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| - | [[Image:Kepler-world.jpg|right|thumb|A map of the world by [[Johannes Kepler]]]] | + | [[Image:Gold-sundial-on-a-map.jpg|center|thumb|600px|Gold sundial on a map]] |
| - | A '''map''' is a simplified depiction of a [[space]], a navigational aid which highlights relations between objects within that space. Most usually a map is a [[2D geometric model|two-dimensional, geometrically accurate representation]] of a three-dimensional space. The science and art of '''map-making''' is [[cartography]]. | + | A '''map''' is a simplified depiction of a [[space]], a navigational aid which highlights relations between objects within that space. Usually, a map is a [[2D geometric model|two-dimensional, geometrically accurate representation]] of a three-dimensional space. The science and art of '''map-making''' is [[cartography]]. |
| ==Introduction== | ==Introduction== | ||
| - | Map-making dates back to the [[Stone Age]] and appears to predate written language by several millennia. One of the oldest surviving maps is painted on a wall of the [[Catal Huyuk]] settlement in south-central [[Anatolia]] (now [[Turkey]]); it dates from about [[6200 BC]]. <nowiki>[</nowiki>[[#References|Harvey 2000, p. 142]]<nowiki>]</nowiki>. | + | Map-making dates back to the [[Stone Age]] and appears to predate written language by several millennia. One of the oldest surviving maps, painted on a wall of the [[Catal Huyuk]] settlement in south-central [[Anatolia]] (now [[Turkey]]); it dates from about [[6200 BC]]. |
| - | While we tend to think of maps today as products of a rationalistic, scientific world-view, maps also have a mythic quality. Pre-modern maps, and mapping traditions outside the Western tradition, often merge geography with non-scientific [[cosmography]], showing the relationship of the viewer to the universe. Medieval "T-O" maps, for example, show [[Jerusalem]] at the centre of the world, and in some cases related the "body" of the Earth to the body of Christ. By contrast, navigational (or "Portolan") charts of the Mediterranean from the same period are remarkably accurate. Even today, maps can be powerful rhetorical tools beyond their purely practical value, and this has been the source of much fruitful map criticism over the last twenty years, notably in the works of J.B. Harley, Mark Monmonier and Denis Wood. | + | While we tend to think of maps today as products of a rationalistic, scientific world-view, maps also have a mythic quality. Pre-modern maps outside the Western tradition, often merge geography with non-scientific [[cosmography]], showing the relationship of the viewer to the universe. Medieval "T-O" maps, for example, show [[Jerusalem]] at the center of the world, and in some cases, related the "body" of the Earth to the body of Christ. By contrast, navigational (or "Portolan") charts of the Mediterranean from the same period are remarkably accurate. Even today, maps can be powerful rhetorical tools beyond their purely practical value, and this has been the source of much fruitful map criticism over the last twenty years, notably in the works of J.B. Harley, Mark Monmonier and Denis Wood. |
| - | Because maps are abstract representations of the world they are not neutral documents and must be carefully interpreted. It's of course, this abstraction that makes them useful. [[Lewis Carroll]] made this point humorously in ''Sylvie and Bruno'' with his mention of a fictional map that had "the scale of a mile to the mile". A character notes some practical difficulties with this map and states that "we now use the country itself, as its own map, and I assure you it does nearly as well". This conceit is elaborated in a one-paragraph story by [[Jorge Luis Borges]] and [[Adolfo Bioy Casares]], generally known in [[English language|English]] as "[[On Exactitude in Science]]". | + | Because maps are abstract representations of the world, they are not neutral documents and must be carefully interpreted. It's of course, this abstraction that makes them useful. [[Lewis Carroll]] made this point humorously in ''Sylvie and Bruno'' with his mention of a fictional map that had "the scale of a mile to the mile." A character notes some practical difficulties with this map and states that "we now use the country itself, as its own map, and I assure you it does nearly as well". This conceit is elaborated in a one-paragraph story by [[Jorge Luis Borges]] and [[Adolfo Bioy Casares]], generally known in [[English language|English]] as "[[On Exactitude in Science]]". |
| - | Road maps are perhaps the most widely used maps today, and form a subset of navigational maps, which also include aeronautical and [[Nautical chart|nautical charts]], railroad network maps, and hiking and bicycling maps. Community maps, including [http://GreenMap.org GreenMaps], are growing in importance. In terms of quantity, the largest number of drawn map sheets is probably made up by local surveys, carried out by municipalities, utilities, tax assessors, emergency services providers, and other local agencies. Many national surveying projects have been carried out by the military, such as the [[United Kingdom|British]] [[Ordnance Survey]] (now a civilian government agency internationally renowned for its comprehensively detailed work). | + | Road maps are perhaps the most widely used maps today, and form a subset of navigational maps, which also include aeronautical and [[Nautical chart|nautical charts]], railroad network maps, and hiking and bicycling maps. Community maps, including [http://GreenMap.org GreenMaps], are growing in importance. In terms of quantity, the most significant number of drawn map sheets is probably made up by local surveys, carried out by municipalities, utilities, tax assessors, emergency services providers, and other local agencies. Many national surveying projects have been carried out by the military, such as the [[United Kingdom|British]] [[Ordnance Survey]] (now a civilian government agency internationally renowned for its comprehensively detailed work). |
| ==Orientation of maps== | ==Orientation of maps== | ||
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| #[[Dymaxion map|Dymaxion maps]] | #[[Dymaxion map|Dymaxion maps]] | ||
| # Some rectangular maps produced in Australia show the south pole at the top. To someone used to seeing the map the other way around, this map may appear to be "upside down". These are primarily intended as novelty and tourist maps. | # Some rectangular maps produced in Australia show the south pole at the top. To someone used to seeing the map the other way around, this map may appear to be "upside down". These are primarily intended as novelty and tourist maps. | ||
| - | # Old maps of [[Edo]] show the [[Kokyo|Japanese imperial palace]] as the "top," but also at the centre, of the map. Labels on the map are oriented in such a way that you cannot read them properly unless you put the imperial palace above your head. | + | # Old maps of [[Edo]] show the [[Kokyo|Japanese imperial palace]] as the "top," but also at the center, of the map. Labels on the map are oriented in such a way that you cannot read them properly unless you put the imperial palace above your head. |
| - | # [[Medieval]] European [[T and O map]]s such as the [[Hereford Mappa Mundi]] were centred on [[Jerusalem]], with [[East]] at the top. | + | # [[Medieval]] European [[T and O map]]s such as the [[Hereford Mappa Mundi]] were centered on [[Jerusalem]], with [[East]] at the top. |
| If a person is located at an identifiable point within the area of such a map, then the map can be oriented in such a way that every point on the map lies in the same direction as the corresponding point in reality. The practice of navigating in this way is [[orienteering]]. | If a person is located at an identifiable point within the area of such a map, then the map can be oriented in such a way that every point on the map lies in the same direction as the corresponding point in reality. The practice of navigating in this way is [[orienteering]]. | ||
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| ==Scale and accuracy== | ==Scale and accuracy== | ||
| - | Many but not all maps are drawn to a [[Scale (measurement)|scale]], allowing the reader to infer the actual sizes of, and distances between, depicted objects. A larger scale shows more detail, thus requiring a larger map to show the same area. For example, maps designed for the hiker are often scaled at the [[ratio]] 1:24,000, meaning that 1 of any unit of measurement on the map corresponds to 24,000 of that same unit in reality; while maps designed for the motorist are often scaled at 1:250,000. Maps which use some quality other than physical area to determine relative size are called [[Cartogram|cartograms]]. | + | Many but not all maps are drawn to a [[Scale (measurement)|scale]], allowing the reader to infer the actual sizes of, and distances between depicted objects. A larger scale shows more detail, thus requiring a larger map to show the same area. For example, maps designed for the hiker are often scaled at the [[ratio]] 1:24,000, meaning that 1 of any unit of measurement on the map corresponds to 24,000 of that same unit in reality; while maps designed for the motorist are often scaled at 1:250,000. Maps that use some quality other than physical area to determine relative size are called [[Cartogram|cartograms]]. |
| - | A famous example of a map without scale is the [[Tube_map|London Underground map]], which best fulfils its purpose by being less physically accurate and more visually communicative to the hurried glance of the commuter. This is not a cartogram (since there is no consistent measure of distance) but a [[Topology|topological]] map that also depicts approximate bearings. The simple maps shown on some directional [[road sign|road signs]] are further examples of this kind. | + | A famous example of a map without scale is the [[Tube_map|London Underground map]], which best fulfills its purpose by being less physically accurate and more visually communicative to the hurried glance of the commuter. This is not a cartogram (since there is no consistent measure of distance) but a [[Topology|topological]] map that also depicts approximate bearings. The simple maps shown on some directional [[road sign|road signs]] are further examples of this kind. |
| - | In fact, most commercial navigational maps, such as road maps and town plans, sacrifice an amount of accuracy in scale to deliver a greater visual usefulness to its user, for example by exaggerating the width of roads. With the [[end-user]] similarly in mind, cartographers will censor the content of the space depicted by a map in order provide a useful tool to that user. | + | Most commercial navigational maps, such as road maps and town plans, sacrifice an amount of accuracy in scale to deliver visual usefulness to its user, for example, by exaggerating the width of roads. With the [[end-user]] similarly in mind, cartographers will censor the content of the space depicted by a map in order to provide a useful tool to that user. |
| For example, a road map may or may not show [[Railroad|railroads]], and if it does, it may show them less clearly than [[Highway|highways]]. | For example, a road map may or may not show [[Railroad|railroads]], and if it does, it may show them less clearly than [[Highway|highways]]. | ||
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| ==Electronic maps== | ==Electronic maps== | ||
| - | From the last quarter of the 20th century, the indispensable tool of the cartographer has been the computer. Much of cartography, especially at the data-gathering survey level, has been subsumed by [[geographic information system|Geographic Information Systems]] (GIS). Even when GIS is not involved, most cartographers now use a variety of computer graphics programs to generate new maps. Interactive, computerised maps are commercially available, allowing users to ''zoom in'' or ''zoom out'' (respectively meaning to increase or decrease the scale), sometimes by replacing one map with another of different scale, centred where possible on the same point. In-car [[Satellite navigation|satellite navigation systems]] are computerised maps with route-planning and advice facilities which monitor by satellite the position of the user. | + | From the last quarter of the 20th century, the indispensable tool of the cartographer has been the computer. Much of cartography, especially at the data-gathering survey level, has been subsumed by [[geographic information system|Geographic Information Systems]] (GIS). Even when GIS is not involved, most cartographers now use a variety of computer graphics programs to generate new maps. Interactive, computerized maps are commercially available, allowing users to ''zoom in'' or ''zoom out'' (respectively meaning to increase or decrease the scale), sometimes by replacing one map with another of different scale, centered where possible on the same point. In-car [[Satellite navigation|satellite navigation systems]] are computerized maps with route-planning and advice facilities which monitor by satellite the position of the user. |
| From the computer scientist's standpoint, zooming in entails one or a combination of: | From the computer scientist's standpoint, zooming in entails one or a combination of: | ||
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| See also [[Webpage#Graphics|Webpage (Graphics)]], [[Portable Document Format#Layers|PDF (Layers)]], [[Mapquest]], or [[Yahoo! Maps]]. | See also [[Webpage#Graphics|Webpage (Graphics)]], [[Portable Document Format#Layers|PDF (Layers)]], [[Mapquest]], or [[Yahoo! Maps]]. | ||
| - | ==References== | ||
| - | *David Buisseret, ed., ''Monarchs, Ministers and Maps: The Emergence of Cartography as a Tool of Government in Early Modern Europe.'' Chicago: University of Chicago Press, 1992, [ISBN 0226079872] | ||
| - | *Miles Harvey, ''The Island of Lost Maps: A True Story of Cartographic Crime''. New York : [[Random House]], 2000. [ISBN 0767908260, cited above; also ISBN 0375501517] | ||
| - | *Mark Monmorier, ''How to Lie with Maps'', [ISBN 0226534219] | ||
| - | *O'Connor, J.J. and E.F. Robertson, ''[http://www-gap.dcs.st-and.ac.uk/~history/HistTopics/Cartography.html The History of Cartography]''. Scotland : St. Andrews University, 2002. <nowiki>http://www-gap.dcs.st-and.ac.uk/~history/HistTopics/Cartography.html </nowiki> | ||
| ==See also== | ==See also== | ||
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| *[[Map design]] | *[[Map design]] | ||
| *[[Ordnance Survey]] | *[[Ordnance Survey]] | ||
| - | |||
| - | == External links == | ||
| - | {{commonscat|maps}} | ||
| - | |||
| - | *[[Microsoft]]: [[MSN]] [http://maps.msn.com/] (and, less detailed and less extensive: [[Expedia]] [http://www.expedia.com/pub/agent.dll?qscr=mmfn]) | ||
| - | **world atlas (the whole world on the same scale: 4 km = 49 pixels, 82 m / pixel) | ||
| - | **North America (Canada, US, Mexico), US to street level, Mexico only some parts to street level (for the other parts street level scale is available, but it shows blank maps with e.g. only one dot to represent a village) | ||
| - | **Western Europe to street level, see [http://maps.msn.com/(lhseei35lfegqtv3zp4gqg45)/map.aspx?&lats1=50&lons1=17&alts1=10000®n1=1 map of area covered] | ||
| - | **Australia | ||
| - | **Brazil | ||
| - | *[http://www.ab-map.com/ US Map]: ABMap - Interactive World Map and detailed united states street map | ||
| - | *[http://fax.libs.uga.edu/hmaps/ Historical Maps from the Hargrett Library Collection] (University of Georgia) --browse over 1000 maps from as early as 1544-- DjVu format; requires free plugin or JAVA | ||
| - | *atlases with maps by country: | ||
| - | **[http://www.populationdata.net/cartes/cartes.html PopulationData.net] | ||
| - | **[http://www.cia.gov/cia/publications/factbook/] [[The World Factbook]] | ||
| - | ***the same maps: [http://reference.allrefer.com/world/facts/maps.html], [http://www.lib.utexas.edu/maps/cia04.html] | ||
| - | ** [http://go.hrw.com/atlas/norm_htm/ Holt, Rinehart and Winston] | ||
| - | ** [http://www.infoplease.com/atlas/ Infoplease] | ||
| - | * [http://www.lib.utexas.edu/maps UT scanned collection] - [[University of Texas at Austin]] (also at http://us.aminet.net/pix/map/ and http://wuarchive.wustl.edu/aminet/pix/map ; [http://images.google.com/images?q=aminet%20map thumbnails at Google]) | ||
| - | **[http://www.lib.utexas.edu/maps/map_sites/country_sites.html list of links including those to external sites] | ||
| - | *[http://www.aquarius.geomar.de/ Online Map Creation]: Webinterface to GMT mapping package | ||
| - | **new version: [http://www.planiglobe.com/omc_set.html Planiglobe] | ||
| - | *[http://www.multimap.com/ Multimap world atlas]: on UK, US, Canada, Australia and Western Europe more detailed than the rest of the world; the list of scales to select from is location-dependent - also provides geographic coordinates of a location selected from a map. | ||
| - | *[[MapQuest]] [http://www.mapquest.com/maps]: on US, Canada and Western Europe more detailed than the rest of the world - the list of scales to select from is not location-dependent: for part of the world several zoom level links lead to an image with just the message "No Data Available". | ||
| - | *[http://maps.yahoo.com Yahoo Maps]: on US, Canada, Germany, France, Spain, Italy | ||
| - | *[http://de.maps.yahoo.com/ Yahoo Germany]: on France, UK, Germany, Italy, Spain, Portugal, Austria, Switzerland, Benelux | ||
| - | *[http://www.landkarte-online.net/ Maps of the World] (ger.) | ||
| - | *[http://krak.dk/ krak.dk]: Interactive map of Denmark | ||
| - | *[http://www.mapsouthpacific.com/ Map South Pacific]: on Polynesia, Melanesia, Micronesia | ||
| - | *[http://www.freeworldmaps.net/ World and Continent Maps] | ||
| - | *[http://plasma.nationalgeographic.com/mapmachine/ MapMachine] ([[National Geographic]]/[[ESRI]]) | ||
| - | *[http://www.planiglobe.com/ planiglobe] Interactive mapserver with country and city search, offers vector versions for download | ||
| - | *[http://www.nationalatlas.gov/ National Atlas of the United States] | ||
| - | **[http://nationalatlas.gov/reference.html US state maps] | ||
| - | *[http://www.citoplan.nl/citoplan/img/legenda_groot.gif Example of legend (Cito-Plan city maps)] | ||
| - | *http://www.geocities.com/marcoschmidt.geo/geo-data.html | ||
| - | *[http://nationalmap.usgs.gov/ USGS National Map] | ||
| - | *[http://www.outdoormountain.com/dir/odp.php?browse=/Shopping/Publications/Maps/ Maps of OutdoorMountain] | ||
| - | *[http://www.sunysb.edu/libmap/libcats.htm Online Map Catalogs in North America and Europe] Lists some good places to search for online maps | ||
| - | *[http://oddens.geog.uu.nl The fascinating world of maps and mapping] Lists all kinds of maps | ||
| - | *[http://www.maphistory.info/collections.html Map collections] Intorductory page to help navigate the online map resources | ||
| - | *[http://www.uidaho.edu/special-collections/Other.Repositories.html A listing of over 5000 websites] describing holdings of manuscripts, archives, rare books, historical photographs, and other primary sources for the research scholar | ||
| - | *[http://www.guiageo.com Brazilian and World Maps] [[vector graphics|Vector]] [[Portable Document Format|PDF]] maps of Brazilian states | ||
| - | *[http://www.centamap.com/cent/index.htm Hong Kong Maps] CentaMap | ||
| - | *[http://www.cgrer.uiowa.edu/servers/servers_references.html#atlases Links to on-line atlases] | ||
| - | *[http://www.links4maps.com Link Directory for Maps] Link directory of map libraries and societies, antique maps and world, regional, travel, historical and other map resources. | ||
| - | *[http://www.matton.com/maps Royalty Free Maps] Royalty Free Vector and Bitmap Maps, available in Illustrator format. | ||
| - | *[http://www.mcwetboy.net/maproom/ Map Room] - a [[weblog]] about maps | ||
| - | *[http://www.rare-maps.com/links.cfm Antique and Rare Maps - Art Source International] - Links to rare and antique maps and to cartography resources. | ||
| - | *[http://maps.google.com Google Maps] Google's map system, similar to Mapquest. | ||
| - | *[http://www.flourish.org/upsidedownmap/ The Upsidedown Map Page] Pictures and info about maps which are oriented without North at the top | ||
| - | |||
| - | Note that map services with various zoom levels sometimes show a new map item, such as a new bridge, only on a smaller-scale map and not on an available larger scale map, because the latter is not as often updated, see e.g. the [[Tuas Second Link]] on [http://www.multimap.com/p/browse.cgi?scale=100000&lon=103.85&lat=1.3&scale=2000000], and larger scales which do not show it. | ||
| - | {{728_90}} | ||
Current revision
A map is a simplified depiction of a space, a navigational aid which highlights relations between objects within that space. Usually, a map is a two-dimensional, geometrically accurate representation of a three-dimensional space. The science and art of map-making is cartography.
| Contents |
Introduction
Map-making dates back to the Stone Age and appears to predate written language by several millennia. One of the oldest surviving maps, painted on a wall of the Catal Huyuk settlement in south-central Anatolia (now Turkey); it dates from about 6200 BC.
While we tend to think of maps today as products of a rationalistic, scientific world-view, maps also have a mythic quality. Pre-modern maps outside the Western tradition, often merge geography with non-scientific cosmography, showing the relationship of the viewer to the universe. Medieval "T-O" maps, for example, show Jerusalem at the center of the world, and in some cases, related the "body" of the Earth to the body of Christ. By contrast, navigational (or "Portolan") charts of the Mediterranean from the same period are remarkably accurate. Even today, maps can be powerful rhetorical tools beyond their purely practical value, and this has been the source of much fruitful map criticism over the last twenty years, notably in the works of J.B. Harley, Mark Monmonier and Denis Wood.
Because maps are abstract representations of the world, they are not neutral documents and must be carefully interpreted. It's of course, this abstraction that makes them useful. Lewis Carroll made this point humorously in Sylvie and Bruno with his mention of a fictional map that had "the scale of a mile to the mile." A character notes some practical difficulties with this map and states that "we now use the country itself, as its own map, and I assure you it does nearly as well". This conceit is elaborated in a one-paragraph story by Jorge Luis Borges and Adolfo Bioy Casares, generally known in English as "On Exactitude in Science".
Road maps are perhaps the most widely used maps today, and form a subset of navigational maps, which also include aeronautical and nautical charts, railroad network maps, and hiking and bicycling maps. Community maps, including GreenMaps (http://GreenMap.org), are growing in importance. In terms of quantity, the most significant number of drawn map sheets is probably made up by local surveys, carried out by municipalities, utilities, tax assessors, emergency services providers, and other local agencies. Many national surveying projects have been carried out by the military, such as the British Ordnance Survey (now a civilian government agency internationally renowned for its comprehensively detailed work).
Orientation of maps
Conventionally, on most geometrically accurate maps text is upright when the map is oriented with the north up, hence north is identified with the top of a sheet.
Maps that don't put north at the top:
- polar maps
- Dymaxion maps
- Some rectangular maps produced in Australia show the south pole at the top. To someone used to seeing the map the other way around, this map may appear to be "upside down". These are primarily intended as novelty and tourist maps.
- Old maps of Edo show the Japanese imperial palace as the "top," but also at the center, of the map. Labels on the map are oriented in such a way that you cannot read them properly unless you put the imperial palace above your head.
- Medieval European T and O maps such as the Hereford Mappa Mundi were centered on Jerusalem, with East at the top.
If a person is located at an identifiable point within the area of such a map, then the map can be oriented in such a way that every point on the map lies in the same direction as the corresponding point in reality. The practice of navigating in this way is orienteering.
For a vertically positioned map representing a horizontal area true orientation is not possible, of course, but it is sometimes approximated by putting the forward direction up.
Occasionally a map is on a ceiling, correctly showing directions; in that case, looking up we have in clockwise direction forward, left, backward, and right. If the map is prepared on a table, to be attached to the ceiling, then on the table it is a mirror image of a normal map.
Scale and accuracy
Many but not all maps are drawn to a scale, allowing the reader to infer the actual sizes of, and distances between depicted objects. A larger scale shows more detail, thus requiring a larger map to show the same area. For example, maps designed for the hiker are often scaled at the ratio 1:24,000, meaning that 1 of any unit of measurement on the map corresponds to 24,000 of that same unit in reality; while maps designed for the motorist are often scaled at 1:250,000. Maps that use some quality other than physical area to determine relative size are called cartograms.
A famous example of a map without scale is the London Underground map, which best fulfills its purpose by being less physically accurate and more visually communicative to the hurried glance of the commuter. This is not a cartogram (since there is no consistent measure of distance) but a topological map that also depicts approximate bearings. The simple maps shown on some directional road signs are further examples of this kind.
Most commercial navigational maps, such as road maps and town plans, sacrifice an amount of accuracy in scale to deliver visual usefulness to its user, for example, by exaggerating the width of roads. With the end-user similarly in mind, cartographers will censor the content of the space depicted by a map in order to provide a useful tool to that user. For example, a road map may or may not show railroads, and if it does, it may show them less clearly than highways.
World maps and projections
Maps of the world or large areas are often either 'political' or 'physical'. The most important purpose of the political map is to show territorial borders; the purpose of the physical is to show features of geography such as mountains, soil type or land use. Geological maps show not only the physical surface, but characteristics of the underlying rock, fault lines, and subsurface structures.
Maps that depict the surface of the Earth also use a projection, a way of translating the three-dimensional real surface of the geoid to a two-dimensional picture. Perhaps the best-known world-map projection is the Mercator Projection, originally designed as a form of nautical chart.
Electronic maps
From the last quarter of the 20th century, the indispensable tool of the cartographer has been the computer. Much of cartography, especially at the data-gathering survey level, has been subsumed by Geographic Information Systems (GIS). Even when GIS is not involved, most cartographers now use a variety of computer graphics programs to generate new maps. Interactive, computerized maps are commercially available, allowing users to zoom in or zoom out (respectively meaning to increase or decrease the scale), sometimes by replacing one map with another of different scale, centered where possible on the same point. In-car satellite navigation systems are computerized maps with route-planning and advice facilities which monitor by satellite the position of the user.
From the computer scientist's standpoint, zooming in entails one or a combination of:
- replacing the map by a more detailed one
- enlarging the same map without enlarging the pixels, hence show more detail
- enlarging the same map with the pixels enlarged (replaced by rectangles of pixels); no additional detail is shown, but, depending on the quality of one's vision, possibly more detail can be seen; if a computer display does not show adjacent pixels really separate, but overlapping instead (this does not apply for an LCD, but may apply for a cathode ray tube), then replacing a pixel by a rectangle of pixels does show more detail. A variation of this method is that interpolation is performed.
For example:
- Typically (2) applies to a Portable Document Format (PDF) file. The increase in detail is, of course, limited to the information contained in the file: enlargement of a curve may eventually result in a series of standard geometric figures such as straight lines or arcs of circles.
- (2) may apply to text and (3) to the outline of a map feature such as a forest or building.
- (1) may apply to the text (displaying labels for more features), while (2) applies to the rest of the image. Text is not necessarily enlarged when zooming in. Similarly, a road represented by a double line may or may not become wider when one zooms in.
- The map may also have layers which are partly raster graphics and partly vector graphics. For a single raster graphics image (2) applies until the pixels in the image file correspond to the pixels of the display, thereafter (3) applies.
The word "map" has also been used to describe places within video games, such as SOCOM II: U.S. Navy SEALs and Counter-Strike, that players choose to compete on.
See also Webpage (Graphics), PDF (Layers), Mapquest, or Yahoo! Maps.
See also
- Atlas (cartography)
- World map
- Topographic map
- Geologic map
- Navigation map
- List of mapping idiosyncrasies
- Cartogram
- Plat
- Floorplan
- Bradshaws, including maps of the British railway network, first published in 1839
- Template_talk:Mapquest - Linking Mapquest maps to articles.
- Sanborn Fire Insurance Maps
- Map design
- Ordnance Survey