Embedded Files
Dae Wook Kim
Dae Wook Kim
Assistant Professor in the Department of Brain & Cognitive Sciences at KAIST
Address: 291, Daehak-ro, Yuseong-gu, Daejeon, 34141, Republic of Korea
Office: Room 402-7, Meta-Convergence Building (W13)
E-mail: daewook(AT)kaist.ac.kr
Tel: 042 - 350 - 6524
Curriculum Vitae.pdfHello! I am currently an Assistant Professor in the Department of Brain and Cognitive Sciences at KAIST. My research focuses on developing mathematical frameworks for analyzing biological systems. Below are links to articles from SIAM News and NSRR News that highlight my work:
I have applied deep learning algorithms, Kalman filtering, queueing theory, Bayesian inference, agent-based modeling, topological data analysis, and differential equation modeling to investigate biological systems, such as the circadian clock and sleep.
Although trained as an applied mathematician, I have closely collaborated with biologists, medical doctors, and clinical pharmacologists.
Mathematical Research Interests
Mathematical Research Interests
Time-series analysis: Bayesian filtering; topological data analysis
Deep learning: recurrent neural networks; autoencoders
Dynamical systems: oscillations; coupled oscillators; whole-brain computational modeling at large scale
Stochastic processes: queueing theory; multi-timescale stochastic simulations; agent-based modeling
Parameter estimation: Bayesian inference; global stochastic optimization methods
Biological Research Interests
Biological Research Interests
Wearable data: Analysis of high-dimensional, noisy data collected from wearable devices
Psychiatry disorders: Wearable-based biomarkers for depression; Computational psychiatry
Neural dynamics: Understanding brain function at multiple scales: molecular, cellular, network, and system levels
Precision medicine: Personalized chronotherapy using wearable technology and systems modeling
Chronotherapy: Time-of-day effects of R-CHOP treatment in DLBCL patients; time-of-day effects of tumor resection in GBM patients
Mammalian circadian rhythms: Transcriptional and post-transcriptional regulatory mechanisms
Plant circadian rhythms: Post-translational regulation through protein-protein interactions
p53 oscillation: Impact of DNA damage on p53 oscillations and their interplay with the circadian clock
Systems pharmacology: Influence of CK1δ/ε inhibitor PF-670462 on circadian rhythms
Page updated
Google Sites
Report abuse