Computer Skills
- Computer Languages: Visual Basic, C/C++, Visual C++ with MFC and ATL, Java 2, J2EE, JDBC, Servlet, EJB, COM/DCOM, MTS, CORBA, OOD/OOP, FORTRAN, Assembly, MATHLAB.
- Web Skills: HTML, XML, JavaScript, JSP, VBScript, ASP, Serverside programming using VB, VC and Java, FrontPage, Visual InterDev.
- Database: Microsoft Access, Oracle 8i, SQL/PL SQL, Oracle Developer 2000, SQL Server.
- Operating Systems: Windows 2000/98/95, Unix, MS-DOS.
- Geographic Information System (GIS): ArcView with Avenue, GIS Atlas, ArcInfo, MapObjects.
Certifications
- Java 2 Programmer/Developer
- Oracle 8i Database Administration
Software Developed
- Reconstruction of Hydraulic Management in Water Distribution System Using POA and GA, Developed in Visual Basic and Visual C++, and Microsoft Access.
- Optimal Design of Groundwater Remediation System under Uncertain Conductivity, Developed in Visual C++, and Microsoft Access.
- Data Automation for Industrial Source Complex (ISC3), Developed in Visual Basic, GIS, and Microsoft Access.
- Risk Assessment for Exposure to Contaminant. Developed in Visual Basic, and Microsoft Access.
- ACTS: Analytical Contaminant Transport System Development Team Member. Developed in Visual Basic, Visual C++ and Microsoft Access.
- Optimal Design of Groundwater Remediation System. Developed in Visual Basic and Borland C++.
- Identification of Groundwater Contaminant Source Locations and Release Histories. Developed in C++.
- Flood Control Decision Support System (FcDDS). Developed Visual Basic, Oracle, and GIS, and funded by Committee of Electric Power Industry in Hunan Province, China.
- Database Management System of Hydroelectric Energy Resources. Developed in C/C++ and DBASE III, and funded by ministry of energy resources, China, for analysis and assessment of hydroelectric energy distribution and designing new stations. Developed in DBASE III and Fortran
- Optimal Monitor and Control Programming of Hydropower Stations System. Developed in C/C++ and Assembly and funded by ministry of energy resources, China, for optimal management of hydropower stations and electric network.
- Optimal Compensation Regulation of Electric Power System with Hydropower Stations. Developed in Fortran and DBASE III, and funded by ministry of energy resources, China, for optimal management of hydropower stations and electric network.
- Optimal Development Sequence of Cascade Hydroelectric Power Stations in Hongshui River, Developed in C/C++, and funded by ministry of energy resources, China.
- Optimal Development Sequence of Cascade Hydroelectric Power Stations in Wujiang River, Developed in C/C++, and funded by Committee of Wujiang River Management, China.