The control of biochemical processes is a major goal in many fields, encompassing metabolic engineering and synthetic biology. Current approaches are based on ad-hoc designs, whereas a general and modular framework would be highly desirable, in order to exploit the well-assessed methods of control theory. The present work deals with the realization of an important component of control systems, namely the subtractor block. Adopting the framework of Chemical Reaction Networks (CRNs), a subtractor module whose output converges to the difference of the input molecular fluxes is devised. The convergence properties of the proposed CRN subtractor module are investigated via a singular perturbation approach. Finally, its effectiveness is investigat...
We consider the design of synthetic embedded feedback circuits that can implement desired changes in...
A fundamental aim of synthetic biology is to achieve the capability to design and implement robust e...
This thesis deals with modelling, analysis, and design of interactions between subsystems in chemica...
The control of biochemical processes is a major goal in many fields, encompassing metabolic engineer...
The control of biochemical processes is a major goal in systems and synthetic biology. Current appr...
The control of biochemical processes is a major goal in many fields, encompassing metabolic engineer...
Chemical Reaction Network Theory (CRNT) is an effective framework to model the behaviour of biochem...
Chemical Reaction Network (CRN) models based on the mass-action law play an important role in the li...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
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...
Feedback control is widely used in chemical engineering to improve the performance and robustness of...
The online estimation of the derivative of an input signal is widespread in control theory and engin...
Living cells are able to produce a wide variety of biological responses when subjected to biochemica...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
We consider the design of synthetic embedded feedback circuits that can implement desired changes in...
A fundamental aim of synthetic biology is to achieve the capability to design and implement robust e...
This thesis deals with modelling, analysis, and design of interactions between subsystems in chemica...
The control of biochemical processes is a major goal in many fields, encompassing metabolic engineer...
The control of biochemical processes is a major goal in systems and synthetic biology. Current appr...
The control of biochemical processes is a major goal in many fields, encompassing metabolic engineer...
Chemical Reaction Network Theory (CRNT) is an effective framework to model the behaviour of biochem...
Chemical Reaction Network (CRN) models based on the mass-action law play an important role in the li...
The use of abstract chemical reaction networks (CRNs) as a modelling and design framework for the im...
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...
Feedback control is widely used in chemical engineering to improve the performance and robustness of...
The online estimation of the derivative of an input signal is widespread in control theory and engin...
Living cells are able to produce a wide variety of biological responses when subjected to biochemica...
Chemical reaction networks can be utilised as basic components for nucleic acid feedback control sys...
We consider the design of synthetic embedded feedback circuits that can implement desired changes in...
A fundamental aim of synthetic biology is to achieve the capability to design and implement robust e...
This thesis deals with modelling, analysis, and design of interactions between subsystems in chemica...