Vaader Seminars

[<span style="font-variant: small-caps;">Vaader</span> Seminars](https://hackmd.io/s/SJWHYpzPG#) === <table><tr><td><img height=120 src="https://hackmd.io/_uploads/HJfyqlJI6.svg"/><td><img src="https://www.ietr.fr/sites/www.ietr.fr/files/IETR%20Rouge%20et%20noir.png" height=120></td></tr></table></table> > **Organization contact** [name= K. Desnos (kdesnos at insa-rennes.fr)] ###### tags: `VAADER` |:email: **Mailing list** :mailbox: |**:calendar: Shared Calendar :calendar:**| |-|-| |You can subscribe to a dedicated mailing-list, that will exclusively be used to send seminar and Ph.D. defense announcements. To subscribe, send an e-mail to sympa@insa-rennes.fr with the following subject line (with YOUR first and last names):`subscribe vaader-seminars FirstName LastName`| Add all seminars automatically to your agenda with the following: [link](https://zimbrarelai.insa-rennes.fr/calendar.php?id=bEFnVEM5VE9yM1hEUWZoUTVKVytQdURWcWFKZ1lFU0c3SExNTU13MEJXUklhdmdCem9iNnpnbjUzLzBFcWROeWFiczFDeWsyZkxXeUVjU2phYnROZGc9PQ) <b>/!\ Link changed in May 2025 /!\ </b>. If you do so, we advise you to also subscribe to the mailing list | Next Seminars ---    ### 18.09.2025 - 10:15 _[:palm_tree: Summer Internships 5/5 :palm_tree:]_ _INSA Build. 10, Room 229 & [Zoom](https://insa-lyon-fr.zoom.us/j/95721949146?pwd=UzVuZ3lPMEo4REVLTENMRDV5ZmwrUT09)_ - [Ahmed Sidi Mohamed _(IETR VAADER)_ **Création d'une base de données carbone pour une électronique plus écologique**](https://hackmd.io/@kdesnos/BJENLkHLex) - [Salim Pam Pouhkpou _(IETR VAADER)_ **Démonstrateur de vidéos 3D sur écran auto-stéréo**](https://hackmd.io/@kdesnos/S1HzvJSUex) - [Manon Chassin du Guerny _(IETR VAADER)_ **Evaluation de l'empreinte environnemental du média radio**](https://hackmd.io/@kdesnos/H1-ODyB8lx) - [Soufiane Lotfi _(IETR VAADER)_ **Extension du logiciel ImageInsa**](https://hackmd.io/@kdesnos/rkoU9Czqlx) ### 16.10.2025 - 10:15 _INSA Build. 10, Room 229 & [Zoom](https://insa-lyon-fr.zoom.us/j/99066506553?pwd=XcN5BrBzK2VMgmnOibwRh2d1n0bDII.1)_ - [Giorgia Nadizar _(University of Trieste)_ **Interpretable Control Policies: What They Mean and How to Evolve Them.**](https://hackmd.io/@kdesnos/SklkFu8u9lx) ### 23.10.2025 - 10:15 _INSA Build. 10, Room 229 & [Zoom](https://insa-lyon-fr.zoom.us/j/91005116586?pwd=aj1cJGi3Rbijd4IC1ICmyrnbr5Wraw.1)_ - [Quentin Vacher _(IETR VAADER)_ **MAPLE: Multi-Action Programs through Linear Evolution for Continuous Multi-Action Reinforcement Learning**](https://hackmd.io/@kdesnos/SkU0JLVtxl) ### ~~16.10.2025~~ 04.11.2025 - 10:15 _INSA Build. 10, Room 229 & [Zoom](https://insa-lyon-fr.zoom.us/j/97090912303?pwd=dfpqjaFYqYW87XE6nBVjqtYv41HmZg.1)_ - [Karol Desnos _(IETR VAADER)_ **A Brief History of (Execution) Time - From Pipeline Traces to Dataflow Models**](https://hackmd.io/@kdesnos/BJ1sKkSLxx) Past Seminars --- [:clapper: _Also on Youtube_](https://www.youtube.com/channel/UCXlqd2OoxNRVsaI-90riYug) _INSA Build. 10, Room 128 & [Zoom](https://insa-lyon-fr.zoom.us/j/95721949146?pwd=UzVuZ3lPMEo4REVLTENMRDV5ZmwrUT09)_ ### 2025 - [Becas: ACV des moniteurs vidéo](https://hackmd.io/@kdesnos/SyLAV1SLxl) - [Bicheu: ACV d'un système de traitement audio](https://hackmd.io/@kdesnos/BJWYNkBIeg) - [Brachemi: Energy backdoor attack to DNNs](https://hackmd.io/@Meriem/Bytv2Szxge) - [Cloarec: OpenMP and Dataflow for SKA](https://hackmd.io/@kdesnos/B1zpzJrLxg) - [Corre: Plugin Kicad pour Co2-eq des PCB](https://hackmd.io/@kdesnos/HJZI7yS8lx) - [Djavaherpour: TPG with indexed memories](https://hackmd.io/@kdesnos/HktCMeJVkl) - [Girard: Détection de composants électronique](https://hackmd.io/@kdesnos/SJAAQ1BIgx) - [Honorat: Memory minimization for dataflow](https://hackmd.io/@kdesnos/S13LyvxYlx) - [Kahanam: DNN Performance Prediction](https://hackmd.io/@Meriem/S1BbeVqRJx) - [Khaffou: Segmentation des glandes surrénales](https://hackmd.io/@kdesnos/r1XQH1HLgg) - [Lagrange: Real-time computer-generated holograms](https://hackmd.io/@kdesnos/Hym3FlJVJl) - [Maugey & Menard: Reducing environmental impact](https://hackmd.io/@Meriem/rJt6ZV9A1x) - [Megret: Cartographie basé sur scanner d’environnement](https://hackmd.io/@kdesnos/r1T3SkHIxx) - [Milot: Estimation of quantization effects on DNNs](https://hackmd.io/@Meriem/rJjqlrGlll) - [Mussard: Reconnaissance de chiroptères](https://hackmd.io/@kdesnos/B1ImVkHIgg) - [Ranganadane: Pose humaine à partir de vidéos](https://hackmd.io/@kdesnos/HyG-Lkr8gl) - [Saadate: HLS et Kubernetes pour SKA](https://hackmd.io/@kdesnos/Bkv_b1rIge) - [Vacher: Hybrid Genetic and Deep RL for Robot Arm](https://hackmd.io/@kdesnos/rJHgNgk4yg) ### 2024 - [Badi: Hybrid Model for Time Series](https://hackmd.io/@kdesnos/B1ABm8vmke) - [Blavette: Optimisation in electrical networks](https://www.linkedin.com/in/anneblavette/) - [Boubacar Sani: Deep Learning d’interférométrie SAR](https://hackmd.io/@kdesnos/Hyvva5Jq6) - [Bourdet: Demo de bitrate ladder dynamique](https://hackmd.io/@kdesnos/rJJ6Tc2iC) - [Clergue: Evolutionary Machine Learning](https://hackmd.io/@kdesnos/SyKjvYtJC) - [Durand: Configurable PPG platform](https://hackmd.io/@kdesnos/BJtuR5yca) - [Eberlin: Empreinte énergétique du média radio](https://hackmd.io/@kdesnos/S1-8hcnsR) - [El Zeinaty: Lightweight Dice Classification](https://hackmd.io/@kdesnos/BkPAKUnaa) - [Essakali: PPG pour suivi des athlètes](https://hackmd.io/@kdesnos/Sk8nqD4nC) - [Faye: Adaptable Architectures for Edge](https://hackmd.io/@kdesnos/SJ2hHSaYp) - [Green: Computer vision for agriculture](https://hackmd.io/@kdesnos/H1Au9YK60) - [Herglotz: Quality and Energy in Video](https://hackmd.io/@kdesnos/BJOCyPRPA) - [Lefort: Apprentissage bio inspiré](https://hackmd.io/7oFuaAtaSfac5zKSIHGs1g) - [Li: ACV de PCB](https://hackmd.io/@kdesnos/BkY8Yy5o0) - [Lingadahalli: Machine learning view synthesis](https://hackmd.io/@kdesnos/HyaGh51cT) - [Milot: Optimization for Custom Floating-point](https://hackmd.io/@kdesnos/rJPSUSaF6) - Njonga-Makollo: Conso d’énergie streaming vidéo - [Picart: Sound localization of anurans](https://hackmd.io/@kdesnos/rkVJRE_6R) - [Pinare: Démonstration auto-stéréoscopique](https://hackmd.io/@kdesnos/rJoUGb9o0) - [Renaud: Dataflow and GP-GPU for SKA](https://hackmd.io/@kdesnos/H1oLjfZyyl) - [Sylvestre: Prog. parallèle synchrone sur FPGA](https://hackmd.io/@kdesnos/B1s3UVFk0) - [Verrier: Imagerie non-conventionnelle](https://hackmd.io/@kdesnos/ry3nbFba0) - [Yin: LLM pour l’analyse de datasheet](https://hackmd.io/@kdesnos/Hkah3JAjA) ### 2023 - [Ameur: Film grain removal and synthesis](https://hackmd.io/@kdesnos/By5TUM1ga) - [Beuve: Hierarchical Learning and Dummy Triplet Loss](https://hackmd.io/@kdesnos/H1E-_dGLs) - [Bonnot: wedoLow](https://hackmd.io/@kdesnos/Bkr-0WN9o) - [Carballo: Deep Learning on GPU/FPGA](https://hackmd.io/@kdesnos/ByBvib4cs) - [Chillet: TPGs for RFF Identification](https://hackmd.io/@kdesnos/rJAdffyla) - [Ciambra: IaRa: Dataflow + MLIR = <3](https://hackmd.io/@kdesnos/HJPCU060j) - [Cherel: Vulgarisation Prog. Génétique](https://hackmd.io/@kdesnos/rkNlgrKF2) - [Deplanques: Lightweight NNs for video compression](https://hackmd.io/@kdesnos/ryQhROYY2) - [Fournier: ASD people visual engagement](https://hackmd.io/@kdesnos/HypEHYeka) - [Gautier: Volumetric Video Communication](https://hackmd.io/@kdesnos/Bk0jgJYBh) - [Ghorbel: Adaptive Image Compression Transformer](https://hackmd.io/@kdesnos/BJUESJKE6) - [Herglotz: Energy in Video Streaming](https://hackmd.io/@kdesnos/B1U39mLIn) - [Jurie: Neuron Coverage vs Adversarial Robustness](https://hackmd.io/@kdesnos/S1wTxzklp) - [Kortli: Véhicule Autonome](https://hackmd.io/@kdesnos/Sy-ybFCnj) - [Ladune: low complexity autoencoder](https://hackmd.io/@kdesnos/Hkjr8xJ1T) - [Le Magoarou: Model-based AI for xG](https://hackmd.io/@kdesnos/B1KzhApAs) - [Lemarchand: Imagerie sans lentille](https://hackmd.io/@kdesnos/rkLlfZgX2) - [Lingadahalli: Novel View Synthesis](https://hackmd.io/@kdesnos/SJluOrJd2) - [Lorandel: Security of communication bus](https://hackmd.io/@kdesnos/HybNbxVm2) - [Mendez-Real: Leaky hardware vs AI](https://hackmd.io/@kdesnos/rkiDVKf6o) - [Michel Lightweight NN for video compression](https://hackmd.io/bkh_OoI3SluXWd4rtL_m0Q) - [Morin: Astronomy deep-learning & HLS](https://hackmd.io/@kdesnos/rJo12p9Kn) - [Plumejeau: SIMD & VVC](https://hackmd.io/@kdesnos/SkBX-YpK3) - [Racapé: Video Coding for Machines](https://hackmd.io/@kdesnos/BkawCp9yp) - [Raufflet: ImageINSA Update](https://hackmd.io/@kdesnos/Bk9c56cth) - [Renaud: Clustering of Dataflow Actors](https://hackmd.io/@kdesnos/SkAwhEBnj) - [Szolc: How to Train Your Drone](https://hackmd.io/@kdesnos/BJGL_5Aba) - [Sjöström: Realistic 3D](https://hackmd.io/@kdesnos/rJnprTWu3) - [Telili: Bitrate Ladder et streaming](https://hackmd.io/@kdesnos/Hyj1DkYVT) - [Zhang: Quality of Light Field Image](https://hackmd.io/@kdesnos/SypB0iKy6) ### 2022 * [Amirpourazarian: LiVE: Adaptive Streaming](https://hackmd.io/@kdesnos/rJxKf67_-s) * [Belarbi: Analyse vidéo de marches](https://hackmd.io/@kdesnos/r1OF6gzbs) * [Beuve: Graph Convolutional Nets](https://hackmd.io/@kdesnos/r1-UdroDq) * [Boujida: Energie et écosystème vidéo](https://hackmd.io/@kdesnos/BysXg-zbi) * [Bosc: Créer sa spin-off](https://hackmd.io/@kdesnos/Byv1kBRFt) * [Branchu-Harel: Meta-parameters of TPGs](https://hackmd.io/@kdesnos/SJkDfXOh5) * [Chen: Video Coding with deformable CNNs](https://hackmd.io/@kdesnos/S1fKo8SNj) * [Desnos: Dataflow Moldable Parameters](https://hackmd.io/@kdesnos/BJqlBsnys) * [Henry: Neural Video Coding](https://hackmd.io/@kdesnos/ryyiKNski) * [Jian: Compressive Sensing with ROI Detection](https://hackmd.io/@kdesnos/r1Geoac7j) * [Jiang: Light Field Compact Representation](https://hackmd.io/@kdesnos/BJKeaJsQs) * [Madali: Holographic videos](https://hackmd.io/@kdesnos/BJ7VA9W7j) * [Marie: Expert Training of AIs ](https://hackmd.io/@kdesnos/By4V0twKF) * [Mercat: Content-Aware Video Coding](https://hackmd.io/@kdesnos/HJwXpGhGj) * [Montmasson: Energy for TPGs](https://hackmd.io/@kdesnos/SJ7BrGO39) * [Schroeder: Dynamic Neural Networks](https://hackmd.io/@kdesnos/SJ3q81Pn9) * [Tarchouli: Patch-Based Image Coding](https://hackmd.io/@kdesnos/BJ6wiJO4s) * [Traore: Analyseur bitstream VVC](https://hackmd.io/@kdesnos/ByJcqZOn5) * [Vanne & Mercat: uvg266 VVC Encoder](https://hackmd.io/@kdesnos/Sy-g71n85) * [Vincent: Classification for TPGs](https://hackmd.io/@kdesnos/Sk8BX8Fn5) * [Vozel: BPG Compression of Noisy Images](https://hackmd.io/@kdesnos/Skqb-Q2Gj) * [Xia: Classification in ultrasound images](https://hackmd.io/@kdesnos/BklMUiKhF) * [Yviquel: Carrière au Brésil et supercalculateurs](https://hackmd.io/@kdesnos/ByMjk4cUc) * [Zhang: Lightfield image quality](https://hackmd.io/@kdesnos/HJWCSD7D9) ### 2021 * Ankri: Projet d'Oxymètre * [Bertret & Gauthier: Swimmer Detection](https://hackmd.io/@kdesnos/B1NmDat6d) * [Bonnineau: Multitask Learning for VVC](https://hackmd.io/@kdesnos/rJKTAkbK_) * [Bonnot: Data-arithmetic Optimization](https://hackmd.io/@kdesnos/SyoWafhIu) * [Bourgoin: Code generation for TPGs](https://hackmd.io/@kdesnos/SkIuPTYaO) * [Durand: Génération de trafic réseau**](https://hackmd.io/@kdesnos/SkhNb-s6u) * [Fréneau: Power consumption of a VVC decoder](https://hackmd.io/@kdesnos/HJQHytTTu) * [Ghorbel: Segmentation for medical image](https://hackmd.io/@kdesnos/SJ5XU6Ya_) * [Haggui: Transform Selection using SDF](https://hackmd.io/@kdesnos/ByOvy2xVd) * [Hamidouche: Defense Against Adversarial](https://hackmd.io/@kdesnos/HkL7gUJnv) * [Hamidouche: Light Field Image Coding](https://hackmd.io/@kdesnos/BJ0axI13P) * [Hamidouche: SW & HW VVC codecs](https://hackmd.io/@kdesnos/BJdFbUJhw) * [Hamidouche: Learning-based Compression](https://hackmd.io/@kdesnos/SkR_MIy2P) * [Le Tallec: New DeepFake dataset](https://hackmd.io/@kdesnos/HJmzb29TO) * [Léonard: TPGs for VVC](https://hackmd.io/@kdesnos/ByitQ4WZF) * [Loc'H: GPU-based CNN](https://hackmd.io/GnsILgztS-qWpEmBu2X53w?both) * [Milot: Optimization of CNN Precision](https://hackmd.io/@kdesnos/BJPdb2q6O) * [Miomandre: Approximate Buffers](https://hackmd.io/@kdesnos/rJJFfngNd) * [Nasiri: VVC Quality Enhancement](https://hackmd.io/@kdesnos/HkRl3kbYO) * [Sourdin: SoC RISC-V sur DE10-Lite](https://hackmd.io/@kdesnos/rJ57N296u) * Telili: Quality of UGC Videos * [Wende: Energie des Encodeurs Vidéo](https://hackmd.io/@kdesnos/S1vEN78-t) ### 2020 * [Abdeddaim: HLS & Vision](https://hackmd.io/@kdesnos/Skn6A-7gv) * [Belhadj: Complexity in VVC](https://hackmd.io/@kdesnos/BkkjwfExw) * [Chou: Firmware d'oxymètre.](https://hackmd.io/@kdesnos/BklQt3OpI) * [Desnos: GEGELATI](https://hackmd.io/@kdesnos/HkPRJ1aoU) * [Findelli: Gradual Image Denoising](https://hackmd.io/@kdesnos/S1qHG0d6U) * [Hamidouche: Futur compression](https://hackmd.io/@kdesnos/r1sfyhEaL) * [Raumer: Reinforcement Learning Library](https://hackmd.io/@kdesnos/HkmCnbmgD) * [Morillon: LiDAR & PREESM](https://hackmd.io/@kdesnos/S1SbCW7lw) * [Peyramaure: Fall Detector](https://hackmd.io/@kdesnos/SyiDi03jI) * [Younes: Buffer in Preesm](https://hackmd.io/@kdesnos/SktvaZmlv) ### 2019 * [Amestoy: QTBT Frame Partitioning](https://hackmd.io/s/H1hRrAdDE#) * [Aouayeb: Micro-Expressions](https://hackmd.io/@kdesnos/B1jueWJGB) * [Balasubramanian: Machine Learning](https://hackmd.io/ryC_BMHyB) * [Caffanera: Biomedical Engineering](https://hackmd.io/@kdesnos/ByKKce1MS) * [Croix: Cosine and Sine Transforms](https://hackmd.io/@kdesnos/BkxDrbyMB) * [Fernande: Image Restoration Benchmark](https://hackmd.io/@kdesnos/HJ20_bkfH) * [Gageot: Code generation for manycore](https://hackmd.io/@kdesnos/ry3ZvWkzB) * [Gautier: Chaos-Based Cipher](https://hackmd.io/s/SyUwn7FeE) * [Gendron: Robotic Arm & Dataflow](https://hackmd.io/@kdesnos/SJGdXbkMH) * [Graffard: Complexité d'encodage VVC.](https://hackmd.io/@kdesnos/By8Mzb1zr) * [Haggui: Prototype d'oxymètre](https://hackmd.io/@kdesnos/HJH7gWkGr) * [Le: CNN pour l'encodage vidéo](https://hackmd.io/@kdesnos/BJwjUZyfH) * [Marty: Overclocking FPGA for CNN](https://hackmd.io/@kdesnos/B1HRWSdMB) * [Miladi: VVC & SIMD instructions](https://hackmd.io/@kdesnos/By48kWJzr) * [Mehat: Software optimization DCT/DST](https://hackmd.io/@kdesnos/rJXg7WkGB) * [Ndoye: Prototypage 5G sur FPGA](https://hackmd.io/@kdesnos/HJ5FDb1fB) * [Nguyen: About Crypto-Security](https://hackmd.io/s/Hk3qQRdvE#) * [Pelcat: CNRS Section 07](https://hackmd.io/@kdesnos/r1euoaSMH) * [Peralta: AI for Brain Stimulation](https://hackmd.io/s/BkXBXUwmV) * [Outtas: Enhancement of Ultrasound Images](https://hackmd.io/s/B1de1nx24) * [Wahab: Hardware Support for security](https://hackmd.io/s/H1aip-OiV) * [Yro:: Cocoa Drying Assessment](https://hackmd.io/s/By9RUCuD4#) * [Zhu: Rate Distortion Optimization](https://hackmd.io/s/r1gUPSuQN#) ### 2018 * [Aridhi: Bio-signal processing](https://hackmd.io/s/HkoUvOmcQ) * [Arrestier: Delays in Dataflow](https://hackmd.io/s/SkZjO51Mm#) * [Bakir: Light Field CNN Compression](https://hackmd.io/s/BJD5mbmPz#) * [Bichon: Adaptive Quantization](https://hackmd.io/s/r1GmgWdvG#) * [Bonnot: Ma thèse en 180 sec](https://hackmd.io/s/BJ5uyNH_G#) * [Chao: Salgan360](https://hackmd.io/s/HkltZ16G7#) * [Civerchia: Reconfig. Comput. & 5G](https://hackmd.io/s/ryNb_P6nQ#) * [Cogranne: LiDAR Velodyne](https://hackmd.io/s/HyPMzwO4Q#) * [Dardaillon: Dataflow scheduling](https://hackmd.io/s/SkzoOpahQ) * [Dervieux: Complexity optim. in VVC](https://hackmd.io/s/Hy24zUv4Q#) * [Devigne: Fauteuil Semi-Autonome](https://hackmd.io/s/SJ-sUSuNQ#) * [Gutiérrez: Subjective Quality](https://hackmd.io/s/SyPQSdDZX#) * [Mo: Multi-Objective Mapping](https://hackmd.io/s/HJrQmOC_z#) * [Maraval: 360° camera interpolation](https://hackmd.io/s/SJk_d7dIQ#) * [Seguier: Entrepreneuriat](https://hackmd.io/s/BkrZN_PWQ#) * [Sérot: Flot de données et HLS](https://hackmd.io/s/BytKfMZtQ#) * [Sourbier: Calibration algo on MPPA](https://hackmd.io/s/rytFoNnL7#) * [Suriano: Hw/Sw Monitoring](https://hackmd.io/s/r17tpWR7X#) * [Takigasaki: Prototype d’oxymétre](https://hackmd.io/s/ByCxbiKLm#) * [Vanne: Ultra Video Group](https://hackmd.io/s/S1nEsB_4m#) * [Wang: Modélisation panoramique](https://hackmd.io/s/rkl0BUYqU7#) * [Wien: Versatile Video Coding](https://hackmd.io/s/rk_KSXk37#) * [Zhang: Dataflow and Vision](https://hackmd.io/s/BkeMH8oYUQ) ### 2017 * [Bonnot: Approximate Computing](https://hackmd.io/s/S1BOv0MPz#) * [Dejean: CNN & Compression](https://hackmd.io/s/S1AOFTGwz#) * [Deroui: SDF Throughput Evaluation](https://hackmd.io/s/Sy5tACzvz#) * [Juarez: Helicoid & MPPA](https://hackmd.io/s/H16ZaAGvz#) * [Kammoun: Optimized Hardware](https://hackmd.io/s/SyfLKCMwf#) * [Martin: Notifying Memory](https://hackmd.io/s/BJCeh0fwz#) * [Salvador: Reconfigurable HW](https://hackmd.io/s/BkBeNAfDG#) * [Talpin: Typage par Raffinement](https://hackmd.io/s/ryqu20fPz#) * [Tian: Image Quality](https://hackmd.io/s/S1YoM-XPG) * [Parois: Real-Time Scalable HEVC](https://hackmd.io/s/HJJapCGwf#) * [Pelcat: HDR Encore](https://hackmd.io/s/rkawmMmPz#) ### 2016 * [Desnos: Distributed Dataflow Alloc](https://hackmd.io/s/ry8fVZXwz#) * [Fourt: 3DRoads](https://hackmd.io/s/BknO6bXDG#) * [Gilles: Génération d'Hologrammes](https://hackmd.io/s/SJoBAWXPG) * [Houssein: Suivi d'Objets](https://hackmd.io/s/ByPlab7vz#) * [Lilius: Energy Aware Design](https://hackmd.io/s/Hyf08bQvz#) * [Mellal: Microrobots Magnétiques](https://hackmd.io/s/rkbP-kXPz#) * [Menant: Stereo-Matching on C6678](https://hackmd.io/s/rk9XcZXPM#) * [Menard: SHVC Energy & QoS](https://hackmd.io/s/rJWBKWQPz#) * [Mercat: HEVC Encoding Complexity](https://hackmd.io/s/H167c-XPG#) * [Pescador: Video Decoding on DSP](https://hackmd.io/s/HJRCCWXDG#) * [Pillement: CNU & Qualif & PEDR](https://hackmd.io/s/S1JW3bXvz#) * [Saidi: Qualité Visiophonie](https://hackmd.io/s/ryVUyfXvG#) * [Viswanathan: Hologrammes](https://hackmd.io/s/HJA6yyXwM#)