Computational and mathematical modelling has become a valuable tool for investigating biological systems. Modelling enables prediction of how biological components interact to deliver system-level properties and extrapolation of biological system performance to contexts and experimental conditions where this is unknown. A model's value hinges on knowing that it faithfully represents the biology under the contexts of use, or clearly ascertaining otherwise and thus motivating further model refinement. These qualities are evaluated through calibration, typically formulated as identifying model parameter values that align model and biological behaviours as measured through a metric applied to both. Calibration is critical to modelling but is of...
<div><p>Mathematical modelling approaches have granted a significant contribution to life sciences a...
This thesis concerns the identification of dynamic models in systems biology. and is structured into...
Biological systems are staggeringly complex. To untangle this complexity and make predictions about ...
Computational and mathematical modelling has become a valuable tool for investigating biological sys...
Modelers must restore confidence in Systems and Computational Biology by avoiding over-interpretatio...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
Most biological models of intermediate size, and probably all large models, need to cope with the fa...
Despite the ever-increasing interest in understanding biology at the system level, there are several...
Since A. M. Turing’s paper proposing a mathematical basis for pattern formation in developing organi...
Computational agent-based simulation (ABS) is increasingly used to complement laboratory techniques ...
Mathematical modelling approaches have granted a significant contribution to life sciences and beyon...
Quantitative computational models play an increasingly important role in modern biology. Such models...
High-throughput experimentation has revolutionized data-driven experimental sciences and opened the ...
19 pages, 6 figures, 2 tables.-- This is an Open Access article distributed under the terms of the C...
<div><p>Mathematical modelling approaches have granted a significant contribution to life sciences a...
This thesis concerns the identification of dynamic models in systems biology. and is structured into...
Biological systems are staggeringly complex. To untangle this complexity and make predictions about ...
Computational and mathematical modelling has become a valuable tool for investigating biological sys...
Modelers must restore confidence in Systems and Computational Biology by avoiding over-interpretatio...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
This work introduces a comprehensive approach to assess the sensitivity of model outputs to changes ...
Most biological models of intermediate size, and probably all large models, need to cope with the fa...
Despite the ever-increasing interest in understanding biology at the system level, there are several...
Since A. M. Turing’s paper proposing a mathematical basis for pattern formation in developing organi...
Computational agent-based simulation (ABS) is increasingly used to complement laboratory techniques ...
Mathematical modelling approaches have granted a significant contribution to life sciences and beyon...
Quantitative computational models play an increasingly important role in modern biology. Such models...
High-throughput experimentation has revolutionized data-driven experimental sciences and opened the ...
19 pages, 6 figures, 2 tables.-- This is an Open Access article distributed under the terms of the C...
<div><p>Mathematical modelling approaches have granted a significant contribution to life sciences a...
This thesis concerns the identification of dynamic models in systems biology. and is structured into...
Biological systems are staggeringly complex. To untangle this complexity and make predictions about ...