BIRA is a bistatic radar facility for spherical positioning of two probes with sub-millimeter accuracy on up to 7 m diameter and 0.7-260 GHz coverage, enabling Doppler and range characterization of dynamic objects for ISAC.
MIMO Radar with Widely Separated Antennas,
3 Pith papers cite this work. Polarity classification is still indexing.
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An adapted thin-wire model extended for bistatic OFDM sensing and multiple propellers produces micro-Doppler signatures that match drone measurements.
A modular EEG-based BCI with S4D deep learning classifier achieves 84% offline accuracy and enables real-time control for a tetraplegic user, with 73% success in post-competition validation.
citing papers explorer
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BIRA: A Spherical Bistatic Radar Reflectivity Measurement System
BIRA is a bistatic radar facility for spherical positioning of two probes with sub-millimeter accuracy on up to 7 m diameter and 0.7-260 GHz coverage, enabling Doppler and range characterization of dynamic objects for ISAC.
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Modeling Micro-Doppler Signature of Multi-Propeller Drones in Distributed ISAC
An adapted thin-wire model extended for bistatic OFDM sensing and multiple propellers produces micro-Doppler signatures that match drone measurements.
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Improving motor imagery decoding methods for an EEG-based mobile brain-computer interface in the context of the 2024 Cybathlon
A modular EEG-based BCI with S4D deep learning classifier achieves 84% offline accuracy and enables real-time control for a tetraplegic user, with 73% success in post-competition validation.