1 a diagrammatic representation of the earth's surface (or part of it)
2 a function such that for every element of one set there is a unique element of another set [syn: mapping, correspondence]
1 make a map of; show or establish the features of details of; "map the surface of Venus"
2 explore or survey for the purpose of making a map; "We haven't even begun to map the many galaxies that we know exist"
3 locate within a specific region of a chromosome in relation to known DNA or gene sequences; "map the genes"
4 plan, delineate, or arrange in detail; "map one's future" [syn: map out]
5 depict as if on a map; "sorrow was mapped on the mother's face"
6 to establish a mapping (of mathematical elements or sets) [syn: represent] [also: mapping, mapped]
- RP & US: /mæp/, /m
A map is a visual representation of an area—a symbolic depiction highlighting relationships between elements of that space such as objects, regions, and themes.
Many maps are static two-dimensional, geometrically accurate representations of three-dimensional space, while others are dynamic or interactive, even three-dimensional. Although most commonly used to depict geography, maps may represent any space, real or imagined, without regard to context or scale; e.g. Brain mapping, DNA mapping, and extraterrestrial mapping.
Geographic mapsCartography, or map-making is the study and, often, practice, of crafting representations of the Earth upon a flat surface (see History of cartography), and one who makes maps is called a cartographer.
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. 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 British Ordnance Survey (now a civilian government agency internationally renowned for its comprehensively detailed work).
A map can also be any document giving information as to where or what something is.
Orientation of maps
The term orientation refers to the relationship between directions on a map and compass directions. The word orient is derived from oriens, meaning east. In the Middle Ages many maps, including the T and O maps, were drawn with east at the top. Today the most common, but far from universal, cartographic convention is that North is at the top of a map. Examples of maps not oriented to north are:
- Reversed maps, also known as Upside-Down maps or South-Up maps, which generally show Australia and New Zealand at the top of the map instead of the bottom.
- Polar maps of the Arctic or Antarctic regions are conventionally centred on the pole, in which case the direction north would be towards or away from the centre of the map, respectively.
- Buckminster Fuller's Dymaxion maps are based on a projection of the Earth's sphere onto an icosahedron. The resulting triangular pieces may be arranged in any order or orientation.
- Maps from non-Western traditions are oriented a variety of ways. Old maps of Edo show the 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.
- Medieval European T and O maps such as the Hereford Mappa Mundi were centred on Jerusalem with east at the top. Indeed, prior to the reintroduction of Ptolemy's Geography to Europe around 1400, there was no single convention in the West. Portolan charts, for example, are oriented to the shores they describe.
- Route and channel maps have traditionally been oriented to the road or waterway they describe.
- Many maps used in the Society for Creative Anachronism show the west at the top, in honour of the Society starting in California.
Scale and accuracy
Many but not all maps are drawn to a scale, expressed as a ratio such as 1:10,000, meaning that 1 of any unit of measurement on the map corresponds to 10,000 of that same unit in reality. This allows the reader to estimate the sizes of, and distances between, depicted objects. A larger scale (i.e. the second number of the ratio is smaller) shows more detail and supports more accurate estimates, thus requiring a larger map to show the same area. Highly detailed maps covering areas ranging upward in size from small cities or counties to entire countries or continents are now often published as books, or computer software (with numerous tools to aid the user, including user-adjustable scale and customized search engines), for convenient handling. Printed versions may include a comprehensive index, tables of distances between cities, and possibly even a cross reference of important destinations. Computer software based maps provide numerous tools to aid the user, including user-adjustable scale (a.k.a "zoom") and customized search engines to locate street addresses.
Historically, large maps were presented (but not necessarily published, due to prohibitive labor costs) as scrolls, a famous example of which is the recently rediscovered hand-made copy of the Tabula Peutingeriana.
For modern examples, published maps designed for the hiker (e.g. USGS Topographic maps, a.k.a. "Topos") are often scaled at the ratio of approximately 1:25,000 , while maps designed for the motorist to display major highways might be scaled at 1:250,000 or 1:1,000,000 . In any case, a properly made map will either state its scale, or declare that it is not scaled and can not be reliably used to deduce distances.
Maps which use some quality other than physical area to determine relative size are called cartograms.
A famous (non-cartogram) 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.
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 to provide a useful tool for that user. For example, a road map may or may not show railroads, smaller waterways or other prominent non-road objects, and if it does, it may show them less clearly (e.g. dashed or dotted lines/outlines of various colors) than highways. Known as decluttering, the practice makes the subject matter the user is interested in easier to read, usually without sacrificing measurement accuracy. Software-based maps often allow the user to toggle decluttering between ON, OFF and AUTO as needed. In AUTO the degree of decluttering is adjusted as the user changes the scale being displayed.
Topographic maps, show elevation above (or depression below) sea level as contour lines, a specific type of Isoline. Isolines on any map or chart indicate the constant labeled value, such as elevation, temperature, or rainfall, for that particular line. Depending on the type of a map, alternative representations of elevation (or depression) exist as well.
World maps and projectionsMaps 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.
Airplane pilots use aeronautical charts based on a Lambert conformal conic projection, in which a cone is laid over the section of the earth to be mapped. The cone intersects the sphere (the earth) at one or two parallels which are chosen as standard lines. This allows the pilots to plot a great-circle route approximation on a flat, two-dimensional chart.
- Richard Edes Harrison produced a striking series of maps during and after World War II for Fortune magazine. These used "bird's eye" projections to emphasize globally strategic "fronts" in the air age, pointing out proximities and barriers not apparent on a conventional rectangular projection of the world.
Electronic mapsFrom 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). The functionality of maps has been greatly advanced by technology simplifying the superimposition of spatially located variables onto existing geographical maps. Having local information such as rainfall level, distribution of wildlife, or demographic data integrated within the map allows more efficient analysis and better decision making. In the pre-electronic age such superimposition of data led Dr. John Snow to discover the cause of cholera. Today, it is used by agencies as diverse as wildlife conservationists and militaries around the world.
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 systems are computerised maps with route-planning and advice facilities which monitor the user's position with the help of satellites. From the computer scientist's point of view, 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 showing more detail by removing less information compared to the less detailed version
- 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 interpolation.
- Typically (2) applies to a Portable Document Format (PDF) file or other format based on vector graphics. 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, arcs of circles or splines.
- (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.
LabelingTo communicate spatial information effectively, features such as rivers, lakes, and cities need to be labeled. Over centuries cartographers have developed the art of placing names on even the densest of maps. Text placement or name placement can get mathematically very complex as the number of labels and map density increases. Therefore, text placement is time-consuming and labor-intensive, so cartographers and GIS users have developed automatic label placement to ease this process.
- 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 0-226-07987-2
- Freeman, Herbert, Automated Cartographic Text Placement. White paper.
- Ahn, J. and Freeman, H., “A program for automatic name placement,” Proc. AUTO-CARTO 6, Ottawa, 1983. 444-455.
- Freeman, H., “Computer Name Placement,” ch. 29, in Geographical Information Systems, 1, D.J. Maguire, M.F. Goodchild, and D.W. Rhind, John Wiley, New York, 1991, 449-460.
- Mark Monmonier, How to Lie with Maps, ISBN 0-226-53421-9
- O'Connor, J.J. and E.F. Robertson, The History of Cartography. Scotland : St. Andrews University, 2002.
- Denis E. Cosgrove (ed.) Mappings. Reaktion Books, 1999 ISBN 1-86189-021-4
- Compass rose
- Contour map
- Dymaxion map
- Estate maps
- Floor plan
- Geologic map
- Map design
- Nautical chart
- Pictorial maps
- Reversed map
- Road atlas
- Street map
- Thematic map
- Topographic map
- World map
- Censorship of maps
- Google Maps
- Japanese map symbols
- List of online map services
- Maps of the UK and Ireland
- Maps of the United States
- NASA World Wind
- Ancient world maps
- George Bradshaw, including maps of the British railway network, first published in 1839
- History of cartography
- Ordnance Survey UK map agency
- Sanborn Maps - detailed American fire insurance maps
- Aerial landscape art
- Aerial photography
- Automatic label placement
- Geographic coordinate system
- Geography Cup
- Map database management
- Geography and Maps, an Illustrated Guide, by the staff of the U.S. Library of Congress.
- , use of maps on Wikipedia
- Online map collections at the Library of Congress
- 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
- Google Maps
- Yahoo! Mapmixer
- Cool Maps
- National Geographic Map Machine
map in Arabic: خريطة
map in Aragonese: Mapa
map in Asturian: Mapa
map in Bengali: মানচিত্র
map in Bosnian: Karta
map in Bulgarian: Карта
map in Catalan: Plànol
map in Czech: Mapa
map in Welsh: Map
map in Danish: Kort (geografi)
map in German: Karte (Kartografie)
map in Estonian: Kaart (kartograafia)
map in Spanish: Mapa
map in Esperanto: Mapo
map in Persian: نقشه (زمین)
map in French: Carte géographique
map in Galician: Mapa
map in Classical Chinese: 地圖
map in Korean: 지도
map in Hindi: मानचित्र
map in Croatian: Karta
map in Indonesian: Peta
map in Icelandic: Kort
map in Italian: Mappa
map in Hebrew: מפה
map in Georgian: გეოგრაფიული რუკა
map in Swahili (macrolanguage): Ramani
map in Latin: Tabula geographica
map in Luxembourgish: Landkaart
map in Lithuanian: Žemėlapis
map in Hungarian: Térkép
map in Malayalam: ഭൂപടം
map in Malay (macrolanguage): Peta
map in Dutch: Kaart (cartografie)
map in Japanese: 地図
map in Norwegian: Kart
map in Norwegian Nynorsk: Kart
map in Polish: Mapa
map in Portuguese: Mapa
map in Romanian: Hartă
map in Russian: Географическая карта
map in Scots: Cairt
map in Albanian: Harta
map in Simple English: Map
map in Slovak: Mapa
map in Slovenian: Zemljevid
map in Serbian: Карта (мапа)
map in Sundanese: Atlas
map in Finnish: Kartta
map in Swedish: Karta
map in Tagalog: Mapa
map in Tamil: நிலப்படம்
map in Thai: แผนที่
map in Vietnamese: Bản đồ
map in Tajik: Харита
map in Turkish: Harita
map in Ukrainian: Карта (зображення)
map in Yiddish: מאפע
map in Contenese: 地圖
map in Chinese: 地图
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