查詢結果分析
來源資料
相關文獻
- Mesangial Lupus Nephritis (WHO Class Ⅱ) with Associated Nephrotic Syndrome: A Case Report and Review the Literature
- 狼瘡腎炎之診斷與治療
- 血漿置換術在狼瘡腎炎之臨床應用
- 腎絲球指紋狀沈積和紅斑性狼瘡及冷凝球蛋白血症的關係
- Does Image Time Affect Semi-Quantitative Result of Gallium-67 Renal Scan?
- Correlation between Anti-Ro/La Titers and Clinical Findings of Patients with Systemic Lupus Erythematosus
- Usefulness of Bowel Preparation in Gallium Renal Scintigraphy in Lupus Nephritis
- Laboratory Data and Gallium Image in Patients with Lupus Nephritis
- Long-Term Clinical Effects of Intermittent Intravenous Cyclophosphamide on Severe Lupus Nephritis
- 狼瘡腎炎的治療概況
頁籤選單縮合
題名 | Mesangial Lupus Nephritis (WHO Class Ⅱ) with Associated Nephrotic Syndrome: A Case Report and Review the Literature |
---|---|
作者姓名(中文) | 蘇正芳; 陳逸舟; 陳漢湘; 葉瑞圻; 許吉輝; 蔡建成; | 書刊名 | 內科學誌 |
卷期 | 10:6 1999.12[民88.12] |
頁次 | 頁246-250 |
分類號 | 415.812 |
關鍵詞 | 狼瘡腎炎; 膈細胞型腎炎; Mesangial lupus nephritis; Nephrotic syndrome; |
語文 | 英文(English) |
中文摘要 | 隨著電腦系統與網路的範疇及複雜度日增,異質性分散式系統(Heterogenous Distributed Systems)的設計與發展也日趨繁複。模組架構方法運用於軟體元件再使用(Software Component Reuse)的原理與圖型理論(Graph Theory)的分析,將軟體工程與物件導向技糐溶入 系統開發的過程中。目標是達到50%至80%的軟體元件再用率;對於大型系統(large-Scale Systems)的開發而言,將節省大幅的成本,而且可使開發出來的系統易於維護廣充。未來對 使用於廣域網路中的大型異質性分?式系統需求日殷,廣泛而有系統的運用軟的元件再使用 的原理,將可加速該類系統的開發、降低成本,而且可提昇系統間的相容性與系統開發者之 間的溝通。 本文將描述模組架構設計法,在軟體工程中所扮演的角色。未來我們使用模組架構設計 法(Framework-Based Design Methodology)做跨平臺異質性分散式環境下的系統開發測試,結 果再以軟體度量(Software Metrics)來與傳統的方法做比較。發展出來的方法可應用於大型系統 的開發或有系統的再生工程(Reengineering)。結果與經驗可經分析後回饋做為原方法改良與強 化的基礎。遠期將著重於支援工具的發展,使成熟後的方法成為整合性電腦輔助軟體工程 (Integrated CASE)的一部份。 |
英文摘要 | The development of large-scale distributed heterogeneous systems has been complicated by the advances and complexity of computer and network systems. The focus of this research is oriented toward the study and application of a framework-based approach that simplifies the design and development of large-scale software systems. The proposed approach is based on the notion of software reuse and graph theory. The aim is to integrate software engineering practices with object-oriented techniques in order to achieve large-scale reuse; i.e., 50% to 80% reuse efficiency. Higher-level of reuse means significant cost savings in the development of large-scale systems. Therefore, we have chosen distributed heterogeneous systems as our prototyping environment. The intent is to speed up the software development life cycle for these systems. The systems developed will also inherit the properties of scalability, extensibility and maintainability. In this paper, we will describe the role of our framework-based method in software engineering. The approach will be applied to cross-platform development of distributed heterogeneous systems. Software metrics can then be used to compare our approach with traditional methods. Our goal is to seek cooperation and collaboration with software developers on industrial-level software projects. These projects may create new systems or re-engineer legacy systems. The result and experience can then be fed back to refine our approach. In the long run, we will develop CASE tools that utilize our approach to automate high-level reuse in the design and development of large-scale software systems. |
本系統之摘要資訊系依該期刊論文摘要之資訊為主。