| Paper ID | D3-S6-T1.2 |
| Paper Title |
When an Energy-Efficient Scheduling is Optimal for Half-Duplex Relay Networks? |
| Authors |
Sarthak Jain, Martina Cardone, Soheil Mohajer, University of Minnesota, Twin Cities, United States |
| Session |
D3-S6-T1: Relaying I |
| Chaired Session: |
Wednesday, 14 July, 23:40 - 00:00 |
| Engagement Session: |
Thursday, 15 July, 00:00 - 00:20 |
| Abstract |
This paper considers a diamond network with $n$ interconnected relays, namely a network where a source communicates with a destination by hopping information through $n$ communicating/interconnected relays. Specifically, the main focus of the paper is on characterizing sufficient conditions under which the $n+1$ states (out of the $2^{n}$ possible ones) in which at most one relay is transmitting suffice to characterize the approximate capacity, that is the Shannon capacity up to an additive gap that only depends on $n$. Furthermore, under these sufficient conditions, closed form expressions for the approximate capacity and scheduling (that is, the fraction of time each relay should receive and transmit) are provided. A similar result is presented for the dual case, where in each state at most one relay is in receive mode.
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