DESIGN AND IMPLEMENTATION OF TIME-FREQUENCY TRANSFORM TECHNIQUES

Fourier Transform (FT) is applicable only for periodic signals and it cannot give information simultaneously about spectral density components in terms of a time-frequency plane. Also, the Fourier transform provides information only in the frequency domain but not in the time domain. To overcome these disadvantages Time-Frequency Representations (TFR’S) have gained more importance in the analysis. Many TFR’S have been introduced earlier and are classified into two types i.e., Linear and Quadratic TFR’S. This design presents the analysis of seven transform methods as listed below. In this design, image type is considered with and without noise and performed time-frequency representation(TRF's). The design is developed using Verilog HDL with Matlab and simulated using Matlab and ModelSim software. The results are compared with various image and noise level.

  1. Short Time Fourier Transform

  2. Continues Wavelet Transform

  3. Stockwell Transform

  4. Wigner Ville Distribution

  5. Pseudo Wigner Ville Distribution

  6. Choi Williams Distribution

  7. Rihaczek distributions

Reference Paper-1: ANALYSIS OF NON STATIONARY SIGNALS BY STOCKWELL TRANSFORM

Author’s Name: M Srinivas, S. Raja Gopal, and G. L. P. Ashok

Source: IJERST

Year:2016

Reference Paper-2: Time-Frequency analysis of Non-Stationary signals by Differential frequency window S –Transform

Author’s Name: M Srinivas, S. Raja Gopal, and G. L. P. Ashok

Source: IJET

Year:2018

Request source code for academic purpose REQUEST FORM or contact +91 7904568456 by WhatsApp or info@verilogcourseteam.com, fee applicable.

SIMULATION VIDEO DEMO

FPGA IMPLEMENTAION VIDEO DEMO