Add to ORKGThe stereological problem of unfolding spheres size distribution from linear sections is formulated as a problem of inverse estimation of a Poisson process intensity function. A singular value expansion of the corresponding integral operator is given. The theory of recently proposed B-spline sieved quasi-maximum likelihood estimators is modified to make it applicable to the current problem. Strong L2-consistency is proved and convergence rates are given. The estimators are implemented with the recently proposed EMDS algorithm. Promising performance of this new methodology in finite samples is illustrated with a numerical example. Data grouping effects are also discussed
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
The thesis is oriented to the theory and methods od spatial statistics where and it suggests new met...
We consider the problem of estimating an unknown probability density function of the radii of sphere...
Abstract. The stereological problem of unfolding spheres size distribution from linear sec-tions is ...
AbstractThe stereological problem of unfolding the sphere size distribution from linear sections is ...
AbstractIn this paper, we focus on nonparametric estimation in the stereological problem of unfoldin...
AbstractRecent results on quasi-maximum likelihood histogram sieve estimators in inverse problems fo...
Recent results on unfolding Poisson process intensity function are improved. Singular matrix approxi...
The stereological inverse problem of unfolding the distribution of spheres radii from measured plana...
Journal PaperThis paper describes a statistical modeling and analysis method for linear inverse prob...
Elec 599 Project ReportGiven observations of a one-dimensional piecewise linear, length-M Poisson in...
summary:The prediction of size extremes in Wicksell’s corpuscle problem with oblate spheroids is con...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
There are many practical problems where the observed data are not drawn directly from the density g ...
summary:The problem of estimating the intensity of a non-stationary Poisson point process arises in ...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
The thesis is oriented to the theory and methods od spatial statistics where and it suggests new met...
We consider the problem of estimating an unknown probability density function of the radii of sphere...
Abstract. The stereological problem of unfolding spheres size distribution from linear sec-tions is ...
AbstractThe stereological problem of unfolding the sphere size distribution from linear sections is ...
AbstractIn this paper, we focus on nonparametric estimation in the stereological problem of unfoldin...
AbstractRecent results on quasi-maximum likelihood histogram sieve estimators in inverse problems fo...
Recent results on unfolding Poisson process intensity function are improved. Singular matrix approxi...
The stereological inverse problem of unfolding the distribution of spheres radii from measured plana...
Journal PaperThis paper describes a statistical modeling and analysis method for linear inverse prob...
Elec 599 Project ReportGiven observations of a one-dimensional piecewise linear, length-M Poisson in...
summary:The prediction of size extremes in Wicksell’s corpuscle problem with oblate spheroids is con...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
There are many practical problems where the observed data are not drawn directly from the density g ...
summary:The problem of estimating the intensity of a non-stationary Poisson point process arises in ...
Suppose that a homogeneous system of spherical particles (d-spheres) with independent identically di...
The thesis is oriented to the theory and methods od spatial statistics where and it suggests new met...
We consider the problem of estimating an unknown probability density function of the radii of sphere...