Mobile networks are experiencing heterogeneity and intricacy by the avalanche of data traffic, which bring about the possibility of performance degradation by strong interference problems. In order to overcome the limitation of mitigating/eliminating strong interferences, some recent researches have focused on harnessing interferences using advanced coding techniques such as network coding. Two-way coding (TWC), especially on interference channels, is one novel idea for directly harnessing interferences by data-detouring and coupling several hops even though previous results were theoretical. In this context, we propose TWC techniques with respect to their implementation, and verify potential performances when the interference links are prominently strong. TWC techniques have crucial performance gains by not only exploiting good (interference) link qualities for detouring desired information but also removing undesired information using pre-owned data, namely, side-information. Furthermore, we exemplify channel state information (CSI) feedback strategies to realize TWC regarding the transceivers constructed by coupling successive hops.
[1]
Lawrence H. Ozarow,et al.
The capacity of the white Gaussian multiple access channel with feedback
,
1984,
IEEE Trans. Inf. Theory.
[2]
David Tse,et al.
Two-way interference channels
,
2012,
2012 IEEE International Symposium on Information Theory Proceedings.
[3]
Claude E. Shannon,et al.
Two-way Communication Channels
,
1961
.
[4]
Zongpeng Li,et al.
Signal Alignment: Enabling Physical Layer Network Coding for MIMO Networking
,
2013,
IEEE Transactions on Wireless Communications.
[5]
Suhas N. Diggavi,et al.
Wireless Network Information Flow: A Deterministic Approach
,
2009,
IEEE Transactions on Information Theory.
[6]
David Tse,et al.
Feedback Capacity of the Gaussian Interference Channel to Within 2 Bits
,
2010,
IEEE Transactions on Information Theory.