Posts Tagged ‘subway map’

A Map of the Human Body as Subway Lines (Lomen via Information Aesthetics)

Friday, March 12th, 2010

human_subway_map_full_size

[Editor's note: Thanks Curt!]

Republished from information aesthetics.
Via Vizworld and Gizmodo.

Sam Loman [just-sam.com] created an original take on illustrating the inner structure and workings of the human body as the tight intertwining of different systems (e.g. arterial, digestive, musculetal, respiratory, etc.), by way of a subway map metaphor.

View full size version . . .

Tag Cloud Map as Interface (Net-Listings)

Thursday, June 11th, 2009

maphelp

[Editor's note: This real estate pricing guide for London uses a tag cloud map as the main interface. Instead of showing a detailed street map or an alphabetical placename list, they use a geographic tag cloud map. Tags are not sized to price. Rather they is color coded for price. Placement of the labels matches their geographic location (roughly speaking). Like many subway maps, the River Thames provides overall orientation.]

Republished from Net-Listings. 

Finding property, flats or houses for sale or to rent in London

 

Simply click on any area of the map and watch the screen reveal information about that area, price guide for area and links to local Estate Agents.

The new page will show you links to Letting and Estate agents in that area of London, a brief description of that area and a rough guide to rents for typical accommodation. You can also use our “Let All Agents Know I am looking” to assist you find a suitable Estate Agent and Property. The price guide can help you decide an suitable areas based on the rental price of a flat or house in London, England.

More Screenshots:

netlistingstagcloudpricinglocal

netlistingstagcloudmapall

netlistingstagcloudmapregion1

netlistingstagcloudsearchalist

netlistingstagcloudsearchamap

“Subway Map” Album Art from KCRW Sounds Eclectic

Wednesday, May 27th, 2009

0ce9c060ada02ebd707da110l

[Editor's note: I saw this album art CD cover at Starbucks last week. KCRW, the streaming public radio station out of California, puts out yearly live studio performance albums. This one features the likes of Dido, Rufus Wainwright, and Girls in Hawaii. The artists are arranged along subway lines with stations labeled with artist names. Not sure if there's a rhyme or reason to the layout, but the result is cool. ]

More info on CD from KCRW . . .

Global Forces Converge to Drive up Oil Prices (Wash Post)

Thursday, January 8th, 2009

[Editor's note: January begins newspaper design association page contest season. We came across this graphic looking thru our 2008 work in the Washington Post and was reminded how it fits in with my geography and projections as network topology thesis. Lines on this map of "Major Global Trade Routes" of oil connect each geographic feature with related geographic features. Weights are given to each connection and represented visually. Overall the network is conformal to real geography in a top level abstract sense, but the connections (flow lines) between them shine. Kudos to Renée, now at the Wall Street Journal.]

Reprinted from The Washington Post, July 27, 2008.

In the time it takes most people to read this sentence, the world will have used up (forever) about 9,520 barrels of oil. At 40,000 gallons per second, it’s going fast.

The United States plays a central role in the global energy system as the largest consumer, the largest importer and the third-largest producer of oil in the world. With use of this finite resource rising at breakneck speed, will the world have enough to meet its needs, and will it be able to afford it?

TOP OIL PRODUCERS
Where does the oil come from? Just three countries — Saudi Arabia, Russia and the United States — pump about 31 percent of the world’s oil. More than 9 million barrels per day of crude oil (plus another 1 million barrels per day of liquids derived from natural gas) are being extracted from the reserves underneath Saudi Arabia, the world’s single largest oil producer.

TOP OIL CONSUMERS
Every day, the U.S. consumes more than 20 million barrels — almost one-fourth of all the oil used in the world and more than two times as much as the second-biggest consumer, China. Consumption in most developed countries, including Britain, France, Germany and Italy, hovers around 2 million barrels a day — barely a tenth of that used by the U.S.

Screenshots below and above. Download PDF.

Graphics reported by Brenna Maloney, graphics by Todd Lindeman — The Washington Post. Map by Renée Rigdon – The Washington Post.

Topology and Projections: 21st Century Cartography

Sunday, June 15th, 2008

maps splash walters gallery baltimore

The traveling map exhibit MAPS: FINDING OUR PLACE IN THE WORLD at the Walter’s in Baltimore, Maryland (via the Field Museum, Chicago) wrapped up last weekend. While looking at John Adam’s Road distance map of England and Wales I was put in mind of how map projections try to preserve several of:

  • Area
  • Distance
  • Shape, and
  • Direction/angle

Then the question arose: Might information (thematic) topology now be interchangable with purely geographical topology?

John Adam’s map from 1680 places towns in relative (not absolute) geographic lat-long coordinates in a rough framework that preserves their orientation to one another and in the rough-shape of their original geography. But the primary purpose of this map is to emphasize the relationship between towns and intra-town distances. Below by Royal Geographic Society.

john adams road map 1680

This topological focus (of NODES and EDGES in math-speak) is perfectly represented in Adam’s map. Circles (nodes) are inscribed with town names and straight lines (edges) connecting town circles are annotated with road distance (not straight-line geographic distance).

Modern scientific cartography, with an emphasis on visualization, might finally be loosening the geographic straight jacket to the point where purely lat-long geography doesn’t matter so much but the inter-connection (edges) of said features (nodes) gains emphases and is preserved.

I believe such thematic topology maps are “geographically” accurate and employ projection just like conventional cartography but these “projections” are as of now ad hoc and not properly defined or formalized and are often created manually. Efficient and effective mathematical formulas should be devised and listed along conventional map projections in publications like Snyder’s (USGS) Map Projections: A Working Manual.

The nearest we come to topologic maps are subway maps and cartograms. More on cartograms below.

new york subway map slice

This subway map of New York City is a topological map where the island area of Manhattan is relatively small geographically but is significantly exaggerated to accommodate the “accurate” display of the topological nodes and edges of subway stations and subway lines. (Dorling cartogram example below by Zach Johnson.)

zach johnson cartogram

Cartograms are a good example of topological maps:

  • Area of symbol represents the NODE weight alone.
  • Distance is based on EDGE weight first and and geographic distance second (trying to approximate the “relatedness” between each, eg close countries close, far countries far).
  • Direction is approximated.
  • Shape is approximated.

Zach Johnson has a good post on this topic on his blog (cartograms are the focus of his Masters Thesis).

Below a New York Times map showing the weighted electoral votes of the 48 contiguous states as the topological area of each state.

ny time cartogram example

Let us examine a map of water flow in a stream network (Kelso and Araya):

six rivers streamflow

One usually sees these maps with a conic projection to preserve equal-land-area. But the river segments are drawn exaggerated to their geographic width to represent the EDGE weight between nodes in the true geography space.

The map is dispensing with equal-land-area between nodes (the overall area and shape are preserved) and instead focusing on DISTANCE and DIRECTION between each node. The edges are “preserved” by exaggerating the stream centerlines to preserve the thematic variable. Overall SHAPE is preserved, but local land AREA is not.

Such topological maps are not diagrams because they are still rooted in land-geography; the placement of the nodes is guided by land geography but shift accordingly to best show the interrelationships between nodes. Ignoring the land-geography by listing the nodes and edges in a chart or table is not a map. A topological map takes a complex n-dimensioned space and represents that topology in a 2d dimensioned space.

precip swiss atlas

Some precipitation maps use “gridded” tightly spaced, regularized nodes and edges (above: Swiss Atlas, 2.0). The “weight” of rain and snow fall is indicated by color. Because of the spacing of the nodes and the hyper-localness of the mapped theme, this “topological map” manages to preserve both the topology and the geography.

nat geo 8th world atlas human chapter opener

The above example from the 8th Edition National Geographic Atlas of the World focuses on the quantity difference between nodes and represents that with height spikes (3d). If this were a topologic projection that needed to show the contents of each node (not the inter-relationship between nodes) the spike height would be flattened out into area alone (2.5d), leading to a grossly exaggerated land-area map but correct population-area cartogram such as:

mworlds_zj.png

Above from the Dutch company Mapping Worlds via Zach Johnson.

tom patterson relief example

Tom Patterson (above) uses this 2.5d term to talk about relief shading of land elevation. But I think it can be used to represent any map that is a representation of more than simply 2 variables (lat and long). Really, much of thematic cartography is 2.5d when it tries to represent complex datasets (like precipitation) with color and other visual variables.

So visualization / modern scientific cartography is focused on examining and preserving / projecting topological relationships. Often these are closely related to geographic space, but not always. That is why I am so fascinated by cartograms :)

How do we measure the “error” and “conformal”-ness in a topological map?

  • Area: Does this “view” of the topology preserve the node and edge weights?
  • Distance: Does this “view” preserve the inter-relations between nodes?
  • Direction: Both topological between nodes and geographically.
  • Shape: Purely geographical. This is what sets some cartograms above others.

For topologic shape:

Projecting a n-dimensioned topology onto a 2d surface has one or more points tangent to the 2d surface. An ideal solution shows all nodes and edges shown flattened out but this would likely require using an interrupted projection with dashed linkage lines between like-lobes content (I have seen this somewhere, need example).

For geographic shape and direction:

We are concerned with local shape (direct neighbors in the topology) and global shape. In the England example above for the Dorling cartogram the north-south direction axis tilts left in the topology. A “best” solution preserves this geographic orientation by rotating the topology network until it “conforms” more to the geography.

Finally, we can visualize this with a modified cartography cube from Zach Johnson:

cart cube zach johnson