From the creators of the Twitterverse 2.0
Map your moves – A visual exploration of where New Yorkers moved in the last decade
For generating the geo–coordinates from the entered ZIP codes, I used the free bulk geocoder at gpsvisualizer.com. I did not check every single data row in detail, so a few of the moves might be misrepresented.
MappingAs most moves occurred from, to or within the New York area, this area displayed enlarged in the white circle at the center of the graphic. The rest of the world is mapped with a damped distance function, in order to fit everything into one screen without losing too to white-space.
Visual markersEach circle corresponds to one zip code area. Its size indicates the number of moves to or from the area. Actually, it is consists of two overlaid circles: a red one for people moving out of the area, and a blue one for people moving to the area. So, a small purple circle with a thick blue outline indicates a place where people tend to move and stay, whereas a red outline indicates a less attractive place.
InteractionClick one of the circles to inspect only moves to or from this area. Or, to inspect a whole cluster of areas, drag to create a radial selection bubble. To clear your selection, click on the background. Moves to a selected place are indicated with a blue line, wheres moves from a selected place are drawn in red.
DetailsOn the right, you can find some statistics on why and when people moved to the selected areas. You can directly compare the lengths of the red (for people moving away from the selected areas) and blue (for people moving to the selected areas) bars to spot trends and peculiarities. Moreover, you can compare these values to the baseline (overlaid in grey), which indicates the relative proportion when we consider at all moves. If, for instance, the blue bar for "landlord issues" is smaller than the red bar, this means that the selected area has a relatively low fraction of people moving away because of landlord issues.
Cascade allows for precise analysis of the structures which underly sharing activity on the web.
This first-of-its-kind tool links browsing behavior on a site to sharing activity to construct a detailed picture of how information propagates through the social media space. While initially applied to New York Times stories and information, the tool and its underlying logic may be applied to any publisher or brand interested in understanding how its messages are shared.via nytlabs.com
Trulia just launched another interactive map today, comparing the average home price, duration on the market, and reduction period for sales by zipcode across the US. Using the folks from Trulia's recent acquisition of Movity, they are empowering consumers to find the best deals, or greatest price reductions in the area. See below for the New York City metropolitan area.
See below for the article from the Trulia Blog.
Trulia’s Home Offer Report & Interactive Map Reveals Where Homebuyers Can Find Deep Discounts Across America
Today, Trulia launched its Home Offer Report to help give homebuyers and sellers the upper hand – whether they’re making an offer or putting their home on the market.
This brand new quarterly report and interactive price reductions map offers ZIP-code level insights on when the first price reduction occurs in your neighborhood, where the reductions are happening and how deep the reductions are. Click on the map below to learn about the price reductions happening in your neighborhood:
Check out this slide show for the full Q1 2011 report findings:View more presentations from Trulia
IN an uncharted world of boundless data, information designers are our new navigators.
They are computer scientists, statisticians, graphic designers, producers and cartographers who map entire oceans of data and turn them into innovative visual displays, like rich graphs and charts, that help both companies and consumers cut through the clutter. These gurus of visual analytics are making interactive data synonymous with attractive data.
“Statistics,” says Dr. Hans Rosling, a professor of international health at the Karolinska Institute in Sweden, “is now the sexiest subject around.”
Dr. Rosling is a founder of Gapminder, a nonprofit group based in Stockholm that works to educate the public about disparities in health and wealth around the world — by offering animated interactive statistics online that help visitors spot trends on their own.
Hit the play button and an animated graphic, called Gapminder World, shows a constellation of brightly colored bubbles, each representing a different country, bouncing along over two centuries. Without ever having to view yawn-inducing numbers on gross domestic product per capita, you can watch some countries, like the United States, rapidly growing healthier and wealthier before your eyes while smaller bubbles, for countries like Congo, rise on the life expectancy axis even as they dip on the income line.
The advanced animation has let Dr. Rosling make wonky statistics about poverty as intuitive and potentially fascinating for viewers as a nature program about the Serengeti on TV. “If we show a herd of zebras, and one zebra has a bad leg and lags behind, you can see that immediately,” says Dr. Rosling, whose video clip from the BBC on health and wealth statistics has been viewed more than four million times on YouTube. “If one country gets left behind, you can see that, too.”
Visual analytics play off the idea that the brain is more attracted to and able to process dynamic images than long lists of numbers. But the goal of information visualization is not simply to represent millions of bits of data as illustrations. It is to prompt visceral comprehension, moments of insight that make viewers want to learn more.
The growing field has implications for companies, governments, academic institutions, nonprofit groups, news organizations and marketers — just about anybody who tries to convey huge amounts of information in visual, interactive forms. But advances, he says, come with both benefits and risks.
On the benefit side, people become more engaged when they can filter information that is presented visually and make discoveries on their own.
On the risk side, Professor Shneiderman says, tools as powerful as visualizations have the potential to mislead or confuse consumers. And privacy implications arise, he says, as increasing amounts of personal, housing, medical and financial data become widely accessible, searchable and viewable.
“The visual analytics research community works on these issues,” he says, “but more needs to be done.”
In the 1990s, Professor Shneiderman developed tree mapping, which uses interlocking rectangles to represent complicated data sets. The rectangles are sized and colored to convey different kinds of information, like revenue or geographic region, says Jim Bartoo, the chief executive of the Hive Group, a software company that uses tree mapping to help companies and government agencies monitor operational data. When executives or plant managers see the nested rectangles grouped together, he adds, they should be able to immediately spot anomalies or trends.
In one tree-map visualization of a sales department on the Hive Group site, red tiles represent underperforming sales representatives while green tiles represent people who exceeded their sales quotas. So it’s easy to identify the best sales rep in the company: the biggest green tile. But viewers can also reorganize the display — by region, say, or by sales manager — to see whether patterns exist that explain why some employees are falling behind.
“It’s the ability of the human brain to pick out size and color” that makes tree mapping so intuitive, Mr. Bartoo says. Information visualization, he adds, “suddenly starts answering questions that you didn’t know you had.”
For entertainment value, the Hive Group has also posted a tree map of the 100 most popular songs on iTunes, updated every 24 hours.
The fact that serious software companies are now tree mapping the pop charts is a sign that data visualization is no longer just a useful tool for researchers and corporations. It’s also an entertainment and marketing vehicle.
In 2009, for example, Stamen Design, a technology and design studio in San Francisco, created a live visualization of Twitter traffic during the MTV Video Music awards. In the animated graphic, floating bubbles, each displaying a photograph of a celebrity, expanded or contracted depending on the volume of Twitter activity about each star. The project provided a visceral way for viewers to understand which celebrities dominated Twitter talk in real time, says Eric Rodenbeck, the founder and creative director of Stamen Design.
Information visualization has changed substantially in the 10 years since the studio has been in business, Mr. Rodenbeck says. Designers once created visual representations of data that would steer viewers to information that seemed the most important or newsworthy, he says; now they create visualizations that contain attractive overview images and then let users direct their own interactive experience — wherever it may take them.
“It’s not about leading with a certain view anymore,” he says. “It’s about delivering the view that gets the most participation and engagement.”
TO that end, the company has just designed a site for a client, mondowindow.com, that shows airline passengers a detailed satellite map of the landscape they are flying over — and lets them direct the view.
For passengers with Wi-Fi access who enter their airline and flight number on the site, mondowindow.com displays more than just the terrain below. It also offers information bubbles highlighting different place names, local landmarks and tourist attractions like schools and botanical gardens, and photos of native fauna, like a blue jay.
On the ground, we may live in a world of T.M.I. — too much information. But Stamen Design is betting that we will relish rich images of ground data when we are flying several miles high.