Publications

Journals and Conference Papers


  • Pineda, I., Alam MD, N., & Gwun, O. (2018). Calyx and Stem Discrimination for Apple Quality Control Using Hyperspectral Imaging. 4th International Conference on Technology Trends, 274–287. https://doi.org/10.1007/978-3-030-05532-5_20
  • Alam, N., Pineda, I., Lim, J. G., & Gwun, O. (2018). Apple Defects Detection Using Principal Component Features of Multispectral Reflectance Imaging. Science of Advanced Materials, 10, 1051–1062. https://doi.org/10.1166/sam.2018.3277
  • Pineda, I., & Gwun, O. (2017). Leaf Modeling and Growth Process Simulation Using the Level Set Method. IEEE Access, 5, 15948–15959. https://doi.org/10.1109/ACCESS.2017.2738032
  • Pineda, I., & Gwun, O. (2017). Level Set Method Simulation of Leaves: Comparative Evaluation of Active Contour and Variational Level Set Method. ISITC 2017 International Symposium on Information Technology Convergence. Shijiazhuang, China.
  • Jeong, S., Pineda, I., & Gwun, O. (2017). Optimization of the Hash Table Parameters to Store the Narrow Band Level Set Method. ISITC 2017 International Symposium on Information Technology Convergence. Shijiazhuang, China.
  • Pineda, I., & Gwun, O. (2017). Tobacco Leaf Area Growth Simulation with the Variational Level Set Method. Third International Conference on Electronics and Software Science (ICESS2017), 171–175. Takamatsu, Japan.
  • Pineda, I., & Gwun, O. (2016). Lagrangian Particles Sampling for Eulerian Level Set Simulation. ISITC 2016 International Symposium on Information Technology Convergence, 244–249. Shanghai, China.
  • Pineda, I., & Gwun, O. (2015). Level Set Advection of Free Fluid Surface Modified by Surface Tension. Smart Media Journal, 4(2), 9–16. http://kism.or.kr/file/memoir/4_2_1.pdf
  • Pineda, I., & Gwun, O. (2014). Surface Tension Approximation in Semi-Lagrangian Level Set Based Fluid Simulations for Computer Graphics. CGMIP 2014 The International Conference on Computer Graphics, Multimedia and Image Processing, 49–55. https://www.academia.edu/9343056/Sur_face_Tension_Approximation_in_Semi-Lagrangian_Level_Set_Based_Fluid_Simulations_for_Computer_Graphics
  • Pineda, I., & Gwun, O. (2014). Level Set Based Large-Scale Fluid Simulations Using Surface Tension Approximation For Detail Increment. ISITC 2014 International Symposium on Information Technology Convergence, 436–439

Thesis


Degree: Doctor of Computer Science and Engineering

English Title: An Enhanced Level Set Method and its Application to the Simulation of Fluids and Leaves

Korean Title: 개선된 레벨셋메소드 및 유체와 잎 시뮤레이션에 응용

Advisor: Oubong Gwun

Year: 2018

Institution: Chonbuk National University - South Korea

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Degree: Master of Computer Science and Engineering

English Title: Level Set Based Fluid Simulation Featuring Surface Tension

Korean Title: 표면장력 효과를 부가한 레벨셋 가반의 유체 시뮤레이션

Advisor: Oubong Gwun

Year: 2014

Institution: Chonbuk National University - South Korea

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Degree: Computer Systems Engineering, Minor in Robotics and Artificial Intelligence

English Title: Intelligent System to Assist the Generation of Timetables for Computer Science Department of Universidad Poliécnica Salesiana

Spanish Title: Sistema Inteligente de Soporte en la Generación de Horarios Académicos para la Carrera de Ingeniería de Sistemas de la Universidad Politécnica Salesiana

Advisor: Rodrigo Tufiño

Year: 2011

Institution: Universidad Politécnica Salesiana - Ecuador

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