Title :
Link-level simulation for far field UHF RFID with off-line channel coding
Author :
Younes, Amr M. ; Hassan, Karim ; ElMahgoub, Khaled
Author_Institution :
Fac. of Inf. Eng. & Technol., German Univ. in Cairo (GUC), Cairo, Egypt
Abstract :
In this paper, we develop a link-level simulation for a complete radio frequency identification system (RFID). The system is supposed to work at a maximum theoretically distance of 18 m.We simulate two line-coding technique highly used in RFID: FM0 and Miller (MMS) coding. These two codes are implemented to encode the transmitted messages at the tag. Additionally, we save the data at the tag as pre-encoded bits using convolutional channel encoder with different code-rates, e.g., 1/2 and 1/3. Intuitively, our results using FM0 and MMS at the tag show that when M increases (for MMS), the detection improves; however, the data rate decreases. Moreover, the results for channel precoded cases promise for a larger Reader-Tag separation reaching 18 m. Even for extreme environments, assuming Rayleigh Fading channel, the frame-error ratio is promising.
Keywords :
Rayleigh channels; channel coding; convolutional codes; error statistics; precoding; radiofrequency identification; FM0 coding; MMS coding; Miller coding; Rayleigh fading channel; channel precoded cases; code-rates; convolutional channel encoder; far field UHF RFID; frame-error ratio; link-level simulation; offline channel coding; radiofrequency identification system; reader-tag separation; Backscatter; Band-pass filters; Channel coding; Convolutional codes; Decoding; Radiofrequency identification; Backscaterring; Channel Coding; FM0; MMS; PIE; Passive RFID; Reader; Short range communication; Tag;
Conference_Titel :
Electronics, Communications and Computers (JEC-ECC), 2013 Japan-Egypt International Conference on
Conference_Location :
6th of October City
DOI :
10.1109/JEC-ECC.2013.6766376
