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신동화(DongHwa Shin),이세희(Sehi L’Yi),서진욱(Jinwook Seo) 한국정보과학회 2015 정보과학회 컴퓨팅의 실제 논문지 Vol.21 No.6
군집화 알고리즘은 그 종류에 따라 만들어낼 수 있는 군집의 종류와 보여줄 수 있는 정보의 수준이 차이가 난다. 밀도기반 군집화 알고리즘은 데이터 분포 상의 임의의 모양을 가진 군집을 잘 잡아내지만 보여줄 수 있는 계층정보가 매우 적거나 없는 수준이고, 반면 계층적 군집화 알고리즘은 자세한 계층 정보를 보여주지만 구 모양의 군집 외에는 잘 잡아내지 못한다. 이 논문에서는 이러한 두 군집화 방식의 대표적 알고리즘인 OPTICS와 응집 계층 군집화 알고리즘의 장점만을 취하는 계층 발생 프레임워크를 제시하고 이와 더불어 효과적 데이터 분석을 위한 여러 시각화, 상호작용 기법을 지원하는 시각적 분석 애플리케이션을 제공한다. There are many types of clustering algorithms such as centroid, hierarchical, or density-based methods. Each algorithm has unique data grouping principles, which creates different varieties of clusters. Ordering Points To Identify the Clustering Structure (OPTICS) is a well-known density-based algorithm to analyze arbitrary shaped and varying density clusters, but the obtained clusters only correlate loosely. Hierarchical agglomerative clustering (HAC) reveals a hierarchical structure of clusters, but is unable to clearly find non-convex shaped clusters. In this paper, we provide a novel hierarchy generation framework and application which can aid users by combining the advantages of the two clustering methods.
간결한 예측 모형에 기반한 납축전지의 정전류-정전압 충전시간 특성화
한정견,신동화,Han, Jeong-gyeon,Shin, Donghwa 대한임베디드공학회 2016 대한임베디드공학회논문지 Vol.11 No.5
Modern embedded systems are typically operated by the rechargeable batteries in our daily life. Since charge of batteries is considered as an time consuming task, there have been extensive efforts to manage the charge time from the perspective of materials, circuits, and systems. Estimation of battery charge time is one of the essential information to design the charge circuitry. A compact macro model for the constant-current and constant-voltage charge protocol was recently introduced, which gives us a quick estimation of charge time with similar shape to the famous Peukert's law for discharge time estimation. The CC-CV charging protocol is widely used for Lithium-based batteries and Lead-acid batteries. In this paper, we characterize the lead-acid battery by measurement to extract the model coefficients, which was not covered by the previous studies. By our proposed model, the key coefficient Kcc results in 1.18-1.31, which is little bit higher than that of Lithium batteries. The accuracy of our model is within the range of ${\pm}10%$ error, which is compatible with the other studies such as Peukert's law.