Fourier Meets Gardner : Robust Blind Waveform Characterization
Planning to Explore via Self-Supervised World Models
Fourier Meets Gardner : Robust Blind Waveform Characterization

Radhika Mathuria
rmathuria@ucsd.edu
Srivatsan Rajagopal
srajagopal@ucsd.edu
Dinesh Bharadia
dineshb@ucsd.edu
IEEE DySPAN 2024


Abstract
Waveform Characterization is crucial for various spectrum sensing applications such as anomaly detection and measuring spectrum utilization. It consists of detecting the waveform type (single carrier or spread spectrum), modulation form (QAM, PSK, FSK, GMSK, GFSK etc ̇) and corresponding parameters such as symbol rate and chip rate. In this paper, we propose a blind characterization algorithm suited for these applications using second-order cyclostationary and fourier domain features of signals. To test the proposed method’s robustness, a comprehensive evaluation is conducted using both simulated and over-the-air (OTA) experiments with appropriate signal detection pre-processing steps. An overall modulation classification accuracy of 86.25% is attained for OTA testing with a modulation set consisting of QAM, PSK, FSK, GFSK, MSK, GMSK, DSSS and OOK.



Citation and Bibtex

 
Mathuria, R., Rajagopal, S., & Bharadia, D. (2024). Fourier Meets Gardner: Robust Blind Waveform Characterization. In IEEE International Symposium on Dynamic Spectrum Access Networks (IEEE DySPAN 24).

[Bibtex]


Website Template Originally made by Phillip Isola and Richard Zhang for colorful ECCV project; the code can be found here.