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Accurate signal sampling and reconstruction are crucial in various signal-processing applications. A time-domain signal's spectrum can be revealed using its Fourier transform. When this signal is sampled at a specific frequency, it results in multiple scaled replicas of the original spectrum in the frequency domain. The spacing of these replicas is determined by the sampling frequency.
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Properties of Fourier Transform I01:21

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The application of Fourier Transform properties in radio broadcasting is multifaceted, enabling significant advancements in the way signals are transmitted and received. Key areas where these properties are utilized include simultaneous multi-channel transmission, audio clip speed adjustments, live broadcast delays for different time zones, audio frequency adjustments, and signal demodulation.
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In signal processing, bandpass sampling is an effective technique for sampling signals that have most of their energy concentrated within a narrow frequency band. This type of signal is known as a bandpass signal. The key principle of bandpass sampling involves sampling the signal at a rate that is greater than twice the signal's bandwidth to prevent aliasing.
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Properties of Fourier Transform II01:24

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The Fourier Transform (FT) is an essential mathematical tool in signal processing, transforming a time-domain signal into its frequency-domain representation. This transformation elucidates the relationship between time and frequency domains through several properties, each revealing unique aspects of signal behavior.
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Linear Approximation in Frequency Domain01:26

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Linear systems are characterized by two main properties: superposition and homogeneity. Superposition allows the response to multiple inputs to be the sum of the responses to each individual input. Homogeneity ensures that scaling an input by a scalar results in the response being scaled by the same scalar.
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Signal processing techniques are essential for accurately converting continuous signals to digital formats and vice versa. When a continuous signal is sampled with a period T, the resulting sampled signal exhibits replicas of the original spectrum in the frequency domain, spaced at intervals equal to the sampling frequency. To handle this sampled signal, a zero-order hold method can be applied, which creates a piecewise constant signal by retaining each sample's value until the next...
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Related Experiment Video

Updated: Nov 16, 2025

Shaping the Amplitude and Phase of Laser Beams by Using a Phase-only Spatial Light Modulator
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The spectrogram, method of reassignment, and frequency-domain beamforming.

Gil Averbuch1

  • 1Roy M. Huffington Department of Earth Sciences, Southern Methodist University, Dallas, Texas 75205, USA.

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|February 28, 2021
PubMed
Summary
This summary is machine-generated.

The reassigned spectrogram (RS) corrects artifacts in the short-time Fourier transform (STFT), improving phase information. This enhances accuracy in signal processing techniques like beamforming and cross-correlation for better time-delay estimation.

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Area of Science:

  • Signal Processing
  • Acoustics
  • Geophysics

Background:

  • The short-time Fourier transform (STFT) suffers from smeared energy and imprecise phase information due to smoothing kernels.
  • This phase inaccuracy negatively impacts advanced signal processing methods like frequency-domain beamforming and cross-correlation (CC).

Purpose of the Study:

  • To reintroduce and evaluate the reassigned spectrogram (RS) as a method to correct STFT artifacts.
  • To demonstrate the improvement of phase shift optimization using RS in beamforming and CC.

Main Methods:

  • Utilized synthetic and recorded data for analysis.
  • Applied the reassigned spectrogram (RS) to time-frequency analysis, CC, and beamforming.
  • Conducted array analysis of infrasonic signals.

Main Results:

  • The RS provides an exact time-frequency representation for deterministic signals under specific constraints.
  • RS significantly improves results for cross-correlation (CC) and beamforming.
  • Optimal analysis method (RS or STFT) for infrasonic signals depends on spectral components and noise levels.

Conclusions:

  • The reassigned spectrogram (RS) effectively addresses STFT limitations, enhancing phase information accuracy.
  • RS offers a valuable tool for improving time-delay estimation in various signal processing applications.
  • The choice between RS and STFT depends on signal characteristics and noise conditions for optimal performance.