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DTSTAMP:20260419T223253
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SUMMARY:Workshop / Seminar:Mathematical Biology Seminar: Parameter Estimation\, Calibration\, Uncertainty and Sensitivity in Multiscale Models
DESCRIPTION:Mathematical and computational models of biological systems are increasingly complex\, typically comprised of hybrid multi-scale methods such as ordinary differential equations\, partial differential equations\, agent-based and rule-based models\, etc. These mechanistic\, multiscale models concurrently simulate detail at resolutions of whole host\, multi-organ\, organ\, tissue\, cellular\, molecular\, and genomic dynamics. Lacking analytical and numerical methods\, solving complex biological models requires iterative parameter sampling-based approaches to establish appropriate ranges\, of model parameters that capture corresponding experimental datasets. However\, these models typically comprise large numbers of parameters and therefore large degrees of freedom. Thus\, fitting these models to multiple experimental datasets over time and space presents significant challenges. We undertake the task of advancing calibration practices across models and dataset types for model calibration. Evaluating the process of calibrating models includes weighing strengths and applicability of each approach as well as standardizing calibration methods. We compare the performance of our model agnostic Calibration Protocol (CaliPro) with approximate Bayesian computing (ABC) to highlight strengths\, weaknesses\, synergies\, and differences among these methods. Due to the typically nonlinear and stochastic nature of multiscale models as well as unknown parameter values\, various types of uncertainty are present\; thus\, effective assessment and quantification of such uncertainty through sensitivity analysis is important. We present ideas for global sensitivity analysis in the context of multiscale and multi-compartment models and highlight its value in model development and analysis. We present an overview of sensitivity analysis methods\, approaches for extending such methods to a multiscale setting\, and examples of how sensitivity analysis can inform model reduction. Through schematics and references to past work\, we aim to emphasize the advantages and usefulness of such techniques.\n\nThis seminar is hybrid: meeting in Weiser 296 and via Zoom:\nhttps://umich.zoom.us/j/99066992017\nMeeting ID: 990 6699 2017\nPasscode: mathbio!
UID:147855-21902050@events.umich.edu
URL:https://events.umich.edu/event/147855
CLASS:PUBLIC
STATUS:CONFIRMED
CATEGORIES:data,Data Science,Mathematical Biology,Mathematical Modeling,Mathematics,Medicine,Statistics
LOCATION:Off Campus Location - Weiser Hall Room 296 and Zoom
CONTACT:
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