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ArtikelDensity Estimation and Random Variate Generation Using Multilayer Networks  
Oleh: Magdon-Ismail, M. ; Atiya, A.
Jenis: Article from Journal - ilmiah internasional
Dalam koleksi: IEEE Transactions on Neural Networks vol. 13 no. 3 (2002), page 497-520.
Topik: multilayer networks; density estimation; random variate; generation; multilayer; networks
Ketersediaan
  • Perpustakaan Pusat (Semanggi)
    • Nomor Panggil: II36.6
    • Non-tandon: 1 (dapat dipinjam: 0)
    • Tandon: tidak ada
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Isi artikelIn this paper we consider two important topics : density estimation and random variate generation. We present a framework that is easily implemented using the familiar multilayer neural network. First, we develop two new methods for density estimation, a stochastic method and a related deterministic method. Both methods are based on approximating the distribution function, the density being obtained by differentiation. In the second part of the paper, we develop new random number generation methods. Our methods do not suffer from some of the restrictions of existing methods in that they can be used to generate numbers from any density provided that certain smoothness conditions are satisfied. One of our methods is based on an observed inverse relationship between the density estimation process and random number generation. We present two variants of this method, a stochastic, and a deterministic version. We propose a second method that is based on a novel control formulation of the problem, where a "controller network" is trained to shape a given density into the desired density. We justify the use of all the methods that we propose by providing theoretical convergence results. In particular, we prove that the L 8 convergence to the true density for both the density estimation and random variate generation techniques occurs at a rate O ((log log N / N) (1 - & epsi ;) / 2) where N is the number of data points and & epsi ; can be made arbitrarily small for sufficiently smooth target densities. This bound is very close to the optimally achievable convergence rate under similar smoothness conditions. Also, for comparison, the L2 root mean square (rms) convergence rate of a positive kernel density estimator is O (N - 2 / 5) when the optimal kernel width is used. We present numerical simulations to illustrate the performance of the proposed density estimation and random variate generation methods. In addition, we present an extended introduction and bibliography that serves as an overview and reference for the practitioner.
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