AmbroseJ.HounsfieldG.: New techniques for diagnostic radiology. Brit. J. Radiol.46 (1973), 148.
2.
BatesR. T. H.PetersT. M.: Towards improvements in tomography. N.Z. J. Sci.14 (1971), 883.
3.
BellmanS. H.BenderR.GordonR.RoweJ. E.: ART is science, being a defence of algebraic reconstruction techniques for three-dimensional electron microscopy. J. theor. Biol.32 (1971), 205.
4.
BracewellR. N.: Strip integration in radio astronomy. Aust. J. Phys.9 (1956), 198.
5.
BudingerT. F.GullbergG. T.: Three-dimensional reconstruction in nuclear medicine by iterative least-squares and Fourier transform techniques. Lawrence Berkeley Laboratory Report LBL-2146, 1974.
6.
BudingerT. F.GullbergG. T.: Three-dimensional reconstruction in nuclear medicine emission imaging. IEEE Transactions on Nuclear Science, NS-21 (1974), p. 2.
7.
ChoZ. H.: General views on 3-D image reconstruction and computerized transverse axial tomography. IEEE Transaction on Nuclear Science, NS-21 (1974), p. 44.
8.
CormachA. M.: Representation of a function by its line integrals, with some radiological applications, I. J. appl. Phys.34 (1963), 2722.
9.
CormachA. M.Representation of a function by its line intergrals, with some radiological applications, II. J. appl. Phys.35 (1964), 2908.
10.
CrowtherR. A.KlugA.: ART or science, or, conditions for 3-D reconstructions from electron microscope images. J. theor. Biol.32 (1971), 119.
11.
CrowtherR. A.De RosierD. J.KlugA.: The reconstruction of a three-dimensional structure from projections and its applications to electron microscopy. Proc. roy. Soc. Lond. A317 (1970), 319.
12.
De RosierD. J.KlugA.: Reconstructions of three-dimensional structures from electron microradiographs. Nature217 (1968), 130.
13.
EdholmP.: The tomogram. Its information and content. Acta radiol. (1960) Suppl. No. 193.
14.
EdholmP.QuidingL.: Elimination of blur in linear tomography. Acta radiol. Diagnosis10 (1970), 441.
15.
GordonR.: A tutorial on ART (algebraic reconstruction techniques). IEEE Transactions on Nuclear Science, NS-21 (1970), p. 78.
16.
GordonR.HermanG. T.: Three dimensional reconstruction from projections. A review of algorithms. Int. Rev. Cytol.38 (1974), 00.
17.
BenderR.HermanG. T.: Algebraic reconstruction techniques (ART) for three-dimensional electron microscopy and x-ray photography. J. theor. Biol.29 (1970), 471.
18.
GrantD. G.: Tomosynthesis. A three-dimensional radiographic imaging technique. IEEE Trans. Biomed. Eng.BME-19 (1972), p. 20.
19.
HermanG. T.RowlandS.: Resolution in ART. An experimental verification of the resolving power of an algebraic picture reconstruction technique. J. theor. Biol.33 (1971), 213.
20.
HögbomJ. A.: Aperture synthesis with a non-regular distribution of interferometer baselines. Astron. Astrophys. (1974) Suppl. No. 15, p. 417.
21.
HounsfieldG. N.: A method of and apparatus for examination of a body by radiation such as x or gamma radiation. The Patent Office, London, Patent Specification 1283915.
22.
KaczmarzS.: Angenäherte Auflösung von Systemen linearer Gleichungen. Bull. Acad. pol. Sci. Classe des Sciences Mathématiques (1937), 355.
23.
OppenheimB. E.: More accurate algorithms for iterative 3-dimensional reconstruction. IEEE Transaction on Nuclear Science, NS-21 (1974), p. 72.
RadonJ.: Über die Bestimmung von Funktionen durch ihre Integralwerte längs gewisser Mannigfaltigkeiten. Ber. Verh. Sächs. Akad.69 (1917), 262.
26.
RamachandranG. N.LakshminarayananA. V. (a): Three dimensional reconstruction from radiographs and electron microradiographs. Application of convolutions in stead of Fourier transforms. Proc. nat. Acad. Sci. (Wash.)68 (1971), 2236.
27.
RamachandranG. N.LakshminarayananA. V. (b): Three dimensional reconstruction from radiographs and electron microradiographs. Part III. Description and application of the convolution method. Indian J. pure appl. Phys.9 (1971), 997.
28.
SheppL. A.LoganB. F.: The Fourier reconstruction of a head section. IEEE Transactions on Nuclear Science, NS-21 (1974), p. 21.
29.
TakahashiS.: Rotation radiography. Japan Soc. Promotion Sci., Tokyo1957.