location-formats

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Location Formats

This is a list of previous efforts at location / geographic ("Geo") data formats and protocols, as background research for developing a location format.

vCard & hCard

vCard (RFC2426) and hcard includes 'adr', a way to markup addresses. There is also a field called 'geo' for lat/long.

UPU S42 & OASIS xNAL

UPU S42 is a standard for representing postal addresses. UPU, the Universal Postal Union, is the consortium of all national posts. See UPU S42 Announcement. xNAL, the XML Name and Address Language, is an earlier attempt to standardize on the components of addresses developed by OASIS, a consortium of business-process weenies. The distinction between vCard/hCard and S42/xAL/xNAL comes down to whether the address line elements themselves are decomposed. For example, in xNAL you can specify components like street number, street prefix directional, street name, street type, street postfix directional, subaddress type (Suite), subaddress number.

It is not always possible to conclusively determine these components from an address line, even in the US where addresses are more canonical than others. "A 4TH ST W STE 10" is a legal address line in the US. The street number and name are required (in the US) so this could be canonically decomposed as streetnumber="A", streetname="4TH", streettype="ST", postdirectional="W", subtype="STE", subtypenumber="10".

UPU S42 and OASIS xNAL standards are likely overkill for tagging general web content. However, they are important standards that should be considered in web-services involving both geocoding and reverse-geocoding. Perhaps standards related to decomposed addresses is something that should be placed on another page.

In addition, there should be pointers to national address standards.

USPS publishes a complete list of canonical abbreviations for both streettypes and subtypes. Their publications are self-inconsistent, but it is easy to infer the correct mappings. See USPS Acronyms & Abbreviations

New Zealand apparently adopted a variant of xNAL NZ xNAL Guidelines Release 1.0.

ICBM

One comma seperated pair of lat/long <meta name="ICBM" content="XXX.XXXXX, XXX.XXXXX"> [1]

GeoUrl

  • GeoURL
  • Multimap.com provides similar functionality to GeoUrl, searching for websites and weblogs which are geotagged or ICBM tagged, and adding them to local information databases.

Flickr Geotags

Geotagging

A2B

A2B is a location based search engine. Lat and long only. Seems to pick stuff up from geo meta tags. Pages can either be manually entered or pinged. They support lat/long and ICBM meta tags.

RSS

Several people have tried putting geographic information into RSS.

Address2Coordinates

Both of these systems are freely available sources of address to lat/long mappings (US only). I think they're based on US Census data, so they might be up to date.

Plazes

Plazes is a system that does geo-info based on the network access point that the user's computer is connected to. They use tagging to identify locations.

Mapping Sites

Semantic Web

  • Geosemantics Interest Group
  • GeoOnion - a SW vocuabulary for relating items by distance from each other.
  • RDFMap
  • GeoRDF similar effort to collect prior art, for an effort in interoperability between OGC standards and various lightweight geo formats.

GML

Geographic Markup Language provides the most complete XML descriptiono of geographic information available. Fortunately, it is also in wide-spread use, so a commonly-used subset of the 600-page specification has emerged. GML is used in the OGC WFS payload described below.

Open Geospatical Consortium - OGC

Since 1994, Open Geospatial Consortium has been developing open specifications to enable the exchange of geographic information between applications. While some GIS vendors opposed OGC initially, essentially all commercial GIS software companies have broken down their proprietary "stovepipes" by embracing OGC specifications. The recent groundswell of ajax mapping applications can benefit tremendously from using OGC specs.

WMS

The OGC Web Map Service (WMS) specification makes it easy to request map images from a map rendering engine, such as the UMN Map Server. It is straightforward to build dynamic tiling ("slippy map") ajax applications that pull in OGC map tiles. At Where 2.0, MetaCarta demonstrated such an OGC-capable ajax GIS client. The portal map providers (yahoo/gmaps/msn/map quest) do not yet offer WMS interfaces, so someone should wrap their proprietary interfaces in a WMS wrapper to encourage them :-)

WCS

Web Coverage Service extends WMS to enable attribute information about large area overview maps.


WFS

The OGC Web Feature Service (WFS) specification is the best way to express geographic information about Web content. It is more complex than the ad hoc geoURL syntax, and for good reason: it can be loaded directly into any OGC-capable GIS even if the coordinate information is in a different projection/datum or is more complex than just a point.

WFS provides a robust means of querying for geographic entities, such as points, polygons, and more complex feature types. One can define new feature types simply by describing them. One can even specify the visual appearance of the geographic features using the OGC Styled Layer Description (SLD) specification.

WFS is to vector map data, as WMS is to raster map data.

Geographic search results, such as the yellow page information from the portals, could be presented in WFS. John Battelle commented that RSS forces publishers to attach their business model to their content, instead of to the web site holding the content, so that they can make money no matter where their content flows. The search portals will probably be forced to do the same, e.g. putting click-through ads in the RSS search results or WFS yellow page results, so that even when you display them in your customized ajax mapping application, the portal publishing the search results can still make money.

Google

Google Earth XML

20050629 at Where 2.0 conference:

"Google Earth has an XML schema for describing a place on the earth. Will be releasing today or tomorrow." 
  - John Hanke of Google/Keyhole.

Official KML Docs and Tutorial

KML Reverse Engineered Schema (deprecated now that KML 2.0 is officially released)

Google Maps API

Yahoo Maps API

NMEA

Standard and Proprietary NMEA Sentances

Wikipedia

Geo:Coordinates in Wikipedia Project


What People are Publishing

  • links to mapping services, canonical URLs to 3rd party services like:
    • Google Maps
    • Map Quest
    • Yahoo Maps
  • human / named / legislated formats
    • named places, e.g. Westin St. Francis
    • addresses, including zip codes
  • global/mathematical/geometrical
    • Lat & Lon
      • MAKE has a GeoURL button
      • Geo in RSS. Means a particular blog post is associated with a specific lat/long. Not specific about whether it means the location that the post was made from or the location was the post was about.

Other Formats

(move these into lists near top of document)

Location Tagging

At the geo microformat BOF on 6/30, we discussed the idea of location tagging. What does that mean exactly? Here are some initial thoughts.

Brief summary of thoughts at the 6/30 BOF

At one point, we summarized two key axes for a potential geo microformat:

  • Address vs. coordinate systems: I give a location in one of the standard human ways, for instance a street address with a town, state, province, country, etc., or I give lattitude and longitude perhaps with altitude.
  • Textual vs. URL standards: An example of textual might be hCard. Textual is data fields expressed in markup that can be displayed. Our discussion of URL standards in the BOF related almost entirely to URLs that projected onto map coordinates.

If we are going to think about location tagging, we probably need to extend our thinking about how we will use URLs for locations. Also, we may want to be a little less literal in how we interpret location. The address vs. coordinate system axis is all about pinning location down to a very narrow, deterministic range.

Is that all location is?

Consider neighborhoods in San Francisco or any other city. Where does one begin and the other end? Are the boundaries the same over time or always agreed upon? Yet, we use the idea of neighborhoods all the time to refer to places that are more or less there. For instance, people more or less know the difference between "Upper Haight" and "The Sunset". They have an idea of what these mean based partially on location and partially on the atmosphere that pervades the location.

Some locations might not "exist" even at this level. Consider Poland between the world wars.

What we might mean by location tagging

Tagging is simply labeling artifacts on the web. In distributed architectures, tags resolve to URLs (see rel-tag) of pages that "define" them. The definition pages might be lists of links or even formal statements of what the tags mean.

Given all of this background (yes, Tantek), location tagging seems to have at least two main interpretations:

Labeling a web artifact as belonging to a location

Oddly enough, I think the most compelling idea is labeling things with the more amorphous locations like neighborhoods. Based on all the talk around Where 2.0 where we had the BOF, location seems to have a special status.

I suggest a very simple extension to reltag that could do this:

<a href="http://servername/tag" rel="tag geo">text</a>

The key point being the use of "geo" as a rel attribute along with "tag". I'll call this geotag. I'll leave it to others to debate whether this should all be done in the rel attribute.

Labeling a precisely defined location

This is simply adding tags to a location. For instance, labeling 16 Fuller Street, Brookline, MA with "first home", "Lily", "Felix", "Angela". You might even add a geotag of "Coolidge Corner".

I would expect that the geo microformat would take care of the precise location in this example.

How it all fits together

Geotag is attractive because it is so simple from a user perspective. No knowing coordinates, no knowing precise locations. The geo microformat, having participated in the BOF, seems oriented toward precise locations like what you would put on a map.

If we look at the evolution of mapping as presented at Where 2.0, however, mapping definitely started in the less precise mode, and in fact continues in that mode today. There is currently a google mash-up of New York burroughs with neighborhoods. Individuals define the neighborhoods (this was at Where as a last minute addition, Nat Torkington would know who these people are). The fact that there is a modern mash-up of this idea legitimizes its currency.

The question is how you marry up precision with the simple amorphous approach in geotag. I see two ways. One, geotag locations in the geo microformat. That essentially attaches a geographic label to the precise location. These can then be aggregated up in the usual tagging way as pioneered by Technorati tags. At that stage, you have a constellation of precisely determined locations defined by the tag, and you can use the constellation of geographic coordinates to define the geographic extent of the tag so that it can be mapped.

Alternatively, you could come up with a definition format for geotag and use that on the page the tag URL points to. I like the first way better because it harnesses social processes.

As for tagging precise locations with words like "first home", that can be easily accomplished by adding reltags to the geo microformat. This works for evaluative tags like "vomitous" and "great". If the tagger decides to make any tag a geotag, then the tag represents a place. One can imagine an aggregation where we have all of the "first homes" listed as places or all of the goods listed as places. This is to be expected and not all that bad (if you think it bad at all). Where geotag gets its value is when place names are socially shared. The key feature of a geotag when you apply it is that you think of it as referring to a place. If we believe all the buzz around Where 2.0, place has importance and deserves a special designator.