Specifications

Issue: 6

Issue date: December 2012

Publication year: 2012

Pages: 89-95

Language: Chinese

ISSN: 10031243

Document type: Journal article (JA)

Publisher: Tsinghua University Press, Beijing, 100084, China

Abstract: This paper designs and develops a component-based hydrological application

integration platform (CHAIP) of flood control to implement standardization of hydrological

information processing and application integration on this platform, avoiding disadvantages of

the existing system, hard to integrate multi-source information and single mode of

representation in flood control. The platform adopts key techniques of component-based coding,

object-oriented language, framework, and three-dimensional simulation. Its architecture consists

of a data layer, a server layer, an application layer and a client layer; different functional models

at the application layer are designed separately with a modularization idea. Application in a case

study of flood control in Shaanxi province shows that the platform is good in extendibility,

three-dimensional performance and real-time application, and very easy to operate. Thus, CHAIP

provides a support to processing, analysis and decision making in flood control with a good

prospect in applications. © copyright.

Number of references: 12

Main heading: Flood control

Controlled terms: Data processing - Floods - Integration - Modular construction

Uncontrolled terms: Application integration - Application layers - Component

based - Data layer - Design and Development - Existing systems - Functional model

- Information integration - ITS architecture - Key techniques - Modularizations -

Multisources - Object-oriented languages - Real-time application - Single mode -

Three dimensional simulations

Classification code: 405.2 Construction Methods - 454.1 Environmental Engineering,

General - 723.2 Data Processing and Image Processing - 914.1 Accidents and Accident

Prevention - 921.2 Calculus

Database: Compendex

Accession number: 20130415918174

Title: Effect of growth gas flow rate on the SiC crystal resistivity

Authors: Lin, Shenghuang1 ; Chen, Zhiming1/林生晃;陈治明

Author affiliation:

1 Department of Electronic Engineering, Xi'An University of Technology, Xi'an 710048, China

Corresponding author: Lin, S. (shenghuanglin@163.com)

Source title: Journal of Materials Research

Abbreviated source title: J Mater Res

Volume: 28

Issue: 1