Applying the agile method to the architecture of disaster prevention and rescue
| Autor: | Wu, Chueh-Yu, 吳爵伃 |
|---|---|
| Rok vydání: | 2012 |
| Druh dokumentu: | 學位論文 ; thesis |
| Popis: | 100 Modern Earth is facing the elusive climate and environment change such that the human beings have not been able to resist the advent of natural disasters. The rapid response to the disaster is the important work around the every government in the world. The purpose of this thesis is to apply the agile method to the architecture of the disaster prevention and rescue and to validate a core of the command and control (C2) system via a study case. We use the agile method and Xupper tool to develop the C2 system adaptive to each unit of the disaster prevention and rescue for the following reasons: 1. The numerous developments of the disaster prevention and rescue system for the central government and each local government under the global plan, 2. The numerous developments of the disaster prevention and rescue system for the multiple disasters in the Taiwan area, 3. The revolution of the as-is disaster and prevention and rescue system for the effectiveness improvement changed by the user requirement of each level of the government, and 4. The single type of the disaster prevention and rescue system rapidly upgrades to another type. The Xupper is a visual software system development tool that can be regarded as a computer-aided software engineering (CASE) tool. Therefore, we use its graphical fuction to represent the system architecture to advoid the conceptual inconsistency. Because the past tradictional development process is long, our study in this thesis architects the disaster prevention and rescue system with the agile method and Xupper. After finishing the architecture, the plan, analysis and design time will be reduced largely. In this study use definitions to specify the base model of disaster prevention and rescue based on the risk triple expression by the Kaplan and Garrick. The agile methd of this thesis is validated by the user requirement change of add, delete, update and quiry for the disaster prevention and rescue via the Xupper DLCP (Data Life Cycle Procedure) use. Finally, we design a practical example of the core architecture of the disaster prevention and rescue step by step in the following eight tools of Xupper: Data Life Cycle Procedure, Data Dictionary, Process Entity Matrix, Business Flow Diagram, Entity Relationship Diagram, Screen Design, Business Rule and Process Structure Diagram. |
| Databáze: | Networked Digital Library of Theses & Dissertations |
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