Status of electrical tomography in industrial applications

S. R. Deans,The Radon Transform and Some of Its Applications, Krieger (1983).

S. Webb,From the Watching of Shadows, Hilger, London (1990).

Mathematics and Physics of Emerging Biomedical Imaging, National Research Council, National Academy Press, Washington, D.C. (1996).

Meas. Sci. Technol. : Special Issue on Process Tomography 7(3), 308–315 (1996).

1st World Congress on Industrial Process Tomography, Buxton, UK (April 1999).

Proc. of 1st European Concerted Action on Process Tomography (ECAPT) Workshop, Manchester, UK (1992).

Proc. of 2nd European Concerted Action on Process Tomography Workshop, Karlsruhe, Germany (1993).

Proc. of 3rd European Concerted Action on Process Tomography Workshop, Oporto, Portugal (March 1994).

Proc. of 4th European Concerted Action on Process Tomography Workshop, Bergen, Norway (April 1995).

Frontiers in Industrial Process Tomography, D. M. Scott and R. A. Williams Eds., AIChE (1995).

Proceedings of Frontiers in Industrial Process Tomography II, Delft, Holland (April 1997).

Special issue of Chem. Eng. J.77(1–2) (2000).

Special issue of Meas. Control30, 7 (1997).

Beck, 1998, Trans. Inst. Meas. Control (London), 20, 163, 10.1177/014233129802000402

Xie, 1995, Chem. Eng. J., 56, 127

Boone, 1997, J. Med. Eng. Technol., 21, 201, 10.3109/03091909709070013

R. A. Williams and M. S. Beck,Process Tomography: Principals, Techniques and Applications, Butterworth Heinemann, London (1995).

Dickin, 1992, IEE Proc.-G: Circuits, Devices Syst., 139, 72, 10.1049/ip-g-2.1992.0013

B. S. Hoyle, X. Jia, F. W. Podd, H. S. Schlaberg, M. Wang, R. M. West, R. A. Williams, and T. A. York, “Multimodal process tomography system design,” inSPIE International Symposium on Intelligent Systems and Manufacturing, Boston(November 2000).

Record, 1994, Physiol. Meas, 15, A29, 10.1088/0967-3334/15/2A/004

M. Wang, “Impedance sensors—Conducting systems,” inProcess Tomography: Principals Techniques and Applications, R. A. Williams and M. S. Beck, Eds. Butterworth Heinemann, London (1995).

A. J. Wilson, P. Milnes, A. Waterworth, R. H. Smallwood, and B. H. Brown, “Mk3.5 a modular, multi-frequency successor to the Mk3a EIS/EIT,”2nd EPSRC Engineering Network Meeting on Biomedical Applications of EIT, University College London, April (2000).

Cook, 1994, IEEE Trans. Biomed. Eng., 41, 713, 10.1109/10.310086

Hartov, 2000, IEEE Trans. Biomed. Eng., 47, 49, 10.1109/10.817619

Yang, 1997, Meas. Sci. Technol., 7, 225, 10.1088/0957-0233/7/3/003

A. J. Peyton, A. R. Borges, J. de Oliveira, G. M. Lyon, Z. Z. Yu, M. W. Brown, and J. Ferreira, “Development of electromagnetic tomography (EMT) for industrial applications. Part 1: Sensor design and instrumentation,” in Ref. 5.

Beissner, 1999, Rev. Prog. Quant. Nondestr. Eval., 18, 469, 10.1007/978-1-4615-4791-4_59

Dyakowski, 2000, Chem. Eng. J., 77, 105, 10.1016/S1385-8947(99)00132-1

W. R. Breckon, “Measurement and reconstruction in EIT,” in G. Roach,Inverse Problems and Imaging, Research Notes in Mathematics, p. 245, Pitman, New York (1991).

C. G. Xie, B. S. Hoyle, and D. G. Hayes, “Parallel processing approach using transputers—Case studies,” in Ref. 21.

Smith, 1995, IEEE Trans. Biomed. Eng., 42, 133, 10.1109/10.341825

C. G. Xie, “Image reconstruction,” in Ref. 21.

Yorkey, 1987, IEEE Trans. Biomed. Eng., 34, 843, 10.1109/TBME.1987.326032

Yang, 1999, Meas. Sci. Technol., 10, 1065, 10.1088/0957-0233/10/11/315

Isaksen, 1994, Modelling, Identification and Control, 15, 9, 10.4173/mic.1994.1.2

R. M. West, X. Jia, and R. A. Williams, “Parametric modelling in industrial process tomography,” in Ref. 5, pp. 444–450.

T. D. Sun, R. Mudde, J. C. Schouten, B. Scarlett, and C. M. Van den Bleek, “Image reconstruction of an electrical capacitance tomography system using an artificial neural network,” in Ref. 5, pp. 174–180.

A. Korjenevsky and S. Sapetsky, “Methods of measurements and image reconstruction in magnetic induction tomography,” in Ref. 22.

Nooralahiyan, 1994, IEE Proc.-G: Circuits, Devices Syst., 141, 517

Williams, 1999, IEE Proc. E: Comput. Digit. Tech., 146, 114

W. R. B. Lionheart, S. R. Arridge, M. Schweiger, M. Vauhkonen, and J. P. Kaipio, “Electrical impedance and diffuse optical tomography reconstruction software,” in Ref. 5, pp. 474–477.

H. McCann, W. Q. Yang, and N. P. Polydorides, “Information retrieval by electrical capacitance tomography: Evaluation of an alternative algorithm and the importance of boundary conditions,” in Ref. 5, pp. 206–210.

Mann et al., in this issue.

R. Thorn, G. A. Johansen, and E. A. Hammer, “Three-phase flow measurement in the off shore oil Industry—Is there a place for process tomography,” in Ref. 5, pp. 228–235.

A. Plaskowski, M. S. Beck, R. Thorn, and T. Dyakowski,Imaging Industrial Flows, IOP (1995).

A. Arko, R. C. Waterfall, M. S. Beck, T. Dyakowski, P. Sutcliffe, and M. Byars, “Development of electrical capacitance tomography for solids mass flow measurement and control of pneumatic conveying systems,” in Ref. 5, pp. 140–146.

M. A. Bennett, S. P. Luke, X. Jia, R. M. West, and R. A. Williams, “Analysis and flow regime identification of bubble column dynamics,” in Ref. 5, pp. 54–61.

Johansen, 1996, Meas. Sci. Technol., 7, 297, 10.1088/0957-0233/7/3/010

W. W. Loh, R. C. Waterfall, J. Cory, and G. P. Lucas, “Using ERT for multi-phase flow monitoring,” in Ref. 5, pp. 47–53.

Vlaev, 2000, Chem. Eng. J., 77, 87, 10.1016/S1385-8947(99)00142-4

E. Yuen, D. Vlaev, R. Mann, T. Dyakowski, B. Grieve, and T. A. York, “Applying electrical resistance tomography (ERT) to solid-fluid filtration processes,” inWorld Filtration Congress 8, The Brighton Centre, Brighton, England (April 2000).

Peyton et al., in this issue.

J. Bond, J. C. Cullivan, N. Climpson, I. Faulkes, X. Jia, J. A. Kostuch, D. Payton, M. Wang, S. J. Wang, R. M. West, and R. A. Williams, “Industrial monitoring of hydrocyclone operation using electrical resistance tomography,” in Ref. 5, pp. 102–107.

R. C. Waterfall, R. He, P. Wolanski, and Z. Gut, “Monitoring flame position and stability in combustion cans using ECT,” in Ref. 5, pp. 35–38.

T. Piotrowski, A. Plaskowski, M. S. Beck, and M. Byars, “Dynamic combustion tomography,” in Ref. 5, pp. 167–172.

R. A. Williams and T. A. York, “Microtomographic sensors for microfactories,”International Conference on Process Innovation and Intensification, G-Mex Centre, Manchester, England (October 1998).

J. Jordana, M. Gasulla, and R. Pallás-Areny, “Leakage detection in buried pipes by electrical resistance imaging,” in Ref. 5, pp. 28–34.

W. K. Harteveldt, P. A. van Halderen, R. F. Mudde, C. M. van den Bleek, H. E. A. van den Akker, and B. Scarlett, “A fast active differentiator capacitance transducer for electrical capacitance tomography,” in Ref. 5, pp. 571–574.

J. Yang, W. Wang, J. Wheeler, M. Tang, D. Chauhan, and B. Bramer, “The design of data acquisition measurement system for detection of breast abnormalities,” in Ref. 22.

K. Primrose and C. Qiu, “Performance and application studies of an electrical resistance tomography system,” in Ref. 5, pp. 133–139.

Savolainen, 1996, Rev. Sci. Instrum., 67, 3605, 10.1063/1.1147066

R. Deloughry, M. Young, E. Pickup, and L. Barratt, “Development of a variable density flowmeter for an industrial application,” in Ref. 5, pp. 236–243.

Fasching, 1991, Rev. Sci. Instrum., 62, 2243, 10.1063/1.1142343

Zhu, 1994, Physiol. Meas., 15, A37, 10.1088/0967-3334/15/2A/005

Korjenevsky, 2000, Physiol. Meas., 21, 89, 10.1088/0967-3334/21/1/311

Koukorlis, 1995, IEEE Trans. Biomed. Eng., 42, 632, 10.1109/10.387203

D. M. Scott and O. W. Gutsche, “ECT studies of bead fluidization in vertical mills,” in Ref. 5, pp. 90–95.

W. Daily and A. Ramirez, “The role of electrical resistance tomography in the U.S. nuclear waste site characterization program,” in Ref. 5, pp. 2–5.

A. Binley, W. Daily, and A. Ramirez, “Detecting leaks from waste storage ponds using electrical tomographic methods,” in Ref. 5, pp. 6–13.

M. Gasulla, J. Jordana, and R. Pallás-Areny, “2D and 3D subsurface resistivity imaging using a constrained least-squares algorithm,” in Ref. 5, pp. 20–27.

R. B. White and A. Zakhari, “Internal structures in fluid beds of different scales: An application of electrical capacitance tomography,” in Ref. 5, pp. 39–46.

Ostrowski, 2000, Chem. Eng. J., 77, 43, 10.1016/S1385-8947(99)00140-0

J. J. Cilliers, M. Wang, and S. J. Neethling, “Measuring flowing foam density distributions using ERT,” in Ref. 5, pp. 108–112.

Wang, 2000, Chem. Eng. J., 77, 51, 10.1016/S1385-8947(99)00144-8

Williams, 2000, Chem. Eng. J., 77, 57, 10.1016/S1385-8947(99)00146-1

M. Wang, S. Johnstone, W. J. N. Pritchard, and T. A. York, “Modelling and mapping electrical resistance changes due to hearth erosion in a ‘cold’ model of a blast Furnace,” in Ref. 5, pp. 161–166.

K. Tomkiewicz, A. Plaskowski, M. S. Beck, and M. Byars, “Testing of the failure of solid rocket propellant with tomography methods,” in Ref. 5, pp. 249–255.

M. H. Pham, Y. Hua, and N. B. Gray, “Eddy current tomography for metal solidification imaging,” in Ref. 5, pp. 451–458.