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Kim YoungHwan,Ahmad Nur Fadli APEC국제교육협력원 2014 Asia-Pacific Cybereducation Journal Vol.10 No.2
As an economy with archipelago contour and one of the largest populations in the world, Indonesia faces specific challenges in utilizing ICT for education nationwide. The present study provides a systematic categorization of such challenges into four categories based on Kim YoungHwan’s categorization of ICT utilization challenges, and then breaks down such categories into more explanatory sub-categories, along with order of frequency. Hence, this study aims at systematically describing challenges in utilizing ICT in Indonesia.
Trade and Strategic Trade Policy in the Case of Spillover Learning-by-Doing
Young-Hwan,Lee,Sung-Kyu,LEE 한국무역학회 2007 Journal of Korea trade Vol.11 No.3
We consider the optimal subsidy policy under different assumptions on the firms and government s behaviors: precommitment equilibrium and sequential equilibrium. In the presence of spillover learning-by-doing, positive subsidies may not be justified when the home firm behaves strategically against the foreign firm and the home government. The home firm has additional incentives to increase output in the first period: through the pure learning ‐-by-doing effect, strategic effect against the foreign firm, strategic effect against the home government, and inward spillover effect. This implies that the home firm has an incentive to utilize pure learning -by-doing to improve the home firm s future strategic position in competition with the foreign firm, to increase the subsidy, and to benefit from the inward spillovers. On the other hand, the home government has an incentive to offset the strategic behaviors by the home firm: to offset the home firm in the first period to restrain home firm from over-producing strategically against the foreign firm and against the home government, and to reduce inward spillover effect.
김영환(주저자) ( Kim Younghwan(주저자) ),김영환(교신저자) ( Kim Younghwan(교신저자) ) 디자인융복합학회 2023 디자인융복합연구 Vol.22 No.6
인간의 문명사회에서 필수적으로 착용하는 제품인 신발은 오랜 시간 동안 착용하고 걸어 다니면서 신발의 내부가 족부에서 발생하는 땀 그리고 세균으로 오염되며, 발을 감싸고 있는 구조적 한계점으로 인해 내부 통풍이 원활하지 않다. 이에 본 연구는 슈 트리 풋 헬스케어 디바이스를 개발하여 족부에 의해 오염된 신발의 내부 환경을 쾌적하고 청결하게 만듦으로써 사용자의 족부 건강 증진 및 삶의 질 개선에 목적을 두고 있다. 해당 디바이스 개발을 위해 한국인 및 전 세계 남성의 평균 발 크기를 조사하였으며, 이를 통해 신발 형태의 왜곡 방지와 세균 및 습기 제거가 용이한 디바이스를 개발하였다. 본 디바이스는 전·후면 두 조각으로 구성되며, 전면부는 살균 및 건조의 기능이 있는 UV LED와 모터 및 날개로 구성되어 있고, 후면부는 습도표시부와 제어부로 구성된다. 본 디바이스의 사용성 실험결과, 1시간 30분 만에 72%의 습도에서 31%까지 낮춘 데 반해, 전통적인 슈 트리는 동일한 시간 동안 42%에 머물러 본 연구에서 개발한 디바이스의 활용성을 검증하였다. 본 연구에서는 전통적인 슈-케어 방법과 첨단 기능을 통한 방법으로 족부 건강에 도움이 될 수 있는 다기능 융복합 디바이스를 개발하였다. Footwear, a crucial element of contemporary life, often traps sweat and harbours bacteria due to limited ventilation during prolonged use. This study introduces the Shoe-Tree Foot Healthcare Device, meticulously designed to establish a hygienic environment within shoes contaminated by foot-related elements, ultimately promoting overall well-being. The development of this device involved a comprehensive global·national survey focusing on average foot sizes among men. It was engineered to counter structural shoe distortions while efficiently eliminating bacteria and moisture. Comprising front and rear sections, the front segment integrates a UV LED for sterilization and drying, along with a motor equipped with a fan. Simultaneously, the rear section features a humidity display and a control module. Empirical testing demonstrated a remarkable 31% reduction in humidity within 1 hour and 30 minutes, surpassing the 42% achieved by traditional shoe-trees. This research has yielded a versatile device, merging traditional shoe-care practices with cutting-edge technology for comprehensive foot-care.
Fine Powders Removal/Recover System Development for Porous U3O8 Pellets in Head-End
Younghwan Kim,JaeWon Lee,Seckmin Hong,JuHo Lee,ChangHwa Lee 한국방사성폐기물학회 2022 한국방사성폐기물학회 학술논문요약집 Vol.20 No.1
Dry head end process is developing for pyro-processing at KAERI (Korea Atomic Energy Research Institute). Dry processes, which include disassembly, mechanical decladding, vol-oxidation, blending, compaction, and sintering shall be performed in advance as the head-end process of pyroprocessing. An important goal of the head-end process is the fabrication of a proper feed material for the subsequent electrolytic reduction process. In the vol-oxidation process, the pellet type-SFs are pulverized by an oxidation under an air-blowing condition, and some volatile fission products are removed from the produced powders by using an air flow. After blending, the U3O8 powders are moved to a compactor of compaction process to obtain U3O8 porous pellets. In the fine powders removal system connected with compactor, for the improved performance of oxide reduction process coupled to dry head-end process, the removal/recovery system for fine powders potentially attached to the surface of oxide reduction raw material was developed and applied to the removal of fine powders from green pellets fabricated in dry head-end process. The removal efficiency of fine powders was also verified using porous U3O8 pellets in the fine powders removal system.