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Stage - Implementation Of a Secure Link Using Physec Based on Sdr H/F
CEA
Grenoble
Sur place
EUR 40 000 - 60 000
Plein temps
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Résumé du poste
Une organisation de recherche en France recherche un stagiaire pour travailler sur l’implémentation d’un lien sécurisé utilisant la PHYSEC, basé sur SDR. Le candidat développera un modèle en MATLAB/Python et effectuera des tests en temps réel. Ce poste nécessite des compétences en traitement du signal, communication numérique et une connaissance des instruments de laboratoire. Un encadrement par des chercheurs expérimentés est prévu.
Qualifications
- Compétences en traitement du signal et communication numérique.
- Expérience avec MATLAB et Python.
- Capacité à utiliser des instruments de laboratoire.
Responsabilités
- Développer un modèle de transmission sécurisé en MATLAB/Python.
- Implémenter des concepts de transmission, synchronisation et égalisation.
- Réaliser des tests de performance en conditions réelles.
Connaissances
2025-38005
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Stage
Stage - Implementation of a secure link using PHYSEC based on SDR H/F
Physical layer security (PHYSEC) enhances communication confidentiality by leveraging the inherent characteristics of the wireless channel. It protects transmitted data against eavesdropping without relying solely on higher-layer encryption.
PHYSEC techniques include secure modulation, coding, and beamforming to exploit channel randomness. It ensures that legitimate receivers can reliably decode messages while making interception by attackers difficult.
The aim of this work is to demonstrate the practical feasibility of the PHYSEC concepts developed within the laboratory by implementing and testing them using a software-defined radio (SDR) platform.
The first task will be to develop, on top of existing work, a Matlab/Python model of a secure transmission chain, including channel coding and modulation. The waveform and security aspects will come from ongoing research conducted by a Ph.D. student.
The candidate’s role will be to implement these concepts and all related components for transmission, synchronization, and equalization, with guidance and support from senior researchers in the field. Once the simulation model has been validated, integration onto a Hardware-in-the-Loop (HiL) platform will be carried out. The HiL methodology allows testing of the transmission chain in real-time conditions interfacing the simulation model with actual hardware components, enabling realistic evaluation of performance under controlled scenarios.
Finally, a measurement campaign using a channel emulator, and if feasible over-the-air testing, will be conducted to demonstrate the benefits of the proposed concept.
Matlab, Python, Signal processing, Digital communications
- Signal processing and digital communication
- MATLAB/Python
- Proficient in using laboratory instruments
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