Digital Twins for Trust Building in Autonomous Drones through Dynamic Safety Evaluation

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Authors

IQBAL Danish BÜHNOVÁ Barbora CIOROAICA Emilia

Year of publication 2023
Type Article in Proceedings
Conference 18th International Conference on Evaluation of Novel Approaches to Software Engineering - ENASE
MU Faculty or unit

Faculty of Informatics

Citation
web http://dx.doi.org/10.5220/0011986900003464
Doi http://dx.doi.org/10.5220/0011986900003464
Keywords Trust; Digital Twins; Safety; Autonomous Drones; Run-time Compliance Checking; Autonomous Ecosystem.
Description The adoption process of innovative software-intensive technologies leverages complex trust concerns in different forms and shapes. Perceived safety plays a fundamental role in technology adoption, being especially crucial in the case of those innovative software-driven technologies characterized by a high degree of dynamism and unpredictability, like collaborating autonomous systems. These systems need to synchronize their maneuvers in order to collaboratively engage in reactions to unpredictable incoming hazardous situations. That is however only possible in the presence of mutual trust. In this paper, we propose an approach for machine-to-machine dynamic trust assessment for collaborating autonomous systems that supports trust-building based on the concept of dynamic safety assurance within the collaborative process among the software-intensive autonomous systems. In our approach, we leverage the concept of digital twins which are abstract models fed with real-time data used in the run-time dynamic exchange of information. The information exchange is performed through the execution of specialized models that embed the necessary safety properties. More particularly, we examine the possible role of the Digital Twins in machine-to-machine trust building and present their design in supporting dynamic trust assessment of autonomous drones. Ultimately, we present a proof of concept of direct and indirect trust assessment by employing the Digital Twin in a use case involving two autonomous collaborating drones.
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