International audienceOnline nuclear counting represents a challenge due to the stochastic nature of radioactivity. The counting data have to be filtered in order to provide a precise and accurate estimation of the count rate, while ensuring a response time compatible with the application in view. An innovative filter is presented in this paper to address this issue. The filter is nonlinear and based on a Centered Significance Test (CST) providing a local maximum likelihood estimation of the signal. This nonlinear approach allows enables to smooth the counting signal while maintaining a fast response when brutal change in activity occurs. The filter is then improved by the implementation of a Brown's double Exponential Smoothing (BES). The ...
Abstract—Fixed interval smoothing for systems with nonlinear process and measurement models is studi...
In Nuclear Safeguards, surveillance cameras monitor the correct processing of nuclear material. Nucl...
System dynamics estimation is a crucial issue for the safe operation and control of nuclear power pl...
International audienceOnline nuclear counting represents a challenge due to the stochastic nature of...
Conference of 4th International Conference on Advancements in Nuclear Instrumentation Measurement Me...
International audienceNuclear counting is a challenging task for nuclear instrumentation because of ...
This chapter presents some recent data processing developments associated with radiation monitoring ...
Conference of 2013 3rd International Conference on Advancements in Nuclear Instrumentation, Measurem...
New algorithm for measurement of mean count rate of pulses from radiation detectors is described. Th...
We present a new approach for the design of optimum filters with good low frequency rejection suitab...
New algorithm for measurement of mean count rate of pulses from radiation detectors is described. Th...
Since the exact time a specific nucleus undergoes radioactive decay cannot be specified, nor can sh...
International audienceRadiation Portal Monitors are deployed in linear networks to detect radiologic...
Nuclear counting is affected by pulse pileup and system dead time which induce rate-related count lo...
Abstract—Fixed interval smoothing for systems with nonlinear process and measurement models is studi...
In Nuclear Safeguards, surveillance cameras monitor the correct processing of nuclear material. Nucl...
System dynamics estimation is a crucial issue for the safe operation and control of nuclear power pl...
International audienceOnline nuclear counting represents a challenge due to the stochastic nature of...
Conference of 4th International Conference on Advancements in Nuclear Instrumentation Measurement Me...
International audienceNuclear counting is a challenging task for nuclear instrumentation because of ...
This chapter presents some recent data processing developments associated with radiation monitoring ...
Conference of 2013 3rd International Conference on Advancements in Nuclear Instrumentation, Measurem...
New algorithm for measurement of mean count rate of pulses from radiation detectors is described. Th...
We present a new approach for the design of optimum filters with good low frequency rejection suitab...
New algorithm for measurement of mean count rate of pulses from radiation detectors is described. Th...
Since the exact time a specific nucleus undergoes radioactive decay cannot be specified, nor can sh...
International audienceRadiation Portal Monitors are deployed in linear networks to detect radiologic...
Nuclear counting is affected by pulse pileup and system dead time which induce rate-related count lo...
Abstract—Fixed interval smoothing for systems with nonlinear process and measurement models is studi...
In Nuclear Safeguards, surveillance cameras monitor the correct processing of nuclear material. Nucl...
System dynamics estimation is a crucial issue for the safe operation and control of nuclear power pl...