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  • 1
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    The numerical evaluation of the maximum-likelihood estimate of a subset of mixture proportions (1976)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: Necessary and sufficient conditions are given for a maximum likelihood estimate of a subset of mixture proportions. From these conditions, likelihood equations are derived satisfied by the maximum-likelihood estimate and a successive-approximations procedure is discussed as suggested by equations for numerically evaluating the maximum-likelihood estimate. It is shown that, with probability one for large samples, this procedure converges locally to the maximum-likelihood estimate whenever a certain step-size lies between zero and two. Furthermore, optimal rates of local convergence are obtained for a step-size which is bounded below by a number between one and two.
    Keywords: STATISTICS AND PROBABILITY
    Type: NASA-CR-147738 , REPT-50
    Format: application/pdf
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  • 2
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    An iterative procedure for obtaining maximum-likelihood estimates of the parameters for a mixture of normal distributions, 2 (1976)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: The problem of obtaining numerically maximum likelihood estimates of the parameters for a mixture of normal distributions is addressed. In recent literature, a certain successive approximations procedure, based on the likelihood equations, is shown empirically to be effective in numerically approximating such maximum-likelihood estimates; however, the reliability of this procedure was not established theoretically. Here, a general iterative procedure is introduced, of the generalized steepest-ascent (deflected-gradient) type, which is just the procedure known in the literature when the step-size is taken to be 1. With probability 1 as the sample size grows large, it is shown that this procedure converges locally to the strongly consistent maximum-likelihood estimate whenever the step-size lies between 0 and 2. The step-size which yields optimal local convergence rates for large samples is determined in a sense by the separation of the component normal densities and is bounded below by a number between 1 and 2.
    Keywords: STATISTICS AND PROBABILITY
    Type: NASA-CR-147739 , REPT-51
    Format: application/pdf
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  • 3
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    An iterative procedure for obtaining maximum-likelihood estimates of the parameters for a mixture of normal distributions, Addendum (1975)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: New results and insights concerning a previously published iterative procedure for obtaining maximum-likelihood estimates of the parameters for a mixture of normal distributions were discussed. It was shown that the procedure converges locally to the consistent maximum likelihood estimate as long as a specified parameter is bounded between two limits. Bound values were given to yield optimal local convergence.
    Keywords: STATISTICS AND PROBABILITY
    Type: NASA-CR-147521 , REPT-47
    Format: application/pdf
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  • 4
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    Characterizations of linear sufficient statistics (1977)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: A surjective bounded linear operator T from a Banach space X to a Banach space Y must be a sufficient statistic for a dominated family of probability measures defined on the Borel sets of X. These results were applied, so that they characterize linear sufficient statistics for families of the exponential type, including as special cases the Wishart and multivariate normal distributions. The latter result was used to establish precisely which procedures for sampling from a normal population had the property that the sample mean was a sufficient statistic.
    Keywords: STATISTICS AND PROBABILITY
    Type: NASA-CR-151551 , REPT-65
    Format: application/pdf
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  • 5
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    Characterizations of linear sufficient statistics (1976)
    In:  CASI
    Details
    Publication Date: 2019-06-27
    Description: A necessary and sufficient condition is developed such that there exists a continous linear sufficient statistic T for a dominated collection of totally finite measures defined on the Borel field generated by the open sets of a Banach space X. In particular, corollary necessary and sufficient conditions are given so that there exists a rank K linear sufficient statistic T for any finite collection of probability measures having n-variate normal densities. In this case a simple calculation, involving only the population means and covariances, determines the smallest integer K for which there exists a rank K linear sufficient statistic T (as well as an associated statistic T itself).
    Keywords: STATISTICS AND PROBABILITY
    Type: NASA-CR-151233 , REPT-59
    Format: application/pdf
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  • 6
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    An iterative procedure for obtaining maximum-likelihood estimates of the parameters for a mixture of normal distributions (1978)
    In:  Other Sources
    Details
    Publication Date: 2019-06-27
    Description: This paper addresses the problem of obtaining numerically maximum-likelihood estimates of the parameters for a mixture of normal distributions. In recent literature, a certain successive-approximations procedure, based on the likelihood equations, was shown empirically to be effective in numerically approximating such maximum-likelihood estimates; however, the reliability of this procedure was not established theoretically. Here, we introduce a general iterative procedure, of the generalized steepest-ascent (deflected-gradient) type, which is just the procedure known in the literature when the step-size is taken to be 1. We show that, with probability 1 as the sample size grows large, this procedure converges locally to the strongly consistent maximum-likelihood estimate whenever the step-size lies between 0 and 2. We also show that the step-size which yields optimal local convergence rates for large samples is determined in a sense by the 'separation' of the component normal densities and is bounded below by a number between 1 and 2.
    Keywords: STATISTICS AND PROBABILITY
    Type: SIAM Journal on Applied Mathematics; 35; Sept
    Format: text
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