Derives fundamental estimation bounds for non-i.i.d. periodic binary processes with nonparalyzable dead time and shows MLE and Le Cam one-step estimators attain them asymptotically, with application to single-photon lidar.
The NLopt nonlinear-optimization package
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A full-spectrum fitting approach using K-U-Th-radon-cosmic background templates plus a Monte Carlo detector model maintains energy calibration of gamma detectors over -25 °C to +50 °C without active temperature control.
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Fundamental Bounds and Efficient Estimation for Dead-Time-Constrained Event Detection, with Application to Single-Photon Lidar
Derives fundamental estimation bounds for non-i.i.d. periodic binary processes with nonparalyzable dead time and shows MLE and Le Cam one-step estimators attain them asymptotically, with application to single-photon lidar.
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Automatic calibration of gamma-ray detectors deployed in uncontrolled environments
A full-spectrum fitting approach using K-U-Th-radon-cosmic background templates plus a Monte Carlo detector model maintains energy calibration of gamma detectors over -25 °C to +50 °C without active temperature control.