Instrumental computing and software tools have been developed for constructing a nonlinear dynamic model of the human oculo-motor system (OMS) based on the data of input-output experiments using test visual stimulus and innovative technology. Volterra model in the form of multidimensional transition functions of the 1st, 2nd and 3rd orders, taking into account the inertial and nonlinear properties of the OMS was used as the identification tool. Eye-tracking data developed in the Matlab environment are tested on real datasets from an experimental study of OMS
Classical models of the oculomotoric system only represent the relationship between neural stimulati...
AbstractThe ocular and motor equilibrium of the visual system is ensured by normal ocular movements,...
A mathematical model of the coordination control between the arm motor system and the smooth pursuit...
Instrumental computing and software tools have been developed for constructing a nonlinear dynamic m...
This thesis proposes nonlinear system identification techniques for the mathematical modeling of the...
Oculomotor tests (OMT) are administered to quantify symptoms in neurological and mental diseases. Ey...
This thesis treats the identification of Volterra models of the human smooth pursuit system from eye...
A mechanical model of the human eye is presented aimed at estimating the level of muscular activatio...
Abstract – This paper builds a two-dimensional linear homeomorphic oculomotor plant mathematical mod...
System identification finds nowadays application in various areas of biological research as a tool o...
This thesis treats the mathematical modeling of the human smooth pursuit system using Volterra-Lague...
This research presents a new biologically motivated robotic model of the human eye. The model incorp...
The goal of this paper is to predict future horizontal eye movement trajectories within a specified ...
International audienceSeveral studies have shown that humans track a moving visual target with their...
Objective: We present a physiologically motivated eye movement analysis framework for model-based se...
Classical models of the oculomotoric system only represent the relationship between neural stimulati...
AbstractThe ocular and motor equilibrium of the visual system is ensured by normal ocular movements,...
A mathematical model of the coordination control between the arm motor system and the smooth pursuit...
Instrumental computing and software tools have been developed for constructing a nonlinear dynamic m...
This thesis proposes nonlinear system identification techniques for the mathematical modeling of the...
Oculomotor tests (OMT) are administered to quantify symptoms in neurological and mental diseases. Ey...
This thesis treats the identification of Volterra models of the human smooth pursuit system from eye...
A mechanical model of the human eye is presented aimed at estimating the level of muscular activatio...
Abstract – This paper builds a two-dimensional linear homeomorphic oculomotor plant mathematical mod...
System identification finds nowadays application in various areas of biological research as a tool o...
This thesis treats the mathematical modeling of the human smooth pursuit system using Volterra-Lague...
This research presents a new biologically motivated robotic model of the human eye. The model incorp...
The goal of this paper is to predict future horizontal eye movement trajectories within a specified ...
International audienceSeveral studies have shown that humans track a moving visual target with their...
Objective: We present a physiologically motivated eye movement analysis framework for model-based se...
Classical models of the oculomotoric system only represent the relationship between neural stimulati...
AbstractThe ocular and motor equilibrium of the visual system is ensured by normal ocular movements,...
A mathematical model of the coordination control between the arm motor system and the smooth pursuit...