Using ArcGIS to Study the Correlation between Lightning Strike Density and Terrain Elevation Alex DeCaria and Michael Babij Department of Earth Sciences.

Slides:

Advertisements

Similar presentations

ESRI Software ArcGIS –ArcMap –ArcEdit –ArcInfo –ArcView.

Advertisements

Matthew Bloemer Daniel Waller Eureka WFO 5/6/10. Outline  Background & Motivations  What is the Need for this Research  Data Constraints, Caveats to.

By: Jeana Mascio. The Point Want to be more accurate with estimating rainfall amounts from Z/R relationships.

GIS Matthew Rosencrans Tom DiLiberto. Outline What is GIS? What can we do with it? What data can we work with?

Raster Based GIS Analysis

University of Wisconsin-Milwaukee Geographic Information Science Geography 625 Intermediate Geographic Information Science Instructor: Changshan Wu Department.

19 th Advanced Summer School in Regional Science Overview of advanced techniques in ArcGIS data manipulation.

From Topographic Maps to Digital Elevation Models Daniel Sheehan DUE Office of Educational Innovation & Technology Anne Graham MIT Libraries.

Maps as Numbers Getting Started with GIS Chapter 3.

West Hills College Farm of the Future. West Hills College Farm of the Future Where are you NOW?! Precision Agriculture – Lesson 3.

Department of Geography University of Portsmouth Fundamentals of GIS: What is GIS? Dr. Ian Gregory, Department of Geography, University of Portsmouth.

ANALYSIS 3 - RASTER What kinds of analysis can we do with GIS? 1.Measurements 2.Layer statistics 3.Queries 4.Buffering (vector); Proximity (raster) 5.Filtering.

Geographic Information Systems

Geographic Information Systems. What is a Geographic Information System (GIS)? A GIS is a particular form of Information System applied to geographical.

Maps as Numbers Lecture 3 Introduction to GISs Geography 176A Department of Geography, UCSB Summer 06, Session B.

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

Geographic Information Systems

Introduction to ArcView ArcView_module_2 May 12, 10:40 AM.

What is GIS A geographic information system (GIS) is a system designed to capture, store, manipulate, analyze, manage, and present all types of geographical.

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

Conversion from Latitude/Longitude to Cartesian Coordinates

GPS to GIS: Collecting and Mapping Real-World Data Collect GPS data around your school, and import it into ArcView to create shapefiles and grids.

Let’s pretty it up!. Border around project area Everything else is hardly noticeable… but it’s there Big circles… and semi- transparent Color distinction.

Spatial Analysis University of Maryland, College Park 2013.

Rebecca Boger Earth and Environmental Sciences Brooklyn College.

Introduction to ArcGIS for Environmental Scientists Module 2 – GIS Fundamentals Lecture 5 – Coordinate Systems and Map Projections.

Fundamentals of GIS Lecture Materials by Austin Troy except where noted © 2008 Lecture 13: Introduction to Raster Spatial Analysis Using GIS-- By.

Spatial Data Model: Basic Data Types 2 basic spatial data models exist vector: based on geometry of points lines Polygons raster: based on geometry of.

Geodesy, Map Projections and Coordinate Systems

A Long-term Shoreline Change Study of Morris and Folly Islands, SC Michael Rink – GISP Masters in GIS Program Pennsylvania State University Advisor: Professor.

“Flood monitoring and mapping for Emergency Response in San Antonio-Texas” Part I by Silvana Alcoz Source photo Term.

ESRI GIS Software. Contents Data Types –ESRI Data Model –Shapefiles –Raster Data Digital Orthophoto Quadrangle Digital Elevation Model Digital Raster.

LANDSLIDE SUCCEPTABILITY MAPPING (Case study of SRILANKA)

Ref: Geographic Information System and Science, By Hoeung Rathsokha, MSCIM GIS and Remote Sensing WHAT.

Spatial (coordinate) data model Relational (tabular) data model

ESRM 250 & CFR 520: Introduction to GIS © Phil Hurvitz, KEEP THIS TEXT BOX this slide includes some ESRI fonts. when you save this presentation,

Mid-Semester Lecture Exam Vocabulary Obvious steps within GIS –Selection and query processes –Working with tables –Classification concepts Projections.

CORSE '07 Spatial Data Spatial data comes in many forms. So How does a GIS work with the data so that it can put the data in the right place on a map?

Different kinds of data Example of Elevation Topographic DEM (Digital Elevation Model)

Faculty of Applied Engineering and Urban Planning Civil Engineering Department Geographic Information Systems Vector and Raster Data Models Lecture 3 Week.

Data input 1: - Online data sources -Map scanning and digitizing GIS 4103 Spring 06 Adina Racoviteanu.

8. Geographic Data Modeling. Outline Definitions Data models / modeling GIS data models – Topology.

How do we represent the world in a GIS database?

The world of RASTER data Modeling... Elevation....etc. The Spatial Analyst Extension.

Interpolation Tools. Lesson 5 overview  Concepts  Sampling methods  Creating continuous surfaces  Interpolation  Density surfaces in GIS  Interpolators.

.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.

DIGITAL ELEVATION MODELING GEOG 421: DR. SHUNFU HU, SIUE Project One Steve Klaas Fall 2013.

The.mxd File Lecture L4 –Data Models Ch. 2, pp 54-End.

GIS Data Structures How do we represent the world in a GIS database?

NR 143 Study Overview: part 1 By Austin Troy University of Vermont Using GIS-- Introduction to GIS.

1 Overview Importing data from generic raster files Creating surfaces from point samples Mapping contours Calculating summary attributes for polygon features.

Geographic Data in GIS. Components of geographic data Three general components to geographic information Three general components to geographic information.

INTRODUCTION TO GIS  Used to describe computer facilities which are used to handle data referenced to the spatial domain.  Has the ability to inter-

Introduction to Geographic Information Systems (GIS)

Introduction to Geographic Information Systems

What is GIS? “A powerful set of tools for collecting, storing, retrieving, transforming and displaying spatial data”

U.S. Department of the Interior U.S. Geological Survey Projecting Global Raster Databases July 11, 2002 Joint International Symposium on GEOSPATIAL THEORY,

Geodesy, Map Projections and Coordinate Systems Geodesy - the shape of the earth and definition of earth datums Map Projection - the transformation of.

GIS Data Shape files, Rasters, Coordinate Systems, ArcGIS.

Surface Analysis Tools. Lesson 7 overview  Topographic data  Sources  Uses  Topographic analysis  Hillshade  Visibility  Contours  Slope, aspect,

Rayat Shikshan Sanstha’s Chhatrapati Shivaji College Satara

Graduate Students, CEE-6190

of Temperature in the San Francisco Bay Area

Chapter 8 Raster Analysis.

Spatial Data Models.

INTRODUCTION TO GEOGRAPHICAL INFORMATION SYSTEM

Results & Conclusions Cont’d

Review- vector analyses

Digital Elevation Models and Hydrology

Geodesy, Map Projections and Coordinate Systems

Presentation transcript:

Using ArcGIS to Study the Correlation between Lightning Strike Density and Terrain Elevation Alex DeCaria and Michael Babij Department of Earth Sciences Millersville University

Raster vs. Vector Raster data Gridded data Attributes are assumed valid over entire cell ArcGIS stores in GRID files Vector data Uses points, lines, and polygons Attributes are assumed valid only on the given shape ArcGIS stores in shape files

Raster vs. Vector

Example of Attribute Table Point IDTemperaturePressure

Lightning Data Lightning strike positions for acquired from the National Lightning Detection Network TM (NLDN)National Lightning Detection Network TM –NLDN detects only cloud-to-ground lightning –Positions are lat/lon on WGS84 datum –Positions are accurate to within 1 km

Formatting Data Data came as ASCII file with each record representing a single lightning strike. –Lat/lon –Time –Signal (+ or  ) Wrote Fortran90 program to parse data into separate years and specific location. Data files then read into Microsoft Access database program and converted into ArcGIS shape files (one for each calendar year)

Lightning Strike Positions for 2001

Calculating Density First converted data from lat/lon coordinates to meters easting and northing Spatial Analyst then used to calculate density. –The density calculation creates a raster from the vector (point) lightning locations –Need to specify search radius and cell size.

How ArcGIS* Calculates Density r = search radius d = cell size * Need Spatial Analyst extension

Effect of Search Radius on Density Calculations Radius = cell size Radius >> cell size

Calculating Density First converted data from lat/lon coordinates to meters easting and northing Spatial Analyst then used to calculate density. –The density calculation creates a raster from the vector (point) lightning locations –Need to specify search radius and cell size. –Need to specify “simple” or “kernal” for calculations

“Simple” vs. “Kernal” for Density Calculations SimpleKernal

Calculating Density (cont.) Density data are adjusted based on estimated detection efficiencies –Efficiency was 61% in 1995 and increased to 100% in 1998 and later Adjusted yearly densities were averaged to calculate annual average flash density map

Annual Average Strike Density

Elevation Data Used USGS National Elevation Data set (~30-meter horizontal grid). Converted to 1-km horizontal grid using Raster Calculator feature of Spatial Analyst extension

Low-resolution Terrain Elevation

Joining Density and Elevation Data Used Raster Calculator to re-map density and elevation data sets onto their shared domain.

Comparision of Strike Density and Terrain Elevation

Creating Joined Elevation/Density Data File Converted both the elevation and density data sets into vector (point) format using the “convert” feature of Spatial Analyst. –ArcGIS only converts integer rasters to vector form. –Used Raster Calculator to convert real raster to integer raster –Needed to multiply density by 10 to preserve information in decimal place.

Joined the two vector data sets using the “Join” feature of Spatial Analyst. This creates a joined “attribute table” that contains both density and elevation information at each point. Creating Joined Elevation/Density Data File (cont.)

Statistical Analysis Exported joined attribute table to ASCII file and then imported it into a Microsoft Excel worksheet. Used Microsoft Excel to create scatter plot and perform linear regression.

Conclusions There exists a weak, yet statistically significant negative correlation between terrain elevation and annual average lightning strike density for SE Pennsylvania. Suggests that orography is not the dominant factor in thunderstorm formation in this region. –Consistent with Orville and Huffines (2001)* Next step: Analyze data over Rio Grande Valley in New Mexico, where there appears to be a positive correlation between flash density and elevation. * Orville, R.E. and G.R. Huffines, 2001: “Cloud-to-ground lightning in the United States: NLDN results in the first decade, , Mon. Wea. Rev., 129, pp

Acknowledgements Ken Cummins, Väisälä-GAI, Inc. –Provided lightning position data free of charge. Millersville University Faculty Grants Committee –Funded student research hours. Tom Whitfield, PA Geological and Topographic Survey –Provided topographic data and advice.