S.; Michail, D.; Peroglio, R.; Potenza, R.; Pourdanesh, F.; Seidl, M.; Sardianos, C.; Tserpes, K.; Valtl, J.; Varlamis, I.; Veledar, O.
Dependable Integration Concepts for Human-Centric AI-based Systems Workshop
Proceedings of the 40th International Conference on Computer Safety, Reliability and Security (SafeComp 2021), Springer, 2021, (Invited discussion paper).
@workshop{Macher2021,
title = {Dependable Integration Concepts for Human-Centric AI-based Systems},
author = {G. Macher and S. Akarmazyan and E. Armengaud and D. Bacciu and C. Calandra and H. Danzinger and P. Dazzi and C. Davalas and M.C. De Gennaro and A. Dimitriou and J. Dobaj and M. Dzambic and L. Giraudi and S. Girbal and D. Michail and R. Peroglio and R. Potenza and F. Pourdanesh and M. Seidl and C. Sardianos and K. Tserpes and J. Valtl and I. Varlamis and O. Veledar },
year = {2021},
date = {2021-09-07},
urldate = {2021-09-07},
booktitle = {Proceedings of the 40th International Conference on Computer Safety, Reliability and Security (SafeComp 2021)},
pages = {11-23},
publisher = {Springer},
note = {Invited discussion paper},
keywords = {},
pubstate = {published},
tppubtype = {workshop}
}
Macher, Georg; Armengaud, Eric; Bacciu, Davide; Dobaj, Jürgen; Dzambic, Maid; Seidl, Matthias; Veledar, Omar
Dependable Integration Concepts for Human-Centric AI-based Systems Workshop
Proceedings of the 16th International Workshop on Dependable Smart Embedded Cyber-Physical Systems and Systems-of-Systems (DECSoS 2021), 2021.
@workshop{Macher2021b,
title = {Dependable Integration Concepts for Human-Centric AI-based Systems},
author = {Georg Macher and Eric Armengaud and Davide Bacciu and Jürgen Dobaj and Maid Dzambic and Matthias Seidl and Omar Veledar},
year = {2021},
date = {2021-09-07},
booktitle = {Proceedings of the 16th International Workshop on Dependable Smart Embedded Cyber-Physical Systems and Systems-of-Systems (DECSoS 2021)},
abstract = {The rising demand to integrate adaptive, cloud-based and/or AI-based systems is also increasing the need for associated dependability concepts. However, the practical processes and methods covering the whole life cycle still need to be instantiated. The assurance of dependability continues to be an open issue with no common solution. That is especially the case for novel AI and/or dynamical runtime-based approaches. This work focuses on engineering methods and design patterns that support the development of dependable AI-based autonomous systems. The paper presents the related body of knowledge of the TEACHING project and multiple automotive domain regulation activities and industrial working groups. It also considers the dependable architectural concepts and their impactful applicability to different scenarios to ensure the dependability of AI-based Cyber-Physical Systems of Systems (CPSoS) in the automotive domain. The paper shines the light on potential paths for dependable integration of AI-based systems into the automotive domain through identified analysis methods and targets. },
keywords = {},
pubstate = {published},
tppubtype = {workshop}
}
The rising demand to integrate adaptive, cloud-based and/or AI-based systems is also increasing the need for associated dependability concepts. However, the practical processes and methods covering the whole life cycle still need to be instantiated. The assurance of dependability continues to be an open issue with no common solution. That is especially the case for novel AI and/or dynamical runtime-based approaches. This work focuses on engineering methods and design patterns that support the development of dependable AI-based autonomous systems. The paper presents the related body of knowledge of the TEACHING project and multiple automotive domain regulation activities and industrial working groups. It also considers the dependable architectural concepts and their impactful applicability to different scenarios to ensure the dependability of AI-based Cyber-Physical Systems of Systems (CPSoS) in the automotive domain. The paper shines the light on potential paths for dependable integration of AI-based systems into the automotive domain through identified analysis methods and targets.