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Enhancing Automatic Modulation Recognition for IoT Applications Using Transformers

Narges Rashvand, Kenneth Witham, Gabriel Maldonado, Vinit Katariya, Nishanth Marer Prabhu, Gunar Schirner, Hamed Tabkhi

2024IoT26 citationsDOIOpen Access PDF

Abstract

Automatic modulation recognition (AMR) is vital for accurately identifying modulation types within incoming signals, a critical task for optimizing operations within edge devices in IoT ecosystems. This paper presents an innovative approach that leverages Transformer networks, initially designed for natural language processing, to address the challenges of efficient AMR. Our Transformer network architecture is designed with the mindset of real-time edge computing on IoT devices. Four tokenization techniques are proposed and explored for creating proper embeddings of RF signals, specifically focusing on overcoming the limitations related to the model size often encountered in IoT scenarios. Extensive experiments reveal that our proposed method outperformed advanced deep learning techniques, achieving the highest recognition accuracy. Notably, our model achieved an accuracy of 65.75 on the RML2016 and 65.80 on the CSPB.ML.2018+ dataset.

Topics & Concepts

Internet of ThingsComputer scienceTransformerModulation (music)Embedded systemElectrical engineeringEngineeringVoltagePhysicsAcousticsWireless Signal Modulation ClassificationRadar Systems and Signal ProcessingAdvanced biosensing and bioanalysis techniques
Enhancing Automatic Modulation Recognition for IoT Applications Using Transformers | Litcius