Freddy Haryanto

Freddy Haryanto2

Dr.rer.nat. Freddy Haryanto



Fakultas Matematika dan Ilmu Pengetahuan Alam
Institut Teknologi Bandung
Jl. Ganesa 10 Bandung, 40132, Indonesia
Email : freddy[at]
Telepon: +62(22) [2500834] xt: 215
Faks: +62 (22) [2506452]


  1. Sarjana, Institut Teknologi Bandung (1994)
  2. Magister, Institut Teknologi Bandung (1996)
  3. Doktor, Universitat Tubingen, Jerman (2003)


  1. Staf Dosen Prodi Fisika, Institut Teknologi Bandung, (1994 – sekarang)
  2. Peneliti pada Department of  Medical Physics, Radioonkologic University Clinic, Tuebingen, Jerman (1999-2003)
  3. Koordinator Fisika Dasar ITB (2004 – )
  4. Konsultan Radioterapi, Rumah Sakit Hasan Sadikin hospital, Bandung (2006 – )

Bidang Penelitian

  1. Terapi Radiasi
  2. Diagnostik Radiasi


  1. Y Hardiyanti, M Haekal, A Waris and F Haryanto, The Comparison Study of Quadratic Infinite Beam Program on Optimization Instensity Modulated Radiation Therapy Treatment Planning (IMRTP) between Threshold and Exponential Scatter Method with CERR® In The Case of Lung Cancer, Phys.: Conf. Ser. 739 (2016) 012144 DOI :
  2. S H Sirait, R E Edison, M R Baidillah, W P Taruno and F Haryanto, Simulation of 2D Brain’s Potential Distribution Based on Two Electrodes ECVT Using Finite Element Method, Phys.: Conf. Ser. 739 (2016) 012126 DOI :
  3. S Yani, M F Rhani, F Haryanto and I Arif, Inhomogeneity effect in Varian Trilogy Clinac iX 10 MV photon beam using EGSnrc and Geant4 code system, Phys.: Conf. Ser. 739 (2016) 012117 DOI :
  4. L A Fitri, V Asyana, T Ridwan, F Anwary, H Soekersi, F D E Latief and F Haryanto, Single energy micro CT SkyScan 1173 for the characterization of urinary stone, Phys.: Conf. Ser. 739 (2016) 012074 DOI :
  5. Yoza Fendrianiand Freddy Haryanto, Study of dose calculation on breast brachytherapy using prism TPS, AIP Conf. Proc. 1677, 040009 (2015);
  6. Wa Ode Sriwayu, Freddy Haryanto, Siti Nurul Khotimahand Fourier Dzar Eljabbar Latief, Beam hardening and smoothing correction effects on performance of micro-ct SkyScan 1173 for imaging low contrast density materials, AIP Conf. Proc. 1656, 060014 (2015);
  7. Sitti Yani, I Gde E. Dirgayussa, Fadhillah Rhani, Freddy Haryantoand Idam Arif, The effect of voxel size on dose distribution in Varian Clinac iX 6 MV photon beam using Monte Carlo simulation, AIP Conf. Proc. 1677, 040002 (2015);
  8. Regina Yunisaand Freddy Haryanto, Sensitivity and accuracy analysis of CT image in PRISM autocontouring using confusion matrix and ROC/AUC curve methods, AIP Conf. Proc. 1677, 040012 (2015);
  9. I Gde Eka Dirgayussa, Sitti Yani, M. Fahdillah Rhani and Freddy Haryanto, Commissioning of a Varian Clinac iX 6 MV photon beam using Monte Carlo simulation, AIP Conf. Proc. 1677, 040006 (2015);
  10. Choirul Anam, Freddy Haryanto, Rena Widitaand Idam Arif, New noise reduction method for reducing CT scan dose: Combining Wiener filtering and edge detection algorithm, AIP Conf. Proc. 1677, 040004 (2015);
  11. Nita Handayani, Siti Nurul Khotimah, Freddy Haryanto, Idam Arif, N. Siska Ayu, H. S. Syarif, Yudiansyah Akbar, Rizki Edmi Edison, and Warsito P. Taruno, Investigation of the Music’s Effect on Human Brain Activity Using Electrical Capacitance Volume Tomography Brain Scanner and Electroencephalo-Graphy, Sci. Eng. Med., 7, (2015), 882-887.
  12. Djamal, Ramli, Khairurrijal, and F. Haryanto, Development of Giant Magnetoresistance Material Based on Cobalt Ferrite, Acta Physica Polonica Series A, 128:2B, (2015), B-19-B-23.
  13. Choirul Anam, Freddy Haryanto, Rena Widita, and Idam Arif, Automated Estimation of Patient’s Size from 3D Image of Patient for Size, Specific Dose Estimates (SSDE), Sci. Eng. Med., 7, (2015), 892-896.
  14. Adita Sutresno, Freddy Haryanto, Sparisoma Viridi, and Idam Arif, Investigation Monte Carlo Simulation for 3 Compartment Model as Biology System in Urinary, Sci. Eng. Med., 7, (2015), 888-891.
  15. Suprijadi, S.H. Pratama, Haryanto, Volume Estimationof Brain Abnormalities in MRI Data, AIP Conf. Proc. 1587, 101 (2014);
  16. Ramli, Djamal, M., Haryanto, F., Viridi, S., Khairurrijal, Giant magnetoresistance in (Ni60Co30Fe10/Cu) trilayer growth by opposed target magnetron sputtering, Advanced Materials Research, 535-537, pp. 1319-1322 (2012)
  17. Ramli, A. H. Muhtadi, Muhammad F. Sahdan, Freddy Haryanto, Khairurrijal, and Mitra Djamal, 2010, The Preliminary Study of Giant Magnetoresistance Sensor for Detection of Oxygen in Human Blood, AIP Conference Proceedings, 1325, 309-312.

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