Many real-world applications are characterized by the presence of polynomial phase signals embedded in noise. These applications include radar, sonar, telemetry, communications, and power systems. In a significant number of these applications, it is highly desirable to be able to accurately estimate the polynomial phase signal parameters. This correspondence presents a computationally efficient method for estimating any or all of the parameters of polynomial-phase signals in white Gaussian noise and provides a first-order statistical analysis of the technique. Simulations are also presented to support the theoretical analysis
While the theory of estimation of monocomponent polynomial phase signals is well established, the th...
This paper details an algorithm for estimating the parameters of cubic phase signals embedded in add...
The polynomial Wigner-Ville distribution was designed as an optimal tool for characterising the spec...
Abstract—Many real-world applications are characterized by the pres-ence of polynomial phase signals...
Introduction. Polynomial phase signals frequently appear in radar, sonar, communication and technica...
Nonstationary signals are common in many environments such as radar, sonar, bioengineering and power...
International audiencePolynomial phase signals belong to a wide class of nonstationary signals used ...
This paper investigates the computationally efficient parameter estimation of polynomial phase signa...
National audiencePolynomial phase signals belong to a wide class of non-stationary signals used for ...
Polynomial-phase signals have attracted significant interest due to their applicability to radar, so...
We describe an efficient technique analyzing signals that comprise a number of polynomial phase comp...
The aim of this work is the performance analysis of a method for the detection and parameter estimat...
A new algorithm, the finite difference algorithm, is proposed for single-component polynomial phase ...
The "Polynomial Phase transform (PPT)", was presented in [l] as a tool for the estimation of the par...
Polynomial phase signals (PPS) have found use in many area of engineering such as in radar and commu...
While the theory of estimation of monocomponent polynomial phase signals is well established, the th...
This paper details an algorithm for estimating the parameters of cubic phase signals embedded in add...
The polynomial Wigner-Ville distribution was designed as an optimal tool for characterising the spec...
Abstract—Many real-world applications are characterized by the pres-ence of polynomial phase signals...
Introduction. Polynomial phase signals frequently appear in radar, sonar, communication and technica...
Nonstationary signals are common in many environments such as radar, sonar, bioengineering and power...
International audiencePolynomial phase signals belong to a wide class of nonstationary signals used ...
This paper investigates the computationally efficient parameter estimation of polynomial phase signa...
National audiencePolynomial phase signals belong to a wide class of non-stationary signals used for ...
Polynomial-phase signals have attracted significant interest due to their applicability to radar, so...
We describe an efficient technique analyzing signals that comprise a number of polynomial phase comp...
The aim of this work is the performance analysis of a method for the detection and parameter estimat...
A new algorithm, the finite difference algorithm, is proposed for single-component polynomial phase ...
The "Polynomial Phase transform (PPT)", was presented in [l] as a tool for the estimation of the par...
Polynomial phase signals (PPS) have found use in many area of engineering such as in radar and commu...
While the theory of estimation of monocomponent polynomial phase signals is well established, the th...
This paper details an algorithm for estimating the parameters of cubic phase signals embedded in add...
The polynomial Wigner-Ville distribution was designed as an optimal tool for characterising the spec...