Publiée 3 juillet 2026
Post doctoral in Cloud continuum and AI generative - Fixed term contract 12 months
Institut Mines-Télécom
Palaiseau, Île-de-France 91120, France
CDI
ABOUT TELECOM SUDPARIS
Telecom SudParis is a public graduate school for engineering, which has been recognized on the highest level in the domain of digital technology. The quality of its courses is founded on the scientific excellence of its faculty and on teaching techniques that emphasize project management, innovation and intercultural understanding. Telecom SudParis is part of the Institut Mines-Telecom, the number one group of engineering schools in France, under the supervision of the Minister for Industry. Telecom SudParis with Ecole Polytechnique, ENSTA Paris, ENSAE Paris, ENPC and Telecom Paris are co-founders of the Institut Polytechnique de Paris, an institute of Science and Technology with an international vocation. Vidéo présentation de Télécom SudParis
ABOUT INSTITUT MINES-TELECOM :
The Institut Mines-Télécom (IMT) is a public institution dedicated to higher education and research for innovation in the fields of engineering and digital technology. Always attentive to the needs of the business world, the IMT combines strong academic and scientific legitimacy, close ties with companies and a unique positioning on the major transformations of the 21st century: digital, energy, industrial and educational. Its activities are carried out by the Mines and Télécom Grandes Ecoles under the authority of the Minister for Industry and Electronic Communications, two subsidiaries and associated partners or partners under agreement. ITM is a founding member of the Alliance Industrie du Futur. It has been awarded the Carnot label for the quality of its research partnerships.
Institut Mines-Télécom video presentation
MISSIONS:
With the growing need for organizations to increase business profitability and strengthen their position in a highly competitive market, the demand for cloud services and resources has increased significantly. In the digital era, no organization can realistically envision evolving its information system or exposing its services without relying on cloud technologies. Beyond this, leveraging services from multiple cloud providers has become a natural choice for organizations seeking to deliver highly available services while ensuring rapid recovery and reduced operational costs.
New requirements are also emerging for computing and storage capabilities at the edge, as well as for the numerous Internet of Things (IoT) devices that underpin smart cities, Industry 4.0, and connected vehicle networks. The resulting ecosystem-the Cloud-Edge-IoT continuum-is characterized by highly heterogeneous infrastructures and multi-layered applications, for which monitoring, anomaly detection, and resource usage prediction are fundamental services to guarantee application quality of service and security.
At the same time, with the proliferation of cyberattacks, cyber risk has become one of the major business risks facing organizations. To assess their own security posture, as well as that of their subsidiaries and suppliers, companies require efficient, automated, and accessible solutions capable of addressing the shortage of cybersecurity expertise. Such assessments must be accurate, continuous, and transparent, particularly in the context of new European regulations that reinforce requirements for managing third-party cyber risks.
Achieving these objectives is possible but far from straightforward, especially in a highly monopolized cloud market where users remain constrained to consume services from a single provider, leading to strong vendor lock-in. Our research team has laid the foundations for addressing this challenge by proposing a cloud-provider-independent model for describing user requirements and service offerings, together with a service discovery approach. The next challenge is to design techniques enabling the automated composition of services from multiple providers, a key step toward satisfying complex and emerging user requirements in distributed environments.
Within this broader context, the team's research aims to develop methods for automating service composition across the Cloud-Edge-IoT continuum, generating the corresponding deployment models, monitoring their execution, and continuously assessing the cyber posture of organizations.
ACTIVITIES:
Formation
Indications de rémunération:
Informations complémentaires et candidature
Telecom SudParis is a public graduate school for engineering, which has been recognized on the highest level in the domain of digital technology. The quality of its courses is founded on the scientific excellence of its faculty and on teaching techniques that emphasize project management, innovation and intercultural understanding. Telecom SudParis is part of the Institut Mines-Telecom, the number one group of engineering schools in France, under the supervision of the Minister for Industry. Telecom SudParis with Ecole Polytechnique, ENSTA Paris, ENSAE Paris, ENPC and Telecom Paris are co-founders of the Institut Polytechnique de Paris, an institute of Science and Technology with an international vocation. Vidéo présentation de Télécom SudParis
ABOUT INSTITUT MINES-TELECOM :
The Institut Mines-Télécom (IMT) is a public institution dedicated to higher education and research for innovation in the fields of engineering and digital technology. Always attentive to the needs of the business world, the IMT combines strong academic and scientific legitimacy, close ties with companies and a unique positioning on the major transformations of the 21st century: digital, energy, industrial and educational. Its activities are carried out by the Mines and Télécom Grandes Ecoles under the authority of the Minister for Industry and Electronic Communications, two subsidiaries and associated partners or partners under agreement. ITM is a founding member of the Alliance Industrie du Futur. It has been awarded the Carnot label for the quality of its research partnerships.
Institut Mines-Télécom video presentation
MISSIONS:
With the growing need for organizations to increase business profitability and strengthen their position in a highly competitive market, the demand for cloud services and resources has increased significantly. In the digital era, no organization can realistically envision evolving its information system or exposing its services without relying on cloud technologies. Beyond this, leveraging services from multiple cloud providers has become a natural choice for organizations seeking to deliver highly available services while ensuring rapid recovery and reduced operational costs.
New requirements are also emerging for computing and storage capabilities at the edge, as well as for the numerous Internet of Things (IoT) devices that underpin smart cities, Industry 4.0, and connected vehicle networks. The resulting ecosystem-the Cloud-Edge-IoT continuum-is characterized by highly heterogeneous infrastructures and multi-layered applications, for which monitoring, anomaly detection, and resource usage prediction are fundamental services to guarantee application quality of service and security.
At the same time, with the proliferation of cyberattacks, cyber risk has become one of the major business risks facing organizations. To assess their own security posture, as well as that of their subsidiaries and suppliers, companies require efficient, automated, and accessible solutions capable of addressing the shortage of cybersecurity expertise. Such assessments must be accurate, continuous, and transparent, particularly in the context of new European regulations that reinforce requirements for managing third-party cyber risks.
Achieving these objectives is possible but far from straightforward, especially in a highly monopolized cloud market where users remain constrained to consume services from a single provider, leading to strong vendor lock-in. Our research team has laid the foundations for addressing this challenge by proposing a cloud-provider-independent model for describing user requirements and service offerings, together with a service discovery approach. The next challenge is to design techniques enabling the automated composition of services from multiple providers, a key step toward satisfying complex and emerging user requirements in distributed environments.
Within this broader context, the team's research aims to develop methods for automating service composition across the Cloud-Edge-IoT continuum, generating the corresponding deployment models, monitoring their execution, and continuously assessing the cyber posture of organizations.
ACTIVITIES:
- Definition of a methodology for the automated generation of deployment models for composite services, integrating execution monitoring, anomaly detection, and resource usage prediction to facilitate the orchestration and operation of applications in complex and heterogeneous environments, including large-scale experimental infrastructures
- Development of software components and tools enabling the integration of monitoring and anomaly detection capabilities into existing infrastructures and applications, leveraging innovative methods adapted to the increasing complexity of software stacks across the Cloud-Edge-IoT continuum
- Design of a continuous cyber posture assessment approach tailored to organizational information systems, enabling greater automation of security diagnostics and improved integration into operational processes, from small and medium-sized enterprises (SMEs) to large organizations
- Development of automated security assessment mechanisms based on dynamic indicators and system analysis techniques to enhance the early detection of vulnerabilities and risks, in response to the requirements of current European regulations (NIS2, DORA)
- Implementation of software solutions supporting the integration of continuous assessment capabilities within heterogeneous environments, ranging from SMEs to large enterprises, through simple, cost-effective, and fully automated solutions that reduce the workload of security teams
- Validation of the proposed approaches through industrial use cases representative of the Cloud-Edge-IoT continuum, demonstrating their effectiveness, robustness, adaptability, and ability to continuously improve both quality of service and the cyber posture of organizations
Formation
- Doctorat ou PhD depuis moins de 3 ans
- Maitrise de l'IA générative
- Expérience et connaissances en services cloud
- Maitrise de la programmation Python/Java/C/C++
- Maitrise de l'anglais à l'écrit et à l'oral
- Expérience dans l'apprentissage automatique
- Expérience dans les outils d'orchestration impliquant le déploiement et configuration des infrastructures et des services (Docker, Kubernetes, Terraform, etc.)
- Expérience dans les outils et technologies associés aux Blockchain et BPM
- Aptitude au travail en équipe au sein de contrats de recherche nationaux ou internationaux, en collaboration avec des partenaires académiques et industriels
- Qualités relationnelles
- Réactivité, esprit d'initiative et de rigueur
- Intérêt pour les nouvelles technologies
- Autonomie
Indications de rémunération:
- Fourchette indicative de rémunération (hors bonus annuel variable): 32 076 - 35 400 euros bruts annuels, selon le profil et l'expérience (charges salariales réduites en secteur public).
Informations complémentaires et candidature
- Date limite de candidature : 31 août 2026
- Nature du contrat : CDD de 12 mois renouvelable
- Catégorie et métier du poste (usage interne): II - P, Post-doctorant ou A (fonction publique)
- Poste ouvert aux métiers de niveau immédiatement inférieur (usage interne)
- Localisation du poste: Palaiseau (91)
- Les postes offerts au recrutement sont ouverts à toutes et tous avec, sur demande, des aménagements pour les candidats en situation de handicap
- Emploi ouvert aux titulaires de la fonction publique et/ou aux contractuels
- Conditions de travail : 44 jours de congés, télétravail possible, restaurant et cafétéria sur site, accessibilité en transport en commun (avec participation de l'employeur) ou proche des axes routiers, association du personnel et association sportive sur le campus
- Contact : [email protected]