Add to ORKGAbstract — This paper analyzes the computational complexity of set membership identification of a class of nonlinear systems consisting of the interconnection of a Linear Time Invariant plant and a static nonlinearity. Its main result shows that, even in cases where a portion of the plant is known, the problem is generically NP–hard both in the number of experimental data points and in the number of inputs or outputs of the nonlinearity. These results provide new insight into the reasons underlying the high computational complexity of several recently proposed algorithms and point out to the need for developing computationally tractable relaxations. I
Set-membership identification of dynamical systems is dealt with in this thesis. Differently from th...
Set constraints are relations between sets of terms. They have been used extensively in various app...
This thesis is concerned with characterizing abstractly situations in which system identification is...
The Set Membership nonlinear identification method is a flexible technique, suitable for the identif...
Investigates the set membership identification of time-invariant, discrete-time, exponentially stabl...
AbstractSystem identification consists in finding a model of an unknown system starting from a finit...
In the paper the problem of identifying nonlinear dynamic systems, described in nonlinear regression...
AbstractThe complexity of identification of abstract classes of input-output systems based on a fini...
AbstractThis paper describes a machine model intended to be useful in deriving realistic complexity ...
Set-membership identification of Hammerstein-Wiener models is addressed in the paper. First, it is s...
Typically, a set is described as complex when its membership problem has no efficient solution. Man...
We study the complexity of worst-case time-domain identification of linear time-invariant systems us...
Identifiability guarantees that the mathematical model of a dynamic system is well defined in the se...
Abstract: We are concerned with the identication of static nonlinear maps in a structured interconne...
Abstract—In previous papers we presented an approach to identify a Petri net system, given its langu...
Set-membership identification of dynamical systems is dealt with in this thesis. Differently from th...
Set constraints are relations between sets of terms. They have been used extensively in various app...
This thesis is concerned with characterizing abstractly situations in which system identification is...
The Set Membership nonlinear identification method is a flexible technique, suitable for the identif...
Investigates the set membership identification of time-invariant, discrete-time, exponentially stabl...
AbstractSystem identification consists in finding a model of an unknown system starting from a finit...
In the paper the problem of identifying nonlinear dynamic systems, described in nonlinear regression...
AbstractThe complexity of identification of abstract classes of input-output systems based on a fini...
AbstractThis paper describes a machine model intended to be useful in deriving realistic complexity ...
Set-membership identification of Hammerstein-Wiener models is addressed in the paper. First, it is s...
Typically, a set is described as complex when its membership problem has no efficient solution. Man...
We study the complexity of worst-case time-domain identification of linear time-invariant systems us...
Identifiability guarantees that the mathematical model of a dynamic system is well defined in the se...
Abstract: We are concerned with the identication of static nonlinear maps in a structured interconne...
Abstract—In previous papers we presented an approach to identify a Petri net system, given its langu...
Set-membership identification of dynamical systems is dealt with in this thesis. Differently from th...
Set constraints are relations between sets of terms. They have been used extensively in various app...
This thesis is concerned with characterizing abstractly situations in which system identification is...