๐
30 April 2026
DOI: 10.26877/asset.v8i2.2080
Reinforcement Learning for Personalised Critical Care Treatment using Scalable Parallel Computing
Advance Sustainable Science, Engineering and Technology (ASSET)
Universitas Persatuan Guru Republik Indonesia Semarang
๐ Abstract
Sepsis is one of the leading causes of death in intensive care units. Many patients do not receive timely or effective treatment, which lowers their chances of survival. We developed a reinforcement learningโbased framework to provide personalised treatment recommendations for sepsis patients. The model creates simple patient representations from treatment responses, groups patients with similar patterns, and learns the best treatment policy for each group. To reduce long training time, we use parallel and distributed computing. Using the MIMIC-III database and off-policy evaluation with weighted importance sampling, our method achieves a policy value of 79.933, higher than the clinician policy (47.654) and a general AI policy (57.658). A higher policy value indicates a lower mortality risk. These results show that our method can support faster, more accurate, and more effective treatment decisions in the ICU.
๐ Keywords
#reinforcement learning; off-policy evaluation; parallel computing; MIMIC-III dataset; sepsis management; ICU decision support; personalised treatment recommendation
โน๏ธ Informasi Publikasi
Tanggal Publikasi
30 April 2026
Volume / Nomor / Tahun
Tahun 2026
๐ HOW TO CITE
Utomo, Chandra Prasetyo; Ichikawa, Kohei; Insani, Nashuha; Thonglek, Kundjanasith; Xingyuan, Kang; Maulani, Chaerita; Rachmawati, Ummi Azizah, "Reinforcement Learning for Personalised Critical Care Treatment using Scalable Parallel Computing," Advance Sustainable Science, Engineering and Technology (ASSET), Apr. 2026.
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