Ancient times (I), Paspardo r. 29, topographic composition, 4th millennium BCE What is the earliest known map is a matter of some debate, both because the term "map" is not well-defined and because some artifacts that might be maps might actually be something else. A wall painting that might depict the ancient Anatolian city of
Çatalhöyük (previously known as Catal Huyuk or Çatal Hüyük) has been dated to the late 7th millennium BCE. Among the prehistoric alpine rock carvings of
Mount Bego (France) and
Valcamonica (Italy), dated to the 4th millennium BCE, geometric patterns consisting of dotted rectangles and lines are widely interpreted in archaeological literature as depicting cultivated plots. Other known maps of the ancient world include the
Minoan "House of the Admiral" wall painting from , showing a seaside community in an oblique perspective, and an engraved map of the holy
Babylonian city of
Nippur, from the
Kassite period (14th12th centuries BCE). The oldest surviving world maps are from 9th century BCE
Babylonia. One shows
Babylon on the
Euphrates, surrounded by
Assyria,
Urartu and several cities, all, in turn, surrounded by a "bitter river" (
Oceanus). Another depicts Babylon as being north of the center of the world. In the 2nd century CE,
Ptolemy wrote his
treatise on cartography,
Geographia. This contained
Ptolemy's world map – the world then known to Western society (
Ecumene). As early as the 8th century, Arab scholars were translating the works of the
Greek geographers into Arabic.
Roads were essential in the Roman world, motivating the creation of maps, called
itinerarium, that portrayed the world as experienced via the roads. The is the only surviving example. map of the British Isles from a manuscript of
Ptolemy's
Geography, using Greek numerals for its
graticule: 52–63°N of the
equator and 6–33°E from Ptolemy's
Prime Meridian at the
Fortunate Isles. In
ancient China, geographical literature dates to the 5th century BCE. The oldest extant Chinese maps come from the
State of Qin, dated back to the 4th century BCE, during the
Warring States period. In the book
Xin Yi Xiang Fa Yao, published in 1092 by the
Chinese scientist
Su Song, a
star map on the equidistant cylindrical projection. Although this method of charting seems to have existed in China even before this publication and scientist, the greatest significance of the star maps by Su Song is that they represent the oldest existent star maps in
printed form. Early forms of
cartography of India included depictions of the
pole star and surrounding constellations.
Middle Ages and Renaissance TO map of the world. ('maps of the world') are the medieval European maps of the world. About 1,100 of these are known to have survived: of these, some 900 are found illustrating manuscripts, and the remainder exist as stand-alone documents. '', drawn by
Muhammad al-Idrisi for
Roger II of Sicily in 1154. South is at the top. The
Arab geographer Muhammad al-Idrisi produced his medieval atlas
Tabula Rogeriana (Book of Roger) in 1154. By combining the knowledge of
Africa, the
Indian Ocean,
Europe, and the
Far East (which he learned through contemporary accounts from Arab merchants and explorers) with the information he inherited from the classical geographers, he was able to write detailed descriptions of a multitude of countries. Along with the substantial text he had written, he created a world map influenced mostly by the Ptolemaic conception of the world, but with significant influence from multiple Arab geographers. It remained the most accurate world map for the next three centuries. The map was divided into seven
climatic zones, with detailed descriptions of each zone. As part of this work, a smaller, circular map depicting the south on top and Arabia in the center was made. Al-Idrisi also made an estimate of the circumference of the world, accurate to within 10%. '' in
Sebastian Münster's "
Cosmographia", 1570 In the
Age of Discovery, from the 15th century to the 17th century, European cartographers both copied earlier maps (some of which had been passed down for centuries) and drew their own based on explorers' observations and new
surveying techniques. The invention of the
magnetic compass,
telescope and
sextant enabled increasing accuracy. In 1492,
Martin Behaim, a German cartographer and advisor to the king
John II of Portugal, made the oldest extant globe of the Earth. In 1507,
Martin Waldseemüller produced a globular world map and a large 12-panel world wall map (
Universalis Cosmographia) bearing the first use of the name "America."
Portuguese cartographer
Diogo Ribero was the author of the first known planisphere with a graduated Equator (1527).
Italian cartographer
Battista Agnese produced at least 71 manuscript atlases of sea charts.
Johannes Werner refined and promoted the
Werner projection. This was an equal-area, heart-shaped world map projection (generally called a cordiform projection) that was used in the 16th and 17th centuries. Over time, other iterations of this map type arose; most notable are the
sinusoidal projection and the
Bonne projection. The Werner projection places its standard parallel at the North Pole; a sinusoidal projection places its standard parallel at the equator; and the Bonne projection is intermediate between the two. In 1569, mapmaker
Gerardus Mercator first published
a map based on his
Mercator projection, which uses equally-spaced parallel vertical lines of longitude and parallel latitude lines spaced farther apart as they get farther away from the equator. By this construction, courses of constant bearing are conveniently represented as straight lines for navigation. The same property limits its value as a general-purpose world map because regions are shown as increasingly larger than they actually are the further from the equator they are. Mercator is also credited as the first to use the word "atlas" to describe a collection of maps. In the later years of his life, Mercator resolved to create his Atlas, a book filled with many maps of different regions of the world, as well as a chronological history of the world from the Earth's creation by God until 1568. He was unable to complete it to his satisfaction before he died. Still, some additions were made to the Atlas after his death, and new editions were published after his death. In 1570, the
Brabantian cartographer
Abraham Ortelius, strongly encouraged by
Gillis Hooftman, created the first true modern atlas,
Theatrum Orbis Terrarum. In a rare move, Ortelius credited mapmakers who contributed to the atlas, the list of which grew to 183 individuals by 1603. In the
Renaissance, maps were used to impress viewers and establish the owner's reputation as sophisticated, educated, and worldly. Because of this, towards the end of the Renaissance, maps were displayed with equal importance of painting, sculptures, and other pieces of art. In the sixteenth century, maps were becoming increasingly available to consumers through the introduction of printmaking, with about 10% of Venetian homes having some sort of map by the late 1500s. There were three main functions of maps in the Renaissance: • General descriptions of the world • Navigation and wayfinding • Land surveying and property management In medieval times, written directions of how to get somewhere were more common than the use of maps. With the Renaissance, cartography began to be seen as a metaphor for power. Map publishing in Venice was completed with humanities and book publishing in mind, rather than just informational use.
Printing technology There were two main printmaking technologies in the Renaissance:
woodcut and
copper-plate intaglio, referring to the medium used to transfer the image onto paper. In woodcut, the map image is created as a relief chiseled from medium-grain hardwood. The areas intended to be printed are inked and pressed against the sheet. Being raised from the rest of the block, the map lines cause indentations in the paper that can often be felt on the back of the map. There are advantages to using relief to make maps. For one, a printmaker doesn't need a press because the maps could be developed as rubbings. Woodblock is durable enough to be used many times before defects appear. Existing printing presses can be used to create the prints rather than having to create a new one. On the other hand, it is hard to achieve fine detail with the relief technique. Inconsistencies in linework are more apparent in woodcut than in intaglio. To improve quality in the late fifteenth century, a style of relief craftsmanship developed using fine chisels to carve the wood, rather than the more commonly used knife. In intaglio, lines are engraved into workable metals, typically copper but sometimes brass. The engraver spreads a thin sheet of wax over the metal plate and uses ink to draw the details. Then, the engraver traces the lines with a stylus to etch them into the plate beneath. The engraver can also use styli to prick holes along the drawn lines, trace along them with colored chalk, and then engrave the map. Lines going in the same direction are carved at the same time, and then the plate is turned to carve lines going in a different direction. To print from the finished plate, ink is spread over the metal surface and scraped off such that it remains only in the etched channels. Then the plate is pressed forcibly against the paper so that the ink in the channels is transferred to the paper. The pressing is so forceful that it leaves a "plate mark" around the border of the map at the edge of the plate, within which the paper is depressed compared to the margins. Copper and other metals were expensive at the time, so the plate was often reused for new maps or melted down for other purposes. In the early seventeenth century, the
Selden map was created by a Chinese cartographer. Historians have put its date of creation around 1620, but there is debate in this regard. This map's significance draws from historical misconceptions of East Asian cartography, the main one being that East Asians did not do cartography until Europeans arrived. The map's depiction of trading routes, a compass rose, and scale bar points to the culmination of many map-making techniques incorporated into Chinese mercantile cartography. In 1689, representatives of the Russian tsar and Qing Dynasty met near the border town of Nerchinsk, which was near the disputed border of the two powers, in eastern Siberia. The two parties, with the Qing negotiation party bringing
Jesuits as intermediaries, managed to work a treaty which placed the Amur River as the border between the Eurasian powers, and opened up trading relations between the two. This treaty's significance draws from the interaction between the two sides, and the intermediaries who were drawn from a wide variety of nationalities.
Age of Enlightenment , 1630 Maps of the
Enlightenment period practically universally used copper plate intaglio, having abandoned the fragile, coarse woodcut technology. Use of map projections evolved, with the double hemisphere being very common and Mercator's prestigious navigational projection gradually making more appearances. Due to the paucity of information and the immense difficulty of surveying during the period, mapmakers frequently plagiarized material without giving credit to the original cartographer. For example, a famous map of North America known as the "Beaver Map" was published in 1715 by
Herman Moll. This map is a close reproduction of a 1698 work by
Nicolas de Fer. De Fer, in turn, had copied images that were first printed in books by
Louis Hennepin, published in 1697, and François Du Creux, in 1664. By the late 18th century, mapmakers often credited the original publisher with something along the lines of, "After [the original cartographer]" in the map's title or
cartouche.
Modern period (). It belongs to the so-called
plane chart model, where observed latitudes and magnetic directions are plotted directly into the plane, with a constant scale, as if the Earth were a plane (Portuguese National Archives of Torre do Tombo, Lisbon). and
laser rangefinder directly in the field. Image shows mapping of forest structure (position of trees, dead wood and canopy). In cartography, technology has continually changed in order to meet the demands of new generations of mapmakers and map users. The first maps were produced manually, with brushes and parchment; so they varied in quality and were limited in distribution. The advent of magnetic devices, such as the
compass and much later,
magnetic storage devices, allowed for the creation of far more accurate maps and the ability to
store and manipulate them digitally. Advances in mechanical devices such as the
printing press,
quadrant, and
vernier allowed the mass production of maps and the creation of accurate reproductions from more accurate data.
Hartmann Schedel was one of the first cartographers to use the printing press to make maps more widely available. Optical technology, such as the
telescope,
sextant, and other devices that use telescopes, allowed accurate land surveys and allowed mapmakers and navigators to find their
latitude by measuring angles to the
North Star at night or the Sun at noon. Advances in photochemical technology, such as the
lithographic and
photochemical processes, make possible maps with fine details, which do not distort in shape and which resist moisture and wear. This also eliminated the need for engraving, which further speeded up map production. In the 20th century,
aerial photography,
satellite imagery, and
remote sensing provided efficient, precise methods for mapping physical features, such as coastlines, roads, buildings, watersheds, and topography. The United States Geological Survey has devised multiple new map projections, notably the Space Oblique Mercator for interpreting satellite
ground tracks for mapping the surface. The use of satellites and space telescopes now allows researchers to map other planets and moons in outer space. Advances in electronic technology ushered in another revolution in cartography: ready availability of
computers and peripherals such as monitors, plotters, printers, scanners (remote and document) and analytic stereo plotters, along with computer programs for visualization, image processing, spatial analysis, and database management, have democratized and greatly expanded the making of maps. The ability to superimpose spatially located variables onto existing maps has created new uses for maps and new industries to explore and exploit these potentials. See also
digital raster graphic. In the early years of the new millennium, three key technological advances transformed cartography: the removal of Selective Availability in the
Global Positioning System (GPS) in May 2000, which improved locational accuracy for consumer-grade GPS receivers to within a few metres; the invention of
OpenStreetMap in 2004, a global digital counter-map that allowed anyone to contribute and use new spatial data without complex licensing agreements; and the launch of
Google Earth in 2005 as a development of the virtual globe EarthViewer 3D (2004), which revolutionised accessibility of accurate world maps, as well as access to satellite and aerial imagery. These advances brought more accuracy to geographical and location-based data and widened the range of applications for cartography, for example in the development of
satnav devices. Today most commercial-quality maps are made using
software of three main types:
CAD,
GIS and specialized illustration
software. Spatial information can be stored in a
database, from which it can be extracted on demand. These tools lead to increasingly dynamic, interactive maps that can be manipulated digitally. On the other hand, we can observe a reverse trend. In contemporary times, there is a resurgence of interest in the most beautiful periods of cartography, with various maps being created using, for example, Renaissance-style aesthetics. We encounter imitators or continuators of Renaissance traditions that merge the realms of science and art. Among them are figures such as Luther Phillips (1891–1960) and Ruth Rhoads Lepper Gardner (1905–2011), who still operated using traditional cartographic methods, as well as creators utilizing modern developments based on GIS solutions and those employing techniques that combine advanced GIS/CAD methods with traditional artistic forms.
Field-rugged computers,
GPS, and
laser rangefinders make it possible to create maps directly from measurements made on site. ==Deconstruction==