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19 Selected Projects of the 2025 IP Paris Prematuration Call for Projects

16 Dec. 2025
Institut Polytechnique de Paris (IP Paris) is pleased to announce the results of the 2025 edition of its IP Paris Prematuration Call for Projects. This program aims to foster innovation by turning laboratory research into real-world solutions for tomorrow's society. 19 projects will receive funding for this 7th edition. This demonstrates the strength of innovation at IP Paris.
19 Selected Projects of the 2025 IP Paris Prematuration Call for Projects

Since its creation, the IP Paris Prematuration Call for Projects has supported project teams  to identify relevant use cases and develop the first proof of concept aligned with user needs. Winning projects will benefit from one year of funding and dedicated support from the IP Paris Innovation Lab.

Throughout the last 6 editions, the IP Paris Prematuration Call for Projects has supported 75 projects from IP Paris laboratories for a total amount of €5.2 million.

Several deeptech start-ups such as Amphitrite, Replico, Konatus and Plasana, have already emerged from projects supported in previous editions.
The 2025 edition shows a significant increase in the number and quality of applications compared to the previous years. This demonstrates the program’s strengthening impact on laboratories and Technology Transfer Offices (TTO).

The selected projects cover a wide range of fields, from MedTech and materials to energy & environment, including digital technologies such as networks, 5G, and artificial intelligence.

Here are the 19 winners of the 7th edition:

  • Simo ALAMI (École Polytechnique), ONIRIC project: Development of an AI-driven robotic control method that learns an uncertain “world model” and enables the agent to specialize in new tasks through experience transfer.

     

  • Ludovic APVRILLE (Télécom Paris), ModularAI project: Software solution using algorithms to reliably integrate AI into business processes along with formal verification, enabling the automation and increased reliability of enterprise workflows.

     

  • Sofiane BELAHSENE (Télécom SudParis), SiPhoGas project: Integration of multi-wavelength laser diodes and detection photodiodes directly onto a silicon platform to develop a compact solution suitable for portable or embedded applications.

     

  • Gilles CRAGUE (ENPC), Minard project: A no-code digital decision-support infrastructure for the ecological transition of territories, based on standardized and reusable analytical templates.

     

  • Carl DE SOUSA TRIAS (Télécom SudParis), NEWTON-UP project: Design of a family of processes and devices for robust neural network tracing, offering flexibility, scalability, and independence from training models.

     

  • Yanlei DIAO (École Polytechnique), XAD2Market project: Explainable AI technology to detect complex anomalies in large data streams almost in real time.

 

  • Olivier DOARE (ENSTA), VIBE2 project: A speech therapy rehabilitation platform that converts voice into vibratory and visual signals to modernize the verbo-tonal method.

     

  • Alessandro FLACCO (ENSTA, École Polytechnique), ECLAIR project: Device for the production and controlled application of ionizing radiation (VHEE electrons) using a laser, including associated control and feedback systems.

 

  • Olivier FOURNOUT (Télécom Paris), GerminatIA project: Audiovisual technologies for the production and distribution of an online documentary web series integrating AI-generated sequences.

 

  • Arthur GUILLOT - LE GOFF (ENPC), Otter project: Development of calibration and processing methods for sensors measuring in real-time indicators of microbiological water contamination, improving bathing site management.

 

  • Jean-Sébastien GOMEZ (Télécom Paris), NGCore project: A 5G mobile core network based on Cloud FaaS (Function as a Service) technologies.

     

  • Guillaume GRACIANI (Télécom SudParis), RIPPLE 2.0 project: Development of an amplifying optical cavity to detect and characterize pollutants, bacteria, and micro/nanoplastics in water.

     

  • Amine Mahdi HAMIDOUCHE (Télécom Paris), SWEEP project: Development of a multi-band RF energy harvesting solution for the sustainable and wireless powering of connected objects.

     

  • Julien JUMEL (ENSTA), FISC project: Development of a test bench and digital tools to generate master curves of decohesion and predict the lifetime of composite or bonded interfaces.

 

  • Rida KHATOUN (Télécom Paris), OEK project: Optimization of a security protocol for connected vehicles using ephemeral key provisioning to reduce connection time while meeting mobility-specific constraints.

 

  • Alizée MESNARD (Télécom SudParis), ShiftElec project: Decision-support software that optimizes and shifts industrial electricity consumption without affecting production.

 

  • Pavlo MOZHAROVSKYI (Télécom Paris), IDENCHEM project: Design of a statistical AI method for screening and discovering active molecules in drug discovery using structural descriptors and phenotypic data.

 

  • Alexandre TANGUY (École Polytechnique), LASEM 2025 project: Development of a device combining a continuous-wave high-power laser with a scanning electron microscope for advanced material characterization.

 

  • Piyush SWAMI (Télécom SudParis), Re-EEGCAP project: Development of an EEG tool designed as a first-line diagnostic aid, complementing imaging technologies.

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