A model of X-Ray emitter emission characteristics measuring
Keywords:
X-ray emitter, emission characteristics, model of measurement, estimation of measurement uncertainty
Abstract
A model for measuring of the X-ray emitter individual emission characteristics for computerized X-ray control system has been created. The strategy of empirical data generation for calculating the coefficients of the transformation function of the typical emission characteristics to individual ones in order to improve the accuracy of the results has been defined. An accuracy estimation of the results has been performed.Downloads
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References
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Sources and effects of ionizing radiation [Text]: Report of the United Nations Scientific Committee on the Effects of Atomic Radiation, 2000 by the UN General Assembly with scientific annexes. Vol. 1: Sources (part 1): Transl. from English. / Ed. L.A. Ilyin and. S.P. Yarmonenko – M .: RADEKON, 2002. – 308 p.
Kevin D. Hill, Andrew J. Einstein, New approaches to reduce radiation exposure // Trends in Cardiovascular Medicine. – January 2016. – Volume 26. – Issue 1. – pp. 55-65.
Rehani, M.M. Looking into future: challenges in radiation protection in medicine [Text] / M.M. Rehani // Radiat. Prot. Dosimetry. – 2015 Jul. – Vol. 165(1–4). – pp. 3–6.
A.T. Baptista Neto, L.O. Faria, Construction and calibration of a multipurpose instrument to simultaneously measure dose, voltage and half-value layer in X-ray emission equipment // Radiation Measurements. – Dec. 2014. – Vol. 71. – pp. 178-182.
Thomas R. Nelson, Practical Strategies to Reduce Pediatric CT Radiation Dose // Journal of the American College of Radiology. – March 2014. – Vol. 11. – Issue 3. – pp. 292-299.
Stadnik, L.L. Assessment of patient doses in radiography and their optimization by establishing of national diagnostic recommended levels [Text] / L.L. Stadnik, O.Yu. Shalepa, O.V. Nosik // Radiation hygiene. – 2014. – Vol. 7. – № 4. – pp. 84–88.
Reva S. Method of X-ray tube emission characteristics adaptation to the experimental data / M.O. Malakhova, A.I. Perminov, S.N. Reva // Kharkiv national university Bulletin. «Mathematical Modeling. Information Technologies. Automated Control Systems» Series. – 2010. – № 890. – pp. 165-177.
DSTU ISO / IEC 17025: 2006 General requirements for the competence of testing and calibration laboratories (ISO / IEC 17025: 2005, IDT). – K .: State Committee of Ukraine for Technical Regulation and Consumer Policy of Ukraine. – 18p.
Zakharov, I.P. Theory of uncertainty in measurements / Zakharov I.P., Kukush V.L. // Textbook: – Kharkov, Konsum, 2002 – 256p.
Maletskaya O.E. Calibration of means of measuring technology: evaluation errors and uncertainty of measurements / O.E. Maletskaya, M.V. Moskalenko // Information processing systems. – 2013. – № 3. – pp. 75-79.
Law of Ukraine "On Metrology and Metrological Activity" (Bulletin of the Verkhovna Rada (ВVR), 2014, No. 30, Article 1008) {As amended in accordance with the Law No. 124-VIII from 15.01.2015, ВVR, 2015 , No. 14, Article 96}.
Published
2017-05-29
How to Cite
Malakhova, M., Reva, S., & Styervoyedov, M. (2017). A model of X-Ray emitter emission characteristics measuring. Bulletin of V.N. Karazin Kharkiv National University, Series «Mathematical Modeling. Information Technology. Automated Control Systems», 33, 73-80. Retrieved from https://periodicals.karazin.ua/mia/article/view/9189
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