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3. Budinger, T.F., PET instrumentation, in The Biomedical Engineering Handbook, J.D. Bronzino, ed., CRC Press, Boca Raton, Fla., 1995, 1140-1150. 4. Casey, M.E., and Nutt, R., A multicrystal two-dimensional BGO detector system for positron emission tomography, IEEE Trans. Nucl. Sci. 33 (1986), 460-463. 5. Grootoonk, S., Spinks, T.J., Kennedy, A.M., Bloomfield, P.M., Sashin, D., and Jones, T., The practical implementation and accuracy of dual window scatter correction in a neuro-PET scanner with the septa retracted, IEEE Conf. Med. Imaging 2 (1992), 942-944. 6. Kinahan, P.E., Rogers, J.G., Harrop, R., and Johnson, R.R., Threedimensional image reconstruction in object space, IEEE Trans. Nucl. Sci. 35 (1988), 635-638. 7. Kiibler, W., Ostertag, H., Hoverath, H., Doll, J., Ziegler, S., and Lorenz, W., Scatter suppression by using a rotating pin source in PET transmission measurements, IEEE Trans. Nucl. Sci. 35 (1988), 749752. 8. Ollinger, J.M., and Johns, G.C., Model-based scatter correction in three dimensions, IEEE Conf. Med. Imaging 2 (1992), 1249-1252. 9. Ter-Pogossian, M.M., Phelps, M.E., Hoffman, E.J., and Mullani, N.A., A positron-emission transaxial tomograph for nuclear imaging (PETT), Radiology 114 (1975), 89-98. 10. Townsend, D.W., and Defrise, M., Image reconstruction methods in positron tomography, Lectures Given in the Academic Training Program of CERN, Report No. 93-02, CERN, Geneva, 1993.
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