摘要 |
<p>Embodiments of the invention pertain to a method and apparatus for spectral deconvolution of detector spectra. In a specific embodiment, the method can be applied to sodium iodide scintillation detector spectra. An adaptive chi-processed (ACHIP) denoising technique can be used to remove the results of stochastic noise from low-count detector spectra. Embodiments of the ACHIP denoising algorithm can be used as a stand alone tool for rapid processing of one dimensional data with a Poisson noise component. In a specific embodiment, the denoising technique can be combined with the spectral deconvolution method. Embodiments of the denoising technique and embodiments of the deconvolution method can be applied to any detector material that provides a radiation spectrum. Specific embodiments can incorporate one or more of the following for spectral deconvolution: denoising, background subtraction, detector response function generation, and subtraction of detector response functions. Photopeaks can be rapidly identified, starting at the high-energy end of the spectrum. The detector response functions can be estimated for photopeaks with a combination of Monte Carlo simulations and simple transformations.</p> |
申请人 |
UNIVERSITY OF FLORIDA RESEARCH FOUNDATION, INC.;SJODEN, GLENN, ERIC;LAVIGNE, ERIC;BACIAK, JAMES;DETWILER, REBECCA |
发明人 |
SJODEN, GLENN, ERIC;LAVIGNE, ERIC;BACIAK, JAMES;DETWILER, REBECCA |