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적응적 MAP 선택을 통한 HMIPv6 네트워크의 성능 향상 알고리즘
정원식,이수경,Chung, Won-Sik,Lee, Su-Kyoung 한국통신학회 2006 韓國通信學會論文誌 Vol.31 No.11B
Hierarchical Mobile IPv6(HMIPv6) 네트워크에서 도메인간의 핸드오버(Inter-domain handover)가 발생할 때 Mobile Nodes(MNs)는 과도한 신호전달 트래픽과 긴 핸드오버 지연시간에 의해 영향을 받게 되고, 이로 인하여 유지하고 있는 연결들이 깨어질 수도 있다. 또, 전체적인 시스템 성능은 Mobile Anchor Point(MAP)의 선택 방법과 부하 상태에 따라 큰 영향을 받는다. 따라서 본 논문에서는 부하를 MAP들에 분산하면서 도메인간의 핸드오버를 감소시킬 수 있는 동적인 MAP 선택 알고리즘을 제안한다. 제안한 알고리즘의 성능 분석을 위하여 신호 전달 비용에 대한 분석적 모델을 수립하고 시뮬레이션을 수행하였다. 수치결과와 시뮬레이션 결과를 통하여 제안한 알고리즘이 IETF HMIPv6에 기반을 둔 기존의 방법에 비해 부하를 더 균형 있게 분산시키고, 도메인 간 핸드오버의 횟수와 평균 신호 전달 비용을 감소시킨다는 것을 확인할 수 있었다. In hierarchical mobile IPv6 networks, when an inter-domain handover occurs, mobile nodes suffer from excessive signaling traffic and long handover latency, resulting in possible disruption of ongoing connections. Further, the selection of MAP and its load status critically affect the overall system performance. Therefore, we propose a dynamic MAP selection scheme that seeks to distribute load among MAPs as well as reduces inter-domain handovers. Performance is evaluated from not only an analytic model of average signaling cost but also simulation. The analytical and simulation results show that our proposed scheme improves load distributedness and reduces inter-domain handovers and signaling cost compared to another existing IETF based approach.
벤조디아제핀 급성 중독에서 발생하는 흡인성 폐렴 위험 인자
정원식 ( Won Sik Chung ),차경만 ( Kyung Man Cha ),김형민 ( Hyung Min Kim ),정원중 ( Won Jung Jeong ),소병학 ( Byung Hak So ) 대한임상독성학회 2016 대한임상독성학회지 Vol.14 No.1
Purpose: Aspiration pneumonia is an important complication of drug intoxication with decreased mental status. The purpose of the study is to investigate the risk factors of aspiration pneumonia in the patients of benzodiazepine overdose with or without co-ingestion of other drugs. Methods: A retrospective chart review of patients who visited the emergency department between January 2012 and December 2014 was conducted. Demographic data, time from ingestion to visit, initial vital signs, symptoms, mental status, medical history, laboratory results, chest radiological findings and co-ingested medications were recorded. Multiple logistic analyses were performed to verify the association between variables and the development of aspiration pneumonia. Results: A total of 249 patients presented to the emergency department with benzodiazepine overdose. Aspiration pneumonia had developed in 24 patients (9.6%). Univariate analysis revealed time from ingestion to visit was longer, Glasgow coma scale score was lower, hypoxia was presented, leukocytosis was shown, types of ingested drugs was high, less activated charcoal was applied and tricyclic antidepressants was taken in patients that developed aspiration pneumonia. Time from ingestion to visit (odds ratio (OR) 1.121, 95% confidence interval (CI), 1.057- 1.189, p=0.000), GCS score (OR 0.724. 95% CI, 0.624-0.839, p=0.000), oxygen saturation (OR 0.895, 95% CI, 0.835-0.959, p=0.002), and co-ingestion of TCA (OR 4.595, 95% CI, 1.169-18.063, p=0.029) were identified as risk factors of morbidity of aspiration pneumonia upon multiple logistic regression analysis. Conclusion: Time from ingestion to visit, low GCS score, low oxygen saturation and co-ingestion of TCA were risk factors of the development of aspiration pneumonia in benzodiazepine overdose patients.
정원식(Won-Sik Chung),김이태(I-Tae Kim) 한국유체기계학회 2008 유체기계 연구개발 발표회 논문집 Vol.2008 No.-
The pneumatic garbage collection system is actually the only non-conventional method which is being implanted in many countries allover the world and which offers a new and completely different solution to the garbage collection problem in residential areas. The propose of this study is describe and analyse the optimal design factors of pipeline facilities on the pneumatic garbage collection system. It is evaluated that optimal pipe diameter and length are 400㎜ and 1.5㎞, and optimal pipe material and thickness are pressure steel pipe and over 7t, also coating material is over PE 3layer. If the optimal pipeline network analysis is applied to the optimize design process, it can be converted til advanced process in terms of the construction cost reduction and technology upgrade, simultaneously.
AMTEC내 저압용기에서의 열복사차단막 형상에 따른 발전량 향상 해석
정원식(Won-Sik Chung),Ri-Guang Chi,이욱현(Wook-Hyun Lee),이계복(Kye-Bock Lee),이석호(Seok-Ho Rhi) 한국산학기술학회 2016 한국산학기술학회논문지 Vol.17 No.7
열을 전기로 바꾸는 장치로 가장 효율이 우수한 장치인 AMTEC은 알칼리금속을 작동유체로 하여 열을 직접적으로 전기로 변환시키는 장치이다. AMTEC은 저압용기, 고압용기, 베타 알루미나 고체 전해질, 그리고 순환윅으로 이루어져있다. AMTEC에서의 열손실은 주요하게 저압용기에서의 BASE와 응축부 사이에서 발생하는 열복사손실이며, 암텍의 발전량은 BASE의 온도유지력에 영향을 받기에 BASE의 표면온도를 고온으로 유지시켜주어야 고효율 발전량은 일정하게 유지할 수 있다. 이를 위하여 저압챔버에서의 복사 열손실을 줄이고 BASE온도는 상승시키고, AMTEC 시스템의 발전량 향상을 위하여 저압용기 내부의 6가지 형태의 열복사차단막에 따른 출력을 전산유체해석을 통하여 분석하였다. 분석에서 최적의 열복사차 단막 형상은 수직부에 곡률을 가질 때이며, 그 때의 온도에 대한 무차원수(응축부온도/BASE온도 비)는 0.665 정도이고 출력 은 약 17.69 W 정도로 다른 형상에 대비하여 높은 발전량을 갖는 것으로 계산되었다. 높이에 따른 발전량의 차이에서는 수평 차단막이 BASE 상부로부터 멀리 떨어진 경우 발전량이 가장 우수하며, 17.58W 정도로 나타났다. 여러 개의 작은 홀과 다중 수평차단막을 설계한 경우는 기준이 되는 형상보다 오히려 발전량이 감소하였으며, 각각 0.91W, 2.06W 정도 감소하였다. The most efficient system for converting heat to electricity, AMTEC (Alkali Metal Thermal-to-Electric Convertor), is a device that directly converts heat energy to electricity using an alkali metal (sodium) as the working fluid. The AMTEC consists of a low pressure chamber, high pressure chamber, BASE (Beta-Alumina Solid Electrolyte), and artery wick. The main heat loss of the AMTEC system occurs in the low pressure chamber. A high power generation rate is thought to be obtainable by using a high temperature in the BASE. Therefore, to reduce the radiation heat loss, 6 types of radiation shields were examined to reduce the radiative heat loss in the low pressure chamber. The power generation rate of the AMTEC varied depending on the shape of the radiation shield. CFD (Computational Fluid Dynamics) analyses were carried out to optimize the shape of the radiation shield. As a result, the optimum radiation shield was found to consist of a curvature formed at the vertical point, in which case the dimensionless temperature (condenser temperature/BASE temperature) is approximately 0.665 and the maximum power generated is calculated to be 17.69W. Increasing the distance beween the BASE and condenser leads to an increase in the power generated, and the power generated with the longest distance was 17.58 W. The shields with multiple holes and multiple horizontal layers showed power reduction rates of 0.91 W and 2.06 W, respectively.