Emitting Devices Identification Based on Variational Mode Decomposition of Captured Bluetooth Signals

المؤلفون

  • Alghannai Aghnaiya College of Electronic Technology, Bani Walid, Libya Author
  • Saleh Abofana University Bani Walid, Libya Author
  • Ismael Salem College of Electronic Technology, Bani Walid, Libya Author

الكلمات المفتاحية:

Variational mode decomposition، Bluetooth signals، specific emitter identification، feature extraction، signal classification

الملخص

Recently, the use of communication systems is increased therefore the security networks has become more important. Radio frequency fingerprinting (RFF) is one of the communication networks security techniques based on identification of the unique features of the RF transient signals. Transient signal detection is a very important part in the classification system. If a transient signal is not detected precisely, then the features extracted from the received signal will not show the correct unique features of the transmitting devices. For this purpose, variational mode decomposition is applied to the recorded Bluetooth (BT) signal before the transient detection process. In this paper, VMD is applied before transient detection as denoysing method in RF fingerprinting of Bluetooth device identification to increase the accuracy of transient detection and the classification rate. The method has three stages: Firstly, VMD is used to decompose the recorded BT signal into a series of band- limited modes. Then, the selected modes are added to reconstruct the original BT signal. Secondly, transient detection and different statistical features are extracted from the transients such as variance, kurtosis and skewness. Finally, a linear support vector machine (LSVM) classifier is used to identify 20 mobile phones under different SNR ranges. 20 mobile phones with 150 transients each were tested in this work. Results show that the proposed VMD identification method based on the decomposition of recorded signal outperforms the existing VMD method based on decomposition of transient signal for different ranges of SNR.

المراجع

[1] M. Köse, S. Taşcioğlu, and Z. Telatar, RF fingerprinting of IoT devices based on transient energy spectrum,‘‘ IEEE Access, vol. 7, pp. 18715–18726, 2019.

[2] A. M. Ali, E. Uzundurukan, and A. Kara, Assessment of features and classifiers for Bluetooth RF fingerprinting, IEEE Access, vol. 7, pp. 50524-50535, 2019.

[3] E. Uzundurukan, Y. Dalveren, and A. Kara, A Database for the Radio Frequency Fingerprinting of Bluetooth Devices,Data, vol. 5, no.55, pp. 1-11, June 2020.

[4] A. Aghnaiya, Y. Dalveren, and A. Kara, on the performance of variational mode decomposition-based radio frequency fingerprinting of Bluetooth devices,‘‘ Sensors, vol. 20, no. 6, p. 1704, Mar. 2020..

[5] R. M. Ferre, W. Wang, A. S. Abia, and E. S. Lohan, Identifying GNSS Signals Based on Their Radio Frequency (RF) Features A Dataset with GNSS Raw Signals Based on Roof Antennas and Spectracom Generator, Data, vol. 5, no.18, pp. 1-13, February 2020.

[6] K. Dragomiretskiy and D. Zosso, Variational mode decomposition, IEEE Transaction Signal Process, vol.62, no.3, pp. 531-534, 2014.

[7] S. A. Abufana, Y. Dalveren, A. Aghnaiya, and A. Kara, Variational Mode Decomposition-Based Threat Classification for Fiber Optic Distributed Acoustic Sensing, IEEE Access, vol. 8, pp. 100152- 100158, May.2020.

[8] A. Aghnaiya, A. M. Ali, and A. Kara, Variational mode decomposition-based radio frequency fingerprinting of Bluetooth devices,‘‘ IEEE Access, vol. 7, pp. 144054–144058, October 2019.

[9] I. S. Mohamed, Y. Dalveren, and A. Kara, Performance Assessment of Transient Signal Detection Methods and Superiority of Energy Criterion (EC) Method, IEEE Access, vol. 8, pp. 115613- 115620, June.2020.

[10] A. M. Ali, E. Uzundurukan, and A. Kara, Improvements on transient signal detection for RF fingerprinting, Signal Processing and Communications Applications Conference, Antalya, Turkey, pp. 1-4,2017.

التنزيلات

منشور

2020-12-01

كيفية الاقتباس

[1]
A. Aghnaiya, S. Abofana, و I. Salem, "Emitting Devices Identification Based on Variational Mode Decomposition of Captured Bluetooth Signals", JEEEIT, م 1, عدد 2, ص 1–5, ديسمبر 2020, تاريخ الوصول: 18 يوليو، 2026. [مباشر على الإنترنت]. موجود في: https://jeeeit.com/index.php/jeeeit/article/view/42

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