Add to ORKGElec 599 Project ReportGiven observations of a one-dimensional piecewise linear, length-M Poisson intensity function, our goal is to estimate both the partition points and the parameters of each segment. In order to determine where the breaks lie, we develop a maximum penalized likelihood estimator based on information-theoretic complexity penalization. We construct a probabilistic model of the observations within a multiscale framework, and use this framework to devise a computationally efficient optimization algorithm, based on a tree-pruning approach, to compute the MPLE
We consider the problem of using either grouped observations of a counting process over a period or ...
The stereological problem of unfolding spheres size distribution from linear sections is formulated ...
summary:The problem of estimating the intensity of a non-stationary Poisson point process arises in ...
Conference PaperThis paper introduces a new multiscale method for nonparametric piecewise polynomial...
International audienceWe focus on the estimation of the intensity of a Poisson process in the presen...
Journal PaperThis paper describes a statistical modeling and analysis method for linear inverse prob...
This paper considers the problem of adaptive estimation of a non-homogeneous intensity function from...
Abstract—The observations in many applications consist of counts of discrete events, such as photons...
Abstract—We present an improved statistical model for an-alyzing Poisson processes, with application...
Despite the fundamental nature of the inhomogeneous Poisson process in the theory and application of...
Let f: [a,b] → ℝ be an unknown 2 times differentiable function and consider M to be an α- homogeneou...
Despite the fundamental nature of the inhomogeneous Poisson process in the theory and application of...
We address the problem of the optimal detection of the support of a Poisson process in one and two d...
This paper introduces a framework for nonlinear, multiscale decompositions of Poisson data with piec...
We present an improved statistical model of Poisson processes, with applications in photon-limited i...
We consider the problem of using either grouped observations of a counting process over a period or ...
The stereological problem of unfolding spheres size distribution from linear sections is formulated ...
summary:The problem of estimating the intensity of a non-stationary Poisson point process arises in ...
Conference PaperThis paper introduces a new multiscale method for nonparametric piecewise polynomial...
International audienceWe focus on the estimation of the intensity of a Poisson process in the presen...
Journal PaperThis paper describes a statistical modeling and analysis method for linear inverse prob...
This paper considers the problem of adaptive estimation of a non-homogeneous intensity function from...
Abstract—The observations in many applications consist of counts of discrete events, such as photons...
Abstract—We present an improved statistical model for an-alyzing Poisson processes, with application...
Despite the fundamental nature of the inhomogeneous Poisson process in the theory and application of...
Let f: [a,b] → ℝ be an unknown 2 times differentiable function and consider M to be an α- homogeneou...
Despite the fundamental nature of the inhomogeneous Poisson process in the theory and application of...
We address the problem of the optimal detection of the support of a Poisson process in one and two d...
This paper introduces a framework for nonlinear, multiscale decompositions of Poisson data with piec...
We present an improved statistical model of Poisson processes, with applications in photon-limited i...
We consider the problem of using either grouped observations of a counting process over a period or ...
The stereological problem of unfolding spheres size distribution from linear sections is formulated ...
summary:The problem of estimating the intensity of a non-stationary Poisson point process arises in ...