References
Guardo, R., Boulay, C., Provost, B., Bohsina, D., andMallette, S. (1994): ‘Microcontroller based active electrodes for impedance tomography’. Proc. 16th IEEE/EMBS Conf., Baltimore, Maryland, pp. 545–546
Holder, D. S. (1995): ‘Design and electrical characteristics of an electrode array for electrical impedance tomography of the female breast’,Innov. Technol. Biol. Med.,16, special issue 2, pp. 143–150
Jossinet, J. (1988): ‘A hardware design for imaging the electrical impedance of the breast’,Clin. Phys. Physiol. Meas.,9, suppl. A, pp. 25–28
Jossinet, J., Toutel, C., andJarry, R. (1994): ‘Active current electrodes forin vivo electrical impedance tomography’,Physiol. Meas.,15, pp. A83-A90
McAdams, E. T., McLaughlin, J., Brown, B. H., andMcardle, F. (1993): ‘The NIBEC EIT electrode harness’in Holder, D. (Ed.): ‘Clinical and physiological application of electrical impedance tomography’ (UCL Press, London) pp. 85–92
McAdams, E. T., McLaughlin, J. A., andAnderson, J. McC. (1994): ‘Multi-electrode system for impedance tomography’,Physiol. Meas.,15, pp. 101–106
Record, P. M., Rossel, X., Rigaud, B., andCostai Riu, P. J. (1994): ‘Bio-impedance active electrode for in vivo measurement’,Med. Biol. Eng. Comput.,32, pp. 683–685
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Li, J.H., Joppek, C. & Faust, U. In vivo EIT electrode system with 32 interlaced active electrodes. Med. Biol. Eng. Comput. 34, 253–256 (1996). https://doi.org/10.1007/BF02520083
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DOI: https://doi.org/10.1007/BF02520083