19,933 research outputs found
An iterative method for obtaining the optimum lightning location on a spherical surface
A brief introduction to the basic principles of an eigen method used to obtain the optimum source location of lightning is presented. The location of the optimum source is obtained by using multiple direction finders (DF's) on a spherical surface. An improvement of this method, which takes the distance of source-DF's as a constant, is presented. It is pointed out that using a weight factor of signal strength is not the most ideal method because of the inexact inverse signal strength-distance relation and the inaccurate signal amplitude. An iterative calculation method is presented using the distance from the source to the DF as a weight factor. This improved method has higher accuracy and needs only a little more calculation time. Some computer simulations for a 4DF system are presented to show the improvement of location through use of the iterative method
Sparse CCA: Adaptive Estimation and Computational Barriers
Canonical correlation analysis is a classical technique for exploring the
relationship between two sets of variables. It has important applications in
analyzing high dimensional datasets originated from genomics, imaging and other
fields. This paper considers adaptive minimax and computationally tractable
estimation of leading sparse canonical coefficient vectors in high dimensions.
First, we establish separate minimax estimation rates for canonical coefficient
vectors of each set of random variables under no structural assumption on
marginal covariance matrices. Second, we propose a computationally feasible
estimator to attain the optimal rates adaptively under an additional sample
size condition. Finally, we show that a sample size condition of this kind is
needed for any randomized polynomial-time estimator to be consistent, assuming
hardness of certain instances of the Planted Clique detection problem. The
result is faithful to the Gaussian models used in the paper. As a byproduct, we
obtain the first computational lower bounds for sparse PCA under the Gaussian
single spiked covariance model
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