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ML-Aided Collision Recovery for UHF-RFID Systems

Talha Akyıldız, Raymond Shih Ray Ku, Nicholas Harder, Najme Ebrahimi, Hessam Mahdavifar

202213 citationsDOI

Abstract

We propose a collision recovery algorithm with the aid of machine learning (ML-aided) for passive Ultra High Fre-quency (UHF) Radio Frequency Identification (RFID) systems. The proposed method aims at recovering the tags under collision to improve the system performance. We first estimate the number of tags from the collided signal by utilizing machine learning tools and show that the number of colliding tags can be estimated with high accuracy. Second, we employ a simple yet effective deep learning model to find the experienced channel coefficients. The proposed method allows the reader to separate each tag's signal from the received one by applying maximum likelihood decoding. We perform simulations to illustrate that the use of deep learning is highly beneficial and demonstrate that the proposed approach boosts the throughput performance of the standard framed slotted ALOHA (FSA) protocol from 0.368 to 1.837, where the receiver is equipped with a single antenna and capable of decoding up to 4 tags.

Topics & Concepts

AlohaComputer scienceUltra high frequencyDecoding methodsCollisionThroughputChannel (broadcasting)Radio-frequency identificationAntenna (radio)SIGNAL (programming language)Identification (biology)Protocol (science)Real-time computingAlgorithmArtificial intelligenceWirelessTelecommunicationsBiologyPathologyMedicineAlternative medicineProgramming languageComputer securityBotanyRFID technology advancementsFull-Duplex Wireless CommunicationsEnergy Harvesting in Wireless Networks
ML-Aided Collision Recovery for UHF-RFID Systems | Litcius