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Start date: 15/01/2018GNSS antennas in user receiver devices are relatively simple. More sophisticated antennas could be designed to bring spatial diversity and gain, and to be more resistant against spoofing and meaconing, as well as reducing other sources of interference, for instance by nulling the gain of the antenna in this direction. Using arrays of dynamic elements (phase/gain controlled) would also make it…
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Start date: 27/07/2018The main objective of the activity is to design and develop a prototype of a GNSS sensor that will support automotive applications. Our strategy is to develop such device in the form of a “software radio” design that can be configured to allow its implementation in COTS system-on-a chip devices. This device is aimed to support multiple GNSS constellation with a multi-frequency…
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Start date: 09/07/2018To find a presentation summarizing the now completed activity, click here. To find the abstract, click here. The DRACONAV project developed an industrial version of a secure GNSS module able to detect GNSS signal spoofing, replay and jamming attacks and provide an estimated PVT (Dead Reckoning) when an attack is detected. The module integrates in a unique casing a multi-constellation GNSS…