System-Level Dynamics of Highly Directional Distributed Networks

System-Level Dynamics of Highly Directional Distributed Networks

WoS Article

While highly directional communications may offer considerable improvements in the link data rate and over-the-air latency of high-end wearable devices, the system-level capacity trade-offs call for separate studies with respect to the employed multiple access procedures and the network dynamics in general. This letter proposes a framework for estimating the system-level area throughput in dynamic distributed networks of highly-directional paired devices. We provide numerical expressions for the steady-state distribution of the number of actively communicating pairs and the probability of successful session initialization as well as derive the corresponding closed-form approximation for dense deployments.

While highly directional communications may offer considerable improvements in the link data rate and over-the-air latency of high-end wearable devices, the system-level capacity trade-offs call for separate studies with respect to the employed multiple access procedures and the network dynamics in general. This letter proposes a framework for estimating the system-level area throughput in dynamic distributed networks of highly-directional paired devices. We provide numerical expressions for the steady-state distribution of the number of actively communicating pairs and the probability of successful session initialization as well as derive the corresponding closed-form approximation for dense deployments.

Queueing analysis;X reality;Steady-state;Performance evaluation;Mathematical model;Interference;Geometry

Queueing analysis;X reality;Steady-state;Performance evaluation;Mathematical model;Interference;Geometry

ALI, A.; GALININA, O.; ANDREEV, S.

13.04.2021

2162-2337

IEEE Wireless Communications Letters

2021

4

United States of America

1

5

5

https://ieeexplore.ieee.org/abstract/document/9403410/