Modulation techniques for RFID transceiver using software defined radio

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2 Citations (Scopus)

Abstract

This paper presents the fundamental concept on the development of a SDR-based RFID simulation model under various modulation techniques. The model efficiently evaluates the performance of multi-array PSK, high data rate QAM and PSAM schemes. The performance of these modulation techniques is evaluated when the system is subjected to a number of users as well as to noise and interference in the channel. AWGN and multipath Rayleigh fading are considered in the channel. The system is analyzed using bit error rate (BER) and signal noise ratio (SNR) for aforesaid modulation techniques and different roll-off factor. The simulation results show a possible solution for future software defined radio in various wireless communication systems. The degradation was also verified with a larger roll-off factor. Additionally, experimental results showed that the PSAM transceiver achieved a high level of data transmission accurately. Two case studies have been conducted to prove the proposed SDR influence on data and image transmission for improving BER performance and image constellation. Finally, a comparison has been made between the proposed and existing SDR systems to analyze and demonstrate the effectiveness of the SDR performance.

Original languageEnglish
Pages (from-to)6667-6692
Number of pages26
JournalInternational Journal of Innovative Computing, Information and Control
Volume8
Issue number10 A
Publication statusPublished - Oct 2012

Fingerprint

Radio Frequency Identification
Transceivers
Radio frequency identification (RFID)
Modulation
Bit error rate
Data communication systems
Software
Data Transmission
Error Rate
Image communication systems
Phase shift keying
Quadrature amplitude modulation
Rayleigh fading
Image Transmission
Rayleigh Fading
Communication systems
Multipath
Wireless Communication
Communication Systems
Degradation

Keywords

  • Bit-error-ratio
  • PSAM
  • PSK
  • QAM
  • RFID
  • Signal-noise-radio
  • Software defined radio

ASJC Scopus subject areas

  • Computational Theory and Mathematics
  • Information Systems
  • Software
  • Theoretical Computer Science

Cite this

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title = "Modulation techniques for RFID transceiver using software defined radio",
abstract = "This paper presents the fundamental concept on the development of a SDR-based RFID simulation model under various modulation techniques. The model efficiently evaluates the performance of multi-array PSK, high data rate QAM and PSAM schemes. The performance of these modulation techniques is evaluated when the system is subjected to a number of users as well as to noise and interference in the channel. AWGN and multipath Rayleigh fading are considered in the channel. The system is analyzed using bit error rate (BER) and signal noise ratio (SNR) for aforesaid modulation techniques and different roll-off factor. The simulation results show a possible solution for future software defined radio in various wireless communication systems. The degradation was also verified with a larger roll-off factor. Additionally, experimental results showed that the PSAM transceiver achieved a high level of data transmission accurately. Two case studies have been conducted to prove the proposed SDR influence on data and image transmission for improving BER performance and image constellation. Finally, a comparison has been made between the proposed and existing SDR systems to analyze and demonstrate the effectiveness of the SDR performance.",
keywords = "Bit-error-ratio, PSAM, PSK, QAM, RFID, Signal-noise-radio, Software defined radio",
author = "{M A}, Hannan and Islam, {Mohammad Tariqul} and {Abdul Samad}, Salina and Aini Hussain",
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AU - Islam, Mohammad Tariqul

AU - Abdul Samad, Salina

AU - Hussain, Aini

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N2 - This paper presents the fundamental concept on the development of a SDR-based RFID simulation model under various modulation techniques. The model efficiently evaluates the performance of multi-array PSK, high data rate QAM and PSAM schemes. The performance of these modulation techniques is evaluated when the system is subjected to a number of users as well as to noise and interference in the channel. AWGN and multipath Rayleigh fading are considered in the channel. The system is analyzed using bit error rate (BER) and signal noise ratio (SNR) for aforesaid modulation techniques and different roll-off factor. The simulation results show a possible solution for future software defined radio in various wireless communication systems. The degradation was also verified with a larger roll-off factor. Additionally, experimental results showed that the PSAM transceiver achieved a high level of data transmission accurately. Two case studies have been conducted to prove the proposed SDR influence on data and image transmission for improving BER performance and image constellation. Finally, a comparison has been made between the proposed and existing SDR systems to analyze and demonstrate the effectiveness of the SDR performance.

AB - This paper presents the fundamental concept on the development of a SDR-based RFID simulation model under various modulation techniques. The model efficiently evaluates the performance of multi-array PSK, high data rate QAM and PSAM schemes. The performance of these modulation techniques is evaluated when the system is subjected to a number of users as well as to noise and interference in the channel. AWGN and multipath Rayleigh fading are considered in the channel. The system is analyzed using bit error rate (BER) and signal noise ratio (SNR) for aforesaid modulation techniques and different roll-off factor. The simulation results show a possible solution for future software defined radio in various wireless communication systems. The degradation was also verified with a larger roll-off factor. Additionally, experimental results showed that the PSAM transceiver achieved a high level of data transmission accurately. Two case studies have been conducted to prove the proposed SDR influence on data and image transmission for improving BER performance and image constellation. Finally, a comparison has been made between the proposed and existing SDR systems to analyze and demonstrate the effectiveness of the SDR performance.

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