Transient processes and noise in a tomography system: An analytical case study

Alejandro Gonzalez-Nakazawa; Jose Carlos Gamio; Wuqiang Yang

doi:10.1109/JSEN.2004.842623

Transient processes and noise in a tomography system: An analytical case study

Alejandro Gonzalez-Nakazawa, Jose Carlos Gamio, Wuqiang Yang

Research output: Contribution to journal › Article › peer-review

Abstract

This paper presents an analysis and optimization of an ac-based electric capacitance tomography system. The existing system can capture image data up to 250 frames/s. However, even higher acquisition rates, say 2000 frames/s are desirable for some applications. To optimize the system design, a transient process analysis is performed for every analog stage to determine the settling time and an approach is suggested to minimize it. Noise analysis is also performed to ensure that the signal-to-noise ratio of the system does not degrade. In both cases, results are validated by simulation using PSpice and/or by experiment, showing that the settling time of the overall system could be reduced from 4.4 to 1 ms, offering a faster data acquisition rate of 1000 frames/s. © 2005 IEEE.

Original language	English
Pages (from-to)	321-329
Number of pages	8
Journal	IEEE Sensors Journal
Volume	5
Issue number	2
DOIs	https://doi.org/10.1109/JSEN.2004.842623
Publication status	Published - Apr 2005

Keywords

Capacitance tomography
Circuit analysis
Noise analysis
Optimization
Transient process analysis

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10.1109/JSEN.2004.842623

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title = "Transient processes and noise in a tomography system: An analytical case study",

abstract = "This paper presents an analysis and optimization of an ac-based electric capacitance tomography system. The existing system can capture image data up to 250 frames/s. However, even higher acquisition rates, say 2000 frames/s are desirable for some applications. To optimize the system design, a transient process analysis is performed for every analog stage to determine the settling time and an approach is suggested to minimize it. Noise analysis is also performed to ensure that the signal-to-noise ratio of the system does not degrade. In both cases, results are validated by simulation using PSpice and/or by experiment, showing that the settling time of the overall system could be reduced from 4.4 to 1 ms, offering a faster data acquisition rate of 1000 frames/s. {\textcopyright} 2005 IEEE.",

keywords = "Capacitance tomography, Circuit analysis, Noise analysis, Optimization, Transient process analysis",

author = "Alejandro Gonzalez-Nakazawa and Gamio, \{Jose Carlos\} and Wuqiang Yang",

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AU - Gamio, Jose Carlos

AU - Yang, Wuqiang

PY - 2005/4

Y1 - 2005/4

N2 - This paper presents an analysis and optimization of an ac-based electric capacitance tomography system. The existing system can capture image data up to 250 frames/s. However, even higher acquisition rates, say 2000 frames/s are desirable for some applications. To optimize the system design, a transient process analysis is performed for every analog stage to determine the settling time and an approach is suggested to minimize it. Noise analysis is also performed to ensure that the signal-to-noise ratio of the system does not degrade. In both cases, results are validated by simulation using PSpice and/or by experiment, showing that the settling time of the overall system could be reduced from 4.4 to 1 ms, offering a faster data acquisition rate of 1000 frames/s. © 2005 IEEE.

AB - This paper presents an analysis and optimization of an ac-based electric capacitance tomography system. The existing system can capture image data up to 250 frames/s. However, even higher acquisition rates, say 2000 frames/s are desirable for some applications. To optimize the system design, a transient process analysis is performed for every analog stage to determine the settling time and an approach is suggested to minimize it. Noise analysis is also performed to ensure that the signal-to-noise ratio of the system does not degrade. In both cases, results are validated by simulation using PSpice and/or by experiment, showing that the settling time of the overall system could be reduced from 4.4 to 1 ms, offering a faster data acquisition rate of 1000 frames/s. © 2005 IEEE.

KW - Capacitance tomography

KW - Circuit analysis

KW - Noise analysis

KW - Optimization

KW - Transient process analysis

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DO - 10.1109/JSEN.2004.842623

M3 - Article

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VL - 5

SP - 321

EP - 329

JO - IEEE Sensors Journal

JF - IEEE Sensors Journal

IS - 2

ER -

Transient processes and noise in a tomography system: An analytical case study

Abstract

Keywords

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