Add to ORKGInternational audienceSliding-mode-based differentiators of the input f(t) of the order k yield exact estimations of the derivatives f(1), … f(k), provided an upper bound of |f(k+1)(t)| is available in real time.Practical application involves discrete noisy sampling of f and numeric integration of the internal variables between the measurements. The corresponding asymptotic differentiation accuracies are calculated in the presence of Euler integration and discrete sampling, whereas both independently feature variable or constant time steps. Proposed discrete differentiators restore the optimal accuracy of their continuous-time counterparts.Simulation confirms the presented results
International audienceRecent tuning guidelines for algebraic differentiators based on the analysis o...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
International audienceThis paper develops and uses a robust differentiator via sliding modes applied...
Sliding-mode (SM) based differentiation is exact on a large class of functions and robust to the pre...
International audienceThis paper proposes first partial results for a new class of differentiators. ...
International audienceThis work deals with the problem of online differentiation of noisy signals. I...
This letter proposes a differentiator for sampled signals with bounded noise and bounded second deri...
The problem of differentiating a function with bounded second derivative in the presence of bounded ...
The proposed kth-order filter is based on sliding modes (SMs). It exactly estimates k input derivati...
This paper proposes explicit and implicit discrete-time realizations for a class of homogeneous slid...
International audienceA simple differentiator is proposed, which is modeled by a second order time-v...
International audienceBased on the frequency argument, a novel secondorder sliding mode differentiat...
In this article the design of a new real-time differentiator featuring global convergence properties...
We propose a new real-time differentiator, called the discontinuous high-gain observer (DHGO), which...
This paper presents a time discretization of the robust exact filtering differentiator, a sliding mo...
International audienceRecent tuning guidelines for algebraic differentiators based on the analysis o...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
International audienceThis paper develops and uses a robust differentiator via sliding modes applied...
Sliding-mode (SM) based differentiation is exact on a large class of functions and robust to the pre...
International audienceThis paper proposes first partial results for a new class of differentiators. ...
International audienceThis work deals with the problem of online differentiation of noisy signals. I...
This letter proposes a differentiator for sampled signals with bounded noise and bounded second deri...
The problem of differentiating a function with bounded second derivative in the presence of bounded ...
The proposed kth-order filter is based on sliding modes (SMs). It exactly estimates k input derivati...
This paper proposes explicit and implicit discrete-time realizations for a class of homogeneous slid...
International audienceA simple differentiator is proposed, which is modeled by a second order time-v...
International audienceBased on the frequency argument, a novel secondorder sliding mode differentiat...
In this article the design of a new real-time differentiator featuring global convergence properties...
We propose a new real-time differentiator, called the discontinuous high-gain observer (DHGO), which...
This paper presents a time discretization of the robust exact filtering differentiator, a sliding mo...
International audienceRecent tuning guidelines for algebraic differentiators based on the analysis o...
Optimal, maximally accurate digital differentiators (DDS) are derived for the low-frequency range. E...
International audienceThis paper develops and uses a robust differentiator via sliding modes applied...