{"id":18375,"date":"2021-10-06T23:30:52","date_gmt":"2021-10-06T14:30:52","guid":{"rendered":"https:\/\/hurel.hanyang.ac.kr\/?page_id=18375"},"modified":"2025-12-03T11:51:52","modified_gmt":"2025-12-03T02:51:52","slug":"funded-rd-projects","status":"publish","type":"page","link":"https:\/\/hurel.hanyang.ac.kr\/?page_id=18375","title":{"rendered":"Funded R&D Projects (as Principal Investigator)"},"content":{"rendered":"

* Assumed currency conversion rate: 1000 KRW = US 1$<\/p>\n

33. Development of a Rapid Radiation Dose Assessment System for Emergency Situations Based on Monte Carlo Simulation, April 2025 – December 2028 (4 years), Principal Investigator, Korea Foundation of Nuclear Safety, US $1,125,000<\/h3>\n

32. Development of Real-time 3D Dose Distribution Visualization Equipment Based on Gamma Ray Measurement for Application in Particle Radiation Therapy, April 2025 – December 2028 (4 years), Principal Investigator, National Research Foundation, US $850,000<\/h3>\n

31. Radiation Safety Verification of Electron Beam Devices, April 2025 – December 2025 (1 year), Principal Investigator, Korea Institute of Nuclear Safety, US $90,000<\/h3>\n

30. Development and Demonstration of the System for Radioactivity Measurement at the Decommissioning Site of Nuclear Power Plant, April 2023 – December 2026 (4 years), Principal Investigator, Korea Institute of Energy Technology Evaluation and Planning, US $518,000 \/$11,100,000<\/h3>\n

29. User-friendly Monte Carlo dose calculation code for radiation workers and public members, April 2022 – December 2024 (3 years), Principal Investigator, Korea Foundation of Nuclear Safety, US $547,000<\/h3>\n

28. Development of exposure dose database based on radiation worker behavior, April 2022 – December 2026 (5 years), Principal Investigator, National Research Foundation, US $330,000 \/$4,230,000<\/h3>\n

27. Development of 3D multi-function radiation measurement system for Korea Customs Service, July 2021 – January 2024 (4 years), Principal Investigator, National Research Foundation, US $1,000,000 \/$3,500,000<\/h3>\n

26. Development of technology for clinical application of proton beam range measurement device, January 2021 – December 2023 (3 years), Principal Investigator, National Cancer Center, US $81,000<\/h3>\n

25. Development of high-performance large-area hybrid gamma imaging technology, April 2019 \u2013 December 2023 (4 years 10 months), Principal Investigator, National Research Foundation, US $550,000<\/h3>\n

24. Development of 3D imaging system for NPP concrete internal activation, May 2019 \u2013 April 2022 (3 years), Principal Investigator, Korea Institute of Energy Technology Evaluation and Planning, US $900,000<\/h3>\n

23. Development of technologies for optimum accident countermeasures and contamination imaging, March 2017 – December 2021 (4 years 10 months), Principal Investigator, National Research Foundation of Korea (through Korea Atomic Energy Research Institute), US $375,0000<\/h3>\n

22. Development of computational human models to improve accuracy of dose assessment considering exposure scenarios, April 2017- December 2021 (4 years 9 months), Principal Investigator, Korea Foundation of Nuclear Safety, US $1,500,000<\/h3>\n

21. Development of updated version of ICRP reference computational phantoms and dose calculation technique, December 2014 \u2013 September 2017 (2 years 10 months), Principal Investigator, Korea Foundation of Nuclear Safety, US $360,000<\/h3>\n

20. Development of a PMT-based large-scale Compton imaging device and its core technologies for detection of radiation contamination, August 2015 \u2013 July 2018 (3 years), National Research Foundation of Korea, US $450,000<\/h3>\n

19. Environment radioactivity survey data in Seoul, January 2016 \u2013 current (every year), Principal Investigator, Nuclear Safety and Security Commission (through Korea Institute of Nuclear Safety), US $90,000 (per year)<\/h3>\n

18. Development of in-situ PET system for RAON heavy ion beam, 1 August 2013 \u2013 28 February 2015 (3 years), Principal Investigator, Institute for Basic Science, US $180,000 (+ materials)<\/h3>\n

17. Development of tetrahedron phantoms for ICRP Reference Male and Female and establishment of effective dose calculation system, 1 May 2012 \u2013 30 April 2013 (1 year), Principal Investigator, Ministry of Education, Science and Technology (through Korea Institute of Nuclear Safety), US $30,000<\/h3>\n

16. Development of detector system for GEVI imaging system, 1 April 2012 \u2013 31 March 2015 (3 years), Principal Investigator, Ministry of Education, Science and Technology (through Korea Institute of Radiological & Medical Sciences), US $134,000 (+ materials)<\/h3>\n

15. Development of prototype Compton imaging system for nuclear material surveillance and monitoring at pyroprocessing facility, 1 March 2012 \u2013 30 February 2015 (3 years), Principal Investigator, Ministry of Education, Science and Technology (through Korea Atomic Energy Research Institute), US $108,000<\/h3>\n

14. Characteristics modeling of energy response for photon counting detector (PCD) and developing a dedicated simulator, 16 January 2012- 14 September 2012 (8 months), Samsung Advanced Institute of Technology, US $45,000<\/h3>\n

13. Development of 4D Monte Carlo simulation technology based on deformable polygon mesh human model, 1 September 2011 \u2013 31 August 2016 (5 years), Principal Investigator, National Research Foundation of Korea, US $156,000<\/h3>\n

12. Development of a high-performance and multi-purpose Compton imaging device for 3-D detection of radioactivity, 16 July 2010 \u2013 30 June 2013 (3 years), Principal Investigator, National Research Foundation of Korea, US $730,000<\/h3>\n

11. Measurement of high-energy prompt gammas based on 2D photo sensor and multi-channel digitizer, 16 July 2010 \u2013 30 June 2013 (3 years), Principal Investigator, Ministry of Education, Science and Technology (through National Cancer Center), US $95,000<\/h3>\n

10. Development of in vivo proton dose imaging technology based on two-dimensional measurement of prompt gamma distribution, 1 April 2010 \u2013 31 March 2012 (2 years), Principal Investigator, National Research Foundation of Korea, US $54,000<\/h3>\n

9. Development and characterization of a proof-of-principle double-scattering Compton camera, 1 April 2009 – 31 March 2010 (2 years), Principal Investigator, National Research Foundation of Korea, US $100,000<\/h3>\n

8. Determination of proton beam range in patient with a linear array of scintillation detectors, 1 June 2008 \u2013 3 March 2010 (1 year 10 months), Principal Investigator, Ministry of Education, Science and Technology (through Proton Engineering Frontier Project), US $50,000<\/h3>\n

7. Determination of distal dose edge location in patient in proton therapy based on prompt-gamma measurement, 1 October 2007 \u2013 30 September 2008 (1 year), Principal Investigator, Hanyang University, US $10,000<\/h3>\n

6. Development of Reference Korean voxel models based on color photographic slice images and determination of radiation protection quantities for Koreans, 1 March 2007 \u2013 28 February 2012 (5 years), Principal Investigator, Ministry of Education, Science and Technology (through Korea Institute of Nuclear Safety), US $190,000<\/h3>\n

5. Accurate Monte Carlo simulation for Compton camera design and optimization, 1 June 2005 \u2013 30 March 2011 (5 years 10 months), Principal Investigator, Ministry of Education, Science and Technology, US $425,000<\/h3>\n

4. Developing tissue\/organ dose assessment technology considering domestic radiation environment, 1 March 2005 \u2013 28 February 2007 (2 years), Principal Investigator, Ministry of Education, Science and Technology (through Korea Institute of Nuclear Safety), US $80,000<\/h3>\n

3. Organ\/tissue radiation dose determination in non-uniform radiation fields for multiple dosimeter approach, 1 April 2004 \u2013 29 February 2006 (1 year 11 months), Principal Investigator, Ministry of Education, Science and Technology (through Korea Institute of Nuclear Safety), US $80,000<\/h3>\n

2. Study on radiological characteristics of radiation detectors based on Monte Carlo simulation, 1 October 2003 \u2013 30 September 2004 (1 year), Principal Investigator, Hanyang University, $3,000<\/h3>\n

1. Development of effective dose measurement system, 1 September 2003 \u2013 28 February 2009 (5 years 6 months), Principal Investigator, Ministry of Education, Science and Technology (through Engineering Research Center – Innovative Technology Center for Radiation Safety), US $165,000<\/h3>\n","protected":false},"excerpt":{"rendered":"

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