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Element 2 - Competitiveness in PNT
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Start date: 31/12/2024Duration: 18 MonthsThe proposed activity’s main objective is to develop an innovative solution for monitoring the construction processes of large infrastructures by using cutting-edge technologies such as GNSS (global navigation satellite systems), satellite EO (Earth observation), drones and wearable devices to guarantee a safe work environment for the construction workers and avoid delays in the construction…
Subcontractors
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Start date: 02/12/2024Duration: 12 MonthsThe goal of the project is to support highly demanded services, navigation and time distributions, including high accuracy PPP solutions, such as the one provide by Galileo HAS, together with a radio communication channel, by offering an integrated solution, which could fit multiple FPGA end user equipment on the land, airborne and maritime application. This solution delivers combined benefits…
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Start date: 04/11/2024Duration: 31 MonthsThis project aims to develop vehicular antennas for PNT and 5G/6G SatCom/Cellular applications, which are integrated into the glass roof of a car. Antennas will be designed, prototyped and benchmarked towards current state-of-the-art. By using transparent (or hidden) glass integrated vehicular antenna systems, Volvo Cars not only improves car design and carbon footprint, but also strengthens…
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Start date: 25/10/2024Duration: 7 MonthsACTIA Aerospace is developing an Onboard GNSS (Global Navigation Satellite System) and ODTS (Orbit determination time synchronization) receiver for constellations and Newspace : High accuracy, more than 5 years of lifetime and 95% availability with a low SWaP-C. The NAVISP project consists in performing the end of critical design phase.
Subcontractors
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PENRYN is a LEO-PNT satellite system incorporating a first in constellation satellite. It provides Assured, Secured, and Resilient PNT provision across three spectrum bands: VHF, L-Band, and C-Band.
Prime contractor
Subcontractors
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Start date: 09/10/2024Duration: 27 MonthsODYSSEY (Orbits-as-a-Service for Satellite Signals of Opportunity) is funded through Element 2 of the ESA NAVISP programme and is being carried out by GMV-UK. It will develop a precise orbit determination centre for communications satellite constellations. This will be used to provide a new commercial service generating precise orbits for different satellite constellations whose signals can be…
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Start date: 01/10/2024Duration: 36 MonthsDue to the proliferation of jamming sources, localizing the source of RFI is becoming a priority. For GNSS users, especially the ones concerned with safety applications and critical infrastructures, but not limited to, it is imperative to be situationally aware of local GNSS interference. The GINKO-S Phase 2 product encompasses the minimum system configuration necessary to verify the…
Subcontractors
Name: Inter-university Consortium of Applied Physical Sciences (CISFA)
Country: Italy
Website: http://cisfa.net/
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Start date: 01/10/2024Duration: 16 MonthsThe activity aims at developing a new GNSS spaceborne receiver (called MARCONI New Space) to respond to several space market needs: • A Low-Cost GNSS Receiver suitable for large production (Constellations) - use, as much as possible, of selected COTS or low grade components with good radiation robustness and specific protection mechanism; • Compact design, internally redundant; • High…
Prime contractor
Name: Thales Alenia Space Italia S.p.A.
Country: Italy
Website: https://www.thalesaleniaspace.com/en
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Start date: 03/09/2024Duration: 24 MonthsThe GNSS-R Technology for Water Leaks Detection project aims to engineer an instrument, which can be installed in any vehicle, capable of pre-localizing water losses using the technique of scatterometry. This technique involves driving a vehicle over the water pipe, identifying the sections with different moisture content than the average measurements. In this way, operators can avoid the…
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Start date: 01/09/2024Duration: 18 MonthsThis project aims to develop a novel white-box GNSS receiver with a unique capability: achieving faster-than-real-time operation. This innovation will significantly accelerate development and testing cycles. The project will leverage the high-throughput capabilities of an AMD/Xilinx Versal board to realize this functionality. Furthermore, the project will culminate in the creation of a…
Prime contractor