Slotted ALOHA with NOMA for the Next Generation IoT
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- Ιανουάριος 1, 2020
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Περίληψη
Random access (RA) has recently been revisited and considered as a key technology for the medium access control layer of the Internet of Things applications. Compared to other RA protocols, slotted ALOHA (SA) has the advantages of low complexity and elimination of partially overlapping transmissions, reducing the number of collisions, however it may suffer from congestion as the traffic load and the number of devices increase. To this end, two RA protocols based on SA and uplink non-orthogonal multiple access are proposed and applied to wireless sensor networks and wireless powered sensor networks. More specifically, to reduce the number of collisions and increase the throughput of SA, while maintaining low complexity, two detection techniques are used to mitigate the interference, when two sources transmit information in the same time slot, namely successive interference cancellation (SIC) with optimal decoding order policy and joint decoding (JD). To evaluate the performance of the proposed protocols, the outage probability of SIC and JD is derived, which is used to express the average throughput attained by each protocol in closed-form. Finally, both the analytical results and the simulations verify that the proposed protocols substantially increase the throughput and the number of connected devices compared to SA. © 1972-2012 IEEE.
Σύνδεσμοι
- https://www.researchgate.net/publication/342755668_Slotted_ALOHA_with_NOMA_for_t[...]
- doi:10.1109/TCOMM.2020.3007744
BibTeX (Download)
@article{Tegos20206289,
title = {Slotted ALOHA with NOMA for the Next Generation IoT},
author = { S.A. Tegos and P.D. Diamantoulakis and A.S. Lioumpas and P.G. Sarigiannidis and G.K. Karagiannidis},
url = {https://www.researchgate.net/publication/342755668_Slotted_ALOHA_with_NOMA_for_the_Next_Generation_IoT},
doi = {10.1109/TCOMM.2020.3007744},
year = {2020},
date = {2020-01-01},
journal = {IEEE Transactions on Communications},
volume = {68},
number = {10},
pages = {6289-6301},
abstract = {Random access (RA) has recently been revisited and considered as a key technology for the medium access control layer of the Internet of Things applications. Compared to other RA protocols, slotted ALOHA (SA) has the advantages of low complexity and elimination of partially overlapping transmissions, reducing the number of collisions, however it may suffer from congestion as the traffic load and the number of devices increase. To this end, two RA protocols based on SA and uplink non-orthogonal multiple access are proposed and applied to wireless sensor networks and wireless powered sensor networks. More specifically, to reduce the number of collisions and increase the throughput of SA, while maintaining low complexity, two detection techniques are used to mitigate the interference, when two sources transmit information in the same time slot, namely successive interference cancellation (SIC) with optimal decoding order policy and joint decoding (JD). To evaluate the performance of the proposed protocols, the outage probability of SIC and JD is derived, which is used to express the average throughput attained by each protocol in closed-form. Finally, both the analytical results and the simulations verify that the proposed protocols substantially increase the throughput and the number of connected devices compared to SA. © 1972-2012 IEEE.},
keywords = {energy harvesting, outage probability, Random access, slotted ALOHA, uplink NOMA, wireless power transfer, wireless powered sensor network},
pubstate = {published},
tppubtype = {article}
}