For those who want to delve deeper into the scientific aspects of IndoQCT, please refer to the following list of publications:

  1. Anam C, Naufal A, Fujibuchi T, Matsubara K, Dougherty G. Automated development of the contrast-detail curve based on statistical low-contrast detectability in CT images. J Appl Clin Med Phys. 2022;23(9):e13719.
  2. Anam C, Fujibuchi T, Budi WS, Haryanto F, Dougherty G. An algorithm for automated modulation transfer function measurement using an edge of a PMMA phantom: Impact of field of view on spatial resolution of CT images. J Appl Clin Med Phys. 2018;19(6):244-252.
  3. Lasiyah N, Anam C, Hidayanto E, Dougherty G. Automated procedure for slice thickness verification of computed tomography images: Variations of slice thickness, position from iso-center, and reconstruction filter. J Appl Clin Med Phys. 2021;22(7):313-321.
  4. Anam C, Naufal A, Sutanto H, Adi K, Dougherty G. Impact of iterative bilateral filtering on the noise power spectrum of computed tomography images. Algorithms. 2022;15(10):374.
  5. Anam C, Budi WS, Adi K, Sutanto H, Haryanto F, Ali MH, Fujibuchi T, Dougherty G. Assessment of patient dose and noise level of clinical CT images: automated measurements. J Radiol Prot. 2019;39:783–793.
  6. Anam C, Budi WS, Haryanto F, Fujibuchi T, Dougherty G. A novel multiplewindows blending of CT images in red-green-blue (RGB) color space: Phantoms study. Scientific Visualization. 2019;11(5):56-69.
  7. Anam C, Fujibuchi T, Haryanto F, Budi WS, Sutanto H, Adi K, Muhlisin Z, Dougherty G. Automated MTF measurement in CT images with a simple wire phantom. Pol J Med Phys Eng. 2019;25(3):179-187.
  8. Anam C, Sutanto H, Adi K, Budi WS, Muhlisin Z, Haryanto F, Matsubara K, Fujibuchi T, Dougherty G. Development of a computational phantom for validation of automated noise measurement in CT images. Biomed Phys Eng Express. 2020;6(6):065001.
  9. Anam C, Amilia R, Naufal A, Budi WS, Maya AT, Dougherty G. Automated measurement of CT number linearity using an ACR accreditation phantom. Biomed Phys Eng Express. 2023;9(1):017002
  10. Anam C, Arif I, Haryanto F, Lestari FP, Widita R, Budi WS, Sutanto H, Adi K, Fujibuchi T, Dougherty G. An improved method of automated noise measurement system in CT images. J Biomed Phys Eng. 2021;11(2):163-174.
  11. Anam C, Triadyaksa P, Naufal A, Arifin Z, Muhlisin Z, Setiawati E, Budi WS. Impact of ROI size on the accuracy of noise measurement in CT on computational and ACR phantoms. J Biomed Phys Eng. 2022;12(4):359-368.
  12. Anam C, Adi K, Sutanto H, Arifin Z, Budi WS, Fujibuchi T, Dougherty G. Noise reduction in CT images using a selective mean filter. J Biomed Phys Eng. 2020;10(5):623-634.
  13. Anam C, Naufal A, Sutanto H, Dougherty G. Computational phantoms for investigating impact of noise magnitude on modulation transfer function. Indonesian J Elec Eng Comp Sci. 2022;27(3):1428-1437.
  14. Anam C, Amilia R, Naufal A, Adi K, Sutanto H, Budi WS, Arifin Z, Dougherty G. Automated patient centering of computed tomography images and its implementation to evaluate clinical practices in three hospitals in Indonesia. Pol J Med Phys Eng. 2022;28(4):207-2014.
  15. Noviliawati R, Anam C, Sutanto H, Dougherty G, Mak’ruf MR. Automatic validation of the gantry tilt in a computed tomography scanner using a head polymethyl methacrylate phantom. Pol J Med Phys Eng. 2021;27(1):57-62.
  16. Ximenes AD, Anam C, Hidayanto E, Naufal A, Rukmana DA, Dougherty G. Automation of slice thickness measurements in computed tomography images of AAPM CT performance phantom using a non-rotational method. Pol J Med Phys Eng. 2022;28(3):133-138.
  17. Zahro UM, Anam C, Budi WS, Triadyaksa P, Saragih JH, Rukmana DA. Investigation of noise level and spatial resolution of CT images filtered with a selective mean filter and its comparison to an adaptive statistical iterative reconstruction. Iran J Med Phys. 2021;18(5):376-383.
  18. Sofiyatun S, Anam C, Zahro UM, Rukmana DA, Dougherty G. An automated measurement of image slice thickness of computed tomography. Atom Indonesia. 2021;47(2):121-128.
  19. Widyanti ER, Anam C, Hidayanto E, Naufal A, Haekal M. An evaluation of automated measurement of slice sensitivity profile of computed tomography image: Field of view variations. Indonesian J Elec Eng Comp Sci. 2022;29(3):1430-1437.
  20. Saragih JH, Anam C, Budi WS, Simarmata TI, Dougherty G. Implementation of a selective mean filter algorithm to reduce noise in computed radiography images. AIP Conf Proc. 2021;2346(1):040006.
  21. Ainurrofik N, Anam C, Sutanto H, Dougherty G. An automation of radial modulation transfer function (MTF) measurement on a head polymethyl methacrylate (PMMA) phantom. AIP Conf Proc. 2021;2346(1):040009.
  22. Hak EZ, Anam C, Budi WS, Dougherty G. An improvement in automatic MTF measurement in CT images using an edge of the PMMA phantom. J Phys: Conf Ser. 2020;1505(1):012039.
  23. Mukmin A, Anam C, Widodo CE, Naufal A, Arisyi FR. Implementation of a Selective Median Filter in Computed Tomography for Image Quality Enhancement. Int J Sci Res Sci Tech. 2022;9(4):545-551.
  24. Setiawati E, Anam C, Widyasari W, Dougherty G. The quantitative effect of noise and object diameter on low-contrast detectability of AAPM CT performance phantom images. Atom Indonesia. 2022. Accepted.