François RIVET

Associate Professor

Research group : CIRCUIT DESIGN

Team : CAS

Tel : 0540006542

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François RIVET

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Dr. Francois Rivet is an Associate Professor at the Bordeaux Institute of Technology (Bordeaux INP), where he has been tenured since June 2010. He obtained his Master’s and Ph.D. degrees in 2005 and 2009, respectively, from the University of Bordeaux.

Dr. Francois Rivet‘s expertise lies in the field of RFIC (Radio Frequency Integrated Circuits) design, and he is actively engaged in cutting-edge research at the IMS Laboratory, the University of Bordeaux’s microelectronics laboratory. He founded the “Circuits and Systems” research team in 2014, which has since thrived under his leadership.

Dr. Francois Rivet has showcased his research findings in top-ranked international journals, conferences, and national conferences. Additionally, his innovative ideas have resulted in 19 patents.

Throughout his career, Dr. Francois Rivet has been honored with awards for his work. He received the Best Paper Award at the Software Defined Radio Forum held in Washington DC, USA, in 2008, at Journees Nationales Micro-ondes in both 2015 and 2017, at LASCAS in 2021 in Arequipa, Peru, as well as at AVIC in 2022 in Hiroshima, Japan.

Dr. Francois Rivet‘s influence extends beyond his research. He actively contributes to the academic community as a valued member of several Technical Program Committees, including RFIC and ESSCIRC, among others. Additionally, he serves on esteemed steering committees such as RFIC, ICECS, and LASCAS, where he contributes his expertise and helps shape the direction of relevant conferences and symposiums.

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Article (15)

An IoT-based Precision Agriculture Project for Education in Circuits and Systems Auteur(s): Francois Rivet, Guillaume Ferre, Ryan Raimond, Christophe Moreau, Corentin Gaury, Eric Kerherve Lien HAL : https://hal.science/hal-04029483 How to Feed a Growing population - An IoT Approach to Crop Health and Growth Auteur(s): Victor Grimblatt, Christophe Jego, Guillaume Ferre, Francois Rivet Lien HAL : https://hal.science/hal-03340693 28nm FDSOI Ultra Low Power 1.5-2.0 GHz Factorial-DLL Frequency Synthesizer Auteur(s): Andres Asprilla, David Cordova, Yann Deval, Herve Lapuyade, Francois Rivet Lien HAL : https://hal.science/hal-03096512 On the Wavelet-based Compressibility of Continuous-Time Sampled ECG Signal for e-Health Applications Auteur(s): Asma Maalej, Manel Ben-Romdhane, Mariam Tlili, Francois Rivet, Dominique Dallet, Chiheb Rebai Lien HAL : https://hal.science/hal-02637998 Event-Driven ECG Sensor in Healthcare Devices for Data Transfer Optimization Auteur(s): Manel Ben-Romdhane, Asma Maalej, Mariam Tlili, Chiheb Rebai, Francois Rivet, Dominique Dallet Lien HAL : https://hal.science/hal-02527916 Level-Crossing ADC Design and Evaluation Methodology for Normal and Pathological Electrocardiogram Signals Measurement Auteur(s): Mariam Tlili, Manel Ben-Romdhane, Asma Maalej, Francois Rivet, Dominique Dallet, Chiheb Rebai Lien HAL : https://hal.science/hal-01767677 Characterization of Impulse Radio Intrabody Communication System for Wireless Body Area Networks Auteur(s): Zibo Cai, Mirhojjat Seyedi, Weiwei Zhang, Francois Rivet, Daniel T.H. Lai Lien HAL : https://hal.science/hal-01536616 Noise shaping Riemann: an energy efficient data conversion scheme Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552335 Intra-body communications: radio-frequency versus ultrasonic Auteur(s): Francois Rivet, Nick Owen, Daniel T.H. Lai, Yann Deval Lien HAL : https://hal.science/hal-01240271 A 65-nm CMOS DAC Based on a Differentiating Arbitrary Waveform Generator Architecture for 5G Handset Transmitter Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval, Dominique Dallet, Patrick Garrec, Richard Montigny Lien HAL : https://hal.science/hal-01240272 Design of a Miniaturized Wireless Blood Pressure Sensing Interface using Capacitive Coupling Auteur(s): Ammar Aldaoud, Callum Laurenson, Francois Rivet, Mehmet Yuce, Jean-Michel Redouté Lien HAL : https://hal.science/hal-01139462 Adaptive interferer cancellation using a Sampled Analog Signal Processor Auteur(s): Francois Rivet, Yoan Veyrac, Yann Deval, Patrick Garrec Lien HAL : https://hal.science/hal-01240270 An Ultra Low Power Consumption Millimeter-Wave Voltage Controlled Oscillator in a 65 nm CMOS-SOI Technology Auteur(s): André Mariano, Olivier Mazouffre, Bernardo Leite, Yann Deval, Jean-Baptiste Begueret, Didier Belot, Francois Rivet, Thierry Taris Lien HAL : https://hal.science/hal-00840446 The Experimental Demonstration of a SASP-Based Full Software Radio Receiver Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00477579 A Disruptive Receiver Architecture Dedicated to Software-Defined Radio Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00274011

Book sections (4)

Characterization of Impulse Radio Intrabody Communication System for Wireless Body Area Networks Auteur(s): François Rivet, Mirhojjat Seyedi Lien HAL : https://hal.science/hal-04031239 Improved IoT capabilities for Agriculture applications Auteur(s): Guillaume Ferre, Francois Rivet Lien HAL : https://hal.science/hal-03322909 Low-Power High-Speed ADCs for ADC-Based Wireline Receivers in 22 nm FDSOI Auteur(s): David Cordova, Wim Cops, Yann Deval, Francois Rivet, Herve Lapuyade, Nicolas Nodenot, Yohan Piccin Lien HAL : https://hal.science/hal-03322911 Sampled Analog Signal Processing: From Software-Defined to Software Radio Auteur(s): Francois Rivet, André Mariano, Yann Deval, Dominique Dallet, Jean-Baptiste Begueret, Didier Belot Lien HAL : https://hal.science/hal-00477585

Patents (17)

Dispositif de génération d’un signal modulé et chaine d’émission à radiofréquence associée Auteur(s): Francois Rivet, Yann Deval, Hervé Lapuyade Lien HAL : https://hal.science/hal-02505840 Transformée de Fourier rapide à multiplexage/démultiplexage progressif pour un signal série Auteur(s): Victor Vaillant, Patrick Garrec, Jean-Michel Hode, Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-02505855 Device for generating a modulated digital signal and system for generating a modulated analog signal Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01987044 Encodeur Numerique Pour Signaux Modules, Et Dispositif De Generation D'un Signal Analogique Associe Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01987043 Dispositif de generation d'un signal numerique module et systeme de generation d'un signal analogique module Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01987041 Dispositif de génération de signaux analogiques et utilisation associée Auteur(s): Patrick Garrec, Richard Montigny, Francois Rivet, Yann Deval, Yoan Veyrac Lien HAL : https://hal.science/hal-01552344 Device for generating analogue signals and associated use Auteur(s): Patrick Garrec, Richard Montigny, Francois Rivet, Yann Deval, Yoan Veyrac Lien HAL : https://hal.science/hal-01552343 System for generating an analogue signal Auteur(s): Francois Rivet, Yann Deval, Nicolas Regimbal, Patrick Garrec, Richard Montigny Lien HAL : https://hal.science/hal-01139471 Système de Génération d’un signal analogique Auteur(s): Francois Rivet, Yann Deval, Nicolas Regimbal, Patrick Garrec, Richard Montigny Lien HAL : https://hal.science/hal-01139470 Procédé et dispositif d'émission d'un signal radiofréquence Auteur(s): Didier Belot, Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-01063074 Radio frequency signal transmission method and device Auteur(s): Didier Belot, Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-01063069 Dispositif de génération d'un signal Auteur(s): Didier Belot, Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-01063076 Signal generation device Auteur(s): Didier Belot, Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-01063070 Method And Electronic Device For Frequency Shifting An Analogue Signal, In Particular For Mobile Telephony Auteur(s): Francois Rivet, Didier Belot, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet Lien HAL : https://hal.science/hal-00493734 Procédé et dispositif électronique de décalage fréquentiel d'un signal analogique, en particulier pour la téléphonie mobile. Auteur(s): Francois Rivet, Jean-Baptiste Begueret, Didier Belot, Dominique Dallet, Yann Deval Lien HAL : https://hal.science/hal-00265530 Procédé et dispositif de traitement analogique d'un signal radio pour récepteur radiofréquence Auteur(s): Francois Rivet, Jean-Baptiste Begueret, Didier Belot, Yann Deval, Thierry Taris, Hervé Lapuyade Lien HAL : https://hal.science/hal-00265529 Method and device for the analog processing of a radio signal for a radio frequency receiver Auteur(s): Francois Rivet, Didier Belot, Yann Deval, Jean-Baptiste Begueret, Thierry Taris, Herve Lapuyade Lien HAL : https://hal.science/hal-00266038

Other publication (1)

Design by Mathematics : a different approach for the design of RFICs Auteur(s): Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-01377966

Thesis (1)

Design of a Radio Frequency Front-End Receiver dedicated to Software-Radio for Mobile Terminals Auteur(s): Francois Rivet Lien HAL : https://theses.hal.science/tel-00412242

HDR (1)

Design by Mathematics Auteur(s): Francois Rivet Lien HAL : https://theses.hal.science/tel-02271959

Conference proceedings (102)

A PAE-Controlled Wideband Power Amplifier for Sub-6GHz 5G Applications in 28nm FDSOI Technology Auteur(s): Remi Queheille, Maxandre Fellmann, Yann Deval, Eric Kerherve, Francois Rivet, Nathalie Deltimple Lien HAL : https://hal.science/hal-03937315 Low-Power High-Speed ADCs for ADC-Based Wireline Receivers in 22 nm FDSOI Auteur(s): David Cordova, Wim Cops, Yann Deval, François Rivet, Herve Lapuyade, Nicolas Nodenot, Yohan Piccin Lien HAL : https://inria.hal.science/hal-03759737 Un générateur de signaux arbitraires radio-fréquences pour l'agrégation de porteuses 5G en technologie 28nm FDSOI Auteur(s): Pierre Ferrer, François Rivet, Herve Lapuyade, Yann Deval Lien HAL : https://hal.science/hal-03729287 A 40 GHz varactor-less class-C VCO with 17.1% tuning range and long-term reliability in 28nm FD-SOI for satellite communications Auteur(s): Ayoub Ait Ihda, Yann Deval, Hervé Lapuyade, Francois Rivet, Matthieu Gastaldi, Stephane Rochette Lien HAL : https://hal.science/hal-03852889 Sub-THz Tranceivers with Advanced CMOS technologies Auteur(s): Nathalie Deltimple, Sebastien Sadlo, Antoine Lhomel, François Rivet, Andreia Cathelin Lien HAL : https://hal.science/hal-03792199 Une PLL à Double boucle basée sur une architecture N-entière pour une faible résolution de fréquence en technologie 28nm CMOS FD-SOI Auteur(s): Mateus B. Moreira, Francois Sandrez, Md. Sazzad Hossain, Herve Lapuyade, François Rivet, Yann Deval Lien HAL : https://hal.science/hal-03731236 Un générateur de signaux arbitraires radio-fréquences pour l'agrégation de porteuses 5G en technologie 28nm FDSOI Auteur(s): Pierre Ferrer, François Rivet, Hervé Lapuyade, Yann Deval Lien HAL : https://hal.science/hal-03631961 Oscillateur en classe C à 10 GHz, à faible bruit et large plage d’accord en fréquence, avec une fiabilité à long terme et un réglage du bruit de phase par la grille arrière Auteur(s): Ayoub Ait Ihda, Yann Deval, Hervé Lapuyade, François Rivet, Matthieu Gastaldi, Stéphane Rochette Lien HAL : https://hal.science/hal-03631986 An SRAM-based Multiple Event Upsets Detection Method for Space Applications Auteur(s): Leonardo H. Brendler, Herve Lapuyade, Yann Deval, Ricardo Reis, François Rivet Lien HAL : https://hal.science/hal-03729352 Démonstration d'un générateur de signaux arbitraires utilisant des séquences orthogonales à base de composants du commerce Auteur(s): Rémi Quéheille, François Rivet, Nathalie Deltimple, Yann Deval, Eric Kerhervé Lien HAL : https://hal.science/hal-03631963 Une méthode de prédistorsion numérique d’amplificateur de puissance utilisant des séquences orthogonales Auteur(s): Maxandre Fellmann, François Rivet, Nathalie Deltimple, Eric Kerhervé, Yann Deval Lien HAL : https://hal.science/hal-03729260 Low Power Frequency Dividers using TSPC logic in 28nm FDSOI CMOS Auteur(s): Md Sazzad Hossain, Mateus Bernardino Moreira, François Sandrez, François Rivet, Herve Lapuyade, Yann Deval Lien HAL : https://hal.science/hal-03643688 A 40 GHz Varactor-Less Class-C VCO With 17.1% Tuning Range And Long-Term Reliability In 28nm FD-SOI For Satellite Communications Auteur(s): Ayoub Ait Ihda, Yann Deval, Hervé Lapuyade, Francois Rivet, Matthieu Gastaldi, Stephane Rochette Lien HAL : https://hal.science/hal-03852880 Un convertisseur numérique-analogique pour l'agrégation de porteuses 5G Auteur(s): Pierre Ferrer, François Rivet, Herve Lapuyade, Yann Deval Lien HAL : https://hal.science/hal-03729331 A Wideband Power Amplifier for Sub-6 GHz 5G Applications Using Second Harmonic Processing Techniques in 28nm FDSOI Technology Auteur(s): Rémi Quéheille, Nathalie Deltimple, François Rivet, Yann Deval, Eric Kerhervé Lien HAL : https://hal.science/hal-03726278 A 125-163 GHz Power Amplifier in 28-nm FD-SOI CMOS with 20 dB Gain and 15 dBm Psat for D-Band Applications Auteur(s): Antoine Lhomel, N. Deltimple, Francois Rivet, Y. Deval, Eric Kerhervé Lien HAL : https://hal.science/hal-03714375 Une PLL à Double Boucle pour les normesWiFi et Galileo en technologie 28nm CMOS FD-SOI Auteur(s): Mateus B. Moreira, François Sandrez, Md. Sazzad Hossain, Hervé Lapuyade, François Rivet, Yann Deval Lien HAL : https://hal.science/hal-03631970 Un Oscillateur Commandé en tension avec 1,6 GHz de plage de réglage globale et une puissance de démarrage minimale de 466µW en technologie 28nm CMOS FD-SOI Auteur(s): Mateus B. Moreira, François Sandrez, Md. Sazzad Hossain, Herve Lapuyade, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-03731235 Un Oscillateur Commandé en Tension à très Faible Consommation pour les Normes Galileo et WiFi Auteur(s): Mateus B. Moreira, François Sandrez, Md. Sazzad Hossain, Hervé Lapuyade, François Rivet, Yann Deval Lien HAL : https://hal.science/hal-03631977 Une méthode de prédistorsion numérique d’amplificateur dans le domaine séquentiel Auteur(s): Maxandre Fellmann, Francois Rivet, Nathalie Deltimple, Eric Kerhervé, Herve Lapuyade, Yann Deval Lien HAL : https://hal.science/hal-03731224 Design of a Connected-Object using LoRa technology for students’ life improvement Auteur(s): Francois Rivet, Guillaume Ferré, Eric Kerhervé, Anaïs Tourissaud, Lucien Paquien, Pierre Ferrer Lien HAL : https://hal.science/hal-03198648 A low-cost IoT-based device to measure exposure to sub-6GHz 5G waves Auteur(s): Louis Guénégo, Anouar Walzik, Aharram Souhayl, Amine Karbab, Guillaume Ferré, François Rivet Lien HAL : https://hal.science/hal-03354733 Proof-of-Concept of a COTS Arbitrary Waveform Generator using Orthogonal Sequences Auteur(s): Rémi Quéheille, François Rivet, Nathalie Deltimple, Yann Deval, Eric Kerhervé Lien HAL : https://hal.science/hal-03354735 An IoT-based system to enforce COVID-19 health regulations dedicated to student traffic control in higher education areas Auteur(s): Rémi Quéheille, Emmanuel Pagès, François Rivet, Guillaume Ferré Lien HAL : https://hal.science/hal-03354734 Demonstration of a Walsh-based Arbitrary Waveform Generator using Components Off-The-Shelf Auteur(s): Rémi Quéheille, François Rivet, Nathalie Deltimple, Yann Deval, Eric Kerhervé Lien HAL : https://hal.science/hal-03354737 A low-cost IoT-based device to measure exposure to sub-6GHz 5G waves Auteur(s): Louis Guénégo, Anouar Walzik, Aharram Souhayl, Amine Karbab, Guillaume Ferré, François Rivet Lien HAL : https://hal.science/hal-03354738 IoT-based project design to collect data on the well-being of the students Auteur(s): Francois Rivet, Guillaume Ferré, Eric Kerherve, Tristan Lecocq, Amine Alinsafi, Gaëtan Antoine Lien HAL : https://hal.science/hal-03254725 Social distancing estimation using an IoT-based system and Bluetooth signal detection Auteur(s): Maxandre Fellmann, Maxime Le Gall, François Rivet, Guillaume Ferré, Eric Kerhervé Lien HAL : https://hal.science/hal-03354736 An IoT-based Precision Agriculture Project for Education in Circuits and Systems Auteur(s): Francois Rivet, Guillaume Ferré, Ryan Raimond, Christophe Moreau, Corentin Gaury, Eric Kerherve Lien HAL : https://hal.science/hal-03198647 Optimized body-biasing calibration methodology for high-speed comparators in 22nm FDX Auteur(s): David Cordova, Wim Cops, Yann Deval, Francois Rivet, Herve Lapuyade, Nicolas Nodenot, Yohan Piccin Lien HAL : https://hal.science/hal-03042259 Edge Computing Technique for a 87% Energy Saving for IoT Device Dedicated to Environmental Monitoring Auteur(s): Francois Rivet, Laura Foucaud, Guillaume Ferré Lien HAL : https://hal.science/hal-03042264 Design Methodology for 112Gb/s PAM4 Wireline ADC-Based Receivers Auteur(s): David Cordova, Wim Cops, Yann Deval, Francois Rivet, Herve Lapuyade, Nicolas Nodenot, Yohan Piccin Lien HAL : https://hal.science/hal-03042261 Binary Phase-Shift Keying for Ultrasonic Intra-Body Area Networks Auteur(s): Justine Guedey, Yann Deval, Hervé Lapuyade, Francois Rivet Lien HAL : https://hal.science/hal-02531959 A 0.8V 875 MS/s 7b low-power SAR ADC for ADC-Based Wireline Receivers in 22nm FDSOI Auteur(s): David Cordova, Wim Cops, Yann Deval, Francois Rivet, Herve Lapuyade, Nicolas Nodenot, Yohan Piccin Lien HAL : https://hal.science/hal-02956601 DLL-Enhanced PLL Frequency Synthesizer with Two Feedback Loops and Body Biasing for Noise Cleaning Auteur(s): Yann Deval, Andrés Asprilla, David Cordova, Herve Lapuyade, Francois Rivet Lien HAL : https://hal.science/hal-01964932 A Hierarchical Track and Hold Circuit for High Speed ADC-Based Receivers in 22nm FDSOI Auteur(s): David Cordova, Wim Cops, Yann Deval, Francois Rivet, Herve Lapuyade, Nicolas Nodenot, Yohan Piccin Lien HAL : https://hal.science/hal-02288614 Experimental demonstration of a Riemann Pump RF-DAC in 65 nm CMOS Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552334 Compression Study of Continuous-Time Sampled ECG Data for e-Health Applications Auteur(s): Mariam Tlili, Manel Ben Romdhane, Asma Maalej, Francois Rivet, Dominique Dallet, Chiheb Rebai Lien HAL : https://hal.science/hal-01972625 Méthode Croisée de Dimensionnement des Contraintes en Bruit d’un Oscillateur Local Auteur(s): Romane Dumont, David Gaidioz, Yann Deval, Francois Rivet, Andreia Cathelin Lien HAL : https://hal.science/hal-02281011 Precision Agriculture for Small to Medium Size Farmers — An IoT Approach Auteur(s): Victor Grimblatt, Guillaume Ferré, Francois Rivet, Christophe Jego, Nicolas Vergara Lien HAL : https://hal.science/hal-02281012 Étude d'égalisation de canal pour liaisons numériques à 100 Gbps Auteur(s): David Cordova, Francois Rivet, Yann Deval, Herve Lapuyade, Wim Cops, Nicolas Nodenot, Yohan Piccin Lien HAL : https://hal.science/hal-02288597 The Riemann Pump: a Concurrent Transmitter in GaN Technology Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval, Dominique Dallet, Patrick Garrec, Richard Montigny Lien HAL : https://hal.science/hal-01064369 The Riemann Pump: a Technique For Carrier-Aggregation Radio-Frequency Transceivers Auteur(s): Francois Rivet, Yoan Veyrac, Yann Deval Lien HAL : https://hal.science/hal-01964935 Time-domain characterization of a wireless ECG system event driven A/D converter Auteur(s): Saeed Mian Qaisar, Manel Ben-Romdhane, Omar Anwar, Mariam Tlili, Asma Maalej, Francois Rivet, Chiheb Rebai, Dominique Dallet Lien HAL : https://hal.science/hal-01682619 Experimental Demonstration of a 65 nm Integrated CMOS Waveform Generator for 5G sub-6GHz Standard Auteur(s): Pierre Bisiaux, Francois Rivet, Yoan Veyrac, Yann Deval Lien HAL : https://hal.science/hal-01964931 Conception et déploiement d’un réseau d’IoT en technologie LoRa permettant de connecter l’ENSEIRB-MATMECA Auteur(s): Guillaume Ferré, Francois Rivet, Eric Kerhervé, Paul Maton, Titouan Petitpied, Baptiste Laporte-Fauret Lien HAL : https://hal.science/hal-01552329 Interface de sérialisation 10 Gb/s pour convertisseur numérique/analogique sur-échantillonné à faible consommation Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552336 An Analog RF Fully Differential Common Mode Controlled Delay Line in 28nm FDSOI Technology from STM Auteur(s): Victor Vaillant, Francois Rivet Lien HAL : https://hal.science/hal-01660230 Design and Deployment of an IoT Network Based on LoRa Auteur(s): Guillaume Ferré, Francois Rivet, Romain Tajan, Eric Kerhervé Lien HAL : https://hal.science/hal-01552330 Energy Efficient Distributed-Oscillators at 134 and 202GHz with Phase-Noise Optimization through Body-Bias Control in 28nm CMOS FDSOI Technology Auteur(s): Raphaël Guillaume, Francois Rivet, Andreia Cathelin, Yann Deval Lien HAL : https://hal.science/hal-01552337 A Radio-Frequency Real-Time Spectrum Sensor based on an Analog Signal Processing Magnitude Calculator Auteur(s): Julien Orlando, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552342 Synthèse de fréquence à 2,5GHz en technologie 28nm FDSOI de ST Microelectronics, consommation de 100µW, à gigue temporelle contrôlée et robuste aux variations de procédés pour l’IoT Auteur(s): Victor Vaillant, Julian Leonhard, Yoan Veyrac, Yann Deval, Francois Rivet Lien HAL : https://hal.science/hal-01552333 Zero-VT active load for low-voltage, high-PSR single-ended amplifiers Auteur(s): David Cordova, Sergio Bampi, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552332 Mathematical Modeling Of Clean And Noisy ECG Signals In A Level-Crossing Sampling Context Auteur(s): Mariam Tlili, Asma Maalej, Manel Ben Romdhane, François Rivet, Dominique Dallet, Chiheb Rebai Lien HAL : https://hal.science/hal-01377961 A Concurrent Transmitter in CMOS 28nm FDSOI Technology based on Walsh sequences Generator Auteur(s): Nassim Bouassida, Francois Rivet, Yann Deval, David Duperray, Andreia Cathelin Lien HAL : https://hal.science/hal-01377970 An Ultra Wide Band Analog-to-Digital Converter based on a Delta-Riemann architecture Auteur(s): Francois Rivet, Elina Fiawoo, Patrick Garrec, Richard Montigny, Yann Deval Lien HAL : https://hal.science/hal-01377963 An Ultra-Low Power Dual-Ring Factorial Delay Locked Loop in 28nm FD-SOI technology Auteur(s): Khoa Hoang Vu Xuan, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01377965 A Waveform Generator Based on a CMOS RF-DAC for 5G Carrier Aggregation Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01377968 Accurate Level-Crossing ADC Design for Biomedical Acquisition Board Auteur(s): Mariam Tlili, Manel Ben-Romdhane, Asma Maalej, Mohamed Chaker Bali, Francois Rivet, Dominique Dallet, Chiheb Rebai Lien HAL : https://hal.science/hal-01377957 A 180 nm CMOS Analog Adaptive Sampler for Blood Pressure Feature Extraction Auteur(s): Callum Laurenson, Francois Rivet, Mehmet R. Yuce, Jean-Michel Redouté Lien HAL : https://hal.science/hal-01377959 Ultra-Low Power Frequency Synthesizer Based on a Dual-Locking Ring Oscillator Auteur(s): Yann Deval, Yoan Veyrac, François Rivet Lien HAL : https://hal.science/hal-01377960 A balanced logic routing block for Factorial-DLL based frequency generation Auteur(s): Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01377962 Characterization of ultrasonic wave propagation for intra-body communication Auteur(s): Francois Rivet, Samuel Redois, Yann Deval Lien HAL : https://hal.science/hal-01377964 Level-Crossing ADC Modeling for Wireless Electrocardiogram Signal Acquisition System Auteur(s): Mariam Tlili, Asma Maalej, Manel Ben-Romdhane, Mohamed Chaker Bali, Francois Rivet, Dominique Dallet, Chiheb Rebai Lien HAL : https://hal.science/hal-01377958 Design by Mathematics of Full Software Radio circuits and systems: methodology and application to 5G standard Auteur(s): Francois Rivet, Yoan Veyrac, Yann Deval Lien HAL : https://hal.science/hal-01139463 Un générateur de signaux pour émetteur correspondant au standard 5G Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval, Dominique Dallet, Patrick Garrec, Richard Montigny Lien HAL : https://hal.science/hal-01139469 Un émetteur radio logicielle à base de transformations de Walsh Auteur(s): Nassim Bouassida, Francois Rivet, Yann Deval, Duperray David, Andreia Cathelin, Dominique Dallet Lien HAL : https://hal.science/hal-01240260 Une interface sans fil d’implant bio-médical consommant 1.04μWen technologie UMC 0.18μm CMOS Auteur(s): Francois Rivet, Callum Laurenson, Mehmet Yuce, Jean-Michel Redouté Lien HAL : https://hal.science/hal-01139466 Full Software Radio circuits and systems: Design by Mathematics in 28nm FDSOI technology and application to 5G standard Auteur(s): Francois Rivet, Yoan Veyrac, Nassim Bouassida, Yann Deval Lien HAL : https://hal.science/hal-01139464 A 1.04uW Wireless Integrated MEMS Interface in UMC 0.18um CMOS Auteur(s): Callum Laurenson, Francois Rivet, Mehmet Yuce, Jean-Michel Redouté Lien HAL : https://hal.science/hal-01240265 Design by Mathematics of Full Software Radio circuits and systems: methodology and application to 5G standard Auteur(s): Francois Rivet, Yann Deval, Yoan Veyrac Lien HAL : https://hal.science/hal-01139467 Design by Mathematics: Full Software Radio Circuits and Systems in 28nm FDSOI Technology for 5G Standard and Beyond Auteur(s): Yann Deval, Francois Rivet, Yoan Veyrac Lien HAL : https://hal.science/hal-01139468 Adaptive interferer cancellation using a Sampled Analog Signal Processor Auteur(s): Oskar Holstensson, Francois Rivet, Nicolas Regimbal, Yann Deval, Patrick Garrec, Thierry Taris Lien HAL : https://hal.science/hal-01015881 Un émetteur radio logicielle intégrale: la pompe de Riemann Auteur(s): Yoan Veyrac, Francois Rivet, Yann Deval, Nicolas Regimbal, Patrick Garrec, Richard Montigny Lien HAL : https://hal.science/hal-01015887 Intra-Body Communications - Radio-Frequency versus Ultrasonic Auteur(s): Francois Rivet, Daniel T.H. Lai, Nick Owen, Yann Deval Lien HAL : https://hal.science/hal-01064360 Un émetteur radio logicielle intégrale à base de recombinaison d'harmoniques Auteur(s): Nassim Bouassida, Francois Rivet, Yann Deval, Dominique Dallet, Didier Belot Lien HAL : https://hal.science/hal-01015884 A 97mW 0-4GHz 65nm CMOS Concurrent Receiver Auteur(s): Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01064363 Characterization of Impulse Radio Intrabody Communication Auteur(s): Zibo Cai, Mirhojjat Seyedi, Geordie Z. Zhang, Daniel T.H. Lai, Francois Rivet Lien HAL : https://hal.science/hal-00937038 Characteristics of Baseband Digital Signal Transmission for Intrabody Communications Auteur(s): Zibo Cai, Mirhojjat Seyedi, Daniel T.H. Lai, Francois Rivet Lien HAL : https://hal.science/hal-00937047 An Energy-Efficient Pulse Position Modulation Transmitter for Galvanic Intrabody Communications Auteur(s): Mirhojjat Seyedi, Zibo Cai, Francois Rivet, Daniel T.H. Lai Lien HAL : https://hal.science/hal-01064366 From Software-Defined to Software Radio: Analog Signal Processor Features Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00321473 Wide-Band Rejection of Interfering Signals Auteur(s): Francois Rivet, François Fadhuile, Yann Deval, Thierry Taris Lien HAL : https://hal.science/hal-00917005 Studies on Die-to-Substrate Interconnects for High-Q PCB Inductors Auteur(s): Francois Rivet, M. Pourakbar, L. Linton, M. Faulkner Lien HAL : https://hal.science/hal-00917035 Réjection large bande de signaux interférents Auteur(s): Francois Rivet, François Fadhuile, Yann Deval, Thierry Taris Lien HAL : https://hal.science/hal-00801918 The first experimental demonstration of a SASP-based full Software Radio Receiver Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00359769 65 GHz CMOS-SOI Low Power Consumption Voltage Controlled Oscillator Auteur(s): Olivier Mazouffre, André Mariano, Bernardo Leite, Yann Deval, Jean-Baptiste Begueret, Didier Belot, Francois Rivet, Thierry Taris Lien HAL : https://hal.science/hal-00693355 A Low-Power 2 GHz Discrete Time Weighting System Dedicated To Sampled Analog Signal Processing Auteur(s): Yoann Abiven, Francois Rivet, Yann Deval, Dominique Dallet, Didier Belot, Thierry Taris Lien HAL : https://hal.science/hal-00642017 A low power digitally-enhanced SASP-based receiver architecture for mobile DVB-S applications in the Ku-band (10.7-12.75 GHz) Auteur(s): Andrée Fouque, Francois Rivet, François Fadhuile, Yann Deval, Jean-Baptiste Begueret, Didier Belot Lien HAL : https://hal.science/hal-00521421 Mixed-Signal Built-in Self-Calibrated Time-Interleaved ADC in 65nm CMOS Technology Auteur(s): Francois Rivet, André Mariano, Dominique Dallet, Jean-Baptiste Begueret Lien HAL : https://hal.science/hal-00476806 Vers la radio logicielle intégrale: le SASP, un processeur analogique du signal en temps discret Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00359770 Sampled Analog Signal Processor for Cognitive Radio Auteur(s): Yann Deval, Francois Rivet, Dominique Dallet, Jean-Baptiste Begueret, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00425438 Un pas vers la radio logicielle intégrale: le SASP, un processeur analogique du signal en temps discret Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00384370 Un Processeur Analogique de Signaux Radio-Frequences destine la Radio Logicielle pour des Terminaux Mobiles Auteur(s): Francois Rivet, Yann Deval, Dominique Dallet, Didier Belot, Jean-Baptiste Begueret Lien HAL : https://hal.science/hal-00269366 A 65nm CMOS RF Front End dedicated to Software Radio Auteur(s): Francois Rivet, Yann Deval, Dominique Dallet, Jean-Baptiste Begueret, Didier Belot Lien HAL : https://hal.science/hal-00274707 Un Processeur Analogique en technologie 65nm CMOS destiné à la Radio Logicielle pour des Terminaux Mobiles Auteur(s): Francois Rivet, Yann Deval, Dominique Dallet, Didier Belot, Jean-Baptiste Begueret Lien HAL : https://hal.science/hal-00281375 A 65nm CMOS Analog Processor for Mobile Terminals Software Radio Front End Auteur(s): Francois Rivet, Yann Deval, Dominique Dallet, Jean-Baptiste Begueret, Didier Belot, Philippe Cathelin Lien HAL : https://hal.science/hal-00270632 65nm CMOS Circuit Design of a Sampled Analog Signal Processor dedicated to RF Applications Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Philippe Cathelin, Didier Belot Lien HAL : https://hal.science/hal-00269138 A Universal Radio Frequency Receiver Architecture Based on Sampled Analog Signal Processing Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Bégueret, Dominique Dallet, Didier Belot Lien HAL : https://hal.science/hal-00161531 A Disruptive Software-Defined Radio Receiver Architecture Based on Sampled Analog Signal Processing Auteur(s): Francois Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Didier Belot Lien HAL : https://hal.science/hal-00161318 Un Processeur de Traitement du Signal Analogique destiné à la Radio Logicielle Auteur(s): Francois Rivet, Yann Deval, Dominique Dallet, Didier Belot, Jean-Baptiste Bégueret Lien HAL : https://hal.science/hal-00161534 Architecture d'un Récepteur Radio Logicielle à Temps Discret Auteur(s): Francois Rivet, Yann Deval, Dominique Dallet, Didier Belot, Jean-Baptiste Bégueret Lien HAL : https://hal.science/hal-00161530 A Software-Defined Radio based on Sampled Analog Signal Processing Dedicated to Digital Modulations Auteur(s): François Rivet, Yann Deval, Jean-Baptiste Begueret, Dominique Dallet, Didier Belot Lien HAL : https://hal.science/hal-00161329

Invited lectures (14)

Wireless communications: disruptive circuits for next generation cellular radios Auteur(s): Francois Rivet Lien HAL : https://hal.science/hal-03354739 The Hilbert Generator, a Filter-Free Upconverter for 6G Communications Auteur(s): Yann Deval, Francois Rivet, Hervé Lapuyade Lien HAL : https://hal.science/hal-02957426 Design of CMOS integrated circuits for radiation hardening and its application to space electronics Auteur(s): Yann Deval, Herve Lapuyade, Francois Rivet Lien HAL : https://hal.science/hal-02281009 RFIC Design by Mathematics Auteur(s): Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552331 Design by Mathematics : A Novel Approach for the Design of RFICs in Nanoscale CMOS Auteur(s): Francois Rivet, Yann Deval Lien HAL : https://hal.science/hal-01552345 Full Software Radio Transceivers Auteur(s): Yann Deval, Francois Rivet, Yoan Veyrac, Nicolas Regimbal, Patrick Garrec, R. Montigny, D. Belot, Thierry Taris Lien HAL : https://hal.science/hal-01553095 Toward 5G: an Integrated CMOS Wide Band Arbitrary Waveform Generator for Carrier Aggregation Auteur(s): Yann Deval, Yoan Veyrac, Francois Rivet Lien HAL : https://hal.science/hal-01240273 Survey of Full Software Radio Transceivers Auteur(s): Yann Deval, Francois Rivet, Yoan Veyrac, Nicolas Regimbal, Patrick Garrec, Patrick Montigny, Didier Belot, Thierry Taris Lien HAL : https://hal.science/hal-00916061 Analog Signal Processing: an hardware solution to achieve Software Radio concept Auteur(s): Francois Rivet Lien HAL : https://hal.science/hal-00782092 Software Radio: the Devil wears Analog Auteur(s): Francois Rivet Lien HAL : https://hal.science/hal-00782099 Calibration requires calibration, a case study: Mixed-Signal BISC Time-Interleaved ADC Auteur(s): André Mariano, Francois Rivet Lien HAL : https://hal.science/hal-00693373 Toward Software Radio Receiver Auteur(s): Yann Deval, Francois Rivet, Didier Belot Lien HAL : https://hal.science/hal-00531673 Low Cost Mobile RF Terminal Paradigms: from Multi-Radio to Software Radio Auteur(s): Yann Deval, Nathalie Deltimple, Francois Rivet, Thierry Taris, Jean-Baptiste Begueret, Eric Kerherve Lien HAL : https://hal.science/hal-00516970 Towards Software Radio Receiver Auteur(s): Francois Rivet, Yann Deval, Didier Belot Lien HAL : https://hal.science/hal-00531669

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