+ All Categories
Home > Documents > Hydro GeoAnalyst 2010.1 Demo Tutorial...

Hydro GeoAnalyst 2010.1 Demo Tutorial...

Date post: 27-Aug-2018
Category:
Upload: dongoc
View: 224 times
Download: 0 times
Share this document with a friend
88
Hydro GeoAnalyst 2010.1 Demo Tutorial Guide Database Utilities, Borehole logging/reporting, Plotting, 2D Mapping and Cross Sections, and 3D Visualization © Copyright , Schlumberger Water Services
Transcript

Hydro GeoAnalyst 2010.1

Demo Tutorial GuideDatabase Utilities, Borehole logging/reporting, Plotting, 2D Mapping

and Cross Sections, and 3D Visualization

© Copyright , Schlumberger Water Services

Table of Contents1. Introduction to Hydro GeoAnalyst ............................................. 1

Flexibility ...................................................................................................................................1Scalability ..................................................................................................................................1Expandability .............................................................................................................................1Interface to Visual MODFLOW and other SWS Software .......................................................2Sample Applications ..................................................................................................................2

What’s New in Hydro GeoAnalyst ..................................................................................3New Features in Version 2010.1 ...............................................................................................3

About the Interface ...........................................................................................................4Starting Hydro GeoAnalyst .......................................................................................................4Data Tabs ...................................................................................................................................5

Stations List Tab ............................................................................................................................... 5Data Query Tab ................................................................................................................................ 5Station Data Tab ............................................................................................................................... 5

Main Menu Bar ..........................................................................................................................6Toolbar .......................................................................................................................................6Project Browser .........................................................................................................................8

Station Groups .................................................................................................................................. 8Station Data (Data Categories) ......................................................................................................... 8Queries .............................................................................................................................................. 9Crosstab ............................................................................................................................................ 9Maps ................................................................................................................................................. 9Cross-Sections .................................................................................................................................. 9Reports .............................................................................................................................................. 93D Views .......................................................................................................................................... 9Borehole Log Plotter ........................................................................................................................ 9Plots ................................................................................................................................................ 10

2. Demonstration Exercise ............................................................. 11Terms and Notation ........................................................................................................................ 11

Downloading the Hydro GeoAnalyst Demo Project ....................................................13Opening and Viewing the Demo Project .......................................................................14

Station Groups .........................................................................................................................15Sorting Records .............................................................................................................................. 16

Viewing Station Data ...............................................................................................................16Manual Data Entry ......................................................................................................................... 16Importing Data ................................................................................................................................ 16

Lab Data Quality Control (QC) ...............................................................................................21Querying the Database ...................................................................................................26

Overview .................................................................................................................................26Creating a Data Query .............................................................................................................26

© Copyright, Schlumberger Water Services

Crosstab Queries ......................................................................................................................31Time Series Plots .............................................................................................................34

Overview .................................................................................................................................34Creating a New Plot Page Design ............................................................................................35

Adding a Plot .................................................................................................................................. 36Mapping Fields ............................................................................................................................... 36

Saving Plot Template ...............................................................................................................38Saving and Exporting ..............................................................................................................38

GIS Map Manager ..........................................................................................................38Overview .................................................................................................................................38Creating a New Map Layer with a Data Query .......................................................................41Creating a Contour Map ..........................................................................................................41Creating a Thematic Map ........................................................................................................44Adding Time-Series Plots .......................................................................................................46Saving and Printing .................................................................................................................51Features in Map Manager ........................................................................................................52

Cross-Section Editor .......................................................................................................53Overview .................................................................................................................................53Intersecting Layers ..................................................................................................................56Create Topography Lines from Surface Layers ......................................................................57Display Borehole Log Plot ......................................................................................................58Saving and Printing .................................................................................................................59

3D Visualization with HGA 3D-Explorer .....................................................................60Overview .................................................................................................................................60

Navigation Tools ............................................................................................................................ 633D Plume Visualization ...........................................................................................................64

Record AVI File ............................................................................................................................. 66Saving and Printing .................................................................................................................67

Borehole Log Plotter .......................................................................................................68Overview .................................................................................................................................68Viewing BHLP Templates .......................................................................................................69Add Multiple Well Casings & Piezometers ............................................................................70Saving and Printing .................................................................................................................71

Report Editor ..................................................................................................................73Overview .................................................................................................................................73Creating Data Summary Report ..............................................................................................74Saving and Printing .................................................................................................................78Generate Sample Barcodes ......................................................................................................78

User Access Management ...............................................................................................79Overview .................................................................................................................................79

© Copyright, Schlumberger Water Services

1Introduction to Hydro GeoAnalyst

Hydro GeoAnalyst (HGA) developed by Schlumberger Water Services, represents the next generation in groundwater and borehole data management and visualization technology. Hydro GeoAnalyst integrates a complete range of easy-to-use analysis and reporting tools, with a powerful yet extremely flexible database technology - all wrapped into an innovative graphical user interface. With Hydro GeoAnalyst, you can expect the highest level of performance and a completely scalable solution to meet your project demands! Hydro GeoAnalyst offers the first truly ALL-IN-ONE SOLUTION!

FlexibilityOne of the most impressive features offered by Hydro GeoAnalyst is it's ability to handle virtually ANY database structure. We call this core flexibility. Core flexibility relates to the design and structure of the database, and Hydro GeoAnalyst's ability to seamlessly translate your data to the GUI. Hydro GeoAnalyst is available to import both your database structure, and datum, fast and efficiently.

ScalabilityBuilt on Hydro GeoAnalyst's core flexibility, users have the ability to expand the scope, size, and structure of their database at any point in the project - a major limitation found with other similar database solutions. Hydro GeoAnalyst allows you to add or remove tables and fields, design unlimited numbers of lookup tables, define unlimited number of soil specifications, and even export the modified database structure for use in new projects. Hands-down, Hydro GeoAnalyst is the most advanced environmental database solution available in the market today.

ExpandabilityHydro GeoAnalyst is ready to go with three standard templates/data models. These include:

1

• SWS’s own Environmental Database Template (designed for groundwater data management, expands U.S. EPA Regions 2 & 5 standards),

• Ontario's Ministry of Environment's Water Well Information System Template (designed for management of water well records), and

• U.S E.P.A. Regions 2 & 5 Environmental Data Models (designed for environmental data management)

In addition, Hydro GeoAnalyst is completely expandable, giving you the ability to incorporate your own corporate or regulatory templates/data models, or simply create a new one on-the-fly right within the GUI. All templates/data models can be saved for future use so you only need to define the structure once. With all this flexibility, Hydro GeoAnalyst can be used to manage data for:

• Air Quality• Ecological• Geographic• Agricultural• Oceanographic • Hydrologic• Climatologic • Surface Water/Watershed

Interface to Visual MODFLOW and other SWS SoftwareESRI GIS (*.SHP) files and databases have become two of the main sources of data for groundwater models, and Hydro GeoAnalyst makes it easier to incorporate these data formats directly into your model. In addition, Hydro GeoAnalyst, through the use of the cross-section editor, enables you to create and export layers resulting from 3D Model interpretations of your geological data in the database.

Both AquaChem and Aquifertest can be launched directly from the Hydro GeoAnalyst interface, for water quality analysis and pumping test analysis, respectively.

Sample ApplicationsThe following are some sample applications for Hydro GeoAnalyst:

• Managing Data for Municipal, State, & National Groundwater Monitoring Networks

• Managing Data Associated with Remediation Projects• Managing Well Construction Details and Registration Information• Analyzing Borehole Data Acquired for Mineral Exploration• Interpreting Geologic & Hydrostratigraphic Data• GIS Mapping & Reporting of Aquifer Extents and Geologic Formations• Storing Sanitary Landfill Monitoring Data• Evaluating & Reporting the Spatial Distribution of Water Quality Parameters

2 Chapter 1: Introduction to Hydro GeoAnalyst

• Groundwater Vulnerability Assessment & Protection Planning• Reporting Downhole Data (Borehole Lithology, Geophysics, Concentrations,

etc.)

1.1 What’s New in Hydro GeoAnalystThe main interface for Hydro GeoAnalyst has much of the same user-friendly look and feel as the previous version, but with some significant improvements to features. Some of the more significant upgrade features in the latest version of Hydro GeoAnalyst are described below.

New Features in Version 2010.1In addition to various bug fixes and enhancements, the following features were implemented in Hydro GeoAnalyst 2010.1.

Display gridded surface data on Cross Sections

Gridded surface data can now be displayed on cross section interpretations. Surface data can be used to show the relationship between interpretation layers and numerical model layers, or for showing interpolated subsurface features such as the water table.

Integrate with Isatis™ geostatistics software

The HGA Map Manager provides a direct link to Isatis™ allowing you to perform in-depth data analysis and interpolation using advanced geostatistical techniques.

Improved labeling on Maps and Cross Sections

Hydro GeoAnalyst now provides more flexibility and control for displaying point labels on the maps and cross sections. With the new label renderer you can show a primary and secondary label, prepend and append text, set the desired rotation and specify the default label placement.

Support for Microsoft Office 2007

Import data from Excel 2007 (.xlsx) worksheets and Access 2007 (.accdb) databases.

What’s New in Hydro GeoAnalyst 3

1.2 About the Interface

Starting Hydro GeoAnalystTo launch Hydro GeoAnalyst, double-click on the desktop icon, or by accessing SWS Software from your Start > Programs Windows menu.

When Hydro GeoAnalyst is first loaded, a blank window will appear indicating no project is loaded. To create a new project, select Project / New; to open an existing project, select Project / Open. A sample dataset is shown below along with the well profile. The well profile is not loaded by default. To activate it, select View / Well Profile and select one of the Borehole Log Plotter (BHLP) templates discussed later.

The Hydro GeoAnalyst Graphical User Interface is composed of several controls:

Data Tabs: Provides access to the various parts of the database including the Station List, Data Query, and Station Data.

Menu Bar: Contains menu commands with access to most features that are available in the Hydro GeoAnalyst package.

Toolbar: Contains several context sensitive short-cut buttons for the most frequently used Hydro GeoAnalyst features.

Project Browser: Hosts a tree view listing some of the most common components of

Menu

Toolbar

ProjectBrowser

DataGrids

StatusBar

DataBar Tabs

WellProfile

4 Chapter 1: Introduction to Hydro GeoAnalyst

your project. These include nodes for Station Groups, Station Data, Queries, Crosstab Queries, Maps, Cross Sections, Reports, 3D Views, Borehole Log Plots, and Plots

Well Profile: Provides a borehole log plot for the selected station.Data Grids: Contains the grids for data entry and visualization. Status Bar: Displays the program status.

The following sections describe each of these components in greater detail.

Data TabsTo facilitate data management, the main interface is separated into three tabs, described below.

Stations List TabThis tab hosts a grid displaying a list of stations for the selected station group. Only a few selected columns are displayed in this tab, namely: Station Name, X and Y coordinate, Elevation, and TOC (Top of Casing elevation). The purpose of this list is to provide an overview of multiple stations and to perform general operations based on one or more selected stations. For a more detailed view of an individual station, the Station Data tab should be utilized.

Data Query TabThis tab displays results from an execution of any selected data query. This tab can be activated by double-clicking on any query under the Queries node on the Project Browser, or by directly clicking on the tab itself.

Station Data TabThis tab allows the user to enter and view the data for a single station. This tab can be activated either by selecting a data category in the Station Data node in the Project Browser or by directly clicking on the tab itself. The former will activate the selected data category and the related tables will be loaded for viewing and/or editing.

Each table in the selected category will be displayed in a separate tab on this page. Each of these tabs displays data from corresponding tables filtered for the Station selected at the top of the window. To change the active station, simply select a new station from the combo box above the grid.

About the Interface 5

Main Menu BarThe menu bar provides access to most of the features available in Hydro GeoAnalyst. Please see the Hydro GeoAnalyst User’s Manual for more details.

ToolbarThe toolbars that appear beneath the menu bar are dynamic, changing as you move from one window (tab) to another. Some toolbar buttons become available only when certain tabs are in view. For example, the Add and Delete toolbar buttons are only available when the focus is on a grid. Some toolbar buttons are available only in a particular context; for example, the Paste button is only available after the Copy or Cut command has been used.

The following tool buttons appear at the top of the Hydro GeoAnalyst main window. For a short description of an icon, move the mouse pointer over the icon without clicking either mouse button.

New button loads the Project Manager to create a new project.

Open button opens an existing Hydro GeoAnalyst project.

Categoryselection

Stationselection

Tables

6 Chapter 1: Introduction to Hydro GeoAnalyst

Print button sends the data item that is currently active to the report manager. This data item could be a list of stations, data from any table or a query result. This button is activated only if a grid is active.

Refresh button refreshes the current view, by updating the project browser and all grids.

Add button adds a new record; this button is activated only if a grid is active.

Delete button deletes the selected record; this button is activated only if a record is selected.

Post Data button saves (posts) all changes made to the project; this button is activated if changes to a record have been made.

Find button displays a dialog for searching in a grid using a user-specified criterion.

Filter by Value filters the grid using the value in the active cell.

Import button launches the Data Transfer System (TDS) to import data.

Export button launches the Data Transfer System (DTS) to export data.

About the Interface 7

Project BrowserThe project browser (tree) lists the following items:

• Station Groups• Station Data (Data categories)• Queries• Crosstab queries• Maps• Cross Sections• Reports• 3D View• Borehole Logs• Plots

These items may be part of any project. Each item is organized as a node in the tree view with one or more items under each node. If there is no item under a given node, there will be no branches available.

Station GroupsThe Station Groups node contains the Station Groups in your Hydro GeoAnalyst project. By default, all projects will contain a station group named Project that lists all stations in the database belonging to the project. All station groups that are created for a project are listed under the Station Groups node below the Project node.

Clicking on any station group under the Station Group node will load the Station List tab, and display a limited number of columns of data for the stations belonging to that group. Additional fields and tables for each Station are available through the Station Data tab (discussed later in this section).

Station Data (Data Categories)The Station Data node displays the visible data categories under which project tables are organized. Clicking on any of the data categories activates the Station Data tab (if it is not already active) and displays a tab for each of the tables classified under the selected data category. The Station Data tab loads information for the station currently selected in the Station List tab. The station can be easily changed in the Station Data tab using the Select Station combo box. Data categories are provided to enable logical groupings of your tables.

8 Chapter 1: Introduction to Hydro GeoAnalyst

QueriesThe Queries node lists all the queries that are created and available for the current project. Double-clicking on any of the queries under this node executes the query, activates the Data Query tab, and displays the returned results.

CrosstabThe Crosstab node lists all the crosstab queries that are created and available for the current project. Double-clicking on any of the queries under this node loads the Crosstab report.

MapsThe Map node lists all map projects that are available (created) for the current Hydro GeoAnalyst project. Double-clicking on a map project node loads the map manager (if not already loaded) and opens the selected map project into the map manager.

Cross-SectionsThe Cross-Sections node lists all cross-sectional views created using the Cross-Section Editor. Double-clicking on a cross-section launches the Cross-Section Editor and loads the selected cross-section.

ReportsThe Reporting component included with Hydro GeoAnalyst allows you to create as many reports as needed for your project, and save the layouts for future report generation. All the reports created for a selected project will be listed under the Reports node. Double-clicking on any of these report layouts will open a report template or a saved report. By default, the report will be displayed in print preview mode, however it is a simple task to activate the report designer in order to modify the report layout.

3D ViewsThe 3D Views node contains a list of available 3D views that have been created and saved for your project. Double-clicking on a 3D view loads the selected view into the Hydro GeoAnalyst 3D Explorer.

Borehole Log PlotterThe Borehole Logs node contains a list of all Borehole Log Plot (BHLP) Templates that have been created and saved for your project. Double-clicking on a Borehole Log

About the Interface 9

loads the selected template into the BHLP viewer. The station group that is currently active will be available to be viewed in BHLP.

PlotsThe Plots node contains a list of all plots that have been created and saved for your project. Double-clicking on a plot will load the Plotting component.

10 Chapter 1: Introduction to Hydro GeoAnalyst

2Demonstration Exercise

Before you begin this chapter, ensure that you have read through Chapter 1: Introduction to Hydro GeoAnalyst of this Demo Tutorial. Chapter 1 is designed to provide a cursory overview of HGA’s major modules and their functions.

This chapter contains a step-by-step review of some of HGA’s key features and analysis capabilities. This exercise will give you some practical experience using HGA and familiarize you with the HGA demo project. In this exercise, you will become familiar with the following functions:

• The Demo project should then be loaded into HGA, as shown in the following window.

• Querying the Database• GIS Map Manager• Cross-Section Editor• 3D Visualization with HGA 3D-Explorer• Borehole Log Plotter• Report Editor• Plots

Terms and NotationThe following terms and notations will be used in this exercise:

type: Type in the given word or value

Click the left mouse button where indicated

Double-click the left mouse button where indicated

<Tab> Press the Tab key on your keyboard

<Enter> Press the Enter key on your keyboard

The bold faced type indicates menu or window items to click, or values to type.

The Main Menu items are the items available at the top of the Hydro GeoAnalyst Parent window.

11

12 Chapter 2: Demonstration Exercise

2.1 Downloading the Hydro GeoAnalyst Demo ProjectYou can download and open the HGA demonstration project for exploring features and familiarizing yourself with the program. The HGA demo project is currently hosted on the SWS website and FTP site.

Downloading from the SWS Website

To download the demo project from the website,

• Ensure your computer is equipped with an internet connection • Open your internet browser, and navigate to the following website:

http://www.swstechnology.com/software_product.php?ID=27

• Right-click on the “Hydro GeoAnalyst Demo Project Download” link, and select “Save Target As” from the pop-up menu.

• In the Save As dialog, select a destination folder on your computer, and then click the [Save] button. The demo project will begin to download to your computer. Depending on your internet connection speed, this may take several minutes.

• Once the download is complete, see “Opening the Demo Project” below for information on how to open the project in Hydro GeoAnalyst.

Downloading from the SWS FTP site

To download the demo project from the SWS ftp site:

• Ensure your computer is equipped with an internet connection • Open your internet browser or preferred FTP client, and navigate to the

following ftp site:

ftp://ftp.flowpath.com/Software/Hydro_GeoAnalyst/2010.1/Demo Project/

• Download Demo_Project.zip to a location on your computer. • Once the download is complete, see “Opening the Demo Project” below for

information on how to open the project in Hydro GeoAnalyst.

Downloading the Hydro GeoAnalyst Demo Project 13

2.2 Opening and Viewing the Demo ProjectTo open the downloaded demo project, follow the steps below:

• Once the demo project has been downloaded to your computer, extract the contents of the demo_project.zip file to a location on your computer.

• Ensure the USB dongle containing your HGA license is connected to your computer.

• Launch Hydro GeoAnalyst by double-clicking on the desktop short-cut icon.• Select File > Open from backup from the HGA main menu.• Specify the appropriate user credentials. If the HGA User Access Controls have

not yet been configured, use “Admin” for the user name, and leave the password field blank.

• In the Restore Database As dialog box, specify the SQL Server for which the demo project database will be attached.

• Beside the Project field, select the Open button (folder with green arrow) and navigate to the folder where the demo project files were extracted to. Select the Project.vbh file.

• Beside the Backup File field, select the Open button (folder with green arrow) and navigate to the folder where the demo project files were extracted to. Select the SWS_Demo_DB.bak file.

Finally, click the [Ok] button to open the demo project.

The Demo project should then be loaded into HGA, as shown in the following window.

14 Chapter 2: Demonstration Exercise

The demo project is based on the SWS Environmental database template, using metric length units. When you design your databases, you may select from one of the following database templates, in either metric or imperial units:

• SWS Environmental Template• Ontario's Ministry of Environment's Water Well Information System• U.S EPA Regions 2 & 5 Environmental Data Models

If one of these templates do not meet your project needs, you may customize your own corporate or regulatory templates/data model using the Template Manager. If your data structure is stored in an existing MS Excel or MS Access file, you can quickly import a list of tables and fields into the HGA Template Manager, resulting in your own database templates. All templates/data models can be saved for future use so you only need to define the structure one time. Once complete, migrating your existing data into the HGA project database is a snap!

All spatial data in the demo project is projected according to the NAD1983 coordinate system. This information is defined during project creation and can be viewed by selecting Project > Preferences > Miscellaneous, from the HGA main menu.

Hydro GeoAnalyst now supports storing and displaying spatial data in localized coordinate systems. Now there is no need to adapt your spatial data to world coordinates, if you prefer to work in site coordinates.

The Project Browser (tree) can be easily expanded to see all the nodes and entities of the Demo project. To expand the entire tree,

View / Expand All from the main menu bar.

[OK] in the message boxes that appear.

Take a moment to inspect the items under each node in the Project Browser.

In the next section, you will learn about Station Groups.

Station GroupsIn HGA, stations can be sorted into groups allowing for efficient management and quick retrieval of data stored in the database. All station groups created for a project are listed in the Project Browser under the Station Group node. Clicking on any of the sub-nodes corresponding to a station group will load the Station List tab, and display the appropriate stations belonging to that group. In the demo database, there are several station groups, including:

• Project (the complete list of stations)• Boreholes (contains only those stations which are boreholes)

Opening and Viewing the Demo Project 15

• Monitoring Wells (contains only those stations which are monitoring wells)• Soil Borings (contains only those stations which are soil borings)

To see the stations which belong to the Monitoring Wells station group, select this node from the project tree.

Monitoring Wells (under the Station Groups node in the project tree).

When a station group is selected, the stations belonging to that group will appear in the Station List tab. Once the stations in a group are displayed, a number of operations can be applied based on the selection. For example, loading a station group and then selecting the Display on Map option from the Record menu, activates the Map Manager component and automatically creates a data layer containing all stations from this group. The mapping feature will be demonstrated later in this tutorial.

Sorting RecordsUsing the sorting and filtering options, you can also select different views for the data. For example, it may be helpful to view just the stations at specific elevation.

To do this,

Project from the Station Groups node

Place the mouse cursor into any row under the Elevation column

Record / Sort Descending from the main menu.

This will sort the values in this column from highest to lowest. You will see that the highest elevation is 340.49 and this occurs at station GB-33.

Viewing Station Data

Manual Data EntryHGA comes with standard, easy-to-use data entry grids equipped with drop-down combo boxes and many other features that facilitate data entry and validation for virtually any type of Station data.

Importing DataThe Data Transfer System (DTS) is designed to assist in the process of importing/exporting data to/from the database. Using the DTS, station data can be imported from practically any source including delimited text files, MS Excel, MS Access Databases, SQL Server Databases and others.

• Allows importing of data from virtually any source including:• Text files (.CSV)• Microsoft Excel spreadsheets (XLS)

16 Chapter 2: Demonstration Exercise

• Microsoft Access databases (MDB)• Any other ODBC or OLEDB data sources (DBF)

• DTS includes on-the-fly unit and coordinate system conversions during import and export

• Quickly choose from a complete list of coordinate systems (UTM, State Planar, Geographic, or other Global Coordinate Systems)

• Seamless data validation and error checking during data import, with the option to accept or reject selected records during import

• Importing new stations and group them as desired• Each data transfer configuration is saved for future use

Hydro GeoAnalyst now supports different Windows regional and language settings, including the comma decimal delimiter numeric format, as well as various date formats, e.g., DD-MM-YYYY.

In this section, you will see how data is organized in the HGA database. First, load the Boreholes Station Group,

Boreholes (under the Station Groups node in the Project Browser).

GB-20

The Station List tab provides only the station coordinates, elevation, and TOC (Top of Casing) elevation (if provided). To see the additional data belonging to this station,

GB-20 (double-click on this station), or click on the Station Data tab from the top of the window.

Opening and Viewing the Demo Project 17

The Station Data tab provides access to all data related to a single station. There are several Data Categories available, which are available in the Data Category combo box in the upper-left corner.

Geologic Description (from the Data Category combo box).

This will load the Geologic Description data for the selected station (GB-20). In this table, you will see soil sampling intervals (from - to), soil descriptions, soil classification names, and soil patterns. Soil classifications may be selected from a picklist. HGA is packaged with the following material specification lists:

• Unified Soil Classifications System (USCS)• United States Department of Agriculture (USDA)• Deutsches Institut für Normung e.V. (DIN 4023)• International Association of Hydrogeologists (IAH)• Geological Survey of Canada (GSC)

In addition, you can quickly develop or customize your own soils specifications palettes using a wide range of graphical file formats (JPG, BMP, GIF, ICO, WMF, EMF), and export any soil specifications to external files.

The geological data will be used to create Borehole log reports and Geological cross sections. These features will be demonstrated later in this exercise.

Next, you will view the Well Construction data for the selected borehole.

Well Construction (from the Data Category combo box as shown below).

This will load the Well Construction data for the selected station (GB-20). In this table, you will see five tabs:

• Drilling Protocol (contains drilling information)• Casing (contains info on well casing materials, diameter, etc.)• Screen (contains screen interval details)• Annular Fill (contains info on annular fill, gravel packs, sand packs, etc.)• Monitoring Points

Annular Fill tab, to see the records entered in this table.

You will see the interval and filling materials entered for this borehole.

18 Chapter 2: Demonstration Exercise

HGA comes with a List Editor tool that affords users the ability to create and customize lists for any field - allowing for rapid data entry. Common examples of lists include:

• Well drilling methods, construction, and casing materials• List of common chemical names with their CAS Registry numbers• Lab analysis test methods• County and State Codes• Applicable standards for various purposes, regions, and agencies

From this window you may also view data for another station. There is a picklist of stations under the Select Station label at the top of the window.

GB-15

This will load the Well Construction data for the newly selected station. You can also see the Well Construction in the Well Profile diagram. To do this,

Station List tab

GB-15 in the list to ensure it is selected

View / Well Profile. A new frame will appear in the HGA window, containing a profile view of the selected station. After resizing the plot columns, your view should be similar to the figure shown below.

Opening and Viewing the Demo Project 19

Selecting a new Borehole in the Station List will load the respective well profile view. Feel free to experiment with this option now.

Once you are finished, the well profile view should be turned off before proceeding. To hide the well profile view,

View / Well Profile

Next, you will view the Monitoring Event data (groundwater chemistry and water table elevations). First, you must select an appropriate station group.

Monitoring Wells (from the Station Group node in the Project Tree).

W-05 (in the station list)

Station Data tab to view the data for this station (or simply double-click on the station).

Monitoring Event (from the Data Category combo box). The data for this will appear as shown in the figure below.

20 Chapter 2: Demonstration Exercise

This data category contains eight tables:

• Parameter_Results (sampling results for various chemicals)• Water Level (results from water table elevations measurements for several

dates)• Meteorology• Diver Data (Data logger results for this station)• Parameter_Sample (sample id, date, etc.)• Diver Channels• Divers

As shown above, the Chemistry_Results table provides a list of samples collected for this well, the date and time of the observation, and the concentrations provided by laboratory analyses.

Lab Data Quality Control (QC)HGA includes enhanced tools for conducting a QC lab analysis on any data in your database. With these tools, you can:

• Define one or more lab quality assessment templates• Analyze Duplicate, Spiked and Blank samples

• Compare Relative Percent Difference and Coefficient of Variation for

Opening and Viewing the Demo Project 21

Duplicate samples• Analyze Percent Recovery for Spiked samples• Compare Blank samples to method detection limits

• Execute a Quality analysis on a selected dataset• Display and retrieve assessment results; records not meeting assessment

criteria will be highlighted• Save assessment results to a MS Excel spreadsheet

In the demo project, a QC template is already provided. To view this template,

Tools / Quality Control from the main menu,

Manage Lab QC Templates option, and the Lab Quality window will open, as shown in the following figure:

In this window, you can specify the settings and display properties for the various Lab Quality Checks, which include analysis for Duplicates, Blanks, and Spiked Samples.

Take a moment to view the available features in this window. For more information, please see Chapter 13 of the Users Manual.

[OK] when you are finished.

You will now apply this QC template to data in the demo project, to identify problematic or erroneous data in your project. Typically the next step would be to prepare the data set. This involves identifying/tagging samples with the proper Quality Codes (Original, Duplicate, Blank, etc.), then creating a Data Query with the desired data set, and the fields that are required by the QC Component.

22 Chapter 2: Demonstration Exercise

In the Demo Project, stations W-01, W-02, and W-03 contain samples with duplicates, blanks, and spikes, along with the results. In addition, a Data Query is already provided, named “QC_Lab_Analysis”. To view this Data Query,

Queries node in the project tree,

QC_Lab_Analysis to execute the query, and display the results, as shown below.

Take a moment to review the Query Results. You will see numerous samples and sample types, for various chemical parameters, over several sampling dates, for the previously mentioned stations.

Now you are ready to Perform the QC Assessment on the data set.

To do this,

Tools / Quality Control from the main menu,

Perform Lab QC Assessment option, and the following dialog will be displayed:

Opening and Viewing the Demo Project 23

A data field in your Data Source must be mapped to each Data Entity in the QC Component. Map the fields as shown in the screenshot above.

For the Station ID,

id from the combo box

For the Batch Identifiers,

Lab_ID from the combo box

For the Sample ID

Sample ID from the combo box

For the Sample Date,

Sample Date from the combo box

For the Parameter Names,

Parameter from the combo box

For the Parameter Value,

Result_Value from the combo box

For the Parameter Identification Information,

ParameterInfo from the combo box

For the Units,

Result_Unit from the combo box

For the Quality Code Identifier,

Quality Control from the combo box

For the Detection Limit,

24 Chapter 2: Demonstration Exercise

Detection_Limit from the combo box

From the list of templates, select the desired Lab Quality Templates.

Example

Once the required fields have been mapped, and the desired template has been selected,

[OK]

Clicking [OK] will run the Lab Quality Analysis, and once completed the Lab Quality Validation window will appear, as shown in the following example screenshot.

Records that do not satisfy the settings in the Analysis Template will be highlighted as specified in the Template. In this example, Spiked results that displayed a measurable concentration above the detection limit, are highlighted in blue.

Use the combo box in the top left corner to switch between each type, and the Validation Results table will automatically update. Take a moment to review the results for Blank and Duplicate samples.

To export the results of your Lab Quality Analysis to a MS Excel spreadsheet, click the [Export Results] button, and enter a filename for your exported data; feel free to review this feature now.

[Close] when you are finished, to return to the main HGA window.

Opening and Viewing the Demo Project 25

2.3 Querying the Database

OverviewHGA goes beyond simply storing your data. HGA also provides practical search/query tools to help you access and interact with your data, using the industry-standard 'Structured Query Language' (SQL). Retrieving your data has never been easier! Some of the features of the Query Builder include:

• Quickly generate simple or advanced SQL Statements within the Design Preview panel

• Automatic validation of SQL Statement provides warning for incorrect statements

• Logical use of expressions and operations make data querying easy (e.g. >, >=, <=, <, =, < >, !=, !<, !>, LIKE, IS, IS NOT, BETWEEN, &, !)

• Improved query efficiency using group-centric or data centric approaches• Efficiently map query results directly to the GIS Manager• Generate quick statistics from your queries (e.g. AVG, COUNT, MAX, MIN,

STDEV, STDEVP, SUM, VAR, VARP)• Sort query results in ascending or descending order

Using the Query Builder, you can design and execute data queries such as:

• Select and map all water wells drilled later than a specified date• Select and map all boreholes deeper than a specified depth• Report groundwater/soil concentrations that exceed a given concentration• Highlight stations with vapor concentrations at a given concentration• Map pumping wells with pumping rates greater than a specified value

Creating a Data QueryIn this example, you will create and execute a Data Query to find exceedences of TCE (Trichloroethylene) in the Soil Samples.

To load the Query Builder,

Tools / Query Builder from the main menu, or click on the (Query) button in the toolbar.

The Query Builder window will load as shown below.

26 Chapter 2: Demonstration Exercise

Data Query (radio button) in the upper left corner of the window.

Map and BHLP Ready checkbox to add the required fields for displaying on a Map or BHLP.

(New) button in the toolbar, and the following dialog will appear.

In the dialog that appears, enter a Name for the new query,

type: TCE_Exceeds_5mg_kg

You may also enter a Description (optional). Then,

[OK]

NOTE: Slashes are not supported in the SQL string, therefore the underscore is used to denote “per”.

Querying the Database 27

In the tree on the left side of the window, expand the Soil Sampling node, then expand the Soil Result node.

Locate and click on the Chemicals field. Drag this field into the blank Conditions frame, under the Expression column. The selected field will be added automatically to the Query Conditions.

Under the Conditions, select an Operator for this field.

= from the combo box.

Select an Expression for the field. For this example, locate TCE (Trichloroethylene) from the list:

28 Chapter 2: Demonstration Exercise

Trichloroethylene

Next, add two additional fields to the Query Conditions:

Locate and click on the Result_values field. Drag this field into the blank conditions field, under the Expression column. The selected field will be added automatically to the Query Conditions.

For the Operator,

> from the combo box

Select an Expression for the field. For this example, enter the concentration criteria:

type: 5

Finally, repeat these steps for the Result_units field.

Locate and click on the Result_units field. Drag this field into the blank conditions field, under the Expression column. The selected field will be added automatically to the Query Conditions.

For the Operator,

= from the combo box

Select an Expression for the field. For this example, select the appropriate soil chemistry units:

mg/kg, from the combo box

In addition, some fields must be also be added to the Display Fields. The Name field has been added automatically, however you can also add any relevant fields to display in the query results. To do so,

Locate and click on the Chemicals field in the tree on the left side of the window. Drag this field into the blank Display Fields grid (in the upper part of the window).

Querying the Database 29

Repeat this for the Result_values and Result_units fields.

In the Display Fields, you may specify aggregate (function) or sort options. These options are not explored in this example; for more details, please consult Chapter 7 of the Users Manual.

Once the fields have been added, the Query Builder display should be similar to the one shown in the figure below.

(Generate SQL Statement) button from the toolbar to Generate the SQL string. If the Query string is invalid, the violating rows will be highlighted red (indicating error) or yellow (indicating warning).

Finally, to execute the Data Query,

(Execute SQL Statement) button from the toolbar

30 Chapter 2: Demonstration Exercise

The results of the query should appear, as shown in the figure below.

This query should return 10 records that satisfy the specified conditions.

(Save Query) button to save the query.

The Query Results may be sent to a data summary report, or saved as a new map layer. This will be demonstrated later in this exercise.

[Close] to return to the main HGA window.

[Yes] to save the query.

Upon returning to the HGA window, you will see the Data Query will appear as a new node under the Queries node in the project browser.

Expand the Queries node in the project browser, and select this query.

There are several ways to recall this query:

(Execute Query) button (located at the top right of the window), or

Double-click the query.

This will execute the Query, and display the Query results.

Alternately, you may select the query node from the project tree, right-mouse click on the query and select Execute.

Several queries have been created for you in the Demo Project. Feel free to peruse them and see how they were constructed. To view how a query was designed, right-click on the desired query and select Edit. The names and organization of the queries should give you an idea of their purpose.

Crosstab Queries

Querying the Database 31

Crosstab queries are special type of queries that let you store your data in a normalized manner in your database, but let you produce pivoted, denormalized outputs from that data. In other words, crosstab queries let you rotate rows to columns to see different summaries of the source data.

Suppose you occasionally want to get a pivoted view of your chemistry results, whereby each row represents a different sample at each station, and each column represents results for each analyte. Another common example within the environmental industry is to show analyte names, reporting units, and regulatory limits along the left column, while sample names, date and/or depth ranges are shown along the top row, and result values and qualifiers shown in the intersecting cells. By using crosstab queries, you can create summary views of your data for easier analysis and reporting.

With the crosstab query tools, you can:

• Generate advanced crosstab queries from existing data queries• Format columns, rows, sorting options, display (color, font) settings, or choose

from over 30 predefined style templates• Construct complex reports using the powerful built-in Expression Editor.• Highlight cells that violate user-defined data bounds• Export a crosstab query HTML, MS Excel and PDF format• Print crosstab query results

In the demo project, there are two examples of crosstab queries.

From the HGA tree view, expand the Crosstab node, then

tce_btex_year2000

Right-mouse click on this query

Open from the pop-up menu

The Crosstab window will then open, as shown in the following screenshot:

32 Chapter 2: Demonstration Exercise

From the toolbar in the upper-left corner, there are several printing and exporting options available:

• Use the button to set the printing options. • Use the button to print the crosstab report.• Use the button to export the report to an HTML file. A dialog will appear,

where you can specify a directory and filename for the .HTML file.• Use the button to export the report to an MS Excel file. A dialog will appear,

where you can specify a directory and filename for the .XLS file.• Use the to export the report to an PDF file. A dialog will appear, where you

can define the page and export settings, and the filename for the .PDF file.

The crosstab query component contains numerous features that are outside the scope of this demo tutorial. For more details, please refer to Chapter 7 of the HGA User’s Manual.

[OK] in the lower right corner, to return to the HGA main window.

In the next section, you will experiment with Map projects.

Querying the Database 33

2.4 Time Series Plots

OverviewThe plotting component offers the following tools:

• Create Time Series X-Y plots based on data queries• Display time series plots as line charts or bar charts. • Add legends and data marker labels to plots• Add best fit, trend, formula, or statistical lines to the plot• Interact with plots, and display multiple plot windows in the viewer window

simultaneously• Display non-detect, uncertainty, or detection limits on the plot, as lines or

symbols• Display one or more water quality standard values, as a line or symbol, for

quick detection of samples that exceed the standards• Define data series ranges, and modify display properties for different data

ranges (e.g. define a data range where the data exceeds the water quality standard values, and assign unique symbol, line, and display properties for this data

• Select fields for plot grouping or data series grouping• Modify display properties, including axis, labels, symbols, legends, and

intervals• Print plots in a report, single or multiple pages• Save plot settings as templates for re-use• Export plots to graphics format• Copy plots to Windows clipboard

In HGA, the plots are saved under the Plots node in the HGA Browser (tree); the demo project contains several examples. Feel free to take a moment and open these examples, and discover the numerous options that are available. Below is a brief description of each plot:

diver_data Displays average depth to water level data for station W-23 over the month of November.

water_levels Displays water level data for multiple stations, over the a period of eight months.

water_quailty_plots Displays water chemistry data, for multiple stations, over a period of several years.

The following section provides a brief example of how to create a new plot.

34 Chapter 2: Demonstration Exercise

Creating a New Plot Page DesignTo create a plot, follow the steps below:

Plots from the project browser

Right-mouse click on Plots, and select New from the menu

In the dialog that appears, enter a name for the plot page design:

type: PlotExample

[OK]

The Plot designer window will appear as shown below:

The plot window contains the following items:

• Plot Page Design Tree: A list of all available plot page designs, plots, and series such as Lines and Standards

• Designer Toolbar: Toolbar buttons used for modifying the plot design• Plot Settings and Data Source: Contains the settings for the selected entity,

and data mappings• Viewer Window: Contains a real time view of the plot page design

Plot Settings

Viewer Window

DesignerToolbar

& Data Source

Plot PageDesign

Time Series Plots 35

Adding a PlotTo add a new plot,

(Add) button, and select Add Plot

The following Plot Details dialog will appear:

In the Name field enter the name of the plot:

type: Demo

[OK] to create an empty plot.

None from the Template dropdown list box.

Mapping FieldsThe next step is to map the fields in your query, to the fields required by the plot component. This is done under the Data Source tab.

Data Source tab in the lower-left corner of the window

Map the following fields:

For the Query,

Time_Series_Chart_Data from the combo box

36 Chapter 2: Demonstration Exercise

For the Plot Grouping, click on the right side of the field to load the available fields.

name from the list,

[OK]

For the Series Grouping, click on the right side of the field to load the available fields

chemical_name from the list

[OK]

For the Time,

date from the combo box

For the Value,

result_value from the combo box

There are additional fields that can be mapped, if your data query contains values for non-detect factor, detection limit, and water quality standards. For more details on these features, please consult Chapter 14 of the Users Manual.

The plot should now be displayed as shown in the screen shot below:

At the bottom of the Plot window, there are scroll buttons to pan to the next and previous pages. In this example, the query and grouping options has resulted in a plot page design spanning 7 pages.

>> button to see plot data for remaining stations in the query

There are numerous plot and data series settings that can be modified, under the Settings tab. Feel free to experiment with these features now. For more details, please consult Chapter 14 of the HGA User’s Manual.

Time Series Plots 37

Saving Plot TemplateOnce you have designed the current plot to your style and data needs, you can save the design as a template for re-use in future plots. To do so:

Right-mouse click on Demo (the plot name in the tree), and select Save as a plot template from the menu

Enter a name for the plot template, then

[OK]

The template will be available next time you create a new plot, in the Add Plot dialog under the Templates combo box.

Saving and ExportingThe current plot or set of plots can be saved to graphics format, or copied to the Windows clipboard. Feel free to experiment with these features now.

In the next section you will learn how to prepare data summary reports.

Before proceeding,

[OK] to close the Plots designer window.

2.5 GIS Map Manager

OverviewThe GIS Map Manager is built on ESRITM technology and is packed with an abundance of GIS mapping features that seamlessly connect your project maps with the HGA database. However, the GIS Map Manager goes far beyond simple mapping, it also acts as a fundamental source for producing cross-sections, accessing borehole logs and well construction details, and developing contour maps (elevations, concentrations, water table, etc.). The GIS Map Manager is an integral part of HGA and is ideally suited for analyzing and presenting the spatial orientation of your groundwater or borehole project data.

Some of the key features of the Map Manager are listed below:

• Effortlessly load query or station group data from the project• Import/open a vast array of basemaps for your projects including:

• Windows Bitmap (BMP, DIB)• JPEG (JPG)• Tiff (TIF, TFF, TIFF)

38 Chapter 2: Demonstration Exercise

• MrSID (SID)• AutoCAD Files (DXF, DWG)• MicroStation Files (DGN)• Shapefiles (SHP)

• Import/Open surface files (DEM, Surfer Grid, and ESRI ASCII)• Quickly georeference raster image maps to match your project\data coordinates• Create various map layers from station data and query results• View maps at different scales• Edit map layers (label and symbol properties, order, style, color)• Draw polygons, circles, lines, points• Create a legend and scale for the Map Project• Add descriptive text using Windows true-type fonts and symbols• View statistics for selected data or a group of stations• Measure distances on the map• Export Map view as Raster images• Define single or multiple cross-section lines on the map• Label and symbol renderer allows for creating color ramps, gradients, shading,

etc.• Interpolate any data layers, and save the interpolated (gridded) data to file• Create contour lines and color shading layers.• Display grid lines (graticule) on the map.• Display time series plots linked to stations on the map. • Send maps to the Report Editor for inclusion with the report template

In this example, you will open an existing map project, then load several data queries that were described in the previous section.

First, before proceeding, ensure that you are viewing the main window of HGA. Then to load the Map Manager,

+ Maps, to expand this node of the project tree,

Site Map.

Once the Map Manager window is loaded, the display should be similar to the one shown below.

GIS Map Manager 39

The Map Manager window contains the following elements:

• Menu Bar: Contains program menu commands• Toolbar: Contains short cut buttons to some of the functions in the Map

manager• Layer Manager: Modify layer order, set layers visible, active, and modify layer

properties • Map Window: Contains the layers for the map project• Layer Information: Displays the projection system for the selected layer• Coordinates: Displays the X,Y co-ordinate for the current mouse cursor

location• Scale: Displays scale for the map window• Active Window: Select between the Map window or the Cross Section window

Menu

Toolbar

LayerManager

MapWindow

LayerInformation

Active

Bar

Window

Current projection System

X,Y Co-ordinates Scale

40 Chapter 2: Demonstration Exercise

The Demo Map Project contains several layers, as indicated in the Layer Manager on the left side of the window. There is an air photo of the site, which is a helpful visual aid to relate station locations to land features.

In this map project, some Station Groups have been loaded as a new map layer, each represented by a unique symbol.

In the next section of this exercise, you will load the data query as a new map layer.

Creating a New Map Layer with a Data QueryYou will now load the TCE data query as a new map layer. To do so,

Layer / Load HGA Data

Data Query radio button, in the dialog that appears

TCE_Exceeds_5mg_kg from the list of data queries (you will need to scroll down to the bottom of the list)

[OK]

[OK] from the Set Field Precision dialog box

Hydro GeoAnalyst allows you to set the precision of numeric attributes when importing shapefiles or creating map layers from HGA data. This feature is useful when displaying numeric data on a map using the label renderer, and only a certain number of decimal places is desired in the displayed data.

This will display the query results on the map project, as a new map layer. Next, you will create a contour map of the chemistry data.

Creating a Contour MapEnvironmental professionals are often required to produce contour maps. Contouring of project data such as water levels or contaminant concentrations is an effective method of relating spatial distribution of data over a map. Since HGA stores station data and various quantitative datum within its core, HGA was designed with contouring tools that pull data directly from the source.

GIS Map Manager 41

Some of the key contouring features in the GIS Map Manager include:

• Quickly load and contour data from any station data, or from pre-defined HGA queries

• Display color contours over the map with labels• Modify contour line thickness and intervals• Use color gradients to show distribution of the parameter over the Site• Select from industry-standard interpolation methods, including Kriging,

Inverse Distance, and Natural Neighbor

Some common examples of environmental data contouring include:

• Groundwater surface elevations• Bedrock surface elevations• Lithological surface elevations• Water table elevations• Concentration data (contaminated, water quality, volumetric, etc.)

In this example, you will contour the TCE data that was loaded in the previous section.

TCE_Exceeds_5mg_kg layer in the layer control, to make this the active layer (if not already selected)

Layer / Create Contours / Create Contours HGA from the main menu, and the following dialog will appear:

Result_val from the combo box beside Choose Field

Inverse Distance for the Interpolation Method

type TCEContourMap in the Name text box

42 Chapter 2: Demonstration Exercise

Settings beside the name text box. The following dialog will appear:

Contour Interval

type 5 for the Contour Interval

Label Renderer checkbox to display the contour labels

[Ok] to accept the contour line settings

[Create] button at the bottom of the window, to create the shape file containing the contours.

The map will then be displayed on the Map project, and the Map layer will be added to the Layer Control (on the left side of the window). A sample is displayed below.

GIS Map Manager 43

Next, you will create a Thematic map, in order to visually represent the greatest concentrations of TCE at these stations.

Before proceeding, turn off the ContourMap layer (remove the Visible) status.

Creating a Thematic MapHGA offers thematic mapping functionality to help graphically display the distribution of a single attribute/characteristic or the relationship between several attributes. Some of the key features include:

• Create thematic maps to define a theme from virtually any field in the database• Create a map layer with thematic symbols for selected station queries • Select from pie graphs, bar charts, or graduated polygon distributions• Modify point style appearance (pattern, font, symbol, fill, border, size)• Assign a graduated color scheme for a range of values at point• Manually edit minimum or maximum range values• Select and define color ramps using standard or custom RGB colors • Assign various symbol styles to specific point values• Add labels for various thematic selections• Adjust thematic map layers in any preferred order

For environmental professionals, thematic maps are extremely useful in covering a wide variety of characteristics such as displaying the relationships between:

• Wells with head elevations above or below ground surface (Artesian conditions)

• Groundwater pumping volumes and precipitation (Recharge potential)• Layer thickness from ground surface to subsequent layers (Aggregate

exploration)• Soil types (sand versus clay) and aquifer vulnerability to contamination• Graduated value polygons for land use or contaminant source inventories • Population density versus aquifer thickness

In this example, you will create a Bar chart:

To create a Thematic Bar Chart,

TCE exceeds 5mg per_kg layer from the Layer Control to ensure that this layer is active.

Layer / Create Thematic Map / Bar Chart from the Map Manager main menu.

A Thematic map window will appear as shown below:

44 Chapter 2: Demonstration Exercise

type: BarChart in the Name field.

(This name will appear in the thematic map list should you choose to edit it later on.)

Result_Val field from the left panel

[>] button to move this field to the right panel

[Next] to proceed to the next window.

In this dialogue, specify the bar chart color, and the column dimensions. A preview window in the lower right corner displays a preview of the true size and color of the thematic map, as it will appear in the Map Manager.

type: 40 for the height.

type: 10 for the width.

[OK] to create the map.

The thematic map is an entity of the selected layer; when this layer is hidden, so too will the corresponding thematic map.

To visualize only this bar chart, it may be helpful to hide the non-essential layers by selecting View / Turn off all layers. Having done so, turn on just the air photo (to provide a map background) and the “TCE exceeds 5 mg_kg” layer by clicking on the

GIS Map Manager 45

check-boxes beside them. An example of a Map Project with a Bar Chart is shown below:

Adding Time-Series Plots Before you can add time-series plots, you must first create the plots in the Plot Designer using the corresponding station data and save the plot template (described in the previous section).

For this example, we will add water level time-series plots to the monitoring well station points, in the current map project. For demonstration purposes, a plot series, water_levels, has already been created and prepared for displaying on a map.

The first step is to add the Monitoring Well station group to the map project.

View / Turn Off All Layers from the main menu

Layer / Load HGA Data from the main menu

46 Chapter 2: Demonstration Exercise

Monitoring Wells station group from the combo box.

[Ok] to add the stations to the map project.

[Ok] from the Set Field Precision dialog box.

Now that the Monitoring Wells have been added to the map project (shown above), you can proceed to add the corresponding time-series plots. To do so,

Monitoring Wells station group from the layer control, to make this the active layer

GIS Map Manager 47

Layer / Display Data from the main menu, and your display should be similar to the one shown below.

. to add a new layout to the map project.

. Plot from the combo box.

. [Ok]

The new plot layout will be added to the table. The next step is to define the Data Settings.

48 Chapter 2: Demonstration Exercise

[Data Settings] from the Display Data dialog.

In this step, you must select the appropriate plot template that corresponds with your station data (Monitoring Wells). For this example, the template water_levels_ has already been prepared and saved as part of the Demo project. To learn about saving plot templates please refer to “Saving Plot as Template” on page 191 of the HGA User’s Manual.

water_levels from the dropdown list box

Choose Data tab

Here you can choose the stations for which plots will be displayed. By default, all the stations (23) are selected. For demonstration purposes, we will only select stations W-05 to W-09.

the Top Checkbox to deselect all stations (shown below).

GIS Map Manager 49

the Checkbox for each of the following stations:

• W-05• W-06• W-07• W-08• W-09

The dialog should look similar to the one shown below.

Now that the data settings have been defined, the plots can be added to the map project.

[Ok] from the Data Settings dialog

[Ok] from the Display Data dialog

50 Chapter 2: Demonstration Exercise

You can now rearrange the plots within the map window as desired. To do so,

Right-click anywhere on the map window

Edit layout from the pop-up menu

Drag-and-drop each plot to a new position, as desired

Feel free to experiment with the appearance of the map view by making other layers in the Layer Manager panel visible. The next section will describe how to send the map view to a printer.

Saving and PrintingOnce you are satisfied with the map view, there are several options for exporting the display:

• Save the image as a graphics file• Print the image directly as is• Insert the image into a report

If you wish, you may print this map view now. To do so,

Project / Print from the main menu.

Select any print template from the list

GIS Map Manager 51

[OK]

The map window will load into the Report Editor, where the image may be inserted into a report, and printed or saved to .PDF, .HTML, .RTF, and other file formats. In addition, the Report Editor allows for customizing the header, footer and logo. The image will appear similar to the one shown below.

Print Report button from the toolbar

[X] (Close) button to return to the Map Manager window.

Features in Map ManagerThe HGA demo project provides an additional map project that can be accessed by double-clicking SiteMap2 from the Maps node. This project contains examples of the other new features available in HGA.

Take a minute and view some of the new features before proceeding to the next section. The figure shown below indicates the new features that appear in SiteMap2 .

52 Chapter 2: Demonstration Exercise

To read more about the graticule, color shade layers and intersecting map layers, please refer to the HGA User’s Manual.In the next section, you will view a pre-defined cross section using the Cross Section editor.

2.6 Cross-Section Editor

OverviewGroundwater and environmental site investigations typically entail detailed analysis of lithologic data acquired from boreholes. Interpreting and visualizing the borehole data is a crucial step in understanding the subsurface regime. HGA comes complete with a fully-integrated cross-section tool that is designed with all the features you need to

Graticule

Color Shade Layer / Layer Clipped to Polygon

Cross-Section Editor 53

create dazzling, report-ready geologic/hydrogeologic cross-section interpretations. Simply draw your cross-section in the GIS Map Manager, automatically render the cross-section line, and start interpreting your boreholes directly within the Cross-Section Editor. It's really that simple!

The Cross-Section Editor is designed with easy-to-use tools for interpreting geological and hydrogeological data, as well as interpreting data for groundwater flow models. Generating model layers for use as modeling layer elevations in groundwater modeling packages such as Visual MODFLOW Pro has never been easier!

In addition, the Cross-Section Editor is seamlessly integrated with the HGA 3D-Explorer, a tool that combines and displays one or more cross-sections in a 3D fence diagram view!

The Cross-Section Editor allows for three types of data interpretations:

• Geologic (containing lithology structure data)• Hydrogeologic (containing locations of aquifers, aquitards, etc.)• Model (containing locations of model layer lines, which may be used in

numerical groundwater modeling)

The Cross-Section Editor provides users with the following key features:

• Digitize geologic and hydrogeologic layers using the polygon draw tool• Load surface layers (e.g. DEM) from Map Manager to generate detailed

topography model lines• Select standard cross-section fill patterns from the Geology• Copy zones from geology layers in order to define hydrogeology zones• Display the locations of intersecting layers and other cross sections (using

symbols and labels)• Display water table location in cross section view• Dynamically view the spatial orientation of the boreholes in the Map Preview

Window - simply move the mouse over the 2D borehole to highlight its location on the map

• View the orientation of cross-sections as they relate to the Map Preview Window

• Define properties of intersecting features (other layers or cross sections)• Display screened interval in cross section view• Modify labels for lines and polygons• Zoom in/out and pan features • Launch cross-section for viewing in the HGA 3D Explorer• Export cross-section view to image format• Export model layer points for use in groundwater models, including Visual

MODFLOW• Send cross-sections to the Report Editor to be included in a report template• Copy window to clipboard

To load the cross section editor from the Map Manager,

54 Chapter 2: Demonstration Exercise

Cross Section tab in the upper right corner of the Map Manager window.

Next, select a cross section from the tree on the left side.

[+] beside AA.

Once a cross section has been loaded into the Cross Section Editor, the window will appear similar to the figure shown below.

The Cross Section Editor window contains the following items:

• Menu Bar: Contains program menu commands• Toolbar: Contains short cut buttons to some of the functions in the Cross

Section editor• Layer Control: Modify layer order, make layers visible, active, and modify

layer properties. • Cross-Section Window: Contains the cross-section view for the selected

cross-section line.• Map Preview: Displays the selected cross-section line, as it appears in the map

project. The selected stations for the cross-section are highlighted in this Map preview window.

• Coordinates: Displays the X, Z co-ordinate for the current mouse cursor

Menu

Toolbar

LayerControl

Cross-SectionWindow

MapPreview

X, Z Co-ordinates

Active

Bar

Window

Cross-Section Editor 55

location.• Active Window: Select between the Map Manager window or the Cross

Section window.

In the Demo Map project, the cross sections have already been defined for you. However, it is a simple task to define new cross section interpretations using the polygon and line drawing tools that are included with the Cross Section Editor.

In the layer control, you can see the aforementioned interpretation types (Model, Geologic, and Hydrogeologic). From here, you can show/hide each interpretation type.

Also, note some of the other convenient features of the Cross Section editor:

The Map Preview window shows the location of the cross section line, and the stations involved in the cross section. The Map Preview window is linked directly to the displayed cross section.

Place your mouse cursor over the Map Preview window, and place it on top of one of the stations selected for this cross section. This causes the selected station to temporarily flash in the cross section window. This helps you to relate the stations in a planar view, to what you are seeing in the cross section (2D) view.

Conversely, you may relate stations in the cross section view to what is displayed in the map preview window. Place your mouse cursor over a single station in the cross section window, then look at the Map Preview window. You will see the selected station will flash temporarily in the map preview window. This helps you to relate the stations in the cross section view, to their physical XY location on the map view.

To confirm the lithology for an individual station, use the information button in the toolbar:

View / Information from the main menu, or select the button from the toolbar.

Move the mouse cursor over a station, and move through the depth of the borehole. This will display a text box containing the soil description and interval information for the station.

Intersecting LayersWhen viewing an individual cross section, you can also see the intersection locations of other cross sections or other layers such as contour lines and highways as defined in the map project. To do so, BEFORE you create a new cross section line, in the Map Manager

Settings / Cross Section

The following dialogue will appear:

56 Chapter 2: Demonstration Exercise

Click on the symbol in each layer to customize the display

[OK] to close the dialog

Cross Section tab in the Map window to return to the Cross Section editor.

Create Topography Lines from Surface LayersTo view an example of this feature,

[+] beside HH. The cross-section will now appear as shown in the screenshot below.

Cross-Section Editor 57

Display Borehole Log PlotThe Cross-section editor allows you to display borehole log plots directly on the selected cross-section. Using this feature, you can display plot columns containing data such as geophysical, resistivity, or gamma measurement, or interval columns such as well screen intervals; this data can be a valuable asset when creating the cross-section interpretations.

[-] beside HH, to close this cross-section

[+] beside CC. The cross-section will now appear as shown in the screenshot below.

TopographyLine

58 Chapter 2: Demonstration Exercise

You may modify which BHLP template and stations should be selected on the cross-section, using the Tools / Display BHLP option from the main menu. For more details, please consult Chapter 9 of the User’s Manual.

Saving and PrintingOnce you are satisfied with the cross section view, there are several avenues you can follow:

• Save the image as a graphics file• Print the image directly as is• Insert the image into a report• View the cross section (and other cross sections) in 3D

If you wish, you may print this cross section now. To do so,

File / Print from the main menu.

Select any print template from the list

[OK]

The cross section will load into the Report Editor, where the image may be inserted into a report, and printed or saved to .PDF, .HTML, .RTF, and other file formats. In addition, the Report Editor allows for customizing the header, footer and logo. The image will appear similar to the one shown below.

Cross-Section Editor 59

Print Report button from the toolbar

[X] (Close) button to return to the Cross Section Editor window.

In the next section, you will see how multiple cross sections can be viewed in 3D.

2.7 3D Visualization with HGA 3D-Explorer

OverviewHGA 3D-Explorer is a powerful 3D visualization and animation package that is seamlessly integrated within HGA. HGA 3D-Explorer was designed as a tool for displaying multiple cross-sections/fence diagrams, well locations with lithology, maps, contours, etc., all within the same 3D graphical environment. HGA 3D-Explorer brings your data and data queries to life and takes the guessing out of data interpretation. With just one click of a button, you can explore your data!

The HGA 3D-Explorer offers a truly unique perspective of the entire site, through its ability to display multiple cross-sections simultaneously; this perspective is not possible when viewing individual 2D cross sections. In addition, basemaps may be

60 Chapter 2: Demonstration Exercise

displayed for relating the fence diagrams to surface features. The various graphical tools and presentation formats available are specifically designed for viewing geology and hydrogeology data.

In addition to displaying fence diagrams, the HGA 3D-Explorer can also be used to display surfaces for each layer involved in the interpretation. Use the HGA 3D-Explorer to import basemaps to relate this to the cross-section interpretations. For example, a contour map or DXF site map may be overlaid on top of multiple fence diagrams. Finally, use the AVI recording tools to record the auto-rotation of the 3D fence diagrams for presentation purposes.

Some of the key features of the HGA 3D Explorer are highlighted below:

• Render colorful, high-impact, 2D/3D views of any number of cross-sections• Views cross-sections as geologic, hydrogeology, or model layers• Display contaminant plumes in the form of color maps or isosurfaces• Simultaneously view boreholes with lithology, and cross-sections in full 3D• Auto-rotate the model image around the X, Y, Z axis• Record and save animations during auto-rotation• Import grid files containing water table elevation, geologic surfaces, or

topography• Import and overlay basemap (DXF, BMP)• Drape maps over any selected surface (e.g. drape .bmp file over ground surface)• Set any vertical exaggeration factor• Display legend relating soil names and patterns• Position a light source at any position for optimal viewing• Assign various objects as transparent• Save configuration settings (e.g white background, black axis, etc.)• Export 3D view to image format (JPG, GIF, BMP)• Send 3D views to the Report Editor to be included in reports• Copy 3D window to clipboard

In this demonstration, you will select a few cross sections from the Demo Map project, and load these into 3D Explorer.

From the Cross Section Editor,

View / View 3D from the main menu, or select the button from the toolbar. The following dialogue will appear:

3D Visualization with HGA 3D-Explorer 61

Select the cross sections to display from the dialogue, by placing a check mark beside each cross section name. Or, to select all cross sections, place a check mark beside Select All at the top of the dialog.

Select AA, CC, EE, GG

Under the Plumes frame,

BTEX_3DPlume

In the demo project, the plume file has been created for you.

Enter a name for the 3D project in the field in the lower-right corner:

type: Demo

[OK]

This will load the 3D Explorer window, similar to the figure shown below:

62 Chapter 2: Demonstration Exercise

You will see that the fence diagrams produce a new perspective on the site geology. The site map from the demo map project is also displayed, by default, to help relate the cross section data to surficial features.

Navigation ToolsLocate the field containing the Vertical Exaggeration (at the top of the window), and enter a new value:

type: 4

<Enter> (on your keyboard)

At the bottom of the 3D window, there is a Navigation tools panel which is used to orient the 3D grid. To rotate the 3D grid,

Rotate tab

X slider bar

Drag the X slider bar slowly to the left, to see the resulting affect on the 3D grid.

Alternately, you may use the AutoRotate feature. The AutoRotate tools located on the right-hand side of the Rotate tab may be used to continuously rotate the model image around the X, Y and/or Z axis.

3D Visualization with HGA 3D-Explorer 63

Z check-box, on the right-side of the controls.

(Play) button to start the rotation. Observe the rotation for a few seconds, then,

(Stop) button to stop the rotation.

Z check-box, to de-select this option

You can shift or zoom in/out of the 3D grid using the shift options.

Shift tab

Z slider bar.

Drag the slider bar to the left to zoom out, or to the right to zoom in.

The 3D Explorer window contains several controls, which are not discussed in this exercise. Individual cross sections and interpretation types may be shown or hidden from the 3D display, using the project tree on the left side of the 3D Explorer window. However, these capabilities are not explored in this demo exercise. For more details, refer to Chapter 10 of the User’s Manual.

3D Plume VisualizationHGA provides the ability to display and animate 3D volumes of contaminants, in the format of color maps, isolines, or isosurfaces; a powerful visualization feature, that is demonstrated below.

Plume Browser tab, and the options will be displayed as shown below.

When the 3D project was created, 3D-Explorer will display the plume in the form of an isosurface by default. The default isosurface value will be 5% of the maximum concentration value.

The options in the Plume Browser tab provide you with a preliminary assessment of the plume. As such, there are basic options for color maps and isosurfaces. Once you have

64 Chapter 2: Demonstration Exercise

a better understanding of where the contaminants lie, and at what time steps, you can use the more advanced options in the Plumes node in the tree; this includes:

• advanced isoline maps with color fill and line settings• color maps with clip at cut-off options• isosurface options, including color from palette, show borders, and display

volume estimation

In the Plume combo box, you may select the plume data field used for visualization; this is applicable if you have more than one contaminants in your plume file.

In the Style combo box, select the desired display style. Select from Colormap on XY, XZ, or YZ planes, or Isosurface.

The Visible checkbox shows/hides the current plume browser display element.

Time check-box, on the right-side of the controls.

(Play) button to start the animation.

Observe the animation of the plume for a few seconds. Note the time label at the top of the 3D window, that shows the corresponding time interval.

(Stop) button to stop the animation

When you are satisfied with an isosurface, you can save it to the Plumes tree, for further manipulation. By doing so, you will enable more advanced options for the isosurface, and this will allow for displaying multiple colormaps and/or isosurfaces.

[Save Isosurface] button

The new isosurface value will be added to the tree, under Plumes / Plume / Region / BTEX / Isosurface_1. From here, you may modify the isosurface value, display settings, and also view the Volume Estimation. To modify the Isosurface value, you must load the Isosurface Properties; to do so, click on the [...] button beside Isosurface Properties.

Now, return to the Plume Browser tab in the Navigation tools

Change the display type from Isosurface to ColorMap:

Colormap on XY Plane from the Style combo box

Use the Slider bar, and set the Position to ~50%, as shown below:

(Play) button to start the animation.

3D Visualization with HGA 3D-Explorer 65

Observe the animation of the plume for a few seconds. Note the time label at the top of the 3D window, that shows the corresponding time interval.

(Stop) button to stop the animation.

Change the colormap display type:

Colormap on XZ Plane from the Style combo box

Now you will animate the position of a colormap, but at a fixed time interval

Time tab

Use the Slider bar, set the time to near the end of the animation (~ 12/1/2000)

Plume Browser tab

Time check-box, from the animation controls, to disable this option, and

Browser check-box, to enable this option

(Play) button to start the animation

Observe the animation of the colormap for a few seconds. In this scenario, the color map position will be animated through the entire site domain, in a loop, for a fixed time.

(Stop) button to stop the animation

When you are satisfied with a view, click on the [Save Colormap] button to add this display element to the 3D Project, under the Plumes node in the tree.

There are numerous features available for the Plumes that are not illustrated in this exercise. For more details, please consult Chapter 10 of the Users Manual.

Record AVI FileYou can record 3D animation (rotation, plume animation, isosurface or color map spanning) to an .AVI file. To do so

(Record) button (located on the Navigation toolbar, in the lower-right corner)

This will load the following dialog:

66 Chapter 2: Demonstration Exercise

By default, the .AVI file will be saved to the folder in which the project is located. You can change the file destination by browsing to the desired location. You can also set the speed of the video by changing the value in the “Frames per second” field. The larger the value, the faster the video will play. This has no effect on the recording time. Feel free to record a video file now by pressing [OK].

When you are finished, after about 30 seconds

(Stop) button

NOTE: The recorded .AVI files may get very large depending on the length of the video.

To play back the file, browse to the folder on your hard drive, locate the .AVI file and load it into a supported media player.

Saving and PrintingOnce the desired view has been loaded, the 3D image may be loaded into the Report Editor for printing. To do so,

File / Print from the main menu, or click the (Print) button from the toolbar.

Select any print template from the list

[OK]

The 3D window will load into the Report Editor, where the image may be inserted into a report, and printed or saved to .PDF, .HTML, .RTF, and other file formats. In addition, the Report Editor allows for customizing the header, footer and logo. The image will appear similar to the one shown below.

3D Visualization with HGA 3D-Explorer 67

Print Report button from the toolbar

[X] (Close) button to return to the 3D Explorer window.

Then, close the 3D Explorer window by selecting

File / Exit from the main menu.

In the next section you will view borehole log plots for one of the stations.

2.8 Borehole Log Plotter

OverviewThe Borehole Log Plotter (BHLP) is a built-in borehole log component developed with a full range of features that support the design and plotting of professional borehole logs and well construction details. Once the borehole template is defined, logs can be generated quickly and efficiently for all boreholes in the project. Automated data links reduce the need for user intervention!

Design borehole log reports containing:

68 Chapter 2: Demonstration Exercise

• Lithology information for each formation (patterns and descriptions)• Description of the geologic formation• The depth and/or elevation of each layer• Well construction details (casing, screens, annular fill)• Charts that display one or more data types collected at various depths in

the well including those resulting from geophysical investigations• Symbols showing sample locations, groundwater levels, etc.• Unlimited number of chemical result plots

• Database templates include several pre-designed borehole log templates• Borehole log plots provide real-time data entry assistance• Launch logs by clicking on a well in the GIS Map Manager or 2D Cross-

Section Editor• Add or remove data columns to the log for virtually any field in the database• Generate professional log reports including logos and other box fields• Logs format and layout is fully customizable• Scan borehole logs using drop-down menus• Import/export final borehole log designs when exchanging with other HGA

users• Export final borehole log reports to various formats (HTML, RTF, PDF, XLS,

TIF, TXT)• Print multiple borehole logs as a group, or individually• Report Previews allows for scanning the complete list of logs prior to printing• Print to any Windows printer or standard plotter

Viewing BHLP TemplatesA few borehole log plot samples are provided in the Demo project.

Select Boreholes from the Station Groups node in the project browser

From the project tree, expand the Borehole Logs node, then

neutron_and_mineralization_plot

The Borehole Log Plot Designer window will appear as shown below:

Borehole Log Plotter 69

:

From the Select Stations drop down menu (circled above),

GB-02

The display is updated to reflect the Lithology, Well Construction, and Scale of the selected station.

The Borehole Log Plotter provides the ability to zoom in to any section of the plot; a critical tool when analyzing and interpreting detailed data, on a fine scale. These options are available as zoom in / zoom out buttons on the toolbar.

The Borehole Log Plotter also allows you to select Data Queries as data sources for plot, depth, or interval columns. Using a Data Query instead of a Data Table provides more flexibility in the type of information that can be added to a BHLP; for more details, please consult Chapter 12 of the HGA User’s Manual.

The BHLP templates created in the Demo Project each contain a different number and/or order of data columns. Feel free to peruse the other BHLPs. For more details, please consult Chapter 12 of the HGA User’s Manual.

Add Multiple Well Casings & PiezometersTo view an example of this new feature,

Select Boreholes from the Station Groups node in the project browser

From the project tree, expand the Borehole Logs node, then

70 Chapter 2: Demonstration Exercise

well_casings

The Borehole Log Plot Designer window will appear as shown below:

The Borehole Log Plot Designer provides an array of options that allow you to modify the appearance of any BHLP template. To access the column properties,

Right-Click anywhere in the column window

Properties from the pop-up menu

Take a few minutes to look at some of the available options, and feel free to experiment with any of the settings. For more information on BHLP column properties, please see “BHLP Columns” on page 236 of the HGA User’s Manual.

Saving and PrintingOnce the desired view has been loaded, the BHLP may be loaded into the Report Editor for printing. It is possible to create one report for each station in the group, or only one report for the selected station.

The Borehole Log Plotter allows printing to a user-defined scale.

To specify the print scale setting,

Reducer

Borehole Log Plotter 71

Right-click on the Design folder on the BHLP tree. From the menu that appears,

Show Settings and the following dialog will appear:

Beside the Print scale factor,

type: 750

A Print scale factor of 1:750 would mean that 750 “units” on the BHLP would correspond to 1 “unit” on the printout.

[OK]

To print a report for the selected BHLP only,

[Print] button in the lower-right corner

Print current borehole from the menu

bhlp_portrait report template from the list

[OK]

72 Chapter 2: Demonstration Exercise

Print Report button from the report toolbar

[X] (Close) button to return to the BHLP window.

[Close] button to return to the main HGA window.

In the next section you will learn how to create time series plots.

2.9 Report Editor

OverviewGenerating professional reports from groundwater and environmental projects can be a time-consuming effort. It becomes particularly challenging when a project includes rounds of information for various dates spanning over months or even years. Furthermore, many regulatory agencies require adherence to specific reporting formats. To overcome these challenges, HGA was designed with the Report Editor. The Report Editor is a time-saving component used for creating professional reports that contain any number of datasets plus, include 2D and 3D views for your projects.

Report Editor 73

HGA's Report Editor includes the following features:

• SWS Report Wizard offers step-by-step guidance for creating report templates• Dynamic linking of reports to all HGA data and components make creating

reports easy• Customize reports to meet regulatory report format requirements• Easy-to-use Report Designer environment makes creating report templates a

snap

Explorer and Property Tool Boxes offer complete flexibility for:

• Inserting well profiles, charts, data tables, images, etc.• Formatting objects (alignment and distribution)• Inserting standard footer and headers including logos• Adjusting text color, font, style, size, location• Defining column, row, and field heights• Create an unlimited number of report layouts and save for future use• Incorporate data values, time-series graphs, log, cross-sections, 3D views, etc.• Support Visual Basic Script and Java Script events and expressions • Define page and printer setup• Preview the complete report prior to printing• Provides Barcode control• Allows report bookmarks and Internet hyperlinks

Export final reports to:

• Portable Document Format (PDF)• Rich Text Format (RTF)• Web-ready Hypertext Markup Language (HTML)• Microsoft Excel TM (XLS)• Tagged Image File Format (TIF)• Plain Text File (TXT)

Creating Data Summary ReportAn example is provided below, on how to create a report containing stations from the demo project.

Expand the Station Groups node

Boreholes group

Project / Report from the main menu

Stations as a template

[OK]

74 Chapter 2: Demonstration Exercise

HGA comes ready with several portrait and landscape report templates, to accommodate printing of station data, maps, cross-sections, 3D-Explorer images, charts, and borehole log plots

The SWS Report Designer window will appear as shown below:

To print the report as it is,

Print Report button from the toolbar.

The HGA reports are fully customizable. You may modify the title, header, footer, company info, company logo, etc.

For this exercise you will change some minor features in the report.

Return to Designer button to move to the Report Designer

Report Editor 75

The following window will appear:

Properties button (circled in the image above) to display the ToolBox Properties menu

“New Report” in the Designer window (circled in the image above) to activate that label

Caption field of the Properties and change “New Report” to “Boreholes”

Expand the Detail node of the Report tree

76 Chapter 2: Demonstration Exercise

fldx to activate the x-coordinate field

OutputFormat field

[...] button to launch the following dialogue

Set the dialogue to match the settings shown above (i.e. set Category - “Number” and Decimal Places - “4”)

Report Editor 77

Repeat the above procedure for fldy.

Saving and PrintingNow that you are done formatting your report, click the Report Preview button to move to the Preview window. The report should appear similar to the image shown below:

Print Report button from the toolbar

[X] (Close) button to return to the main HGA window.

Generate Sample BarcodesUsing the report designer, you can generate unique barcodes for individual samples. The barcodes can be used on sample jars/bottles, and for tracking purposes including Chain-of-Custody forms and lab reports. An example is provided in the demo project.

Close the Report Designer, and return to the HGA main window.

+ beside Reports in the tree, to expand this node,

+ beside Query under Reports, to expand this node

Barcode_Samples to open this report

The Report Preview will load, displaying a summary report with unique barcodes for each sample in the query. The barcode identifier is the Sample_ID. An example is shown below:

78 Chapter 2: Demonstration Exercise

In the next section, you will learn about the User Access Management tools.

[X] (Close) button to return to the main HGA window.

2.10 User Access Management

OverviewHGA includes advanced user access management, allowing the project manager (administrator) to have full control over the user(s) and user rights for accessing the project. This provides you with the confidence that your projects and HGA databases are secure, and client-sensitive data can remain confidential.

To see these features,

Settings / Manage User Access Level from the main menu.

The following dialog will appear:

User Access Management 79

The User Access Level Manager provides the following capabilities:

• Create and manage users• Create and manage user groups• Assign users to one or more user groups• Define permissions for user groups• Define access levels on an application level (projects, databases) and a project

level (access to modules, features)• Enforcement of access levels to each user group

A brief demonstration of the group property features is demonstrated below:

Groups from the tree on the left side of the window.

RestrictedUsers group from the main table

(Edit) button to edit the selected Group, and the following Group Properties window will appear:

80 Chapter 2: Demonstration Exercise

In this window, you can define group name, description, and the permissions; these include Read, Write, Delete, etc. permissions to the various HGA modules. This is useful if you have several users accessing your project, with various backgrounds. Feel free to experiment with the options available now.

When you are finished,

[X] button in the upper right corner of the window.

User Access can also be managed on application level; these settings apply to users accessing the HGA application, and include higher level object such as:

• Creating and Opening Projects• Deleting, Restoring, or Backing up databases.

For more details on the User Access Management, please consult Chapter 4 of the Users Manual.

This concludes the demonstration exercise for HGA.

User Access Management 81

82 Chapter 2: Demonstration Exercise

INDEX

AAdding a Plot 36Adding Time-Series plots to Maps 46

BBorehole Log Plots 68

CContour Map 41Create Thematic Map

Bar Chart 44Creating a Data Query 26Creating a New Map Layer with a Data Query41Cross-Sections 54Crosstab Queries 31

DData Queries 26

EExecute Data Queries 31

FFence Diagrams 60

GGeological 2D Cross Sections 53Graduated Renderer 83

HHydroGeo Analyst

About the Interface 4

IIntersecting Layers 56

MMap Manager 38

Data Summary Table 46

PPrinting Borehole Log Plots 72Printing Cross-Sections 59Printing Maps 51

QQuality Control - Lab Quality Analysis 21

RRecording 3D project to AVI file 66

SSorting Records 16Station Groups 15

TThematic Maps 44

VView Well Profile 19


Recommended