• Jared Lai & Taimur Farasat: The Stairway to OWU
  
• Jeff Cheng: Light Coverage around OWU Campus Dorms
  
• Malaina Hicks: Damaged Road Signs
  
• Abutalib Zaidi, Akmal Leghari & Mehmud Dawood: High Security Areas in Karachi
  
• Alexis Levesque, Courtney Pinkney, Jeff Herring, & Brian Caferella: Sexscape of Ohio Wesleyan
  
• Thomas Kent, Devon Rayasa & Pratyush Agarwal: Geography of Alpha Sigma Phi Fraternity
  
• Josh Gardner, Scott Hellberg, and Zach Frentsos: 2008 NHL Playoff Teams
  
• Ali Samir Oosman, Carlo Biagioni, Dhruv Gandhi & Faizan Mohammad: OWU Calls of Distress
  
• Shawn Crow, Warren McDaniel & Tyler Wall: Busted Houses
  
• Julia Fouts & Alexa Deaton: The Delaware Salons
  
• Erica Lowell, Matt McNeal, Andrew Martin & Kevin Seargent: Delaware County High Schools
  
• Haleigh Rohr & Eliot Hubbell: Sex Offenders of Delaware County
  

Introduction: For most of the history of the map, a very small number of people made maps and a much larger number used them. Map-making evolved into a highly skilled profession with an array of theoretical, technical, and practical facets that precluded most people from making more than sketch and hand-drawn maps.

With the development of GIS software and web mapping, some people heralded the dawn of popular mapping: anyone with internet access could be a mapmaker. Geography 222 exercises focus on the diversity of maps you can make on the web.

But there is a bit of a problem: you are making maps with other people's data. The U.S. Census Bureau's data, MapQuest's data, Delaware County GIS Office's data, NationMaster's data, and so on: what other people and organizations think is important.

So what about mapping your own data? If you can map your own data you can map what matters to you, or your organization, or your company, or your family, or your friends. Indeed, making your own maps with your own data means you are liberated from the confines of what other people think is important (and thus what data is made available) about the world.

A map your own data revolution has started on several fronts, driven by technology, in particular Google Earth (and it's KMZ files), the ease of creating a map mashup using Google Maps (and an increasing number of other web mapping sites), and easy access to GPS for collecting your own data. We already did some address matching (or geocoding) in Lab 4 with the BatchGeoCode web site which is, in essence, mapping your own data.

In addition to geocoding, the map "mash-up" is a vital tool in the map your own data revolution. In general, a mashup is just putting different stuff together. Music mashups splice and overlay segments of different songs that, in combination, become a new song. Map mashups do the same thing: combining geographic data and maps from multiple sources into a new map. Both music and map mashups are greatly enabled by digital technology, although they existed long before software and computers.

Enabling the whole map mashup phenomena are open APIs. An API (Application programming interface) is just a bunch of programming tools for building new applications.

More on APIs:

• Web Mashup APIs
• Programmable Web APIs
• Programmable Web Map Mashups

Google provides access to their Google Maps API that allows anyone to combine their data with Google Maps as the background. While relatively simple, Google Maps API still requires a bit of effort (signing up for a free API key which allows you to create mashups with Google Maps, and some HTML scripting). It also requires that you have geographic data, points, lines, and areas, in latitude/longitude, and specify these locations in the HTML code. The benefit is that anyone anywhere with web access can see your data mapped out with a Google Maps background.

• Map Mashup Example: The Geography of Geography 222 Spring 2008

Google (April of 2007) introduced an even easier way to make basic map mashups, called My Maps. My Maps allows you to place points, lines, and areas directly on a Google Map background, and annotate these features with text, images, and movies. As you are on screen locating features, the accuracy may be a bit off, but you can use a Google Maps search to more precisely locate things, and transfer the points to your map. The problem with My Maps is that you must have a Google Account to create a map. I am also not clear if your My Maps maps can be found in a Google Search, but that is the way it is supposed to work.

The big picture: Google's My Maps and other map mashup APIs allow just about anyone to map their own geographic data onto existing geographic data (such as Google Maps). The process can be simple or complex, resulting in a few points located on a map to sophisticated projects with thousands of data points, lines, and areas. While still in its infancy, map mashup technology greatly extends the potential of popular mapping.

Talk to me if you want to learn more about GPS data to Google Earth and Google Maps.

Goals: This exercise uses Google Map's new My Maps feature to create your own personal map mash-up, focused on somewhere and something of your choice that better be damn interesting. You will add your own point, line, and area data to Google Maps and make a publicly viewable map mashup. You can also link text, photos, and movies to these locations. You may work in groups or on your own (groups need to do more substantial projects).

Procedure:

1) Decide if you are going to work in a group or on your own. Group project have to be more substantial than individual projects.

2) If you don't have a Google Account you need to create one.

• You can get rid of the account after you complete this exercise.
• If you are working in a group, you only need one account.

3) Think about some potential topics. Your data should be stuff that is locatable at points, along lines, or in areas. It should not be boring. It should be things you don't normally see on normal maps.

Review the My Maps examples below, including student maps from last semester. They may help you ponder your own project ideas.

A couple of fascinating example maps I tossed together:

• What's Cool about Eastern OWU
  • Map some stuff from a place you know that is not on "normal" maps. This is similar to the mental map you drew for exercise 1 but plotted on a cartographic map.

• Crestview Road Dog Shit Map
  • Dog shit (feces, poop, etc.) is a serious environmental problem. And it's gross. It's the new second-hand smoke.

  • More information:
    • Patrick Murphy Big Page 'O' Dog Shit Information & Maps
      
    • Dog waste poses threat to water (USA Today)
      
    • The Dilemma of Dog Waste, and What to Do About it

• Who's to Blame for Bush?
  • Not thrilled with the Iraq war? Don't Like the President? Locate those in your neighborhood who gave money to Bush and the RNC in the last election. Money sold the product!
    • Political Donors Data: FundRace 2008
    • Political Donors Data: FundRace 2004
    • Federal Election Committee: Presidential Campaign Finance
    • ...then google them: Google

• More Examples: Student Maps, Fall 2007:
  • Olivia Duffy, Will Ruzek, Jack Schemenauer, & Ted Youngling: OWU Beer Trash Map
    
  • Eric Brockfield & Rachel Decker: Clumsy or Quiet Places at OWU
    
  • Evan Jerfsten: Road Kill Around Delaware, OH
    
  • Nick Foley & Greylyn Hydinger: U.S. Soldiers from Ohio Killed in Iraq
    
  • Andrew Jones & H.T. Richart: Bowl Season
    
  • Bibhas Acharya, Brandon Mowrer & Baber Kaimkhani: Sheriff Sales: December '07
    
  • Hasani Wheat & Brady McCaffrey: Sports Memorabilia (Buckeyes and everyone else)
    
  • Kyle Holliday, Erik Hauber, & Justin Payne: Basketball Courts in Delaware Usable by OWU Students
    
  • Teene Shaw & Matt Stromberg: Christmas in Delaware
    
  • Todd Ufferman, Chris Lathem, & Marcus Bastianelli: Bob Marley's 1980 Uprising Tour
    
  • John Belleau, Gavin Cunningham, Devin Harrigan, & Kevin McMahon: OWU's Most Wanted
    

• More examples: Student Maps, Spring 2007:
  • Jeremiah Broderick: Leisure Activities of My High School Years
    
  • Ken Gomez: Paris 147
    
  • Slesh Anand Shrestha & Trailokya Bhattarai: OWU International Sudents' Survival Kit
    
  • Aashrai Sarin: Formula 1 Venues
    
  • Mona Almobayyed: Trip through Spain
    
  • Almaza Yaghmour & Ryan Prince: Edible or Ewwww: Food in Delaware
    
  • Athana Frentsos & Neha Goswani: Haunted Places in Ohio
    
  • Ben Chojnacki & Rhett Rybarczyk & Nathan King: The Butt Map: Beautifying the OWU Campus
    
  • Dan Strumlok: Home
    
  • Lindsey Hoffer & Monique Frederick: OWU Flaws
    
  • Brandon Hunter & Matt Kempton: Get Outside and Exercise Locations in Delaware, Ohio
    
  • Asad Zaman & Rabnawaz Matiana: Hotels in Islamabad, Pakistan
    
  • Atit Kothari & Kalyan Gurung: The Shopping Hot spots in the City of Bombay, India
    
  • JR Glockner, Nick Wagner, and Max Penning: DEA: Most Wanted Criminals in LA
    
  • Chris Ready & Timmy White: Places to go to the Bathroom Around Ohio Wesleyan
    
  • Kris Krasnosky & Mery Kanashiro & Clint Davis: OWU Professors
    
  • Matt Garvey & Matt Lehman: Political Contributions, City of Delaware, Ohio
    

• More examples:
  • Official Google Blog "My Maps" Press Release
  • Ongopongo: Collection of Google "My Maps" mashups
  • Google Maps Mania: Blog on map mashups in general
  • Cool Google Maps: Blog on map mashups in general

Be creative and have fun, please. Please. Talk to me if you want to discuss your ideas.

4) Map your own data! You may need to do some exploring outside to confirm locations (this works only if your map is focused on the Delaware area, or if you can easily get to wherever you are mapping), use other methods to locate things (Google Maps search, other maps, data sites, books, etc.) or even get information by talking to other people.

The Google My Maps User's Guide has simple and clear instructions on creating a map with your data using placemarks (points), lines, and shapes (areas). The guide also covers how to edit your maps, add photos and movies (which need to be somewhere on the web), sharing your maps, and getting your maps into Google Earth.

Extra Fun: The symbols provided by My Maps are a bit flimpy. You can design your own symbols with a bit of effort: a tutorial I concocted is here on the blog for the Making Maps book. Let me know if you want to create your own symbols and need help.

Each person should generate fifteen annotated placemarks/lines/shapes on a map. Thus if you are working in a group of two, you need thirty placemarks/lines/shapes. Include photos in at least three of the locations (I can assist you in preparing your images and placing them on the internet).

What is Due

Please turn in the following:

• email me the URL to your My Maps map.

• 1-2 pages: Detail how you collected your data and created your map. Document any problems you had and how you solved them.

• 1-2 pages: Reflect on your project and relate it to other mapping you did on the web this semester. Is mapping your own data really more liberating than mapping with other peo/ples data? Can you forsee using the My Maps functions in the future? For what? Is My Maps and similar "map your own data" web sites going to have a impact beyond the "cool factor"?

Remember that we will take some class time to demo and discuss the results of this exercise on the day it is due.

E-mail: jbkrygier@owu.edu

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