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Element 2 - Competitiveness in PNT
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The goal of the proposed project is to develop a modem for Two-Way Satellite Time and Frequency Transfer (TWSTFT), based on a fully digital implementation, challenging the current state-of-art performance, and finished to allow small series industrial production and operation requirements. The technique of TWSTFT is known for decades. The main usage nowadays is in the field of world-wide… -
Start date: 05/06/2020Duration: 18 MonthsThe VaGAD project is aiming at developing a new product for calibration and for validation of GNSS receivers in the automotive industry for levels 3/4 of automation and under real world conditions. The system will use airborne high-resolution image data which are precisely georeferenced with Ground Control Points derived from satellite Radar measurements. This system will provide a reference…Subcontractors
Name: DLR Earth Observation Center, Remote Sensing Technology Institute
Country: Germany
Website: https://www.drl.de/eoc
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GMV Poland has been developing expertise in Software Defined Radio (SDR) receivers for space applications during the last five years with the GNSSW and GNSSW-LEON4 feasibility and prototyping activities with ESA/ESTEC. In order to push forward the innovative solutions developed up to now and speed up the commercialization with a higher TRL, the NAVISP Element 2 programme has been chosen with a…Prime contractor
Subcontractors
Name: SPACE RESEARCH CENTER OF THE POLISH ACADEMY OF SCIENCES (CBK PAN)
Country: Poland
Website: http://www.cbk.waw.pl/
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SatUWB is a a GNSS enhanced Real Time Location System that uses UWB technology for accurate positioning. By including GNSS receivers in the anchors, SatUWB can provide absolute positioning information for a large number of mobile tags and eliminates the need for configuration and calibration of the anchor infrastructure. The anchors are deployable without prior knowledge of the area, thus enabling… -
The project will develop an advanced GNSS receiver combined with an external clock that fulfils the requirements of ITU’s ePRTC standard. The main requirements of ePRTC are a maximum time error of 30 ns in locked mode (i.e., when using GNSS signals in nominal conditions), and a maximum time error of 100 ns after 14 days in holdover mode (i.e., after a total loss of GNSS signals). The potential…Prime contractor
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Start date: 15/04/2020Duration: 14 MonthsThis project aims at developing a platform to support the definition, study and performance assessment of Signal Quality Monitors against Evil Waveforms (EWF). This platform will be used in this project with focus on a concrete use case – autonomous driving – to demonstrate its capability to explore innovative solutions for a cost efficient and flexible solution for Signal Quality Monitoring…Subcontractors
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There's huge untapped potential from wind power at high altitudes. The Airborne Wind Energy System (AWES) provides access to these higher and powerful winds using a compact tethered aircraft. One of the problems of the AWES is to have a reliable navigation solution that functions even in case of GNSS outages. DroneHome project aims to tackle that problem by developing a very low cost and…Subcontractors
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With the aid of co-funding from a previous NAVISP program, Cobham have started the research and development of a GNSS signal protection system using beamforming techniques implemented on a software define digital signal processing board. This previous activity, ‘Project VANTIGE’, has resulted in a number of study reports documenting the best implementation of such a system. Additionally, a… -
High-precision GNSS-based positioning based on an RTK-approach and secure GNSS signal reception based on multiantenna hardware and algorithms are both innovative technologies. There are numerous applications, which benefit from increased security and high precision of GNSS positioning. Typical examples are Unmanned Aerial Vehicles (UAVs), Maritime Applications or Autonomous Driving and Railway…Subcontractors
Name: IDS – Chair of Integrated Digital Systems and Circuit Design at RWTH Aachen University
Country: Germany
Website: https://www.ids.rwth-aachen.de/
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Start date: 24/03/2020Duration: 18 MonthsSatellite data is used in several applications to assist positioning of mobile work machines. The next step is towards mobile work machines having more autonomy. In this development, sensor data fusion, signal processing and artificial intelligence are essential technologies together with 5G and satellite data. Mobile work machines rely more on radars, cameras and local…
