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BPI NOROGOW+

NOROGOW+ is a structuring project for the French Extra High Frequency sector. It aims to develop sovereign interconnection and module solutions based on MMICs up to 220 GHz. The project partners will research and develop sovereign solutions in the field of microwave systems for the 75-110 GHz and 140-220 GHz frequency ranges.

Accompagnement Spécifique des travaux de Recherches et d’Innovation Défense (ASTRID)

ASTRID (Accompagnement Spécifique des Travaux de Recherches et d’Innovation Défense) aims to support projects of a highly exploratory and innovative nature, for a 18 to 36 month period, with the following objectives :

 

  • Stimulate the opening of new research avenues and maintain the innovation effort on themes of interest for defence, in line with the guidelines set out in the Document de Référence d’Orientation de l’Innovation de Défense (DROID) 2020,

 

  • Explore scientific or technical hard points by promoting the development of skills and the identification of potential technological breakthroughs that are sources of beneficial innovations for defence, civilian research and industry.
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Simulation hybride Logiciel Et Matériel pour la conception de Brouillages Intelligents (SLEMBI)

The objective of the project is to develop tools and methods that will make it possible to be more responsive to technological developments in UAVs and to design intelligent jamming, i. e. that consumes less energy, limits exposure to EM fields of staff and is capable of affecting only the target UAV without affecting surrounding communications.

Nos projets antérieurs

Advanced hoListic Adverse Drone Detection, Identification and Neutralisation (ALADDIN)

This project intends to adress the growing threat issue of drone misuse in crime and terrorism. The consortium administering the project consists of 18 technical, law enforcement  […]

 

 

Optically Based Instantaneous microWAve iMagery (OBIWAM)

OBIWAM is a collaborative research-enterprise (PRCE) project composed by three industrial partners and two academic ones, which is voluntarily focused on applications. It aims to design and experimentally […]

 

 

GRACE

The objective of GRACE is to develop surface mount W-band (93-100 GHz) radar components for Enhanced Flight Vison Systems (EFVSs) that permit take-off, landing and taxiing in poor visibility conditions, where landing would not be safe otherwise.  Millimetre-wave radar technology is expected to be critical complement to infrared (IR) technology in future EFVS systems. In poor-visibility […]

OMAT

The OMAT poject – Millimetric Waves for Telecommunications Applications – is an “HDF Avenir” project funded by the BPI and the Hauts-de-France region. Its aim to integrate transmit and receive modules for high-speed point-to-point communication applications (Telecom PTP) in the 71 GHz- 76 GHz and 81 GHz – 86GHz frequency bands.

 

 

Synthetic aPerture Interferometric raDiometer for sEcurity in cRitical infraStructure (SPIDER)

Along with the evolution of nature and frequency of threats on various critical infrastructures and soft targets, there is a need for evolution and improvement in the detection solutions of hidden objects or materials that can represent a menace to European citizens and assets. Current long queues at airports […]

Digital RAdiometric Correlation Camera (DRAC2)

The project is supported by the french ministry of Defence (DGA) in the frame of a RAPID program. The main aim of this project is to develop a new generation of passive imaging systems working at millimeter wave frequencies. The technology is based on an innovative architecture of digital correlation receivers.

 

Passive Imaging through multipleXing device based on time reversaL (PIXEL)

MC2 Technologies develops and industrializes microwave scanner solutions for security applications (fight against crime and terrorism). This passive (emission-free) technology is based on a millimeter frequency range variation of radiation of the human body and hidden […]