Location

La Jolla, CA

Start Date

1-1-1983 12:00 AM

Description

Ultrasonic imaging is of use in a number of important areas, including nondestructive testing and medicine. The field has grown considerably in the past ten years and remains an active and growing area of research. For nondestructive evaluation of materials (NDE), the aim is to provide means for obtaining estimates of the size, shape and orientation of flaws in sufficiently a quantitative manner so that failure of mechanical structural parts can be predicted.1,2 As an imaging technique, ultrasonic imaging is appropriate whenever the medium considered is opaque to other sources of radiation, such as optical radiation. It is versatile and convenient and may be used in both the transmission and reflection, active and passive modes. The technique is also versatile in another important sense. Use of (nearly) spatial coherent radiation sources and of linear detectors results in the availability of a wide variety of digital signal processing procedures for enhancing signals, improving lateral resolution, range gating and so on.

Book Title

Review of Progress in Quantitative Nondestructive Evaluation

Volume

2B

Chapter

Section 23: Acoustic Imaging

Pages

1625-1641

DOI

10.1007/978-1-4613-3706-5_108

Language

en

File Format

application/pdf

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Jan 1st, 12:00 AM

High Resolution Arma Model Reconstruction for NDE Ultrasonic Imaging

La Jolla, CA

Ultrasonic imaging is of use in a number of important areas, including nondestructive testing and medicine. The field has grown considerably in the past ten years and remains an active and growing area of research. For nondestructive evaluation of materials (NDE), the aim is to provide means for obtaining estimates of the size, shape and orientation of flaws in sufficiently a quantitative manner so that failure of mechanical structural parts can be predicted.1,2 As an imaging technique, ultrasonic imaging is appropriate whenever the medium considered is opaque to other sources of radiation, such as optical radiation. It is versatile and convenient and may be used in both the transmission and reflection, active and passive modes. The technique is also versatile in another important sense. Use of (nearly) spatial coherent radiation sources and of linear detectors results in the availability of a wide variety of digital signal processing procedures for enhancing signals, improving lateral resolution, range gating and so on.