http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
한국 기독교사회복지실천학의 의미에 관한 탐색적 고찰 : 김덕준, 박종삼, 이부덕의 기독교사회복지 사상을 중심으로
이준우 ( Junwoo Lee ) 한국기독교사회복지실천학회 2024 기독교 사회복지 Vol.6 No.0
본 연구는 김덕준(1919-1992), 박종삼(1933-현재), 이부덕(1939-현재)의 사회복지사상 속에 담겨진 기독교사회복지실천 담론을 고찰하면서 한국 기독교사회복지실천학의 의미와 과제를 살펴보는 데 목적을 둔다. 바로 한국 기독교사회복지실천학의 선구적 학자라 할 수 있는 김덕준, 박종삼, 이부덕의 기독교사회복지 사상을 통해 기독교사회복지실천학의 본질과 의미, 그에 따른 학문으로서의 과제에 대해 살펴보려는 것이다. 연구방법은 김덕준, 박종삼, 이부덕의 행적과 연구 및 교육 행위 등과 관련된 세 사람의 저서와 연구, 인터뷰 및 만남의 결과물, 참여관찰 내용물, 각종 사진 및 언론과 미디어 게재 자료 등을 분석 대상으로 삼았다. 자료분석 방법은 통합적 문헌고찰 방법을 사용하였다. 연구 결과, 세 사람으로부터 도출된 기독교사회복지실천학으로서의 의미는 첫째, 사회적 섬김을 지향하는 생명 존중의 기독교사회복지실천학, 둘째, 사회적이며 공공적인 ‘실천과 교육 공간’으로서의 기독교사회복지실천학, 셋째, 공감과 공생의 기독교사회복지실천학이었다. 이 세 사람의 학문적 지향성을 계승하기 위한 기독교사회복지실천학의 과제는 첫째, 사회문제를 해결하는 창의적 상상력의 발휘, 둘째, 지역사회의 필요와 욕구에 기초하기, 셋째, 공동체적 기독교 영성 운동활성화, 넷째, 미시ㆍ중범위ㆍ거시를 아우르는 영성적 사회복지실천의 확대로 제시하였다. 본 연구를 통해 발견한 시사점으로는, 김덕준, 박종삼, 이부덕의 기독교사회복지 사상과 이론은 한국기독교사회복지실천이 실현해야 할 구체적인 내용들을 기획함과 동시에 그와 같은 기획들을 비판하는 개념적 틀로 작용하고 있었다는 것이다. 이는 아직도 김덕준과 박종삼, 이부덕의 학문적 성과가 계승되지 못하고 있음을 의미한다. This study aims to examine the discourse of Christian social welfare practice embedded in the thoughts of Deok Joon Kim (1919-1992), Jong Sam Park (1933-present), and Boo Duck Lee (1939-present), exploring the significance and challenges of Korean Christian social welfare practice. Specifically, it seeks to investigate the essence and meaning of Korean Christian social welfare practice and the academic tasks that follow, through the Christian social welfare thoughts of Deok Joon Kim, Jong Sam Park, and Boo Duck Lee, who can be considered pioneering scholars in Korean Christian social welfare practice. The research method involved analyzing the writings, research, and educational activities of the three individuals, as well as the results of interviews and meetings, participant observations, various photographs, and media materials. The method of data analysis employed the integrative literature review method. The research findings reveal that the meaning of Christian social welfare practice derived from these three individuals encompasses: firstly, Christian social welfare practice that values life and respects social service; secondly, Christian social welfare practice as a social and public space for action and education; and thirdly, Christian social welfare practice based on empathy and symbiosis. The tasks of Christian social welfare practice to continue the academic orientation of these three individuals include: fostering creative imagination to solve social problems, basing actions on the needs and desires of local communities, activating communal Christian spiritual movements, and expanding spiritual social welfare practices that encompass micro, meso, and macro levels. A key implication uncovered through this study is that the Christian social welfare thoughts and theories of Deok Joon Kim, Jong Sam Park, and Boo Duck Lee serve both to conceive concrete contents that Korean Christian social welfare practice should embody and to provide a conceptual framework for critiquing such conceptions. This indicates that the academic achievements of Deok Joon Kim, Jong Sam Park, and Boo Duck Lee have yet to be fully inherited.
( Junwoo Lee ),( Byoung-soo Choi ),( Donghyun Seong ),( Jewon Lee ),( Sang-hwan Kim ),( Jimin Lee ),( Jang-kyoo Shin ),( Pyung Choi ) 한국센서학회 2018 센서학회지 Vol.27 No.6
A complementary metal oxide semiconductor (CMOS) binary image sensor is proposed for low-power and low-noise operation. The proposed binary image sensor has the advantages of reduced power consumption and fixed pattern noise (FPN). A gate/body-tied (GBT) p-channel metal-oxide-semiconductor field-effect transistor (PMOSFET)-type photodetector is used as the proposed CMOS binary image sensor. The GBT PMOSFET-type photodetector has a floating gate that amplifies the photocurrent generated by incident light. Therefore, the sensitivity of the GBT PMOSFET-type photodetector is higher than that of other photodetectors. The proposed CMOS binary image sensor consists of a pixel array with 394 (H) × 250 (V) pixels, scanners, bias circuits, and column parallel readout circuits for binary image processing. The proposed CMOS binary image sensor was analyzed by simulation. Using the dynamic comparator, a power consumption reduction of approximately 99.7% was achieved, and this performance was verified by the simulation by comparing the results with those of a two-stage comparator. Also, it was confirmed using simulation that the FPN of the proposed CMOS binary image sensor was successfully reduced by use of the double sampling process.
열분석을 이용한 BKNO<SUB>3</SUB> 화약의 장기노화 및 기작예측
이준우(Junwoo Lee),김태완(Taewan Kim),이주현(Joohyeon Lee),편임옥(Limok Pyeon),이승복(Seung Bok Lee),박태호(Taiho Park) 한국추진공학회 2016 한국추진공학회 학술대회논문집 Vol.2016 No.5
파이로 작동기구의 핵심 화약 중 하나인 BKNO3에 대한 장기노화 기작예측을 위하여 thermogravimetric analysis (TGA), differential scanning calorimetry (DSC) 분석 그리고 상업적인 소프트웨어 “Advanced Kinetics and Technology Solution (AKTS)” 프로그램을 이용하였다. Viton을 사용하는 ZPP와 THPP와는 다르게 BKNO3는 Laminac이라는 고분자 바인더를 이용하고 있다. BKNO3 화약의 DSC 분석결과로서 폭발반응에 관여하는 산화반응보다 Laminac의 분해 발열반응이 먼저 일어나는 것을 확인했다. 이 발열반응을 AKTS로 분석한 결과, 120℃ 이상의 고온에서도 상당히 지연된다는 것을 확인하였다. 이는 높은 활성화 에너지와 높은 Laminac의 분해온도 때문으로 여겨진다. Mechanism in aging of BKNO3 (a core initiator in pyrotechnic mechanical device (PMD)) has been predicted using a commercial software (Advanced Kinetics and Technology Solutions (AKTS). The thermodynamic and kinetic data to compute the mechanism in aging were obtained from thermogravimetric analysis (TGA) and differential scanning calorimetry (DSC). BKNO3 employs Laminac as a polymer binder. DSC experiments reveal that exothermic reaction related to Laminac decomposition occurred prior to that of oxidation associated with explosion of BKNO3. The exothermic reaction of Laminac was delayed even at the high temperature (~120 ℃). It may be attributed to high decomposition temperature and activation energy of Laminac.
Economic optimization of hydrogen fuel cell bicycle performance based on driving style analysis
Subin Lee(이수빈),Jeongyeon Choi(최정연),Junwoo Jung(정준우),Jewon Lee(이제원),Sebeom Lee(이세범),Junsang Kim(김준상),Byungchan Bae(배병찬),Seungwoo Lee(이승우),Jinhan Jeon(전진한),Kyeongmo Bang(방경모),Sejin Park(박세진),Ocktaeck Li 한국생산제조학회 2024 한국생산제조시스템학회 학술발표대회 논문집 Vol.2024 No.7
Low-Powered pH-Stable Nano-electrokinetically Enhanced Lateral Flow Assay for COVID-19 Antigen Test
Kim Kang Hyeon,유용경,Lee Na Eun,Lee Junwoo,Kim Cheonjung,Lee Seungmin,Kim Jinhwan,Park Seong Jun,Lee Dongtak,이상원,Kim Hyungseok,허돈,Yoon Dae Sung,Lee Jeong Hoon 한국바이오칩학회 2023 BioChip Journal Vol.17 No.3
Lateral fl ow assay (LFA) is a popular diagnostic system used in point-of-care testing (POCT) due to its low cost and portability. However, LFA has limited sensitivity and detection limits, making it challenging to detect low virus titers. Preconcentration through nano-electrokinetic (NEK) techniques have been proposed as a promising solution to improve the sensitivity of LFA. Nevertheless, the acidic conditions used in NEK operations may reduce the specifi city and sensitivity of LFA immunoassays. To address these limitations, an integrated LFA kit, the NEK-enhanced LFA (PcNEK–LFA), has been introduced. This kit features a pH-controlled structure designed to facilitate sample preconcentration. Biomarkers and AuNPs are electrokinetically preconcentrated in the PcNEK–LFA platform to increase the concentration of the test line and Ag–Ab binding events, resulting in enhanced performance. The pH-controlled PcNEK–LFA platform was evaluated using salivary human chorionic gonadotropin beta (β-hCG) and COVID-19 Ag samples, achieving a preconcentrating factor of approximately 10 and a sensitivity enhancement of 55.42%, and a preconcentrating factor greater than 10, respectively. The pH-controlled PcNEK–LFA platform provides an eff ective solution to overcome the limitations of LFA for POCT. In addition, it improves its sensitivity and detection limit, signifi cantly enhancing the accuracy and reliability of POCT, particularly for COVID-19 screening tests. As a result, this platform may play a pivotal role in addressing current and future healthcare challenges, facilitating rapid diagnosis and treatment of infectious diseases.