The online estimation of the derivative of an input signal is widespread in control theory and engineering. In the realm of chemical reaction networks (CRN), this raises however a number of specific issues on the different ways to achieve it. A CRN pattern for implementing a derivative block has already been proposed for the PID control of biochemical processes, and proved correct using Tikhonov's limit theorem. In this paper, we give a detailed mathematical analysis of that CRN, thus clarifying the computed quantity and quantifying the error done as a function of the reaction kinetic parameters. In a synthetic biology perspective, we show how this can be used to design error correcting terms to compute online functions involving derivative...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
Chemical Reaction Network (CRN) models based on the mass-action law play an important role in the li...
Signal transduction is the process by which the cell converts one kind of signal or stimulus into an...
The online estimation of the derivative of an input signal is widespread in control theory and engin...
Principles of feedback control have been shown to naturally arise in biological systems and successf...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
Motivation: Cellular information processing can be described mathematically using differential equat...
State-of-the-art biochemical systems for medical applications and chemical computing are application...
Feedback control is widely used in chemical engineering to improve the performance and robustness of...
The control of biochemical processes is a major goal in many fields, encompassing metabolic engineer...
We present two quantitative behavioral equivalences over species of a chemical reaction network(CRN)...
Understanding the algorithmic behaviors that are in principle realizable in a chemical system is nec...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
Chemical Reaction Network (CRN) models based on the mass-action law play an important role in the li...
Signal transduction is the process by which the cell converts one kind of signal or stimulus into an...
The online estimation of the derivative of an input signal is widespread in control theory and engin...
Principles of feedback control have been shown to naturally arise in biological systems and successf...
Biochemical systems have been influenced, altered, and engineered to produce a myriad of complex beh...
International audienceOne goal of synthetic biology is to implement useful functions with biochemica...
International audienceThe Turing completeness of continuous chemical reaction networks (CRNs) states...
Motivation: Cellular information processing can be described mathematically using differential equat...
State-of-the-art biochemical systems for medical applications and chemical computing are application...
Feedback control is widely used in chemical engineering to improve the performance and robustness of...
The control of biochemical processes is a major goal in many fields, encompassing metabolic engineer...
We present two quantitative behavioral equivalences over species of a chemical reaction network(CRN)...
Understanding the algorithmic behaviors that are in principle realizable in a chemical system is nec...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
Efforts in programming DNA and other biological molecules have recently focused on general schemes t...
Chemical Reaction Network (CRN) models based on the mass-action law play an important role in the li...
Signal transduction is the process by which the cell converts one kind of signal or stimulus into an...