A 3D GIS Model of Colby College Campus

Slides:

Advertisements

Similar presentations

MAPPING VERTICAL TERRAIN Greg Hosilyk California State University, Long Beach, in cooperation with University of Hawaii and Kualoa Ranch Funded by the.

Advertisements

Geographic Information Systems Using ESRI ArcGIS 9.3 Join and Relate Tables.

Importing Google Earth Data into a GIS Jason Parent Center for Land use Education and Research.

Constructing A Plant Learning System Based On Web 2.0 Shu-Chen Cheng, Ting-Yun Huang Department of Computer Science and Information Engineering, Southern.

SIUE DENTAL SCHOOL VIRTUAL ENVIRONMENT BY STEVE KLAAS SIUE-GEOG 421: DIGITAL ELEVATION MODELING DR. SHUNFU HU, FALL 2013.

Georeferencing Rapid Bio-Assessment Survey Data: GIS Applications in the Upper Nehalem Watershed, Oregon. William Vreeland Earth and Physical Sciences.

Using GIS to Display Well Bore Stratigraphy and Analytical Data in 3D April 9 th, 2009 Graham S. Hayes, Ph.D., GISP Wendel Duchscherer Architects & Engineers.

Jim Walth Associate Biologist Central Coast Environmental Management Branch (805) (Office)

IS 466 ADVANCED TOPICS IN INFORMATION SYSTEMS LECTURER : NOUF ALMUJALLY 20 – 11 – 2011 College Of Computer Science and Information, Information Systems.

Abstract Ryan Stanley and Steve Taylor, Earth and Physical Sciences Department, Western Oregon University, Monmouth, Oregon, Land Cover Analysis.

Raster Data. The Raster Data Model The Raster Data Model is used to model spatial phenomena that vary continuously over a surface and that do not have.

19 th Advanced Summer School in Regional Science An introduction to GIS using ArcGIS.

GIS Tutorial 1 Lecture 6 Digitizing.

19 th Advanced Summer School in Regional Science Overview and more advanced directions with ArcGIS.

P. Joseph Lehman, Inc., Consulting Engineers incorporates Geographic Information Systems (GIS) software services with new and existing clients. Presentation.

Rebecca Boger Earth and Environmental Sciences Brooklyn College.

Spatial data Visualization spatial data Ruslan Bobov

What is Autodesk Architectural Studio? Autodesk® Architectural Studio 3 software is the visual communication and presentation tool for architects and other.

Introduction to GOOGLE EARTH.

Welcome to Mapping Tom Sellsted – City of Yakima, Washington Vladimir Strinski – Hitech Systems.

Geographic Information System GIS This project is implemented through the CENTRAL EUROPE Programme co-financed by the ERDF GIS Geographic Inf o rmation.

Welcome to DEP’s GIS Workshop Series Workshop 3 Introduction to ArcGIS Desktop 1.

GIS concepts, skills and tools

.LAS files (Log ASCII Standard) Not useable directly in ArcGIS A single X-Y position can have multiple Z values Must be converted to MultiPoint file.

Support the spread of “good practice” in generating, managing, analysing and communicating spatial information Introduction to GIS for the Purpose of Practising.

CFR 250/590 Introduction to GIS, Autumn D Analysis & Surface Modeling © Phil Hurvitz, vector_analysis_1.ppt 1  Overview 3D Analysis &

This material is based upon work supported by the National Science Foundation under Grant No. ANT Any opinions, findings, and conclusions or recommendations.

474/574 Remote sensing Lab: Digitizing Sweet water Wetland Park areas, Tucson AZ by using remote sensing imagery (Aerial and Landsat) and ArcGIS software.

DEM TRAINING (DIGITAL ELEVATION MODEL). STEP 1 OPEN GIS.

Can You Trust Google Earth? Math and Computer Science Department Seminar Wheaton College.

Using ArcGIS to Design Wetland Restorations By Scott Ralston, USFWS Windom, MN Available for Download from: SKRalston.com/USFWS/

Copyright © 2014 Natural Environmental Research Council (NERC)1 Map Visualization, Symbology, Labels & Annotation in ArcGIS 10.1.

GIT461/561 GIS: Environmental Science

Map & Geographic Visualization

Using Viewshed Analysis to Determine the Impact of the Proposed Sound Transit Transportation Plan on the Cross Kirkland Corridor Gavin Blake (‘18) Environmental.

Mapping for the interwebs

Christopher R. Bennett EASTR

Geographic Information Systems (2017)

Predicted Sea Level Rise on Plum Island, MA

Zachary Mondschein (‘17) ES212: GIS and Remote Sensing

INTRODUCTION TO GEOGRAPHICAL INFORMATION SYSTEM

Tools of the trade Global Studies.

GIS On A Budget: Simple Applications for Real World Solutions

Introduction to Geographic Information Systems (GIS) using ArcMap 9.0

Geographic Information System

Visualizing Borehole in 3D Using GIS

Changes in Closure Frequency Per Year

Hazards Planning and Risk Management

Evaluating Land-Use Classification Methodology Using Landsat Imagery

GIS Lecture: Geodatabases and Aerial Photography

Total Station Surveying & GIS.

Workflows with ENVI and Esri Agriculture workflows for ICARDA

Hazards Planning and Risk Management Tsunami Inundation Mapping

Supporting a Commonwealth of Communities

Hazards Planning and Risk Management

Hazards Planning and Risk Management

Geographic Information Systems (GIS)

3D Visualization in GIS.

Lecture 2 Components of GIS

Predicting At-Risk Areas for Deforestation in Malawi

Combining Geospatial Technology with Surveys

Publishing image services in ArcGIS

Progress Report By: Alex Hughes, Kevin Garcia, and Griffin Price

Creating Basemaps to Manage Buildings and Facilities

The Use of Looping Code in Map Production

DIGITAL PHOTOGRAMMETRY

GIS Campus Transportation Survey: Accessibility and Ease of use analysis for Foot Traffic Team Members: Fen Bowen, Ian Liphart, Tommaso Montagni, Carmen.

MODULE 5: CREATING GOOD THEMATIC MAPS

Presentation transcript:

A 3D GIS Model of Colby College Campus Henry Dodge Environmental Studies Program, Colby College, Waterville, ME Introduction Three dimensional modeling capabilities are a unique addition to ArcGIS software. The goal for this project was to create a semi-realistic 3D model of Colby College Campus using ArcGIS 10.3, and Google Sketchup. No such model has been created as of yet at the college. I hope this project can be useful for Colby as new buildings are constructed in the coming years, and provides ideas for a new way to view and map the campus. Figure 1. The final map of Colby College campus. Methods Data were initially gathered from the Maine Office of GIS. Satellite imagery, as well as digital elevation models (DEM) were downloaded and transferred into ArcMap. All data were projected in NAD 1983 Zone UTM 19N. Figure 2 shows the DEM layer from the Maine Office of GIS, as well as the campus buildings vector layer from the Colby Physical Plants Department (PPD). The DEM and satellite imagery for the campus were downloaded in two pieces each, and the data sets were merged in ArcMap using the ‘Mosaic To New Raster’ tool. The data were then transferred to ArcScene. The DEM layer was set as the base layer for the map and extruded to it’s elevation. This gave the layer a realistic 3D elevation. The satellite imagery and campus buildings vector layer were draped over the DEM to mimic the elevation. Building elevation data were gathered from the Colby College PPD. Building heights were estimated by manually measuring CAD data from PPD. The data was transferred into an Excel spread sheet, imported to ArcScene, and joined to the buildings vector layer in ArcScene. The buildings were then extruded to convey accurate elevation. Individual shape files were selected within the buildings layer and the ‘Layer 3D to Feature Class’ tool was used to create a copy of the file within the map. Google Sketchup is not compatible with shape files within ArcGIS, and the ‘Multipatch To Collada’ tool was used to convert individual shape files into collada files that could be manipulated in Sketchup. Files were exported to the fileserver and manipulated in Sketchup to give them a more realistic look. The buildings were modeled off of first hand observations and images from Google Earth. Finished buildings were exported as collada files and imported to ArcScene through an editing session. Selected buildings were replaced with new 3D models. The process was repeated on Miller Library, F.W. Olin Science Center, Arey, Keyes, Diamond, Garrison-Foster, and Lorimer Chapel. Although the process was completed in the same way for all buildings, some collada files were unable to be exported for Sketchup manipulation. To show a more unique view of the campus, the Fly tool in ArcScene was used to record fly-overs. The video clips were compiled and edited into one video which displays the 3D map from various angles and depicts different base layers to give viewers a unique look at the campus. Figure 5. The final map of Colby College campus. Figure 5. Campus is extruded with the DEM layer depicting the elevation of Colby and surrounding areas. Figure 2. The DEM and satellite imagery were joined in ArcMap and the buildings layer was placed on top. Figure 6. The buildings that were manipulated in Google Sketchup are depicted. Results I was able to model Miller Library, F.W. Olin Science Center, Arey, Keyes, Diamond, Garrison-Foster, and Lorimer Chapel using ArcGIS and Google Sketchup 3D flyovers were conducted using the ‘fly’ tool in ArcScene to give viewers a unique perspective on the map I constructed a 3D map of Colby College Campus The map could be used in a variety of different ways in the future including: planning new building projects on campus, running interesting visual analysis while taking into account elevation, and as an aesthetically appealing, accurate map of campus. Figure 3. Individual buildings were selected in ArcScene and converted into collada files before being manipulated in Google Sketchup. Figure 7. Buildings manipulated in Google Sketchup are shown with the DEM layer as the base of the map. Acknowledgements I would like to thank Philip Nyhus, Environmental Studies Program Chair, Manny Gimond, GIS & Quantitative Analysis Specialist, and Abby Pearson, Environmental Studies Teaching Assistant, for their guidance throughout the project, as well as the Physical Plans Department for providing me with the data I needed. Figure 4. Details were added to the buildings in Google Sketchup before being exported back into ArcScene.