PN 2

SimTech EXC 2075 Project Network 2 "In silico models of coupled biological systems"

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161 to 170 of 340 Results

true_model_logistic_4params_istep_single_trial.stan Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference Unknown - 1.5 KB - MD5: b05b2bf0c661787eb198714158123a5d
true_model_logistic_4params.stan Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference Unknown - 1.3 KB - MD5: a12adfade7defb9e27d4d077561a8e87
true_model_logistic_istep_mp.stan Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference Unknown - 1.2 KB - MD5: c3b2e8a3f5f4f354fe1b4cb5d74b3b9a
true_model_logistic_istep_single_trial.stan Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference Unknown - 1.3 KB - MD5: 3bcadbf51696fe0c049265ea4c6f1e76
true_models_helpers.R Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference R Syntax - 400 B - MD5: 94ab6e3d4cddb7df65fe8d3ee5718a4f
utils.R Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference R Syntax - 7.3 KB - MD5: 4875bca50c00ab9e317e31af55794020
Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers Dec 15, 2023 - PN 2-3B Santana Chacon, Pablo Filipe; Hammer, Maria; Wochner, Isabell; Walter, Johannes R.; Schmitt, Syn, 2023, "Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers", https://doi.org/10.18419/DARUS-3796, DaRUS, V1 This code/data allows you reproduce the results of the paper: "A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers" by P. F. S. Chacon, M. Hammer, I. Wochner, J. R. Walter and S. Schmitt. Always cite the paper together with this dataset because this dataset is not self-exp...
muscle_spindle_Hill.tar.gz Dec 15, 2023 - Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers Gzip Archive - 192.7 MB - MD5: d462b2754c5b4526ff9c2d3310cf70aa Code for structurally physiological Hill-type model of the muscle spindle. Please read ReadMe to find a description how to use the model and reproduce the results of the paper.
README.md Dec 15, 2023 - Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers Markdown Text - 2.4 KB - MD5: f0f8fd6035ca53c0fc1541d1eed5ee8a This file describes how to use the model. Please read it to find out how to reproduce the results from the paper.
Neck Reflex Behavior in Driving Simulator Experiments - Academic-Scale Simulator at ITM Jun 21, 2023 - Neck Reflex Behavior in Driving Simulator Experiments Kempter, Fabian; Lantella, Lorena; Stutzig, Norman; Fehr, Jörg; Siebert, Tobias, 2023, "Neck Reflex Behavior in Driving Simulator Experiments - Academic-Scale Simulator at ITM", https://doi.org/10.18419/DARUS-3000, DaRUS, V1 Neck movement and injury during a car crash is influenced by reflexes, strength, and flexibility. This data set contains in-vivo measurements of neck kinematics and reflexes as participants are rapidly accelerated while driving a mechanically simulated car. This data set includes measurements from a mechanical driving simulator that has a limited r...

true_model_logistic_4params_istep_single_trial.stan

Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference

Unknown - 1.5 KB -

true_model_logistic_4params.stan

Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference

Unknown - 1.3 KB -

true_model_logistic_istep_mp.stan

Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference

Unknown - 1.2 KB -

true_model_logistic_istep_single_trial.stan

Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference

Unknown - 1.3 KB -

true_models_helpers.R

Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference

R Syntax - 400 B -

utils.R

Mar 14, 2024 - Replication Code for: Uncertainty Quantification and Propagation in Surrogate-based Bayesian Inference

R Syntax - 7.3 KB -

Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers

Dec 15, 2023 - PN 2-3B

Santana Chacon, Pablo Filipe; Hammer, Maria; Wochner, Isabell; Walter, Johannes R.; Schmitt, Syn, 2023, "Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers", https://doi.org/10.18419/DARUS-3796, DaRUS, V1

This code/data allows you reproduce the results of the paper: "A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers" by P. F. S. Chacon, M. Hammer, I. Wochner, J. R. Walter and S. Schmitt. Always cite the paper together with this dataset because this dataset is not self-exp...

muscle_spindle_Hill.tar.gz

Dec 15, 2023 - Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers

Gzip Archive - 192.7 MB -

Code for structurally physiological Hill-type model of the muscle spindle. Please read ReadMe to find a description how to use the model and reproduce the results of the paper.

README.md

Dec 15, 2023 - Replication Data for: A physiologically enhanced muscle spindle model: using a Hill-type model for extrafusal fibers as template for intrafusal fibers

Markdown Text - 2.4 KB -

This file describes how to use the model. Please read it to find out how to reproduce the results from the paper.

Neck Reflex Behavior in Driving Simulator Experiments - Academic-Scale Simulator at ITM

Jun 21, 2023 - Neck Reflex Behavior in Driving Simulator Experiments

Kempter, Fabian; Lantella, Lorena; Stutzig, Norman; Fehr, Jörg; Siebert, Tobias, 2023, "Neck Reflex Behavior in Driving Simulator Experiments - Academic-Scale Simulator at ITM", https://doi.org/10.18419/DARUS-3000, DaRUS, V1

Neck movement and injury during a car crash is influenced by reflexes, strength, and flexibility. This data set contains in-vivo measurements of neck kinematics and reflexes as participants are rapidly accelerated while driving a mechanically simulated car. This data set includes measurements from a mechanical driving simulator that has a limited r...

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