In many modern applications based on detected radiation measurements, high rate and high resolution are more and more features of primary importance. In this scenario, it is well known that high resolution of measurements and high rate of pulses are conflicting issues, which implies a trade-off between live time of the system and precision of measurements. We propose a digital processing technique based on adaptive filters for maximizing both achievable resolution and sustainable rate
A spectroscopic technique for optimally setting the Pole-Zero (P-Z) compensation in a digital spectr...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
Two optimized adaptive digital signal processors were developed to implement the preset time count r...
In many modern applications based on detected radiation measurements, high rate and high resolution ...
In many modern areas of application of detected radiation measurements, high rate and high resolutio...
Some years ago we proposed to employ also the time devoted to the pulse measurement to perform part ...
A new Digital Pulse Processor (DPP), which is developed for radiation detectors especially suitable ...
We introduce a method to automatically evaluate the weights of the digital filter used for high-reso...
High data rate in nuclear spectroscopy can be achieved by using digital shaping techniques. Currentl...
A new method to calculate optimum digital filters for applicative fields requiring high resolution m...
A new method to calculate optimum digital filters for applicative fields requiring high resolution m...
We present a new approach for the design of optimum filters with good low frequency rejection suitab...
We propose a mathematical method to automatically evaluate the weights of the digital filters used f...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
An adaptive self-calibrating instrument for digital spectroscopy is proposed and demonstrated. Most ...
A spectroscopic technique for optimally setting the Pole-Zero (P-Z) compensation in a digital spectr...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
Two optimized adaptive digital signal processors were developed to implement the preset time count r...
In many modern applications based on detected radiation measurements, high rate and high resolution ...
In many modern areas of application of detected radiation measurements, high rate and high resolutio...
Some years ago we proposed to employ also the time devoted to the pulse measurement to perform part ...
A new Digital Pulse Processor (DPP), which is developed for radiation detectors especially suitable ...
We introduce a method to automatically evaluate the weights of the digital filter used for high-reso...
High data rate in nuclear spectroscopy can be achieved by using digital shaping techniques. Currentl...
A new method to calculate optimum digital filters for applicative fields requiring high resolution m...
A new method to calculate optimum digital filters for applicative fields requiring high resolution m...
We present a new approach for the design of optimum filters with good low frequency rejection suitab...
We propose a mathematical method to automatically evaluate the weights of the digital filters used f...
Modern spectrometers are currently developed by using digital pulse processing (DPP) systems, showin...
An adaptive self-calibrating instrument for digital spectroscopy is proposed and demonstrated. Most ...
A spectroscopic technique for optimally setting the Pole-Zero (P-Z) compensation in a digital spectr...
Thesis (Ph. D.)--University of Rochester. College of Engineering and Applied Science. Institute of O...
Two optimized adaptive digital signal processors were developed to implement the preset time count r...
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