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Wave Parameters01:10

Wave Parameters

7.6K
The simplest mechanical waves are associated with simple harmonic motion and repeat themselves for several cycles. These simple harmonic waves can be modeled using a combination of sine and cosine functions. Consider a simplified surface water wave that moves across the water's surface. Unlike complex ocean waves, in surface water waves, water moves vertically, oscillating up and down, whereas the disturbance of the wave moves horizontally through the medium. If a seagull is floating on the...
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Propagation of Waves01:07

Propagation of Waves

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When a wave propagates from one medium to another, part of it may get reflected in the first medium, and part of it may get transmitted to the second medium. In such a case, the interface of the two mediums can be considered as a boundary that is neither fixed nor free.
Consider a scenario where a wave propagates from a string of low linear mass density to a string of high linear mass density. In such a case, the reflected wave is out of phase with respect to the incident wave, however the...
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Interference and Superposition of Waves01:07

Interference and Superposition of Waves

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When two waves of the same nature occur in the same region simultaneously, they result in interference. Interference of waves implies that the net effect of the waves is the sum of the individual waves' effects. However, it does not imply that the individual waves affect the propagation of other waves.
Interference occurs in mechanical waves, such as sound waves, waves on a string, and surface water waves. Mechanical waves correspond to the physical displacement of particles. Hence,...
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Effective Value of a Periodic Waveform01:07

Effective Value of a Periodic Waveform

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The concept of effective value, the root mean square (RMS) value, is crucial in understanding electrical circuits and power delivery. This idea emerges from the necessity to measure the effectiveness of a voltage or current source in supplying power to a resistive load.
The effective value of a periodic current represents the direct current (DC) that conveys the same average power to a resistor as the periodic current itself. This concept is crucial when assessing AC circuits. To determine the...
482
Equations of Wave Motion01:02

Equations of Wave Motion

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Mathematically, the motion of a wave can be studied using a wavefunction. Consider a string oscillating up and down in simple harmonic motion, having a period T. The wave on the string is sinusoidal and is translated in the positive x-direction as time progresses. Sine is a function of the angle θ, oscillating between +A and −A and repeating every 2π radians. To construct a wave model, the ratio of the angle θ and the position x is considered.
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Sound as Pressure Waves01:17

Sound as Pressure Waves

2.4K
Sound waves, which are longitudinal waves, can be modeled as the displacement amplitude varying as a function of the spatial and temporal coordinates. As a column of the medium is displaced, its successive columns are also displaced. As the successive displacements differ relatively, a pressure difference with the surrounding pressure is created. The gauge pressure varies across the medium.
The pressure fluctuation depends on the difference in displacements between the successive points in the...
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Related Experiment Video

Updated: May 29, 2025

Cortical Bone Assessment Using Ultrasonic Guided Waves: A Reproducibility Study in a Healthy Population
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Cortical Bone Assessment Using Ultrasonic Guided Waves: A Reproducibility Study in a Healthy Population

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Plane wave compounding with adaptive joint coherence factor weighting.

Nikunj Khetan1, Jerome Mertz2

  • 1Boston University Mechanical Engineering, 110 Cummington Mall, Boston, 02215, MA, USA.

Ultrasonics
|February 2, 2025
PubMed
Summary

This study introduces Joint Coherence Factor (JCF) weighting to improve ultrasound imaging quality. By evaluating each signal

Keywords:
Angular coherenceCoherent plane wave compoundingSpatial coherenceSpeckle suppression

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Area of Science:

  • Ultrasound physics and medical imaging.
  • Acoustic signal processing.
  • Biomedical engineering.

Background:

  • Coherent Plane Wave Compounding (CPWC) is a standard ultrasound imaging technique.
  • Existing methods assess CPWC beamforming quality globally across apertures.
  • There is a need for more granular quality assessment in CPWC.

Purpose of the Study:

  • To introduce a novel, fine-grained approach for evaluating ultrasound beamforming quality.
  • To enhance Coherent Plane Wave Compounding (CPWC) image quality using a new metric.
  • To standardize image display for better comparison of different beamforming techniques.

Main Methods:

  • Developed a quality metric based on joint spatio-angular coherence for individual transmit/receive signal pairs.
  • Proposed Joint Coherence Factor (JCF) weighting for signals before coherent summation.
  • Implemented image display standardization using contrast matching for comparative analysis.

Main Results:

  • Demonstrated improved ultrasound image quality using fine-grained JCF weighting.
  • Showcased results from tissue-mimicking phantoms and human soft-tissue imaging.
  • JCF weighting outperformed alternative CPWC beamforming quality assessment methods.

Conclusions:

  • Fine-grained Joint Coherence Factor (JCF) weighting significantly enhances CPWC ultrasound image quality.
  • The proposed JCF method offers a more detailed approach to beamforming quality assessment.
  • Image standardization aids in the objective comparison of ultrasound imaging techniques.