Author: GAEA Technologies
Posts
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How Artificial Intelligence Is Transforming Geotechnical & Environmental Engineering
Subsurface data has always been complex. Borehole logs, lithology descriptions, lab results, groundwater levels, geophysical curves, stratigraphic correlations — engineers manage thousands of data points for a single project. Now, Artificial Intelligence (AI) is beginning to change how that data is interpreted, validated, and leveraged for decision-making. For firms managing large geotechnical, environmental, or oil…
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How Do I Use Calculated Graph Columns in WinLoG?
In WinLoG, calculated graph columns provide a powerful way to derive new insights from raw borehole data by applying mathematical transformations to existing datasets. These columns are particularly useful for processing geophysical logs, such as converting raw gamma readings or calculating advanced geotechnical parameters from multiple source columns. Understanding Calculated Columns Calculated columns function by…
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An Overview of Phase I Environmental Site Assessments and How to Automate the Process
When it comes to commercial real estate, what you can’t see often matters most. Whether you’re a buyer, a lender, or a developer, a Phase I Environmental Site Assessment (ESA) is your first line of defense against “unpleasant and costly surprises” regarding soil or groundwater contamination. What is a Phase I ESA? A Phase I ESA is…
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How Do I Use Project Views to Display Cross-Sections in GaeaSynergy?
Creating a clear geological profile is essential for communicating complex subsurface data. In subsurface data. In GaeaSynergy, Project Views serve as the central hub where individual cross-sections (often generated in the WinFence module) are integrated with maps and 3D models for a comprehensive site overview. Steps to Display Cross-Sections in Project Views Initialize Your Project View To begin, you must create…
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How Can I Use Project Views in GDMS to Display Geotechnical Test Tables and Charts?
Managing complex laboratory tests and historical data across multiple projects can be a significant challenge for geotechnical engineers. The Geotechnical Data Management System (GDMS) by GAEA Technologies simplifies this by providing a centralized platform where test results aren’t just stored, but are fully integrated into the project’s visual landscape. Using Project Views within GDMS allows you to move beyond…
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How Can I Use GAEA Technologies Project Views to Display Lab Results from EDMS?
In the GAEA Technologies Environmental Data Management System (EDMS), project views serve as a critical bridge between raw laboratory data and professional environmental reporting. The system uses integrated tables and charts to transform Electronic Data Interchange (EDI) files into actionable visual insights. The creation and editing of project templates is covered in detail in the blog…
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How Do I Create and Edit Project Templates in GaeaSynergy?
Managing environmental data efficiently requires consistency. Templates allow you to standardize your workflow, ensuring that every member of your team adheres to the same reporting standards while saving hours of manual setup. Project Template are used to store common layouts for project views. These templates can be created and edited by the user. They specify…
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How Can I Use Monte Carlo Simulation in POLLUTEv10 to Manage Design Uncertainty?
Environmental modeling often requires dealing with parameters that cannot be predicted with absolute certainty. While standard deterministic models provide a single baseline, Monte Carlo Simulation in POLLUTEv10 allows you to account for randomness and variability in your inputs—such as soil porosity, source concentration, or hydraulic conductivity—to see a full spectrum of possible outcomes. By running thousands of…
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What Is Sensitivity Analysis in POLLUTEv10?
How can you effectively use sensitivity analysis in POLLUTEV10 to ensure your contaminant transport models are both accurate and reliable? In environmental engineering, professional modeling requires more than just a single result. Sensitivity analysis is a critical step in the modeling workflow, allowing you to determine how changes in your assumptions—such as hydraulic conductivity or sorption coefficients—impact…