Conceptual Design of Internet Accelerator Laboratory (IAL) for DECY-13 Cyclotron
Abstract
Research and Technology Center for Accelerator of Research Organization for Nuclear Energy of National Research and Innovation Agency (PRTA-ORTN – BRIN) has become the Center for Excellence in Science and Technology (PUI), especially in the particle accelerator field. One of the studies is the DECY-13 cyclotron for radioisotopes production used in the medical field for cancer diagnostics. Currently, the DECY-13 cyclotron R&D is in the final stages of the design process. A Cyclotron internet laboratory facility will be implemented to expand the benefits of this R&D. This facility will support the cyclotron training to be more widely accessible and increase capacity building and human resources programs in the nuclear field. Therefore, a preliminary study for DECY-13 cyclotron Internet Accelerator Laboratory (IAL) is needed, which includes the preparation of long-term concepts and the design of IAL. The formulation of the long-term idea follows the established cyclotron road map. In the conceptual design, the users at the early stages are students and cyclotron operators in hospitals. In order to determine the design requirement, the next step is a literature study on online laboratories and the accelerator learning concept that has been applied in other countries. The IAL apparatus identification is based on a review of the DECY-13 cyclotron laboratory's current conditions and future research plans. The conceptual design that has been successfully developed consists of a research roadmap on IAL for long-term research planning and a material syllabus for two target users, namely students and cyclotron operators in hospitals. While the employed IAL component identification is CompactRIO as the primary controller on the cyclotron operating system and as a liaison with the network system. Supporting the network includes database systems, servers, LAN, internet, webcams, and websites or an application to be accessed by users.
References
NS. Risdianto, J. Purwanto, and F.A. Rahmadi, “The Use of Cyclotron for PET/CT Scan in Indonesian Hospitals and Future Collaboration,” Proc. IPAC2016, 2016, pp. 1911-1913.
(2019) “Penyakit Kanker di Indonesia Berada pada Urutan 8 di Asia Tenggara dan Urutan 23 di Asia.” [Online], http://p2p.kemkes.go.id/penyakit-kanker-di-indonesia-berada-pada-urutan-8-di-asia-tenggara-dan-urutan-23-di-asia/, access date: 21-May- 2021.
S. Syarip, et al., “Development of Internet Reactor Laboratory Using Kartini Reactor for Training and Education,” Electr. Power, Electron. Commun. Control. Inform. Semin. (EECCIS 2018), 2018, pp. 411–414.
Taxwim, et al., “Strengthening Scientific Literacy on Nuclear Reactor and Its Application Through Nuclear School,” J. Phys.: Conf. Ser., Vol. 1175, No. 1, pp. 1–7, 2019.
LD. Feisel and A.J. Rosa, “The Role of the Laboratory in Undergraduate Engineering Education,” J. Eng. Educ., Vol. 94, No. 1, pp. 121–130, 2005.
A. Chevalier, et al., “Development and Student Evaluation of an Internet-based Control Engineering Laboratory,” IFAC-Papers OnLine, Vol. 48, No. 29, pp. 1–6, 2015.
J.A. Alamo, et al., “An Online Microelectronics Device Characterization Laboratory with a Circuit-like User Interface,” Int. Conf. Eng. Educ., 2003, pp. 1–7.
A. Ballu, et al., “Virtual Metrology Laboratory for e-Learning,” Procedia CIRP, Vol. 43, pp. 148–153, 2016.
A. Cestaprabha, A. Abimanyu, J. Sunardi, and A.D. Atmaja, “Pengembangan Virtual Akselerator Sistem Magnet Development of Experimental Cyclotron Yogyakarta-13 (DECY-13) Berbasis Android,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2018, pp. 245–250.
H. Chowdhury, F. Alam, and I. Mustary, “Development of an Innovative Technique for Teaching and Learning of Laboratory Experiments for Engineering Courses,” Energy Procedia, Vol. 160, pp. 806–811, 2019.
G.J. Wiener, J. Woithe, A. Brown, and K. Jende, “Introducing The LHC in the Classroom: An Overview of Education Resources Available,” Phys. Educ., Vol. 51, No. 3, pp. 1-7, 2016.
N. Delerue, et al., “A Massive Open Online Course on Particle Accelerators,” J. Phys.: Conf. Ser., Vol. 1067, No. 9, pp. 512–515, 2018.
(2021) “Courses, Materials & Instructors.” [Online], https://uspas.fnal.gov/materials/materials-table.shtml, access date: 9-Nov-2021.
F.I. Diah, et al., “Evaluation of Hydrogen Gas Flow System in DECY - 13 Cyclotron,” J. Phys.: Conf. Series, Vol. 1825, pp. 1–7, 2021.
S. Silakhuddin, et al., “Ion Beam Preliminary Testing of DECY-13 Cyclotron at the Central Region Using DC Extraction Voltage,” IOP Conf. Ser. Mater. Sci. Eng., Vol. 432, No. 1, pp. 1–7, 2018.
I.A. Kudus, Taufik, and K. Wibowo, “Alignment Sistem Mapping untuk Magnet Siklotron DECY-13,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2016, pp. 198–203.
Taufik, K. Wibowo, I.A. Kudus, and F.S. Permana, “Magnetic Field Analysis of Shimmed DECY-13 Cyclotron Magnet,” AIP Conference Proceedings, Vol. 2381, No. 1, Nov. 2021, paper 020102.
F.S. Permana, N. Effendy, and A.N.I. Wardhana, “Perancangan dan Identifikasi Kendali PID pada Aliran Hidrogen Sumber Ion Siklotron DECY-13,” J. Iptek Nuklir Ganendra, Vol. 21, No. 2, pp. 59–66, Jul. 2021.
K. Wibowo and Silakhuddin, “Pengujian Awal Perangkat-Perangkat Siklotron DECY - 13,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2018, pp. 355–358.
S. Silakhuddin, R.S. Darmawan, S. Suharni, and IA Kudus, “Characterization on DECY-13 Cyclotron Components,” Phys. J., Vol. 3, pp. 64–72, 2019.
A. Dwiatmaja, T. Atmono, and Saminto, “The Behaviour of RF Generator for Power Supply of Dee in the Cyclotron DECY-13,” Proc. Int. Conf. Nuclear Capacity Building, Educ., Res. Appl. (I-Concern'19), 2019, pp. 552–557.
F.S. Permana, Saminto, K. Wibowo, and V.A.F. Sari, “Human Machine Interface Berbasis Labview untuk Operasi Sistem Vakum Siklotron Proton DECY-13 MeV,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2016, pp. 186–192.
F.S. Permana and Suharni, “Sistem Akuisisi Data Sumber Daya Magnet MPS 8500 dan Karakterisasinya untuk Pengoperasian Siklotron DECY- 13,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2018, pp. 197–202.
F.S. Permana, A.D. Atmojo, and A. Wijayanto, “Perancangan Sistem Akuisisi dan Kendali Generator RF Siklotron DECY-13,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2018, pp. 115–118.
Saefurrachman, Saminto, and A. Susanto, “Analisis Perancangan Sistem Instrumentasi Perangkat Pengatur Posisi Sumber Ion DECY-13,” Pros. Pertemuan Presentasi Ilm. Penelit. Dasar Ilmu Pengetahuan Teknol. Nuklir, 2018, pp. 369–376.
CAS Team (2016) “Syllabus and Conventions for General COurses Organized by the CERN Accelerator School,” [Online], https://cas.web.cern.ch/sites/default/files/CASSyllabus.pdf, access date: 9-Nov-2021.
A. Leleve, H. Benmohamed, P. Prevot, and C. Meyer, “Remote Laboratory Towards an Integrated Training System,” 4th Int. Conf. Inf. Technol. Based Higher Educ. and Training (ITHET 2003), 2003, pp. 1-6.
A. Salihbegovic and S. Ribic, “Development of Online Internet Laboratory (Online I-Lab),” in Innovative Techniques in Instruction Technology, E-learning, E-assessment, and Education, M. Iskander, Ed., Dordrecht, Belanda: Springer, 2008, pp. 1-6.
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