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This presentation will provide an overview of the workshop. It will shortly elucidate the three individual domains in which the inherent self-interference signal from the own transmitter can be cancel...
In-band full-duplex technology (IBFD) enables a device to simultaneously transmit and receive on the same frequency and at the same time. The principal advantage of IBFD is that it doubles the spectra...
There has been significant research in integrated self-interference cancellation techniques for full-duplex operation, with steady progress in transmit power handling, cancellation bandwidth, power co...
In-band full-duplex (IBFD) technology can lead to enhanced spectral efficiency for future wireless networks, such as sixth-generation (6G) and beyond, and could enable capabilities and applications th...
The Advanced Duplex (AD) system is designed to enhance the flexibility and efficiency of duplex communication by optimizing the management of uplink (UL) and downlink (DL) signals on the same carrier ...
Traditional SAW filters and duplexers, limited to fixed frequency characteristics, can only support frequency-division duplexing (FDD). However, emerging communication technologies like in-band full-d...
Balanced RF front-end topologies have generated increased research interest in recent years for full-duplex wireless communication systems due to their ability to establish circuit-level orthogonality...
Gallium Nitride (GaN) has become a promising technology to realize a fully integrated transceiver chain in a single technology. GaN semiconductor technology offers performance advantages for radar, el...
In-Band-Full-Duplex wireless systems are already widely considered in research on communications but also attract increasing interest in radar systems. The latter will significantly benefit from a sha...