Author :
Fliess, Michel ; Lévine, Jean ; Martin, Philippe ; Rouchon, Pierre
Author_Institution :
Lab. des Signaux et Syst., CNRS, Gif-sur-Yvette, France
Abstract :
In engineering, as well as in physics, one often encounters implicit systems of ordinary differential equations of the form Fi (t,y˙1,…,y˙m,y1 ,…,ym)=0, i=1,…,m, in the unknowns y1,…,ym, where the Jacobian matrix (∂F i/∂y˙j)i,j is identically singular. We state a condition of well-posedness and provide a formula for the gauge degree of freedom, which is important in physics. A decomposition is established, which gives as a byproduct a clear-cut definition of the index. Implicit control systems, on the other hand, are often differentially flat. We employ tools stemming from the differential geometry of infinite jets and prolongations and Lie-Backlund applications, since the Fi´s must be differentiated an arbitrary number of times
Keywords :
Jacobian matrices; Lie algebras; differential equations; differential geometry; Lie-Backlund mappings; differential geometry; identically singular Jacobian matrix; implicit differential equations; infinite jets; prolongations; well-posedness condition; Communication system control; Control systems; Cranes; Differential equations; Feedback; Geometry; Lagrangian functions; Mechanical systems; Mechanical variables control; Physics;
