WFD5GB 2016 - Workshop on Full-Duplex Techniques for 5G and Beyond (WFD5GB)

The emerging 5th generation and beyond wireless systems will experience a significant increase on the number of connected
devices and high volume of data traffic. Additionally, high traffic load variations among heterogeneous network cells over time
pose an extra challenge, due to the possible asymmetric traffic and dynamics between the uplink and downlink communications.
Full-duplex (FD) technology, by which devices transmit and receive simultaneously on the same frequency band, have attracted a
lot of research attention lately. FD radios can potentially double the spectral efficiency and therefore are a promising technology
for 5G and beyond wireless network design. However, FD radios suffer from severe self-interference (SI), as well as extra cross
interference between the uplink and downlink caused by simultaneous transmissions which further degrades the overall network
performance. To this end, many research groups around the world have proposed new transceiver designs, implemented advanced
FD prototypes and have shown that SI can be mitigated almost up to the noise floor. Recently, some fields trials have also been
completed in order to bring FD technology a step closer to practice. All these accomplishments show the feasibility of FD and
its applicability for future wireless networks. Despite these fundamental results and achievements, still there are many challenges
and open problems to resolve on FD operation. In order to achieve the full potential of FD transmission, it is necessary to cope
with the self-interference and develop new mechanisms and efficient protocols, while reducing the energy consumption due to
the required additional hardware.