We present two noticeable extensions to the applications of the DPLMS (digital penalized least mean squares) method for optimum energy filter synthesis that we introduced a few years ago. By using the DPLMS method, high performance digital filters with time constraints, e.g. flat-top, finite duration and also frequency constraint can be derived from easily acquired experimental signals. Now, we want to show i. how the DPLMS method can be used to synthesize also optimum digital filters for time estimations of signals and ii. how the DPLMS method can be directly used also in presence of time variant, pulse correlated noise, e.g. in case of scintillation detectors coupled to photomultiplier tubes or avalanche photodiodes, for both energy and time estimations. Experimental validation of the DPLMS method for both energy and time estimations of signals coming from LaBr scintillator detectors is provided.
Optimum synthesis of FIR filters with arbitrary time and frequency constraints for energy and time / S. Riboldi, A. Geraci, E. Gatti, A. Pullia, F. Camera, S. Brambilla, S RIBOLDI - In: NSS '07 : 2007 nuclear science symposium conference record. 1, Nuclear science symposium medical imaging conference, October 27-November 3, 2007, Honolulu, Hawaii / [a cura di] B. Yu. - Piscataway, NJ : IEEE, 2007. - ISBN 978-1-4244-0922-8. - pp. 486-489 (( convegno Nuclear science symposium and medical imaging conference tenutosi a Honolulu, Hawaii nel 2007.
Optimum synthesis of FIR filters with arbitrary time and frequency constraints for energy and time
S. Riboldi;A. Pullia;F. Camera;S RIBOLDI
2007
Abstract
We present two noticeable extensions to the applications of the DPLMS (digital penalized least mean squares) method for optimum energy filter synthesis that we introduced a few years ago. By using the DPLMS method, high performance digital filters with time constraints, e.g. flat-top, finite duration and also frequency constraint can be derived from easily acquired experimental signals. Now, we want to show i. how the DPLMS method can be used to synthesize also optimum digital filters for time estimations of signals and ii. how the DPLMS method can be directly used also in presence of time variant, pulse correlated noise, e.g. in case of scintillation detectors coupled to photomultiplier tubes or avalanche photodiodes, for both energy and time estimations. Experimental validation of the DPLMS method for both energy and time estimations of signals coming from LaBr scintillator detectors is provided.
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