A lie-bäcklund approach to dynamic feedback equivalence and flatness

2005 ◽  
pp. 245-268 ◽  
Author(s):  
Michel Fliess ◽  
Jean Lévine ◽  
Philippe Martin ◽  
Pierre Rouchon
Keyword(s):  
Dynamic Feedback ◽  
Feedback Equivalence

scholarly journals DYNAMIC FEEDBACK EQUIVALENCE OF NONLINEAR SYSTEMS ON TIME SCALES

2005 ◽  
Vol 38 (1) ◽  
pp. 435-440 ◽  
Author(s):  
Zbigniew Bartosiewicz ◽  
Ewa Pawluszewicz
Keyword(s):  
Nonlinear Systems ◽  
Time Scales ◽  
Dynamic Feedback ◽  
Feedback Equivalence

Guidance of aeroassisted vehicles by static and dynamic feedback

1995 ◽  
Author(s):  
Charalmbos Charalambous ◽  
Raed Jaber ◽  
D Naidu
Keyword(s):  
Dynamic Feedback

scholarly journals Integration of photocatalytic and dark-operating catalytic biomimetic transformations through DNA-based constitutional dynamic networks

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Chen Wang ◽  
Michael P. O’Hagan ◽  
Ehud Neumann ◽  
Rachel Nechushtai ◽  
Itamar Willner
Keyword(s):  
Nucleic Acid ◽  
Energy Harvesting ◽  
Information Transfer ◽  
Dynamic Networks ◽  
Research Direction ◽  
Cellular Biology ◽  
Dynamic Feedback ◽  
Dynamic Coupling ◽  
Metabolic Processes ◽  
Catalytic Functions

AbstractNucleic acid-based constitutional dynamic networks (CDNs) have recently emerged as versatile tools to control a variety of catalytic processes. A key challenge in the application of these systems is achieving intercommunication between different CDNs to mimic the complex interlinked networks found in cellular biology. In particular, the possibility to interface photochemical ‘energy-harvesting’ processes with dark-operating ‘metabolic’ processes, in a similar way to plants, represents an up to now unexplored yet enticing research direction. The present study introduces two CDNs that allow the intercommunication of photocatalytic and dark-operating catalytic functions mediated by environmental components that facilitate the dynamic coupling of the networks. The dynamic feedback-driven intercommunication of the networks is accomplished via information transfer between the two CDNs effected by hairpin fuel strands in the environment of the system, leading to the coupling of the photochemical and dark-operating modules.

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