OpenStreetMap

OpenStreetMap

OpenStreetMap's logo
<templatestyles src="Template:Hidden begin/styles.css"/> Screenshot 240px OSM homepage
Web address	www.openstreetmap.org
Commercial?	No
Type of site	Collaborative mapping
Registration	Required for contributors, not required for viewing
Available in	UI: 96 languages and variants[1] Map data: Local languages
Users	7,450,000[2]
Content license	Open Database License (ODbL)
Owner	Community-owned; supported by OpenStreetMap Foundation[3]
Created by	Steve Coast (User page in OSM)
Launched	9 August 2004; 19 years ago (2004-08-09)[4]
Current status	Active (details)

OpenStreetMap (OSM) is a collaborative project to create a free editable map of the world. The geodata underlying the map is considered the primary output of the project. The creation and growth of OSM has been motivated by restrictions on use or availability of map data across much of the world, and the advent of inexpensive portable satellite navigation devices.^[5]

Created by Steve Coast in the UK in 2004, it was inspired by the success of Wikipedia and the predominance of proprietary map data in the UK and elsewhere.^[6][7] Since then, it has grown to over two million registered users.^[8] Users may collect data using manual survey, GPS devices, aerial photography, and other free sources, or use their own local knowledge of the area. This crowdsourced data is then made available under the Open Database License. The site is supported by the OpenStreetMap Foundation, a non-profit organisation registered in England and Wales.

The data from OSM can be used in various ways including production of paper maps and electronic maps (similar to Google Maps, for example), geocoding of address and place names, and route planning.^[9] Prominent users include Facebook, Wikimedia Maps, Apple, Microsoft, Amazon Logistics, Uber, Craigslist, Snapchat, OsmAnd, Maps.me, Geocaching, MapQuest Open, JMP statistical software, and Foursquare. Many users of GPS devices use OSM data to replace the built-in map data on their devices.^[10] OpenStreetMap data has been favourably compared with proprietary datasources,^[11] although as of 2009^[update] data quality varied across the world.^{[12][13][needs update]}

History

The founder of OSM, Steve Coast, in 2009

Steve Coast founded the project in 2004, initially focusing on mapping the United Kingdom. In the UK and elsewhere, government-run and tax-funded projects like the Ordnance Survey created massive datasets but failed to freely and widely distribute them. The first contribution, made in the British city of London in 2005,^[14] was thought to be a road by the Directions Mag.^[15]

In April 2006, the OpenStreetMap Foundation was established to encourage the growth, development and distribution of free geospatial data and provide geospatial data for anybody to use and share. In December 2006, Yahoo! confirmed that OpenStreetMap could use its aerial photography as a backdrop for map production.^[16]

In April 2007, Automotive Navigation Data (AND) donated a complete road data set for the Netherlands and trunk road data for India and China to the project^[17] and by July 2007, when the first OSM international The State of the Map conference was held, there were 9,000 registered users. Sponsors of the event included Google, Yahoo! and Multimap. In October 2007, OpenStreetMap completed the import of a US Census TIGER road dataset.^[18] In December 2007, Oxford University became the first major organisation to use OpenStreetMap data on their main website.^[19]

Ways to import and export data have continued to grow – by 2008, the project developed tools to export OpenStreetMap data to power portable GPS units, replacing their existing proprietary and out-of-date maps.^[20] In March, two founders^{[clarification needed]} announced that they have received venture capital funding of €2.4 million for CloudMade, a commercial company that uses OpenStreetMap data.^[21] In November 2010, Bing changed their licence to allow use of their satellite imagery for making maps.^[22]

In 2012, the launch of pricing for Google Maps led several prominent websites to switch from their service to OpenStreetMap and other competitors.^[23] Chief among these were Foursquare and Craigslist, which adopted OpenStreetMap, and Apple, which ended a contract with Google and launched a self-built mapping platform using TomTom and OpenStreetMap data.^[24]

In 2017, DigitalGlobe started providing satellite imagery to aid OpenStreetMap contributions.^[25]

Map production

Editing with JOSM after a ground survey

Map data is collected from scratch by volunteers performing systematic ground surveys using tools such as a handheld GPS unit, a notebook, digital camera, or a voice recorder. The data is then entered into the OpenStreetMap database using a number of software tools including JOSM and Mercator. Mapathon competition events are also held by OpenStreetMap team and by non-profit organisations and local governments to map a particular area.

The availability of aerial photography and other data from commercial and government sources has added important sources of data for manual editing and automated imports. Special processes are in place to handle automated imports and avoid legal and technical problems.^[26]

Software for editing maps

Editing of maps can be done using the default web browser editor called iD, an HTML5 application using D3.js and written by Mapbox,^[27] which was originally financed by the Knight Foundation.^[28] The earlier Flash-based application Potlatch is retained for intermediate-level users. JOSM and Merkaartor are more powerful desktop editing applications that are better suited for advanced users.

Vespucci is the first full-featured editor for Android; it was released in 2009.^[29] StreetComplete is an Android app launched in 2016,^[30] which allows users without any OpenStreetMap knowledge to answer simple quests for existing data in OpenStreetMap, and thus contribute data.^[31] Maps.me and OsmAnd, two offline map mobile applications available for Android and iOS, both include limited OSM data editors.^[32][33] Go Map!! is an iOS app that lets users create and edit information in OpenStreetMap.^[34] Pushpin is another iOS app that lets users add POI on the go.^[35]

Contributors

The project has a geographically diverse user-base, due to emphasis of local knowledge and ground truth in the process of data collection. Many early contributors were cyclists who survey with and for bicyclists, charting cycleroutes and navigable trails.^[36] Others are GIS professionals who contribute data with Esri tools.^[37] Contributors are predominately men, with only 3–5% being women.^[38]

By August 2008, shortly after the second The State of the Map conference was held, there were over 50,000 registered contributors; by March 2009, there were 100,000 and by the end of 2009 the figure was nearly 200,000. In April 2012, OpenStreetMap cleared 600,000 registered contributors.^[39] On 6 January 2013, OpenStreetMap reached one million registered users.^[40] Around 30% of users have contributed at least one point to the OpenStreetMap database.^[41]

^[42]

Surveys and personal knowledge

Surveying routes with a GPS receiver

Ground surveys are performed by a mapper, on foot, bicycle, or in a car, motorcycle, or boat. Map data was typically recorded on a GPS unit. In late 2006 Yahoo! made their aerial imagery available for tracing to OSM contributors, which simplified mapping of readily visible and identifiable features.^[43] The project still makes use of GPS traces from volunteers which are used to delineate the more difficult to identify and classify features such as footpath, as well as providing ground-truth for aerial imagery alignment.

Once the data has been collected, it is entered into the database by uploading it onto the project's website together with appropriate attribute data. As collecting and uploading data may be separated from editing objects, contribution to the project is possible without using a GPS unit.

Some committed contributors adopt the task of mapping whole towns and cities, or organising mapping parties to gather the support of others to complete a map area. A large number of less active users contribute corrections and small additions to the map.

Street-level image data

In addition to several different sets of satellite image backgrounds available to OSM editors, data from several street-level image platforms are available as map data photo overlays: Bing Streetside 360° image tracks, and the open and crowdsourced Mapillary and KartaView platforms, generally smartphone and other windshield-mounted camera images. Additionally, a Mapillary traffic sign data layer can be enabled; it is the product of user-submitted images.^[44]

Government data

Some government agencies have released official data on appropriate licences. This includes the United States, where works of the federal government are placed under public domain.^[45]

Globally, OSM initially used the Prototype Global Shoreline from NOAA. Due to it being oversimplified and crude, it has been mainly replaced by other government sources or manual tracing.

In the United States, most roads originate from TIGER from the Census Bureau. Geographic names were initially sourced from Geographic Names Information System, and some areas contain water features from the National Hydrography Dataset. In the UK, some Ordnance Survey OpenData is imported. In Canada Natural Resources Canada's CanVec vector data and GeoBase provide landcover and streets.

Out-of-copyright maps can be good sources of information about features that do not change frequently. Copyright periods vary, but in the UK Crown copyright expires after 50 years and hence Ordnance Survey maps until the 1960s can legally be used. A complete set of UK 1 inch/mile maps from the late 1940s and early 1950s has been collected, scanned, and is available online as a resource for contributors.

Route planning

In February 2015, OpenStreetMap added route planning functionality to the map on its official website. The routing uses external services, namely OSRM, GraphHopper and MapQuest.^[46]

There are other routing providers and applications listed in the official Routing wiki.

Map usage

Software for viewing maps

OpenStreetMap of Soho, central London, shown in "standard" OpenStreetMap layer

Same as above, shown in Mapbox Streets layer

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Web browser

Data provided by the OpenStreetMap project can be viewed in a web browser with JavaScript support via Hypertext Transfer Protocol (HTTP) on its official website. The basic map views offered are: Standard, Cycle map, Transport map and Humanitarian. Map display and category options are available using OpenStreetBrowser.

OsmAnd

OsmAnd is free software for Android and iOS mobile devices that can use offline vector data from OSM. It also supports layering OSM vector data with prerendered raster map tiles from OpenStreetMap and other sources.

Maps.me

Maps.me is free software for Android and iOS mobile devices that provides offline maps based on OSM data.

GNOME Maps

GNOME Maps is a graphical front-end written in JavaScript and introduced in GNOME 3.10. It provides a mechanism to find the user's location with the help of GeoClue, finds directions via GraphHopper and it can deliver a list as answer to queries.

Marble

Marble is a KDE virtual globe application which received support for OpenStreetMap.

FoxtrotGPS

FoxtrotGPS is a GTK+-based map viewer, that is especially suited to touch input.^[47] It is available in the SHR or Debian repositories.^[48]

The web site OpenStreetMap.org provides a slippy map interface based on the Leaflet JavaScript library (and formerly built on OpenLayers), displaying map tiles rendered by the Mapnik rendering engine, and tiles from other sources including OpenCycleMap.org.^[49]

Custom maps can also be generated from OSM data through various software including Jawg Maps, Mapnik, Mapbox Studio, Mapzen's Tangrams.

OpenStreetMap maintains lists of online and offline routing engines available, such as the Open Source Routing Machine.^[50] OSM data is popular with routing researchers, and is also available to open-source projects and companies to build routing applications (or for any other purpose).

Humanitarian aid

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OpenStreetMap Philippines GPS map, an end-product of over a thousand crisis mappers that contributed almost 5 million map updates during the 2013 Haiyan humanitarian activation.^[51]

The 2010 Haiti earthquake has established a model for non-governmental organisations (NGOs) to collaborate with international organisations. OpenStreetMap and Crisis Commons volunteers using available satellite imagery to map the roads, buildings and refugee camps of Port-au-Prince in just two days, building "the most complete digital map of Haiti's roads".^[52][53][54]

The resulting data and maps have been used by several organisations providing relief aid, such as the World Bank, the European Commission Joint Research Centre, the Office for the Coordination of Humanitarian Affairs, UNOSAT and others.^{[55][56][57][58]}

NGOs, like the Humanitarian OpenStreetMap Team and others, have worked with donors like United States Agency for International Development (USAID) to map other parts of Haiti and parts of many other countries, both to create map data for places that were blank, and to engage and build capacity of local people.^[59]

After Haiti, the OpenStreetMap community continued mapping to support humanitarian organisations for various crises and disasters. After the Northern Mali conflict (January 2013), Typhoon Haiyan in the Philippines (November 2013), and the Ebola virus epidemic in West Africa (March 2014), the OpenStreetMap community has shown it can play a significant role in supporting humanitarian organisations.^{[60][61][62][63]}

The Humanitarian OpenStreetMap Team acts as an interface between the OpenStreetMap community and the humanitarian organisations.

Along with post-disaster work, the Humanitarian OpenStreetMap Team has worked to build better risk models and grow the local OpenStreetMap communities in multiple countries including Uganda, Senegal, the Democratic Republic of the Congo in partnership with the Red Cross, Médecins Sans Frontières, World Bank, and other humanitarian groups.^[64][65][66]

Scientific research

OpenStreetMap data was used in scientific studies. For example, road data was used for research of remaining roadless areas^[67] and in the creation of the annual Forest Landscape Integrity Index.^[68] Another example includes analysis of OpenStreetMap data for determination of spatial development and socio-economic factors in a developing country.^[69]

"State of the Map" annual conference

Wikimedia Commons has media related to OpenStreetMap.

Since 2007, the OSM community has held an annual, international conference called State of the Map.

Venues have been:

• 2007: Manchester, UK^[70]
• 2008: Limerick, Ireland^[71]
• 2009: Amsterdam, Netherlands^[72]
• 2010: Girona, Spain^[73]
• 2011: Denver, USA^[74]
• 2012: Tokyo, Japan^[75]
• 2013: Birmingham, UK^[76]
• 2014: Buenos Aires, Argentina^[77]
• 2015: (no State of the Map was held in 2015)^[78]
• 2016: Brussels, Belgium^[79]
• 2017: Aizuwakamatsu, Japan^[80]
• 2018: Milan, Italy^[81]
• 2019: Heidelberg, Germany
• 2020: Online conference (July 4–5).^[82] (The event was originally planned to take place in Cape Town, South Africa. It was turned into an online conference due to the COVID-19 pandemic)

There are also various national, regional and continental SotM conferences, such as State of the Map U.S., SotM Baltics and SotM Asia.^[83]

Legal aspects

Licensing terms

OpenStreetMap data was originally published under the Creative Commons Attribution-ShareAlike licence (CC BY-SA) with the intention of promoting free use and redistribution of the data. In September 2012, the licence was changed to the Open Database Licence (ODbL) published by Open Data Commons (ODC) in order to more specifically define its bearing on data rather than representation.^[84][85]

As part of this relicensing process, some of the map data was removed from the public distribution. This included all data contributed by members that did not agree to the new licensing terms, as well as all subsequent edits to those affected objects. It also included any data contributed based on input data that was not compatible with the new terms. Estimates suggested that over 97% of data would be retained globally, but certain regions would be affected more than others, such as in Australia where 24 to 84% of objects would be retained, depending on the type of object.^[86] Ultimately, more than 99% of the data was retained, with Australia and Poland being the countries most severely affected by the change.^[87]

All data added to the project needs to have a licence compatible with the Open Database Licence. This can include out-of-copyright information, public domain or other licences. Contributors agree to a set of terms which require compatibility with the current licence. This may involve examining licences for government data to establish whether it is compatible.

Software used in the production and presentation of OpenStreetMap data is available from many different projects and each may have its own licensing. The application — what users access to edit maps and view changelogs, is powered by Ruby on Rails. The application also uses PostgreSQL for storage of user data and edit metadata. The default map is rendered by Mapnik, stored in PostGIS, and powered by an Apache module called mod_tile. Certain parts of the software, such as the map editor Potlatch2, have been made available as public domain.^[88]

Commercial data contributions

Some OpenStreetMap data is supplied by companies that choose to freely license either actual street data or satellite imagery sources from which OSM contributors can trace roads and features.

Notably, Automotive Navigation Data provided a complete road data set for Netherlands and details of trunk roads in China and India. In December 2006, Yahoo! confirmed that OpenStreetMap was able to make use of their vertical aerial imagery and this photography was available within the editing software as an overlay. Contributors could create their vector based maps as a derived work, released with a free and open licence,^[16] until the shutdown of the Yahoo! Maps API on 13 September 2011.^[89] In November 2010, Microsoft announced that the OpenStreetMap community could use Bing vertical aerial imagery as a backdrop in its editors.^[90] For a period from 2009 to 2011, NearMap Pty Ltd made their high-resolution PhotoMaps (of major Australian cities, plus some rural Australian areas) available for deriving OpenStreetMap data under a CC BY-SA licence.^[91]

In June 2018, the Microsoft Bing team announced a major contribution of 125 million U.S. building footprints to the project – four times the number contributed by users and government data imports.^[92][93]

Operation

While OpenStreetMap aims to be a central data source, its map rendering and aesthetics are meant to be only one of many options, some which highlight different elements of the map or emphasise design and performance.

Data format

OpenStreetMap uses a topological data structure, with four core elements (also known as data primitives):

• Nodes are points with a geographic position, stored as coordinates (pairs of a latitude and a longitude) according to WGS 84.^[94] Outside of their usage in ways, they are used to represent map features without a size, such as points of interest or mountain peaks.
• Ways are ordered lists of nodes, representing a polyline, or possibly a polygon if they form a closed loop. They are used both for representing linear features such as streets and rivers, and areas, like forests, parks, parking areas and lakes.
• Relations are ordered lists of nodes, ways and relations (together called "members"), where each member can optionally have a "role" (a string). Relations are used for representing the relationship of existing nodes and ways. Examples include turn restrictions on roads, routes that span several existing ways (for instance, a long-distance motorway), and areas with holes.
• Tags are key-value pairs (both arbitrary strings). They are used to store metadata about the map objects (such as their type, their name and their physical properties). Tags are not free-standing, but are always attached to an object: to a node, a way or a relation. A recommended ontology of map features (the meaning of tags) is maintained on a wiki. New tagging schemes can always be proposed by a popular vote of a written proposal in OpenStreetMap wiki, however, there is no requirement to follow this process. There are over 89 million different kinds of tags in use as of June 2017.^[95]

Data storage

The OSM data primitives are stored and processed in different formats.

The main copy of the OSM data is stored in OSM's main database. The main database is a PostgreSQL database with PostGIS extension, which has one table for each data primitive, with individual objects stored as rows.^[96][97] All edits happen in this database, and all other formats are created from it.

For data transfer, several database dumps are created, which are available for download. The complete dump is called planet.osm. These dumps exist in two formats, one using XML and one using the Protocol Buffer Binary Format (PBF).

Popular services

Moovit Navigate

A variety of popular services incorporate some sort of geolocation or map-based component. Notable services using OSM for this include:

• Apple Inc. unexpectedly created an OpenStreetMap-based map for iPhoto for iOS on 7 March 2012 (2012-03-07), and launched the maps without properly citing the data source – though this was corrected in 1.0.1. OpenStreetMap is one of the many cited sources for Apple's custom maps in iOS 6, though the majority of map data is provided by TomTom.
• Petal Maps is a free mobile map application developed by Huawei, from its copyright statement^[98], OpenStreetMap is one of their map data sources.
• Craigslist switched to OpenStreetMap in 2012, rendering their own tiles based on the data.^[99]
• Ballardia (games developer) launched World of the Living Dead: Resurrection in October 2013,^[100] which has incorporated OpenStreetMap into its game engine, along with census information to create a browser-based game mapping over 14,000 square kilometres of greater Los Angeles and survival strategy gameplay. Its previous incarnation had used Google Maps,^[101] which had proven incapable of supporting high volumes of players, so during 2013 they shut down the Google Maps version and ported the game to OSM.^[102]
• Facebook uses the map directly in its website/mobile app (depending on the zoom level, the area and the device).
• Flickr uses OpenStreetMap data for various cities around the world, including Baghdad, Beijing, Kabul, Santiago, Sydney and Tokyo.^{[103][104][105]} In 2012, the maps switched to use Nokia data primarily, with OSM being used in areas where the commercial provider lacked performance.^[106]
• Foursquare started using OpenStreetMap via Mapbox's rendering and infrastructure of OSM.^[107]
• Geotab uses OpenStreetMap data in their Vehicle Tracking Software platform, MyGeotab.^[108]
• Hasbro, the toy company behind the real estate-themed board game Monopoly, launched Monopoly City Streets, a massively multiplayer online game (MMORPG) which allowed players to "buy" streets all over the world. The game used map tiles from Google Maps and the Google Maps API to display the game board, but the underlying street data was obtained from OpenStreetMap.^[109] The online game was a limited time offering, its servers were shut down in the end of January 2010.^[110]
• Komoot a route planning service for running, cycling and hiking uses OpenStreetMap data^[111]
• Mapbox
• MapQuest announced a service based on OpenStreetMap in 2010, which eventually became MapQuest Open.^[112]
• Moovit uses maps based on OpenStreetMap in their free mobile application for public transit navigation.^[113]
• Niantic switched to OSM based maps from Google Maps on 1 December 2017 for their games Ingress and Pokémon Go.^[114][115]
• Nominatim^[116][117] (from the Latin, 'by name') is a tool to search OSM data by name and address (geocoding) and then to generate synthetic addresses of OSM points (reverse geocoding).
• Snapchat's June 2017 update introduced its Snap Map with data from Mapbox, OpenStreetMap, and DigitalGlobe.^[118]
• Strava switched to OpenStreetMap rendered and hosted by Mapbox from Google Maps in July 2015.^[119]
• Tableau has integrated OSM for all their mapping needs. It has been integrated in all of their products.
• TCDD Taşımacılık uses OpenStreetMap as a location map on passenger seats on YHTs.
• Tesla Smart Summon feature released widely in US in October 2019 uses OSM data to navigate vehicles in private parking areas autonomously (without a safety driver)^[120]
• Wahoo uses OpenStreetMap for mapping and giving turn-by-turn navigation in their ELEMNT cycling computers.
• Webots uses OpenStreetMap data to create virtual environment for autonomous vehicle simulations.^[121]
• Wikimedia projects uses OpenStreetMap as a locator map for cities and travel points of interest.
• Wikipedia uses OpenStreetMap data to render custom maps used by the articles. Many languages are included in the WIWOSM project (Wikipedia Where in OSM) which aims to show OSM objects on a slippy map, directly visible on the article page.^[122]

See also

• Building information modeling
• Collaborative mapping
• Comparison of web map services
• Counter-mapping
• Neogeography
• Turn-by-turn navigation
• Volunteered geographic information
• Other collaborative mapping projects
  • HERE Map Creator
  • Google Map Maker
  • Wikimapia
  • Yandex.Map editor
  • Petal Maps Editor
• Mobile applications
  • OsmAnd
  • Magic Earth
  • Karta GPS
  • MAPS.ME
• Street map

References

Further reading

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External links

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