{"title":"包络高斯混合模型的参数估计","authors":"Linyun Huang, Y. Hong, E. Viterbo","doi":"10.1109/AusCTW.2014.6766423","DOIUrl":null,"url":null,"abstract":"In many communication systems, the Gaussian mixture model (GMM) is widely used to characterize non-Gaussian man-made and natural interference. The envelope distribution of such noise model is often expressed as a weighted sum of Rayleigh if in-phase and quadrature components of the noise are dependent. Instead, in this paper, a simple and exact closed form probability density function of the envelope Gaussian mixture model (i.e. the envelope of independent in-phase and quadrature components of complex non-Gaussian noise) is obtained. Further-more, the problem of estimating of the envelope Gaussian mixture parameters is addressed. The proposed estimator of weights and variances is based upon the Expectation-Maximization (EM) algorithm.","PeriodicalId":378421,"journal":{"name":"2014 Australian Communications Theory Workshop (AusCTW)","volume":"8 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2014-03-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"3","resultStr":"{\"title\":\"On parameter estimation of the envelope Gaussian mixture model\",\"authors\":\"Linyun Huang, Y. Hong, E. Viterbo\",\"doi\":\"10.1109/AusCTW.2014.6766423\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"In many communication systems, the Gaussian mixture model (GMM) is widely used to characterize non-Gaussian man-made and natural interference. The envelope distribution of such noise model is often expressed as a weighted sum of Rayleigh if in-phase and quadrature components of the noise are dependent. Instead, in this paper, a simple and exact closed form probability density function of the envelope Gaussian mixture model (i.e. the envelope of independent in-phase and quadrature components of complex non-Gaussian noise) is obtained. Further-more, the problem of estimating of the envelope Gaussian mixture parameters is addressed. The proposed estimator of weights and variances is based upon the Expectation-Maximization (EM) algorithm.\",\"PeriodicalId\":378421,\"journal\":{\"name\":\"2014 Australian Communications Theory Workshop (AusCTW)\",\"volume\":\"8 1\",\"pages\":\"0\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2014-03-13\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"3\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"2014 Australian Communications Theory Workshop (AusCTW)\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.1109/AusCTW.2014.6766423\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"2014 Australian Communications Theory Workshop (AusCTW)","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1109/AusCTW.2014.6766423","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
On parameter estimation of the envelope Gaussian mixture model
In many communication systems, the Gaussian mixture model (GMM) is widely used to characterize non-Gaussian man-made and natural interference. The envelope distribution of such noise model is often expressed as a weighted sum of Rayleigh if in-phase and quadrature components of the noise are dependent. Instead, in this paper, a simple and exact closed form probability density function of the envelope Gaussian mixture model (i.e. the envelope of independent in-phase and quadrature components of complex non-Gaussian noise) is obtained. Further-more, the problem of estimating of the envelope Gaussian mixture parameters is addressed. The proposed estimator of weights and variances is based upon the Expectation-Maximization (EM) algorithm.
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