Traditional Frequency Response Function (FRF) estimation techniques used for analysis of Human Controller (HC) dynamics in tracking tasks assume HC dynamics to be linear, but generally do not quantify or compensate for the effects of human nonlinearities. The robust and fast Best Linear Approximation (BLA) techniques for estimating an FRF do provide such quantification of nonlinear distortions caused by Period-In-Same-Period-Out (PISPO) nonlinearities and can reduce the effect of PISPO nonlinear operations on the FRF estimate. This paper investigates the application of these BLA techniques to both measured and simulated HC data. For the simulated data, a linear HC model was deliberately extended with a symmetric PISPO deadzone nonlinear ope...
A novel signal processing approach is developed in the present study for accurate elevation of the o...
Higher-order frequency response functions (FRFs) are important to the analysis and identification of...
In this paper, we discuss optimized strategies to measure the frequency response function in the pre...
Traditional Frequency Response Function (FRF) estimation techniques used for analysis of Human Contr...
This paper discusses the impact of nonlinear friction on frequency response function (FRF) measureme...
This paper discusses the impact of nonlinear friction on frequency response function (FRF) measureme...
An experiment is designed to identify input-output relations of a mechanical positioning system with...
A key step in control of precision mechatronic systems is Frequency Response Function (FRF) identifi...
System identification techniques applied to experimental human-in-the-loop data provide an objective...
System identification in robotics often involves the estimation of linear models characterizing the b...
The human controller (HC) can greatly improve target-tracking performance by utilizing a feedforward...
In many engineering applications, the level of nonlinear distortions in frequency response function ...
This paper introduces a two-step identification method of human multichannel perception and control....
The aim of this article is to give a tutorial overview of frequency response function (FRF) or impul...
Nonparametric estimation methods for the multivariable frequency response function are experimentall...
A novel signal processing approach is developed in the present study for accurate elevation of the o...
Higher-order frequency response functions (FRFs) are important to the analysis and identification of...
In this paper, we discuss optimized strategies to measure the frequency response function in the pre...
Traditional Frequency Response Function (FRF) estimation techniques used for analysis of Human Contr...
This paper discusses the impact of nonlinear friction on frequency response function (FRF) measureme...
This paper discusses the impact of nonlinear friction on frequency response function (FRF) measureme...
An experiment is designed to identify input-output relations of a mechanical positioning system with...
A key step in control of precision mechatronic systems is Frequency Response Function (FRF) identifi...
System identification techniques applied to experimental human-in-the-loop data provide an objective...
System identification in robotics often involves the estimation of linear models characterizing the b...
The human controller (HC) can greatly improve target-tracking performance by utilizing a feedforward...
In many engineering applications, the level of nonlinear distortions in frequency response function ...
This paper introduces a two-step identification method of human multichannel perception and control....
The aim of this article is to give a tutorial overview of frequency response function (FRF) or impul...
Nonparametric estimation methods for the multivariable frequency response function are experimentall...
A novel signal processing approach is developed in the present study for accurate elevation of the o...
Higher-order frequency response functions (FRFs) are important to the analysis and identification of...
In this paper, we discuss optimized strategies to measure the frequency response function in the pre...