English

On Interference Channels with Gradual Data Arrival

Information Theory 2021-08-23 v1 math.IT

Abstract

We study memoryless interference channels with gradual data arrival in the absence of feedback. The information bits arrive at the transmitters according to independent and asynchronous~(Tx-Tx asynchrony) Bernoulli processes with average data rate λ\lambda. Each information source turns off after generating a number of nn bits. In a scenario where the transmitters are unaware of the amount of Tx-Tx asynchrony, we say ϵ\epsilon is an \textit{achievable outage level} in the asymptote of large~nn if (i) the average transmission rate at each transmitter is λ\lambda and (ii) the probability that the bit-error-rate at each receiver does not eventually vanish is not larger than~ϵ\epsilon. Denoting the infimum of all achievable outage levels by ϵ(λ)\epsilon(\lambda), the contribution of this paper is an upper bound (achievability result) on ϵ(λ)\epsilon(\lambda). The proposed method of communication is a simple block transmission scheme where a transmitter sends a random point-to-point codeword upon availability of enough bits in its buffer. Both receivers that treat interference as noise or decode interference are addressed.

Keywords

Cite

@article{arxiv.2108.08968,
  title  = {On Interference Channels with Gradual Data Arrival},
  author = {Kamyar Moshksar},
  journal= {arXiv preprint arXiv:2108.08968},
  year   = {2021}
}
R2 v1 2026-06-24T05:16:18.072Z