In this thesis, we study the properties of lossless systems using the concept of quadratic differential forms (QDFs). Based on observation of physical linear lossless systems, we define a lossless system as one for which there exists a QDF known as an energy function that is positive along nonzero trajectories of the system and whose derivative along the trajectories of the system is zero if inputs to the system are made equal to zero. Using this deffnition, we prove that if a lossless system is autonomous, then it is oscillatory. We also give an algorithm whose output is a two-variable polynomial that induces an energy function of a lossless system and we describe a suitable way of splitting a given energy function into its potential and k...
We study quadratic functionals of the variables of a linear oscillatory system and their derivatives...
Passivity and dissipativity are energy based properties of dynamical systems that may be used for th...
We study the structure and properties of the set of intrinsically zero-mean quadratic quantities for...
In this thesis, we study the properties of lossless systems using the concept of quadratic different...
We define a lossless autonomous system as one having a quadratic differential form associated with i...
We define a lossless autonomous system as one having a quadratic differential form associated with i...
Lossless and all-pass systems are energy-conservative in the sense that the energy that is extracted...
In this paper, a class of behaviours known as J-lossless behaviours is introduced, where J is a symm...
We consider the problem of realizing lossless behaviours with respect to the supply rate equal to th...
This paper deals with linear shift-invariant distributed systems. By this we mean systems described ...
We consider a behavior with an equal number of inputs and outputs for which there exists a quadratic...
We consider a behavior with an equal number of inputs and outputs for which there exists a quadratic...
This paper deals with dissipative dynamical systems. Dissipative dynamical systems can be used as mo...
In this paper, motivated by the phenomenon of the interconnection of lossless electrical networks, a...
We study quadratic functionals of the variables of a linear oscillatory system and their derivatives...
Passivity and dissipativity are energy based properties of dynamical systems that may be used for th...
We study the structure and properties of the set of intrinsically zero-mean quadratic quantities for...
In this thesis, we study the properties of lossless systems using the concept of quadratic different...
We define a lossless autonomous system as one having a quadratic differential form associated with i...
We define a lossless autonomous system as one having a quadratic differential form associated with i...
Lossless and all-pass systems are energy-conservative in the sense that the energy that is extracted...
In this paper, a class of behaviours known as J-lossless behaviours is introduced, where J is a symm...
We consider the problem of realizing lossless behaviours with respect to the supply rate equal to th...
This paper deals with linear shift-invariant distributed systems. By this we mean systems described ...
We consider a behavior with an equal number of inputs and outputs for which there exists a quadratic...
We consider a behavior with an equal number of inputs and outputs for which there exists a quadratic...
This paper deals with dissipative dynamical systems. Dissipative dynamical systems can be used as mo...
In this paper, motivated by the phenomenon of the interconnection of lossless electrical networks, a...
We study quadratic functionals of the variables of a linear oscillatory system and their derivatives...
Passivity and dissipativity are energy based properties of dynamical systems that may be used for th...
We study the structure and properties of the set of intrinsically zero-mean quadratic quantities for...