50 years of KPN – Call for participation
The famous paper of Gilles Kahn on KPN, entitled « The semantics of a simple language...
5 Septembre 2024
Catégorie : Doctorant
Title: Complex Event Processing in an AI System for Healthcare
Keywords: Complex Event Processing, AI System, Healthcare Data, Digital Twin, Data Stream Processing, Root Cause Analysis, Counterfactual Analysis.
Supervisors: Fabien Picarougne, Guillaume Raschia, Vincent Ricordel
Laboratory & Teams:
LS2N (Laboratoire des Sciences du Numérique de Nantes, UMR 6004)
IPI (Image Perception Interaction) team
Duke (Data User Knowledge) team
Contacts:
[fabien.picarougne, guillaume.raschia, vincent.ricordel]@univ-nantes.fr
Phone: +33 6 18 75 83 54
Context
The PhD will take place in the European THCS “Transforming Health and Care Systems” project RENEW which means “Reshaping data-driven smart healthcare to optimize resources and personalize care for hypertensive patients through AI and digital twin models”. The RENEW project has started in June 2024 for 3 years long. It involves 9 partners from Romania, Suede, Switzerland, Poland, Italy, Slovenia and France. The LS2N partner leads the work package about the smart data processing, the personal profiles and digital twin design.
Objectives
Health and well-being at home require to monitor in near-real time a bunch of measures and raw events at a large scale and a high frequency, coming both from the individuals and their environment. Focusing on hypertensive patients only, it is well-known that lifestyle (diet, physical activity, tobacco, alcohol, overweight) plays a crucial role in risk assessment.
Thus, the PhD aims at building, maintaining and analyzing digital twins for healthcare [1]. As part of the RENEW project, the ultimate goal is to give feedback to individuals on their practices and lifestyle based on IA models [2] and stream processing [3,4]. Also, health institutions should be able to conduct real-time analyzes and gain insights from personal models of a large cohort of patients. All in all, it is then necessary to develop an online architecture capable of continuously collecting, preparing and analyzing health and care data from multiple sources.
Guidelines
The PhD line of work should consider that each patient willingly operates self-quantification with activity tracking technologies and wearable devices [5]. The many low-to-high rate signals would be aggregated locally and updated online using unsupervised Machine Learning [6] to draw a sketch of a personal digital twin, still preserving privacy [7] of the individuals. Those raw models may be continuously scanned to extract useful “patterns” such that it raises the scientific issue of applying complex event processing on the latent space of the models.
At a larger scale, personal model and patterns of each patient would be streamed to a central node where the all collection of digital twins is expected to consistently describe the population of individuals with interesting properties. Hence, it provides the material to conduct online predictive analyzes regarding the health of the population. It also allows for counterfactual scenarios, root cause analyzes and prescriptions [8] back to each patient.
References:
[1] EROL, Tolga, MENDI, Arif Furkan, et DOĞAN, Dilara. The digital twin revolution in healthcare. In : 2020 4th international symposium on multidisciplinary studies and innovative technologies (ISMSIT). IEEE, 2020. p. 1-7.
[2] GOMES, Hector Murilo, READ Jesse, BIFET Albert, BARDDAL Jean-Paul, GAMA Joao. Machine learning for streaming data: state of the art, challenges, and opportunities, SIGKDD Explor. 21(2): 6-22 (2019).
[3] GIATRAKOS, Nikos, ALEVIZOS, Elias, ARTIKIS, Alexander, et al. Complex event recognition in the big data era: a survey. The VLDB Journal, 2020, vol. 29, p. 313-352.
[4] ZIEHN, Ariane, GRULICH, Philipp M., ZEUCH, Steffen and MARKL, Volker. Bridging the Gap: Complex Event Processing on Stream Processing Systems. In Proceedings of EDBT (EDBT’24), pp 447-460 (2024).
[5] Shei RJ, Holder IG, Oumsang AS, Paris BA, Paris HL. Wearable activity trackers-advanced technology or advanced marketing? Eur J Appl Physiol. 2022 Sep;122(9):1975-1990. doi: 10.1007/s00421-022-04951-1. Epub 2022 Apr 21. PMID: 35445837; PMCID: PMC9022022.
[6] L. Wang, X. Zhang, H. Su and J. Zhu, A Comprehensive Survey of Continual Learning: Theory, Method and Application, in IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 46, no. 8, pp. 5362-5383, Aug. 2024, doi: 10.1109/TPAMI.2024.3367329.
[7] Liu, B., Ding, M., Shaham, S., Rahayu, W., Farokhi, F., & Lin, Z. (2021). When machine learning meets privacy: A survey and outlook. ACM Computing Surveys (CSUR), 54(2), 1-36.
[8] Prosperi, Mattia C. F. et al. “Causal inference and counterfactual prediction in machine learning for actionable healthcare.” Nature Machine Intelligence 2 (2020): 369 - 375.