In this paper we present and analyze a novel algorithm for identifying linear time-invariant discrete time state-space models from frequency response data. The algorithm is noniterative and exactly recovers a true system of order n, if n+2 noise-free uniformly spaced frequency response measurements are given. Analysis show that if the measurements are perturbed with errors upper bounded by ε the identification error will be upper bounded by ε and hence the algorithm is robust. An asymptotic stochastic analysis show, under weak assumptions, that the algorithm is consistent if the measurements are contaminated with noise
In this paper, we study instrumental variable subspace identification of multi-input/multi-output li...
Abstract- In the general case of non-uniformly spaced frequency domain data and/or arbitrarily colou...
In modern robust control, control system analysis and design are based on a nominal plant model and ...
In this paper we present and analyze a novel algorithm for identifying linear time-invariant discret...
In this paper we present and analyze a novel algorithm for identifying linear time-invariant discret...
This paper considers system identification in frequency domain where the experimental data is a fini...
A unified approach is developed for identification of linear time-invariant systems. It is shown tha...
In this paper, we present a novel non-iterative algorithm to identify linear time-invariant systems ...
In this paper, the problem of ‘system identification in ℋ∞’ is investigated in the case when the giv...
This paper examines the problem of system identification from frequency response data. Recent approa...
When the sensors readings are perturbed by an unknown stochastic time jitter, classical system ident...
In this chapter we have explored the robustness issues that arise in the identification of continuou...
A unified approach for identification of linear time-invariant systems is developed. It is shown tha...
In this paper, the problem of \u27system identification in H∞\u27 is investigated in the case when t...
Approaching parameter estimation from the discrete-time domain is the dominating paradigm in system ...
In this paper, we study instrumental variable subspace identification of multi-input/multi-output li...
Abstract- In the general case of non-uniformly spaced frequency domain data and/or arbitrarily colou...
In modern robust control, control system analysis and design are based on a nominal plant model and ...
In this paper we present and analyze a novel algorithm for identifying linear time-invariant discret...
In this paper we present and analyze a novel algorithm for identifying linear time-invariant discret...
This paper considers system identification in frequency domain where the experimental data is a fini...
A unified approach is developed for identification of linear time-invariant systems. It is shown tha...
In this paper, we present a novel non-iterative algorithm to identify linear time-invariant systems ...
In this paper, the problem of ‘system identification in ℋ∞’ is investigated in the case when the giv...
This paper examines the problem of system identification from frequency response data. Recent approa...
When the sensors readings are perturbed by an unknown stochastic time jitter, classical system ident...
In this chapter we have explored the robustness issues that arise in the identification of continuou...
A unified approach for identification of linear time-invariant systems is developed. It is shown tha...
In this paper, the problem of \u27system identification in H∞\u27 is investigated in the case when t...
Approaching parameter estimation from the discrete-time domain is the dominating paradigm in system ...
In this paper, we study instrumental variable subspace identification of multi-input/multi-output li...
Abstract- In the general case of non-uniformly spaced frequency domain data and/or arbitrarily colou...
In modern robust control, control system analysis and design are based on a nominal plant model and ...