Esri’s interactive map is available for the media to embed or share as part of ongoing tornado and severe weather coverage. View the tornado’s path and damage radius, schools in the area, and where the general public can dropoff relief supplies. You can also explore geotagged social media from Twitter, YouTube, and Flickr overlaid on 2012 population density data.
Posts Tagged ‘GIS’
For those who did not get a chance to attend the Esri Geodesign Summit 2013 in Redlands, Calif. or who didn’t get to all of the sessions they would’ve liked to attend, here are a number of videos taken at the Summit of various talks.
If you missed GISCafe Voice’s coverage of that conference it is available in these blogs:
AAM Pty Ltd., a geospatial services and technology based in Australia, recently announced a merger with Vekta Pty Ltd., another industry leader in the geospatial industry. This merger takes Vekta out of the competition and positions AAM as one of the largest providers of geospatial services in Australasia and the Asia Pacific, as well as Africa.
According to ABI Research’s latest data on the Internet of Everything (IoE), there are more than 10 billion wirelessly connected devices in the market today; with over 30 billion devices expected by 2020.
“The emergence of standardized ultra-low power wireless technologies is one of the main enablers of the IoE, with semiconductor vendors and standards bodies at the forefront of the market push, helping to bring the IoE into reality,” said Peter Cooney, practice director. “The year 2013 is seen by many as the year of the Internet of Everything, but it will still be many years until it reaches its full potential. The next 5 years will be pivotal in its growth and establishment as a tangible concept to the consumer.”
As public safety moves closer to a nationwide Next-Generation 9-1-1 system, Geographic Information Systems will play an ever-increasing part.
By guest writer, Anthony Haddad, Sales Engineer, Intrado
The use of geographic information systems (GIS) is not new to public safety. It first came on the scene as an important tool with the introduction of wireless 9-1-1 service when location information could not be derived from a fixed service address. In today’s legacy architecture, geocoding or plotting X,Y coordinates is often used in conjunction with mapping applications to help dispatch responders to the correct location, but that has been the extent of its application.
Public safety agencies have been collecting GIS information for decades in order to populate the information found in selective routing database (SRDB), automatic location information (ALI) and master street address guides (MSAG). When an emergency call comes into a legacy GIS-equipped PSAP, associated addresses or X,Y coordinates are delivered as well, though the coordinates are meaningless on their own. In order to be valuable, this data must be plotted on a map in either the call-processing or computer-aided dispatch (CAD) environment. Once plotted, the information can be applied to perform dispatch functions. In this way, GIS is a supplemental tool used to verify location alone.
Crow Wing County Land Services of Minnesota announced that all land use permit history is now available for viewing through the GIS mapping website.
The permit search includes tems such as conditional use permits, variance applications, septic information, building permits, wetland permits and subdivision applications.
Interesting to know what the Open Geospatial Consortium has been discussing lately in the way of geospatial technology trends:
“All predictions are wrong, some are useful. Predictions of geospatial technology trends have been the topic of recent discussions by the OGC Board of Directors and the OGC Planning Committee. One of my roles as OGC Chief Engineer is to offer a slate of “ripe issues” as a basis of these discussions. This blog provides an overview of the ripe issues developed in March 2013 and explains how they were developed. Future blogs will discuss each issue individually.
The ripe issues of geospatial technology identified in March 2013 are:
- The Power of Location
- Internet of Things
- Mobile Development
- Indoor Frontier
- Geographers of the future
- Geospatial Processing
- Smart Cities
- Policy implementation
These issues were developed by reviewing over 200 recent articles from information technology journals from IEEE, ACM, etc. as well as from geospatial industry magazines and other publications. Geospatial World’s recent “Thought Leaders Edition” was particularly useful in identifying issues from a geospatial industry perspective.
The U.S. National Institute of Justice has announced that it expects to award a maximum of three discretionary grants for research that explores the relationship between theory and geospatial predictive policing strategies.
No award amount was specified for this program.
According to the report, this funding opportunity is open to any entity, such as state, county, city, township and special district governments; Native American tribal governments and organizations; institutions of higher education; Historically Black Colleges and Universities; Tribally-Controlled Colleges and Universities; non-profits; for-profits; small businesses; eligible agencies of the federal government; and faith-based or community organizations.
The NIJ is seeking proposals that “focus on linking theories to current policing strategies, discerning potential disconnects in the levels of analysis between theory and practice, explicating what effects this may have on findings, and, finally, addressing means of adapting theory and practice based on the results.”
Robert Cheetham, CEO and president of Azavea, spoke about the Web-based Historical Geocoder called Temporal Geocoder, that the company is developing for address-level temporal geocoding.
GISCafe Voice: Do you think this is the first time-enabled geocoder to be developed?
Robert Cheetham: There have been previous efforts to create time-based place name gazetteers. The China Historical GIS project<http://www.fas.harvard.edu/~chgis/>is a good example of a place name geocoder that has some similar ideas. There is a similar effort underway in New York City, led by the New York Public Library that is also aimed at place names. But, to our knowledge, this is the first attempt to create an address-level temporal geocoder. We hope to merge both address and place name geocoding into the same system.
GISCafe Voice: What types of technology will be employed in Temporal Geocoder’s making?
Robert Cheetham: We plan to use Leaflet, Python, Django and PostGIS. There is also some parallel work being done by a sub-project of the OpenStreetMap project and we hope to collaborate with that effort as well. We plan to release the Database Editor under an open source license in order to make it possible for other communities to build similar databases as well as to cultivate a community around this type of work.
GISCafe Voice: How will the information for the historical aspect be displayed?
Robert Cheetham: We plan to create two basic software tools, both of which will be web-based. The first will be a database editing software tool that will enable people to indicate changes in the street network as well as street name changes and aliases. This Historical Street Database Editor will be able to display, a) the current streets; b) the street grid for a specific historical reference period; and c) a historical reference map that has been scanned and georeferenced.