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SUMMARY:ASSET Seminar: Sparse regularization of neural networks
DTSTART:20230405T160000Z
DTEND:20230405T173000Z
DTSTAMP:20230320T123646Z
LAST-MODIFIED:20230320T123646Z
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DESCRIPTION:Talk given by Gilmer Valdes\, associate professor in the Departments of Radiation Oncology\, Epidemiology and Biostatistics at UCSF\n\nAbstract: Many regression and classification procedures fit a function f(x\;w) of predictor variables x to data 〖{x_i\,y_i}〗_1^N based on some loss criterion L(y\,f(x\;w)). Often\, regularization is applied to improve accuracy by placing a constraint P(w)≤t on the values of the parameters w\, where P is a monotonic increasing function of the absolute values of the parameters (e.g. Lasso\, Ridge). Although efficient methods exist for finding solutions to these constrained optimization problems for all values of t≥0 in the special case when f is a linear function\, none are available when f is non-linear (e.g. Neural Networks). Here we present a fast algorithm that provides all such solutions (path) for any differentiable function f and loss L\, and any differentiable constraint P that is an increasing monotone function of the absolute value of each parameter. Applications involving sparsity inducing regularization of arbitrary Neural Networks are discussed. Empirical results indicate that these sparse solutions are usually superior to their dense counterparts in both accuracy and interpretability (sometimes strikingly better). This improvement in accuracy can often make Neural Networks competitive with\, and sometimes superior to\, state-of-the-art methods in the analysis of tabular data. Specific applications to Medicine\, in particular\, Microarray data are discussed.\n\nVisit ASSET Center seminar series for more information\n\nLocation: Levine 307 or Zoom (https://upenn.zoom.us/j/91562032096)
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