Timeline

Jakob Ruess

Permanent Researcher

12 Jul 2023

publication

Bayesian filtering for model predictive control of stochastic gene expression in single cells

06 Feb 2023

publication

Optimal control of bioproduction in the presence of population heterogeneity

22 Apr 2022

publication

Enabling reactive microscopy with MicroMator

10 Mar 2022

publication

Using single-cell models to predict the functionality of synthetic circuits at the population scale

01 Mar 2022

publication

Parameter inference for stochastic biochemical models from perturbation experiments parallelised at the single cell level

08 Feb 2022

event

DCB Seminar Series – Mary Dunlop – Cell-to-Cell Heterogeneity and Methods for Quantification and Control

01 Dec 2021

publication

External control of microbial populations for bioproduction: A modeling and optimization viewpoint

05 Oct 2021

publication

A light tunable differentiation system for the creation and control of consortia in yeast

01 Jul 2021

publication

Beyond the chemical master equation: Stochastic chemical kinetics coupled with auxiliary processes

15 Dec 2020

publication

To quarantine, or not to quarantine: A theoretical framework for disease control via contact tracing

03 Sep 2019

publication

Estimating information in time-varying signals

02 Jul 2019

publication

Molecular noise of innate immunity shapes bacteria-phage ecologies

25 Jun 2019

publication

Can optimal experimental design serve as a tool to characterize highly non-linear synthetic circuits?

25 Jun 2019

publication

Optimal control of an artificial microbial differentiation system for protein bioproduction

22 Jan 2019

news

3 postdoc positions: systems and synthetic biology, biophysics, applied mathematics

04 Dec 2017

news

Computerised biology, or how to control a population of cells with a computer

16 Nov 2017

publication

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Timeline

Bayesian filtering for model predictive control of stochastic gene expression in single cells

Optimal control of bioproduction in the presence of population heterogeneity

Enabling reactive microscopy with MicroMator

Using single-cell models to predict the functionality of synthetic circuits at the population scale

Parameter inference for stochastic biochemical models from perturbation experiments parallelised at the single cell level

DCB Seminar Series – Mary Dunlop – Cell-to-Cell Heterogeneity and Methods for Quantification and Control

External control of microbial populations for bioproduction: A modeling and optimization viewpoint

A light tunable differentiation system for the creation and control of consortia in yeast

Beyond the chemical master equation: Stochastic chemical kinetics coupled with auxiliary processes

To quarantine, or not to quarantine: A theoretical framework for disease control via contact tracing

Estimating information in time-varying signals

Molecular noise of innate immunity shapes bacteria-phage ecologies

Can optimal experimental design serve as a tool to characterize highly non-linear synthetic circuits?

Optimal control of an artificial microbial differentiation system for protein bioproduction

3 postdoc positions: systems and synthetic biology, biophysics, applied mathematics

Computerised biology, or how to control a population of cells with a computer

Shaping bacterial population behavior through computer-interfaced control of individual cells