Service-Oriented Distributed Hydrological System with Continuous Integration
Large dedicated distributed systems such as that used for estimating river runoff or dam-break flood emergency management system often requires a long iterative process of analyzing,processing and simulating various types of data from the model.The software architecture must be stable,efficient and easy to maintain,In order to meet all of these criteria,this paper proposes a Service-Oriented Architecture for the Distributed Hydrological System,and proposes a Continuous Integration method to dynamically update the system.The method identifies a process of compilation,test,deployment database integration,that requires automation,to creating a dynamic software environment,Scientists can easily add new models in system by publishing new services without the assistance of developers,and system will automatically generate interfaces for them,configure the database support and create visual simulation.The practical application shows that this method can reduce risks and repetitive manual processes,generate deployable software at any time and at anyplace,enable better project visibility,and establish greater confidence.
SOA Continuous Integration Distributed System hydrology System Distributed Computing
Yi Liu Jianzhong Zhou Li Liao Lixiang Song Qiang Zou
School of Hydropower and Information Engineering,Huazhong University of Science and Technology Schoo School of Hydropower and Information Engineering,Huazhong University of Science and Technology
国际会议
太原
英文
354-358
2011-02-26(万方平台首次上网日期,不代表论文的发表时间)