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BIG Geospatial Data. WHAT IS SPATIAL BIG DATA?  Defined in part by the context, use-case  Data too big, complex for traditional desktop GIS  Often.

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Presentation on theme: "BIG Geospatial Data. WHAT IS SPATIAL BIG DATA?  Defined in part by the context, use-case  Data too big, complex for traditional desktop GIS  Often."— Presentation transcript:

1 BIG Geospatial Data

2 WHAT IS SPATIAL BIG DATA?  Defined in part by the context, use-case  Data too big, complex for traditional desktop GIS  Often seen as relating to user experience  Three data attributes of unsatisfactory user experience

3 VOLUME  Massive  Globally distributed  Unacceptable response time  Example: Kriging crowd-sourced temperature data

4 VELOCITY  Frequent data  Real time  Example: monitoring of smart phones, tweets  Data loss  System failure

5 VARIETY  Multi-dimensional  Large human effort to accomplish task  Fusion of multiple data sources  Example: mapping post-disaster situation on the ground

6 EXAMPLES OF BIG SPATIAL DATA  Raster  Global Climate Models  Unmanned aerial vehicle data (drones)  LiDAR  Vector  Volunteered Geographic information (OpenStreetMap)  GPS Trace Data (tied to eco-routing)

7  Graph  Spatial-Temporal Engine Measurement Data (vehicle sensors sensing elevation)  Historical Speed Profiles (dynamic road routing)

8 Traditional Spatial DataBig Spatial Data Simple Use Cases Map of 2012 election voter preferences Real time maps of tweets, traffic ExamplesPoint, line, raster graph dataCheck-ins, drone videos, GPS tracks in phones Volume10 6 crime reports/year, gigabytes of roadmaps 10 14 GPS traces VarietyRaster, vector, graphMoving objects, time-series VelocityLimited velocity (waiting for next Census) High velocity (real-time map of tweets)

9 SOURCES  Directed  surveillance  Automated  inherent  Volunteered  gifted

10 DATA PROCESSING  A need to utilize data  Integration  Open data analytics

11 APPLICATIONS OF BIG SPATIAL DATA  Eco-Routing  UPS routes avoid left-turns to limit idling, save fuel  Eco-routing could be extended across industries, help save fuel  Climate Change models  With more years of historical models, long-range climate models will be more robust  CartoDB earth observation  Disaster response  Red Cross detected tornado in Texas by following tweets, seeing hotspot

12 IT CHALLENGES  Data Intensity  Lots of data  Coming in fast!  Formatting, structure, organization  Computing Intensity  Earth phenomena is complex  Complex algorithms and models needed  Often beyond standard computing capacity

13  Concurrent Intensity  Allow use to millions of people at the same time,  Emergency response capabilities  Spatiotemporal Intensity  Data must be intense across space and time  Geographic, atmospheric, oceanic

14 OTHER ISSUES  Trustworthy  Privacy  Ethical  Technocracy  Corporatization and technology lock-in

15 REFERENCES  Evans, M. R., Oliver, D., Yang, K., & Shekhar, S. (2013). Enabling Spatial Big Data via CyberGIS: Challenges and Opportunities. CyberGIS: Fostering a New Wave of Geospatial Innovation and Discovery. Springer Book.  Yang, C., Goodchild, M., Huang, Q., Nebert, D., Raskin, R., Xu, Y., & Fay, D. (2011). Spatial cloud computing: how can the geospatial sciences use and help shape cloud computing?. International Journal of Digital Earth, 4(4), 305-329.

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