Network and Information Technologies

Contributions to the Development of Active RFID Systems at the 433 MHz Band

Doctoral Programme in Network and Information Technologies
10/04/2015

Author: Pere Tuset Peiró
Programme: Doctoral Programme in Network and Information Technologies
Language: English
Supervisor: Dr Xavier Vilajosana
Faculty / Institute: Doctoral School UOC
Subjects: Computer Science
Key words: radio frequency identification, medium access control protocols, wireless communications, electronic technology, telecommunications, radiocommunication
Area of knowledge: Network and Information Technologies

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Summary

Given the potential of active RFID technology, this thesis contributes to its development by focusing on the lowest layers of the stack, that is, the physical and data-link layers. These layers determine the tag communication range, packet throughput and energy consumption, which are key performance parameters. At the physical layer, the thesis studies propagation aspects of the 433 MHz band in different environments and compares it to the 2.4 GHz band, which is also used in active RFID systems. The results demonstrate that active RFID systems operating at the 433 MHz band can achieve a better communication range at the same transmit power due to better propagation characteristics. At the data-link layer, the thesis proposes LPDQ (Low-Power Distributed Queuing), a new MAC (media access control) protocol, and compares it to FSA (Frame Slotted ALOHA). LPDQ combines LPL (Low-Power Listening) for network synchronization and DQ (Distributed Queuing) for data transmission. Compared to the optimal FSA case, LPDQ can achieve a performance close to the theoretical maximum (99.5%), regardless of the number of tags, and reduces tag energy consumption by more than 10%.