In the field of nuclear instrumentation, digital signal processing architectures have to deal with the poissonian characteristic of the signal, composed of random arrival pulses which requires current architectures to work in dataflow. Thus, the real-time needs implies losing pulses when the pulse rate is too high. Current architectures paralyze the acquisition of the signal during the pulse processing inducing a time during no signal can be processed, this is called the dead time. These issue have led current architectures to use dedicated solutions based on reconfigurable components such as FPGAs. The requirement of end users to implement a wide range of applications on a large number of channels leads to propose an easily programmable ar...
Classical SAR Imagery algorithms or SAR processors are all based on the isotropic point model. When ...
Real-time systems can be large, distributed and have a dynamic environment. This requires the introd...
The self-reconfiguration capabilities of modern FPGA architectures pave the way for dynamic applicat...
In the field of nuclear instrumentation, digital signal processing architectures have to deal with t...
Radio frequency transceivers are now massively multi-standards, which meansthat several communicatio...
Nowadays, more and more applications deal with increasing dimensions. Thus, it seems relevant to exp...
Radar-oriented applications require stringent performances. Among them, emitting pulse train with un...
DU 2018, EDSF 639Hadrontherapy is a tumor treatment technique based on irradiation by ions beams. Th...
The goal of this thesis was, initially, to evaluate phased array methods for ultrasonic Non Destruct...
This report is focused on Through-the-wall surveillance (TTS) using UWB radar, with the objective of...
One of the problems encountered during the exploitation of large volumes of data whilst in temporal ...
This study addresses the problem of real-time scheduling of software components executing in a digit...
The code-based Two-Way Satellite Time and Frequency Transfer technique reveals strong performance in...
With the development of ultrashort lasers, pulses with peak power in the gigawatt level are easily o...
Classical SAR Imagery algorithms or SAR processors are all based on the isotropic point model. When ...
Real-time systems can be large, distributed and have a dynamic environment. This requires the introd...
The self-reconfiguration capabilities of modern FPGA architectures pave the way for dynamic applicat...
In the field of nuclear instrumentation, digital signal processing architectures have to deal with t...
Radio frequency transceivers are now massively multi-standards, which meansthat several communicatio...
Nowadays, more and more applications deal with increasing dimensions. Thus, it seems relevant to exp...
Radar-oriented applications require stringent performances. Among them, emitting pulse train with un...
DU 2018, EDSF 639Hadrontherapy is a tumor treatment technique based on irradiation by ions beams. Th...
The goal of this thesis was, initially, to evaluate phased array methods for ultrasonic Non Destruct...
This report is focused on Through-the-wall surveillance (TTS) using UWB radar, with the objective of...
One of the problems encountered during the exploitation of large volumes of data whilst in temporal ...
This study addresses the problem of real-time scheduling of software components executing in a digit...
The code-based Two-Way Satellite Time and Frequency Transfer technique reveals strong performance in...
With the development of ultrashort lasers, pulses with peak power in the gigawatt level are easily o...
Classical SAR Imagery algorithms or SAR processors are all based on the isotropic point model. When ...
Real-time systems can be large, distributed and have a dynamic environment. This requires the introd...
The self-reconfiguration capabilities of modern FPGA architectures pave the way for dynamic applicat...