Finding objective methods for assessing the performance of time–frequency distributions (TFD) of measured multi-component signals is not trivial. An optimal TFD should have well resolved signal components (auto-terms) and well suppressed cross-terms. This paper presents a novel signal adaptive method, which is shown to have better performance than the existing method, of automatically detecting the signal components for TFD time instants of two-component signals. The method can be used together with a performance measure to receive automatic and objective performance measures for different TFDs, which allows for an optimal TFD to be obtained. The new method is especially useful for signals including auto-terms of unequal amplitudes and non-...
This study proposes an adaptive method for components instantaneous frequency (IF) estimation of noi...
This paper presents a method for extraction of different signal components from multicomponent mixtu...
In this paper, we propose a novel time-frequency distribution (TFD) for the analysis of multi-compon...
Selecting a time-frequency distribution (TFD) which represents a signal in an optimal way is commonl...
Accurate instantaneous frequency (IF) estimation of the non-stationary heart rate signal is importan...
The instantaneous frequency (IF) of a non-stationary signal is usually estimated from a time-frequen...
The instantaneous frequency (IF) of a non-stationary signal is usually estimated from a time-frequen...
The quadratic class of time-frequency distributions (TFDs) forms a set of tools which allow to effec...
This paper presents a locally adaptive time-frequency (t,f) method for estimating the instantaneous ...
Non-stationary signals are very common in nature, consider for example speech, music or heart rate. ...
The non-stationary and multi-frequency nature of biomedical signal activities makes the use of time-...
This paper proposes a new performance evaluation process for time-frequency distributions (TFD) by d...
Multi-component transient signals show up in many different areas, most commonly in communication an...
In many situations, it is essential to analyze a nonstationary signal for sensing whose components n...
This paper presents an approach to compute the instantaneous frequency (IF) of a multicomponent sign...
This study proposes an adaptive method for components instantaneous frequency (IF) estimation of noi...
This paper presents a method for extraction of different signal components from multicomponent mixtu...
In this paper, we propose a novel time-frequency distribution (TFD) for the analysis of multi-compon...
Selecting a time-frequency distribution (TFD) which represents a signal in an optimal way is commonl...
Accurate instantaneous frequency (IF) estimation of the non-stationary heart rate signal is importan...
The instantaneous frequency (IF) of a non-stationary signal is usually estimated from a time-frequen...
The instantaneous frequency (IF) of a non-stationary signal is usually estimated from a time-frequen...
The quadratic class of time-frequency distributions (TFDs) forms a set of tools which allow to effec...
This paper presents a locally adaptive time-frequency (t,f) method for estimating the instantaneous ...
Non-stationary signals are very common in nature, consider for example speech, music or heart rate. ...
The non-stationary and multi-frequency nature of biomedical signal activities makes the use of time-...
This paper proposes a new performance evaluation process for time-frequency distributions (TFD) by d...
Multi-component transient signals show up in many different areas, most commonly in communication an...
In many situations, it is essential to analyze a nonstationary signal for sensing whose components n...
This paper presents an approach to compute the instantaneous frequency (IF) of a multicomponent sign...
This study proposes an adaptive method for components instantaneous frequency (IF) estimation of noi...
This paper presents a method for extraction of different signal components from multicomponent mixtu...
In this paper, we propose a novel time-frequency distribution (TFD) for the analysis of multi-compon...