TY - JOUR
T1 - An Adaptive Optimal Mapping Selection Algorithm for PNC using Variable QAM Modulation
AU - Peng, Tong
AU - Wang, Yi
AU - Burr, Alister G.
AU - Shikh-Bahaei, Mohammad
PY - 2018/1/1
Y1 - 2018/1/1
N2 - Fifth generation (5G) wireless networks will need to serve much higher user densities than existing 4G networks, and will therefore require an enhanced radio access network (RAN) infrastructure. Physical layer network coding (PNC) has been shown to enable such high densities with much lower backhaul load than approaches such as Cloud-RAN and coordinated multipoint (CoMP). In this letter, we present an engineering applicable PNC scheme which allows different cooperating users to use different modulation schemes, according to the relative strength of their channels to a given access point. This is in contrast with compute-and-forward and previous PNC schemes which are designed for two-way relay channel. A two-stage search algorithm to identify the optimum PNC mappings for given channel state information and modulation is proposed in this letter. Numerical results show that the proposed scheme achieves low bit error rate with reduced backhaul load.
AB - Fifth generation (5G) wireless networks will need to serve much higher user densities than existing 4G networks, and will therefore require an enhanced radio access network (RAN) infrastructure. Physical layer network coding (PNC) has been shown to enable such high densities with much lower backhaul load than approaches such as Cloud-RAN and coordinated multipoint (CoMP). In this letter, we present an engineering applicable PNC scheme which allows different cooperating users to use different modulation schemes, according to the relative strength of their channels to a given access point. This is in contrast with compute-and-forward and previous PNC schemes which are designed for two-way relay channel. A two-stage search algorithm to identify the optimum PNC mappings for given channel state information and modulation is proposed in this letter. Numerical results show that the proposed scheme achieves low bit error rate with reduced backhaul load.
KW - adaptive PNC
KW - backhaul load
KW - Bit error rate
KW - Central Processing Unit
KW - Decoding
KW - industrial applicable
KW - Network coding
KW - Quadrature amplitude modulation
KW - Radio access networks
KW - unambiguous detection.
UR - http://www.scopus.com/inward/record.url?scp=85054523160&partnerID=8YFLogxK
U2 - 10.1109/LWC.2018.2874052
DO - 10.1109/LWC.2018.2874052
M3 - Article
AN - SCOPUS:85054523160
SN - 2162-2337
JO - IEEE Wireless Communications Letters
JF - IEEE Wireless Communications Letters
ER -