Zur Person

Forschungsfelder und / oder Lehrgebiete

  • Physiologische Modellbildung 
  • Matlab/Simulink 
  • Java Programmierung 
  • Arduino
  • Rapid Prototyping (FDM / MJM)

Publikationen

Kretschmer, Jörn

2019 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009

2019

Jörn Kretschmer, Paul D. Docherty, Shaun M. Davidson, Bernhard Laufer, Knut Möller Comparing three differing approaches to identify a three-parameter gas-exchange model with noisy data
Jörn Kretschmer Einsatz von MATLAB Grader zur Ergänzung der akademischen Lehre
Jörn Kretschmer, Jörg Friedrich, Thomas Schiepp Using low-cost hardware to teach mechatronics in a project-based university course

2017

Jörn Kretschmer, Cesar Bibiano, Bernhard Laufer, Paul D. Docherty, Yeong S. Chiew, Daniel Redmond, James G. Chase, Knut Möller Differences in respiratory mechanics estimation with respect to manoeuvres and mathematical models
Bernhard Laufer, Jörn Kretschmer, Paul D. Docherty, Yeong S. Chiew, Knut Möller Lung mechanics - airway resistance in the dynamic elastance model
Jörn Kretschmer, Aakash Patel, Paul D. Docherty, Bernhard Laufer, Knut Möller Model based prediction of plateau pressure in mechanically ventilated patients
Bernhard Laufer, Jörn Kretschmer, Paul D. Docherty, Knut Möller, Fabian Höflinger, Leonhard Reindl Sensor placement in a smart compression shirt to measure spontaneous breathing
Shaun M. Davidson, Paul D. Docherty, Jörn Kretschmer, Rua Murray The Novel Dimensional Reduction Method and Tikhonov Regularisation in Parameter Identification of Non-Linear Ill-Posed Problems
Jörn Kretschmer, Paul D. Docherty, Bernhard Laufer, Knut Möller The effect of measurement error on the hierarchical identification of a gas exchange model
Knut Möller, Bo Gong, Jörn Kretschmer, Sabine Krüger-Ziolek, Bernhard Laufer, Jacquelyn D. Parente, Benjamin Schullcke Verbesserung medizinischer Behandlungsformen mit technischen (Hilfs-)Mitteln
Knut Möller, Bo Gong, Jörn Kretschmer, Sabine Krüger-Ziolek, Bernhard Laufer, Jacquelyn D. Parente, Benjamin Schullcke Verbesserung medizinischer Behandlungsformen mit technischen (Hilfs-)Mitteln
Bernhard Laufer, Jörn Kretschmer, Paul D. Docherty, Yeong S. Chiew, Knut Möller What does a First Order Model tell us about PEEP Wave Maneuvers?

2016

Jörn Kretschmer, Thomas Lehmann, Daniel Redmond, Patrick Stehle, Knut Möller A Modular Patient Simulator for Evaluation of Decision Support Algorithms in Mechanically Ventilated Patients
Manjunath Jayaramaiah, Bernhard Laufer, Jörn Kretschmer, Knut Möller A New Lung Mechanics Model and Its Evaluation with Clinical Data
Bernhard Laufer, Sabine Krüger-Ziolek, Benjamin Schullcke, Jörn Kretschmer, Knut Möller Diagnosis and treatment of flow limitation with a controllable airway resistance - a software simulation
Cesar Bibiano, Yeong S. Chiew, Daniel Redmond, Jörn Kretschmer, Paul D. Docherty, James G. Chase, Knut Möller Effects of Different Models and Different Respiratory Manoeuvres in Respiratory Mechanics Estimation
Jörn Kretschmer, Bernhard Laufer, Thomas Lehmann, Patrick Stehle, Daniel Redmond, Knut Möller Ein softwarebasierter Patientensimulator zur Evaluierung medizinischer Entscheidungssysteme
Jörn Kretschmer, Paul D. Docherty, Axel Riedlinger, Knut Möller Evaluating different approaches to identify a three parameter gas exchange model
Jörn Kretschmer, Cesar Bibiano, Patrick Stehle, Knut Möller Evaluating the Combined Optimization of Oxygenation and Ventilation in a Patient Simulator
Bernhard Laufer, Jörn Kretschmer, Paul D. Docherty, Yeong S. Chiew, Knut Möller The Influence of Airway Resistance in the Dynamic Elastance Model

2015

Patrick Stehle, Thomas Lehmann, Daniel Redmond, Knut Möller, Jörn Kretschmer A java based simulator with user interface to simulate ventilated patients
Jörn Kretschmer, Achim Speck, Sunetra Basavaraju, Axel Riedlinger, Christoph Schranz, Knut Möller Automated model selection in competing models of respiratory mechanics
Jörn Kretschmer, Axel Riedlinger, Knut Möller Automatisierte Modellselektion in der modellbasierten Entscheidungsunterstützung
Jörn Kretschmer, Axel Riedlinger, Knut Möller Evaluation of an algorithm to choose between competing models of respiratory mechanics
Axel Riedlinger, Knut Möller, Jörn Kretschmer Hierarchical identification in a three-parameter model of pulmonary gas exchange
Jörn Kretschmer, Christoph Schranz, Axel Riedlinger, Dirk Schädler, Norbert Weiler, Knut Möller Hierarchische Modellsysteme zur Optimierung der Beatmungstherapie
Dominik Haas, Somphong Phommahavong, Jing Yu, Sabine Krüger-Ziolek, Knut Möller, Jörn Kretschmer Kinect based physiotherapy system for home use
Jörn Kretschmer, Christoph Schranz, Axel Riedlinger, Knut Möller Komplexe Modellsysteme in der automatisierten Beatmung
Daniel Redmond, Jörn Kretschmer, Yeong S. Chiew, Christopher Pretty, Knut Möller, James G. Chase Modelling expiration using viscoelastic pressure dependant recruitment models - is it the same as inspiration
Axel Riedlinger, Jörn Kretschmer, Knut Möller On the practical identifiability of a two-parameter model of pulmonary gas exchange
Sabine Krüger-Ziolek, Benjamin Schullcke, Jörn Kretschmer, Ullrich Müller-Lisse, Knut Möller, Zhanqi Zhao Positioning of electrode plane systematically influences EIT imaging

2014

Jörn Kretschmer, Axel Riedlinger, Knut Möller Determining the Optimal Calibration Point for the Clinical Application of a Simple Model of Human Gas Exchange
Axel Riedlinger, Jörn Kretschmer, Knut Möller Estimating the Measuring Effort for Using a Two-Parameter Gas Exchange Model in Clinical Practice
Achim Speck, Jörn Kretschmer, Axel Riedlinger, Knut Möller Evaluating selection criteria for physiological models of various complexities
Sunetra Basavaraju, A. Speck, Jörn Kretschmer, Knut Möller Kriterien zur automatisierten Modellselektion in Modellen der menschlichen Atemmechanik
Jörn Kretschmer, Axel Riedlinger, Christoph Schranz, Knut Möller Medical decision support in mechanical ventilation employing combined model information of gas exchange and respiratory mechanics
Jörn Kretschmer, Thomas Haunsberger, Erick Drost, Edmund Koch, Knut Möller Simulating physiological interactions in a hybrid system of mathematical models
Axel Riedlinger, Jörn Kretschmer, Knut Möller The influence of measurement noise on parameter identification in a mathematical model of gas exchange
Jörn Kretschmer, Axel Riedlinger, Knut Möller Using in-silico and real patient data to determine the influence of calibration on model prediction in a simple model of gas exchange
Jörn Kretschmer, Axel Riedlinger, Knut Möller Using in-silico and real patient data to determine the influence of calibration on model prediction in an simple model of gas exchange

2013

Jörn Kretschmer, Axel Riedlinger, Tobias Becher, Dirk Schädler, Norbert Weiler, Knut Möller A Family of Physiological Models to Simulate Human Gas Exchange
Jörn Kretschmer, Axel Riedlinger, Knut Möller A Hierarchical Model Family of Human Gas Exchange for the Use in Medical Decision Support
Jörn Kretschmer, Tobias Becher, Axel Riedlinger, Dirk Schädler, Norbert Weiler, Knut Möller A simple gas exchange model predicting arterial oxygen content for various FiO2 levels
Thu Nguyen, Jörn Kretschmer, Knut Möller Bringing Model Based Ventilation Therapy to the Bedside
Thu Nguyen, Thomas Lehmann, Jörn Kretschmer, Knut Möller Bringing Model Based Ventilation Therapy to the Bedside
Jörn Kretschmer, Christoph Schranz, Christian Knöbel, J. Wingender, E. Koch, Knut Möller Efficient computation of interacting model systems
Axel Riedlinger, Jörn Kretschmer, Knut Möller Hierarchical Identification Process of a Two-Parameter Gas Exchange Model
Axel Riedlinger, Jörn Kretschmer, Knut Möller Hierarchical Model Structure for Identification of a Gas Exchange Model
Axel Riedlinger, Jörn Kretschmer, Knut Möller Hierarchical Structure of Human Gas Exchange Models to Improve Parameter Identification
Christoph Schranz, Jörn Kretschmer, Knut Möller Hierarchical individualization of a recruitment model with a viscoelastic component for ARDS patients
Jörn Kretschmer, Axel Riedlinger, Knut Möller Hierarchische Modellbildung am Beispiel von Modellen des menschlichen Gasaustauschs
Jörn Kretschmer, Christoph Schranz, Axel Riedlinger, Knut Möller Hierarchische Modelle in der medizinischen Entscheidungsunterstützung
Axel Riedlinger, Jörn Kretschmer, Knut Möller Improving the Robustness of Parameter Identification for a Model of Gas Exchange
Jörn Kretschmer Komplexe Modellsysteme zur Automatisierung mechanischer Beatmung
Jörn Kretschmer, Axel Riedlinger, Knut Möller Minimal model prediction of FiO2 influence on oxygen content in human blood
Jörn Kretschmer, Axel Riedlinger, Knut Möller Predicting etCO2 response in a model of ventilation-perfusion mismatch
Jörn Kretschmer, Knut Möller The Iterative Computation of Decoupled Model Systems

2012

Jörn Kretschmer, Zhanqi Zhao, Erick Dorst, Thomas Haunsberger, Edmund Koch, Knut Möller A Hybrid Combination of Interacting Physiological Models
Jörn Kretschmer, Zhanqi Zhao, Thomas Haunsberger, Erick Drost, Edmund Koch, Knut Möller A Hybrid Model of Interacting Physiological Systems
Gabor Vanyi, Norbert Gut, Jörn Kretschmer, Knut Möller Concept study of a nonlinear mechanical lung simulator
Jörn Kretschmer, Christoph Schranz, J. Wingender, Knut Möller Decoupled evaluation supports parallel computing of interacting models
Norbert Gut, Jörn Kretschmer, Gabor Vanyi, Zhanqi Zhao, H. Zhu, Knut Möller Design of a mechanical lung simulator - A concept study
Axel Riedlinger, Jörn Kretschmer, Knut Möller Evaluation of an etCO2 predicting model
Jörn Kretschmer, Christian Knöbel, J. Wingender, Knut Möller Iterative computing of decoupled interacting models
Knut Möller, Jörn Kretschmer, Christoph Schranz, Zhanqi Zhao Modell-basiert optimierte Beatmungstherapie
Jörn Kretschmer, Edmund Koch, Knut Möller Optimierung der Berechnung physiologischer Modellsysteme durch Entkopplung der Modellkomponenten
Thu Nguyen, Zhanqi Zhao, Jörn Kretschmer, Knut Möller Simulation model for patient ventilator interaction with focus on changing disease states

2011

Jörn Kretschmer, Knut Möller A Hierarchical Model Family of Cardiovascular Dynamics
Jörn Kretschmer, Christoph Schranz, Knut Möller A Mathematical Model of Gas Exchange Predicting CO2 Response to Respiratory Rate Changes
Jörn Kretschmer, Knut Möller An Examination on Different Computing Approaches for Simulation of Complex Model Systems
Jörn Kretschmer, Christoph Schranz, Knut Möller Building Hierarchical Model Families: A Cardiovascular Example
Jörn Kretschmer, Alexander Wahl, Knut Möller Dynamically generated models for medical decision support systems
Knut Möller, Jörn Kretschmer, Christoph Schranz Hierarchical Modeling for Medical Decision Support
Christoph Schranz, Christian Knöbel, Jörn Kretschmer, Zhanqi Zhao, Knut Möller Hierarchical Parameter Identification in Models of Respiratory Mechanics
Jörn Kretschmer, Knut Möller Sequential versus Concurrent Computation of Complex Model Systems for Medical Decision Support
Jörn Kretschmer, Knut Möller Time course of etCO2 response to alterations in respiration rate predicted by a mathematical model of human gas exchange

2010

Jörn Kretschmer, Knut Möller Ein flexibler Ansatz zur Berechnung komplexer Modelle in Medizinischen Entscheidungsunterstützungssystemen
Jörn Kretschmer, Knut Möller Implementation of a flexible integration algorithm for computation of complex physiological model systems
Jörn Kretschmer, Marie Jensen, Sara Lozano, Josef Guttmann, Knut Möller Limitations of gas exchange models confronted with alterations of ventilation frequency in patient data
Jörn Kretschmer, Alexander Wahl, Knut Möller On the Integration of Different Physiological Model Systems
Jörn Kretschmer, Knut Möller Simulation von komplexen physiologischen Modellsystemen - ein flexibler Lösungsansatz
Jörn Kretschmer, Alexander Wahl, Johannes Arntz, Bettina Sabban, Knut Möller The combination of cardiovascular and pulmonary dynamics in a hierarchical system of physiological models

2009

Jörn Kretschmer, Alexander Wahl, J. Guttmann, Knut Möller Dynamic Generation of Physiological Model Systems
Jörn Kretschmer, Alexander Wahl, J. Guttmann, Knut Möller Dynamic generation of physiological model systems