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APPLICATION OF INFORMATION TECHNOLOGY IN GEOTECHNICAL ENGINEERING

APPLICATION OF INFORMATION TECHNOLOGY IN GEOTECHNICAL ENGINEERING. Objectives. Knowledge-based Technology Precision of Design Products & Dynamic Design Concepts High Performance On-line Computing Tools for Reengineering Global Awareness & Information Exchange Value-added Ecosystem.

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APPLICATION OF INFORMATION TECHNOLOGY IN GEOTECHNICAL ENGINEERING

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  1. APPLICATION OF INFORMATION TECHNOLOGY IN GEOTECHNICAL ENGINEERING

  2. Objectives • Knowledge-based Technology • Precision of Design Products & Dynamic Design Concepts • High Performance On-line Computing • Tools for Reengineering • Global Awareness & Information Exchange • Value-added Ecosystem

  3. Application of Information Technology in Geotechnical Engineering • System Design • Technical Architecture • Application Design and Architecture • Illustration by Examples

  4. System Design

  5. Technical Architecture • Platform Independence • Scalability • Accessibility • Security • Reliability

  6. Application Design & Architecture Controller View Model • 1. Templates • Tree Maker • Form Maker • Table Maker • 2. JSP Resources • Request Handlers • Controlling Servlet • User Contexts • Data Service Components • Processing Components • Unit Converter

  7. Application Architecture And Application Design

  8. Geotechnical Engineering Applications • Earthquake and Liquefaction Data • Evaluation of Liquefaction Potential • Typical Geotechnical Design Modules • Report Generation

  9. Data Maintenance and Site NavigationModule Earthquake and Liquefaction Data

  10. Site Search Categories • Location, Latitude, Longitude & Seismic Zone • Name, Magnitude, Max. Acceleration & Year of the Earthquake • Liquefaction Assessment Criteria: Shear Wave Velocity Approach Arias Intensity Approach Evaluation Based on CPT & SPT Optimum Seeking Method

  11. Evaluation of Liquefaction Potential • Seismic Shear-Stress Ratio and CPT Tip Resistance Approach • Factor of Safety based on Cyclic Stress Ratio and Cyclic Resistance ratio using CPT & SPT • Liquefaction Potential Index Method using CPT

  12. Evaluation of Liquefaction Potential

  13. Typical Geotechnical Engineering Design & Analysis Module

  14. Report Generation • Configurable Templates: Project Description Site Information Lab Data & Back-Calculated Values Design & Analysis Results Recommendations • Editable Report • Graphics and Tabular Presentation • Print Friendly Format

  15. Summary • Planners • Designers • Consultants • Research Development Professionals • Regulatory Agencies

  16. Conclusions • Global Awareness • Free Information Exchange • Value-added Ecosystem

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