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Aloha-NOMA for Ambient Backscatter M2M Communication in IoT Networks with Random Power Levels and Frequency Channel Assignment

Internet of Things as known as IoT is a network pointing to a series of interconnected devices that are communicating with each other. M2M communication protocol is integral part of IoT to allowing multiple devices to communicate smoothly. Aloha-NOMA for ambient backscatter M2M communication ca...

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Bibliographic Details
Main Authors: Halbouni, Asmaa Hani, Abdul Ghani, Muhammad Afiq, Habaebi, Mohamed Hadi
Format: Conference or Workshop Item
Language:English
English
Published: IEEE 2021
Subjects:
TK Electrical engineering. Electronics Nuclear engineering
Online Access:http://irep.iium.edu.my/92207/1/92207_Aloha-NOMA%20for%20Ambient%20Backscatter%20M2M%20Communication.pdf
http://irep.iium.edu.my/92207/7/92207_Aloha-NOMA%20for%20Ambient%20Backscatter%20M2M%20Communication%20in%20IoT%20Networks%20with%20Random%20Power%20Levels_Scopus.pdf
http://irep.iium.edu.my/92207/
https://ieeexplore.ieee.org/abstract/document/9525940?casa_token=8vmTzDHhBfIAAAAA:EofhVZL3Ovb9nEl9xRhUZR5jdovoji_x6WD0MYOCzYN7qdHbKwkNN8qEaQBPaHIEyirQecxiMg
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Summary:Internet of Things as known as IoT is a network pointing to a series of interconnected devices that are communicating with each other. M2M communication protocol is integral part of IoT to allowing multiple devices to communicate smoothly. Aloha-NOMA for ambient backscatter M2M communication can provide high throughput matched with low complexity of Aloha-NOMA while leveraging on the low power and cost of ambient backscatter communication links. This paper critically studies the application of Aloha- NOMA for backscatter M2M communication utilizing multichannel and random power levels. In this paper, multichannel Aloha-NOMA throughput analysis had been done in order to observe the impact of adding sub channels. Throughput increased directly proportional as number of sub channels. Then, Aloha-NOMA performances are compared against Ambient Backscatter Aloha-NOMA in which more channels on the line with backscatter channels. Results indicate the combination of random power levels selection with random frequency channel selection yields significant throughput improvement.

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