Sedlak, B., Casamayor Pujol, V., Donta, P. K., & Dustdar, S. (2023). Active Inference on the Edge : A Design Study. arXiv. https://doi.org/10.34726/5939
Active Inference; Machine Learning; Edge Intelligence; Service Level Objectives; Markov Blanket
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Abstract:
Machine Learning (ML) is a common tool to interpret and predict the behavior of distributed computing systems, e.g., to optimize the task distribution between devices. As more and more data is created by Internet of Things (IoT) devices, data processing and ML training are carried out by edge devices in close proximity. To ensure Quality of Service (QoS) throughout these operations, systems are supervised and dynamically adapted with the help of ML. However, as long as ML models are not retrained, they fail to capture gradual shifts in the variable distribution, leading to an inaccurate view of the system state. Moreover, as the prediction accuracy decreases, the reporting device should actively resolve uncertainties to improve the model's precision. Such a level of self-determination could be provided by Active Inference (ACI) -- a concept from neuroscience that describes how the brain constantly predicts and evaluates sensory information to decrease long-term surprise. We encompassed these concepts in a single action-perception cycle, which we implemented for distributed agents in a smart manufacturing use case. As a result, we showed how our ACI agent was able to quickly and traceably solve an optimization problem while fulfilling QoS requirements.
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Project title:
Trustworthy, Energy-Aware federated DAta Lakes along the Computing Continuum: 101070186 (European Commission)