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Scatter and veiling glare estimation based on sampled primary intensity
1.C. G. Shaw, D. L. Ergun, F. D. Myerowitz, M. S. Van Lysel, C. A. Mistretta, W. C. Zarnstorff, and A. B. Crummy, “A technique of scatter and glare correction for videodensitometric studies in digital subtraction videoangiography,” Radiology 142, 209–213 (1982).
2.O. Nacioglu, W. W. Roeck, J. A. Seibert, A. V. Lando, J. M. Tobis, and W. L Henry, “Quantitative aspects of II-TV based digital x-ray imaging,” in Digital Radiography: Selected Topics, edited by J. G. Kerriakes, S. R. Thomas, and C. G. Orton (Plenum, New York, 1986), pp. 83–132.
3.C. G. Shaw and D. B. Plewes, “Effects of scattered radiation and veiling glare in dual-energy tissue-bone imaging: A theoretical analysis,” Med. Phys. 14, 956–967 (1987).
4.S. Y. Molloi and C. A. Mistretta, “Quantification techniques for dual-energy cardiac imaging,” Med. Phys. 16, 209–217 (1989).
5.S. Y. Molloi, D. M. Weber, W. W. Peppler, J. D. Folts, and C. A. Mistretta, “Quantitative dual-energy coronary arteriography,” Invest. Radiol. 25, 908–914 (1990).
6.S. Y. Molloi, A. Ersahin, W. W. Roeck, and O. Nacioglu, “Absolute cross-sectional area measurements in quantitative coronary arteriography by dual-energy DSA,” Invest. Radiol. 26, 119–127 (1991).
7.S. Y. Molloi, Y. J. Qian, A. Ersahin, “Absolute volumetric blood flow measurements using dual-energy digital subtraction angiography,” Med. Phys. 20, 85–91 (1993).
8.N. J. Hangiandreou, J. D. Folts, W. W. Peppler, and C. A. Mistretta, “Coronary blood flow measurement using an angiographics first pass distribution technique: A feasibility study,” Med. Phys. 18, 947–954 (1991).
9.R. A. Kruger, J. A. Sorenson, and L. T. Niklason, “Effectiveness of antiscatter grids in digital subtraction angiography,” Invest. Radiol. 18, 293–297 (1983).
10.J. A. Sorenson and J. Floch, “Scatter rejection by air gaps: An empirical model,” Med. Phys. 12, 308–316 (1985).
11.L. T. Niklason, J. A. Sorenson, and J. A. Nelson, “Scatter radiation in chest radiography,” Med. Phys. 8, 677–681 (1981).
12.A. Ersahin, S. Molloi, and Y. Qian, “A digital filtration techniques for scatter–glare correction based on thickness estimation,” IEEE Trans. Med. Imaging 14, 587–595 (1995).
13.M. Honda, T. Ema, M. Kikuchi, M. One, and K. Komatsu, “A technique of scatter–glare correction using a digital filtration,” Med. Phys. 20, 59–69 (1993).
14.L. A. Love and R. Kruger, “Scatter estimation for a digital radiographic system using convolution filtering,” Med. Phys. 14, 178–185 (1987).
15.D. Kruger, F. Zink, Walter W. Pepper, D. L. Eugun, and C. A. Mistretta, “A regional convolution kernel algorithm for scatter correction in dual-energy images: Comparison to single-kernel algorithms,” Med. Phys. 21, 175–184 (1994).
16.F. C. Wagner, A. Macovski, and D. G. Nishimura, “Dual-energy x-ray projection imaging: Two sampling schemes for the correction of scattered radiation,” Med. Phys. 15, 732–748 (1988).
17.C. E. Floyd, J. A. Baker, J. Y. Lo, and C. E. Ravin, “Posterior beam-stop method for scatter fraction measurement in digital radiography,” Invest. Radiol. 27, 119–123 (1992).
18.H.-P. Chan and K. Doi, “The validity of Monte Carlo simulation in studies of scattered radiation in diagnostic radiology,” Phys. Med. Biol. 28, 109–129 (1983).
19.K. P. Maher, “Comparison of scatter measurement techniques in digital fluoroscopy,” Phys. Med. Biol. 38, 1977–1983 (1993).
20.K. P. Maher and J. F. Malone, “Computerized scatter correction in diagnostic radiology,” Contemp. Phys. 38, 131–148 (1997).
21.K. P. Maher, Ph.D. dissertation, Trinity College Dublin, 1996.
22.B. M. Moores and W. Roeck, “The field characteristics of the focal spot in the radiographic imaging process,” Invest. Radiol. 8, 53–57 (1973).
23.J. A. Seibert, O. Nalcioglu, and W. W. Roeck, “Characterization of veiling glare PSF in x-ray image intensified fluoroscopy,” Med. Phys. 11, 172–179 (1984).
24.J. A. Seibert, O. Nalcioglu, and W. Roeck, “Removal of image intensifier veiling glare by mathematical deconvolution techniques,” Med. Phys. 12, 281–288 (1985).
25.S. Y. Molloi and C. A. Mistretta, “Scatter–glare corrections in quantitative dual-energy fluoroscopy,” Med. Phys. 15, 289–297 (1988).
26.S. Y. Molloi, Y. Zhou, and G. Wamsley, “Scatter–glare estimation for digital radiographic systems: Comparison of digital filtration and sampling techniques,” IEEE Trans. Med. Imaging 17, 881–888 (1998).
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