Abstract
The concept of industrial computed tomography (CT) is introduced in this chapter. CT is defined, and the history of CT scanning is outlined. As part of the history, the conventional tomography technique is explained. The development of CT is documented, outlining the initial experiments that lead to the development of modern CT. An overview of the current state of CT scanning is then presented, outlining the five main generations of clinical CT scanner and the two main types of scanner used in industrial CT. The industrial requirements of CT are then discussed, and the content of the following chapters is briefly outlined.
References
Arfken G, Weber HJ (1985) Integral transforms. Mathematical methods for physicists, 3rd edn. Academic Press, Orlando, pp 794–864
Bioclinica (2011) The evolution of CT scan clinical trials. http://www.bioclinica.com/blog/evolution-ct-scan-clinical-trials. Accessed 12th May 2016
Bocage AEM (1921) Procédé et dispositifs de radiographie sur plaque en mouvement. French Patent No. 536464
Boyd D, Gould R, Quinn J, Sparks R, Stanley J, Herrmmannsfeldt W (1979) A proposed dynamic cardiac 3-D densitometer for early detection and evaluation of heart disease. IEEE Trans Nucl Sci 26(2):2724–2727
Bruker (2016) Micro-CT for SEM: true 3D imager for any scanning electron microscope (SEM). Bruker microCT. http://bruker-microct.com/products/SEM_microCT.htm. Accessed 16th May 2016 2016
Cormack AM (1963) Representation of a function by its line integrals, with some radiological applications. J Appl Phys 34(9):2722–2727
Cormack AM (1964) Representation of a function by its line integrals, with some radiological applications II. J Appl Phys 35(10):2908–2913
De Chiffre L, Carmignato S, Kruth J-P, Schmitt R, Weckenmann A (2014) Industrial applications of computed tomography. Ann CIRP 63(2):655–677. doi:10.1016/j.cirp.2014.05.011
Deller T, Jabri KN, Sabol JM, Ni X, Avinash G, Saunders R, Uppaluri R (2007) Effect of acquisition parameters on image quality in digital tomosynthesis. Proc SPIE 6510:65101L
Diamond Light Source (2006) Diamond about us. Diamond Light Source. http://www.diamond.ac.uk/Home/About.html. Accessed 5th Apr 2016
Dobbins JT III, Godfrey DJ (2003) Digital x-ray tomosynthesis: current state of the art and clinical potential. Phys Med Biol 48(19):65–106
Frank G (1940) Verfahren zur herstellung von körperschnittbildern mittels röntgenstrahlen. German Patent 693374
Hounsfield G (1976) Historical notes on computerized axial tomography. J Can Assoc Radiol 27(3):135–142
Hsieh J (2009) Computed tomography: principles, design, artifacts, and recent advances. SPIE Press, Bellingham, WA, USA
Impactscan (2013) CT History. http://www.impactscan.org/CThistory.htm. Accessed 5th April 2016
Kruth J-P, Bartscher M, Carmignato S, Schmitt R, De Chiffre L, Weckenmann A (2011) Computed tomography for dimensional metrology. Ann CIRP 60(2):821–842. doi:10.1016/j.cirp.2011.05.006
Kuhl DE, Edwards RQ (1968) Reorganizing data from transverse section scans of the brain using digital processing. Radiology 91(5):975–983
Ledley R, Wilson J, Huang H (1974) ACTA (Automatic Computerized Transverse Axial)—the whole body tomographic X-ray scanner. Proc SPIE 0057:94–107
NASA (2007) X-rays. NASA. http://science.hq.nasa.gov/kids/imagers/ems/xrays.html. Accessed 28th Sept 2016
Nett BE, Leng S, Chen G-H (2007) Planar tomosynthesis reconstruction in a parallel-beam framework via virtual object reconstruction. Proc SPIE 6510:651028
Oldendorf W (1961) Isolated flying spot detection of radiodensity dis-continuities-displaying the internal structural pattern of a complex object. IRE Trans Biomed Electron 8(1):68–72
Paxton R, Ambrose J (1974) The EMI scanner. A brief review of the first 650 patients. Br J Radiol 47(561):530–565
Radon J (1986) On the determination of functions from their integral values along certain manifolds. IEEE Trans Med Imaging 5(4):170–176
Salamon M, Boehnel M, Riems N, Kasperl S, Voland V, Schmitt M, Uhlmann N, Hanke R (2015) Computed tomography of large objects. Paper presented at the 5th CIA-CT conference and InteraqCT event on “industrial applications of computed tomography”, Lyngby, Denmark
Stevens GM, Fahrig R, Pelc NJ (2001) Filtered backprojection for modifying the impulse response of circular tomosynthesis. Med Phys 28(3):372–380
Thompson A, Maskery I, Leach RK (2016) X-ray computed tomography for additive manufacturing: a review. Meas Sci Technol 27(7):072001
VDI/VDE 2360 Part 1.1 (2009) Computed tomography in dimensional measurement, basics and definitions
Warp RJ, Godfrey DJ, Dobbins JT III (2000) Applications of matrix inversion tomosynthesis. Proc SPIE 3977:376–383
Webb S (1992) Historical experiments predating commercially available computed tomography. Br J Radiol 65(777):835–837
Zeiss (2016) Inline Computer Tomography. Zeiss. http://www.zeiss.co.uk/industrial-metrology/en_gb/products/systems/process-control-and-inspection/volumax.html. Accessed 12th May 2016
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Thompson, A., Leach, R. (2018). Introduction to Industrial X-ray Computed Tomography. In: Carmignato, S., Dewulf, W., Leach, R. (eds) Industrial X-Ray Computed Tomography. Springer, Cham. https://doi.org/10.1007/978-3-319-59573-3_1
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DOI: https://doi.org/10.1007/978-3-319-59573-3_1
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