Tag Archives: maps

Short, clear station names vital to transit system wayfinding

WMATA map with long station names: "they're not station names, they're committee meeting minutes."

WMATA map with long station names: “they’re not station names, they’re committee meeting minutes.”

The folks at London Reconnections have a new podcast – On Our Line. The second episode features a long conversation with two experts on transit map design and understanding, Max Roberts and Peter Lloyd.

The discussion hits on several topics about the challenges in transit map design, particularly for complicated networks. They also discuss objective measures of success in design (e.g. timing users in finding their way from point A to b on a map) and the conflicts with graphic design ideas. Another challenge is the future of the paper map and the seemingly inevitable move towards electronic map displays of some kind.

A few anecdotes stood out to me:

Touch Screen Maps: These might seem to be an obvious technological solution to mapping challenges with complex networks, frequent service changes, language barriers, etc. New York installed some touch screen maps as a part of a pilot program in 2014; despite rave reviews, no one seemed to use them. The podcast conversation (at 37:50) hits on the problems: the ad-supported model means the kiosks look like ads. Perhaps more interesting is the embarrassment of a rider using the kiosk, requiring a level of interaction that physically signals to everyone else on the platform that ‘I don’t know where I’m going.’ A static, printed map allows for consumption of information in a less obvious manner.

Station Names: Asked for examples of the worst transit maps they could think of, WMATA’s marathon-length station names are an obvious choice (at 1:07:20). Short station names are important to efficient, clear, and effective wayfinding. Roberts on WMATA’s map: “some of the stations – they’re not station names, they’re committee meeting minutes.”

File that one under “it’s funny because it’s true.”

Using the map to influence routing: Roberts obliquely mentions working with WMATA (48 minutes in) on changing the map to encourage different routing, presumably a reference to adjusting the map in order to encourage Blue Line riders from Virginia to transfer and use the Yellow Line (with excess capacity) to travel into DC.

It’s one thing for the map (or trip planner) to influence your route; it’s another for that decision to be made by an algorithm completely removed from human interaction. With driverless cars, it’s still unclear how humans will react to navigating networks in that way – adjusting human behavior is challenging enough.

Metro highlights frequency in new bus map

This week, Greater Greater Washington highlighted WMATA’s latest iteration of their new bus map (as post on the first iteration is here), which opts for a diagrammatic representation of the bus network, highlighting frequent, all-day bus services over infrequent and irregulat coverage bus routes.

The new map is a huge improvement of the old one.  Digging through the archives, I found this post, with a screencap of roughly the same part of the city – just for the purposes of comparison.

The inspiration for posting about the shortcomings of the WMATA map back in 2010 came after reading Jarrett Walker’s blog.  Walker emphasizes the value of frequency, and the importance of highlighting frequent services in an operator’s communications, such as maps. WMATA’s old maps made no such distinctions – in fact, the map highlighted rather useless distinctions, such as whether or not a bus crossed state lines.

The timing of Metro’s release of the new map was fortuitous.  Last week, I had the opportunity to participate in Walker’s two-day transit network design course.  The exercises in the course force participants to deal with the trade-offs between conflicting goals, limited budgets, constrained geography, and the fundamental geometry of efficient transit service.

(Jarrett has posted reviews of the DC course here – I would definitely recommend the course both for those working on transit/transportation, as well as anyone interested in how cities function)

Frequency Mapping

Last week, Jarrett Walker had a great post illuminating the basic reasons for ‘frequency mapping,’ where a transit agency maps out transit routes that meet some threshold for frequent service (such as buses every 10 minutes, or 15 minutes, etc).

There are many degrees of frequency and span, but in general, most transit agencies’ service can be sorted into three categories of usefulness based on these variables:

  • The Frequent Network runs often enough that you don’t have to plan your trip around a timetable.  That typically means every 15 minutes or better all day, but it needs to be more frequent than that where aiming to serve relatively short trips — as in the case of downtown shuttles for example.  If you aren’t willing to plan your life around a bus schedule, you are interested only in the Frequent Network.
  • Infrequent All-day services are the rest of the service that runs all day.  This network often relies on timed connections.
  • Peak-only service exists only during the peak period.  It mostly takes the form of long commuter-express routes that add lots of complexity to a system map but represent very specialized services for limited markets.

These three categories are useful in such completely different ways that I would argue they are at least as fundamental as the three basic categories of urban road — freeway, arterial, and local — that virtually all street maps clearly distinguish.

We have some great examples of this in DC.  The entirety of the Circulator network is, in essence, a Frequent Network.  The Circulator aims for 10 minute headways, the routes are fairly simple and easy to understand, and thus people can look at the map and understand where the bus is and where it’s going.

WMATA’s bus map for DC, however, doesn’t make this distinction.  While there is a extra color designation for Metro Extra service (meeting the Frequent Network threshold), the other color distinctions merely show which jurisdiction the bus route operates in.

DC Bus Map WMATA crop

The distinction between which services operate only in DC (in red) and those which cross into Maryland (green) isn’t really important for a rider.  Furthermore, the overwhelming use of red for the DC routes makes it hard to follow those routes across the map, seeing where they turn and what streets they travel down.

DC Bus Map WMATA legend

Blue services with dashed lines, however, is indicative of MetroExtra (for some reason, a separate brand from Metro Express), and at least makes a effort at differentiation based on frequency – but that tends to get lost in the visual complexity of the overall map.

There’s a common phenomenon of ‘rail bias,’ (hat tip to The Overhead Wire) where riders will opt for riding a train rather than a bus.  However, rail systems tend to have several key attributes that make them more attractive – the investment in the infrastructure both enables and requires a high frequency of service, and the route structure is almost always simple enough to convey in an easily-understood diagram or map.

The lesson from Jarrett’s post is that simple mapping based on frequency can help address some of the perceived shortcomings of buses.  Even without addressing route structure, this is a relatively simple improvement in communication that helps riders a great deal.

Where the water comes from

Back in March, the New York Times featured DC WASA’s (now DC Water) new director, George Hawkins, talking about the challenges of dealing with aging water and sewer infrastructure in American cities.  The piece lays out the challenges facing most American cities, currently resting on our laurels of the investments from previous generations:

For decades, these systems — some built around the time of the Civil War — have been ignored by politicians and residents accustomed to paying almost nothing for water delivery and sewage removal. And so each year, hundreds of thousands of ruptures damage streets and homes and cause dangerous pollutants to seep into drinking water supplies.

Mr. Hawkins’s answer to such problems will not please a lot of citizens. Like many of his counterparts in cities like Detroit, Cincinnati, Atlanta and elsewhere, his job is partly to persuade the public to accept higher water rates, so that the utility can replace more antiquated pipes.

The problem is serious, and Hawkins is here to spread the word:

“We’re relying on water systems built by our great-grandparents, and no one wants to pay for the decades we’ve spent ignoring them,” said Jeffrey K. Griffiths, a professor at Tufts University and a member of the E.P.A.’s National Drinking Water Advisory Council.

“There’s a lot of evidence that people are getting sick,” he added. “But because everything is out of sight, no one really understands how bad things have become.”

To bring those lapses into the light, Mr. Hawkins has become a cheerleader for rate increases. He has begun a media assault highlighting the city’s water woes. He has created a blog and a Facebook page that explain why pipes break. He regularly appears on newscasts and radio shows, and has filled a personal Web site with video clips of his appearances.

Part of Hawkins’ ‘cheerleader’ duties included a recent blogger roundtable, with several local blogs (DCist, Greater Greater Washington, District Curmudgeon, We Love DC, Hill is Home, etc) offering detailed insight into the the most seemingly basic aspects of city life.  For me, the most interesting visual to come out of these meetings is this map from the Curmudgeons of DC’s water mains in 1985.

DC WASA map 1985

The system is based on gravity and pressure, each color represents a band of elevation served by certain reservoirs in the city.  There are two separate systems (for the most part) east and west of the Anacostia river.  The width of the lines represents the diameter of the water mains under the street.   When seen from afar, the color bands give a rough approximation of DC’s topography – the red and blue colors clearly show the extent of the L’Enfant plan, for example – which L’Enfant specifically limited to the flat parts of DC.

A closer inspection (click the image for a larger version) shows the fantastic level of detail in the various water main routes, the large mains that connect reservoirs to areas of similar elevation, as well as the local distribution to the end users.

DC WASA map 1985 cap hill

The true cost of gasoline

nyt-oil-6

The New York Times’ oil map now includes a close-up of the landfall area around the Gulf Coast.

In Sunday’s Washington Post, Ezra Klein provides some much-needed context as to the true cost of oil, and in turn the gasoline we buy to power our cars.  The key part is framing the overall cost in terms of externalities:

Most of us would call the BP spill a tragedy. Ask an economist what it is, however, and you’ll hear a different word: “externality.” An externality is a cost that’s not paid by the person, or people, using the good that creates the cost. The BP spill is going to cost fishermen, it’s going to cost the gulf’s ecosystem, and it’s going to cost the region’s tourism industry. But that cost won’t be paid by the people who wanted that oil for their cars. It’ll fall on taxpayers, on Gulf Coast residents who need new jobs, on the poisoned wildlife on the seafloor.

That means the gasoline you’re buying at the pump is — stick with me here — too cheap. The price you pay is less than the product’s true cost. A lot less, actually. And it’s not just catastrophic spills and dramatic disruptions in the Middle East that add to the price. Gasoline has so many hidden costs that there’s a cottage industry devoted to tallying them up. At least the ones that can be tallied up.

Klein lists pollution, congestion, the need for our military to secure oil reserves, and citing some other research from Ian Parry at RFF, he concludes the premium is $1.65 per gallon of gas – which put on top of the current average cost per gallon of $2.72, would mean we’d need $4.37 gas to cover the true costs – a number Klein notes is almost certainly an underestimate.  However, Klein notes that while higher gas prices would certainly curb some driving (and data suggests this to be true), the larger move over the past decades has been the entrenchment of our auto-dependence, and thus our gasoline dependence.

The key to reducing use is to provide alternatives:

That gets to the bigger issue, which is that energy sources are cheap or expensive only in relation to one another. And the heaviest anchor beneath our reliance on oil is that, at this point, there’s nothing to replace it with.

“We’re pretty much stuck with our dependency on oil,” Parry says. “We don’t have any substitutes. Even if we hugely increase the price on oil, we’d only have limited impact on it. People need to drive and get to work.”

In urban situations, reducing oil use means reducing driving.  A key part of that equation would be to provide more alternative transportation modes. If we were to raise the price of oil via an increase in the gas tax, that revenue could be used directly to build those new transportation infrastructures – internalizing the externality.

In other urban, externality pricing schemes, linking the revenue generated from the tax to a tangible benefit for users is the key to gaining political support.  Donald Shoup talks extensively about funneling parking revenue to parking benefit districts; polls in New York suggested that dedication of congestion pricing revenue to transit improvements was the key to securing popular support (if not legislative support). Linking revenues to the tax is a key part of helping people understand the value of the virtuous cycle – no matter how counter-intuitive it might be.

DC Photo Map

A couple of blogs today (GGW, DCist) featured this fantastic map of DC and environs from Flickr user Eric Fischer.

DC Photo Map_1

Fischer has a set of similar maps from various cities around the world.  Fischer’s methodology takes data from the images and the user accounts to determine the location of the photo (via geotagging), as well as the time and date and the type of user (tourist, local, or unknown).  Tourist photos are in red, locals in blue, and unknown data in yellow.  Each dot represents a photo.  Photos taken in succession by the same user within 10 minutes of each other are connected by a line.

DC Photo Map_2

Fischer also has maps of cities that do not discern between tourists and locals.

Weekend reading

DC-Streetcars-Planned-Streetcar-Radius-Map

Excuse my timing on this, as this doesn’t leave much weekend to play with – but here are some items worth noting from the previous week or so:

Streetcars bridge the gaps: Yonah Freemark has an excellent post on DC’s evolving streetcar network and its ability to fill the gaps in Metro’s network.  Yonah’s excellent visuals (as usual) help frame the discussion.

New maps: New York gets a new map – Second Ave Sagas has the breakdown.  The map decreases clutter, though nothing compared to the more schematic designs for other systems.

Metro too cluttered: Speaking of clutter, Massimo Vignelli thinks Metro’s gotten too cluttered since he and Harry Weese came up with the signage scheme for the system decades ago.

Congestion pricing:

Grid vs. Sac: David Alpert notes a (perhaps the only) redeeming quality of the cul de sac; Jarret Walker notes the many advantages of gridded street networks.

NYT Infographics – VMT and Oil

Two great infographics from the New York Times – both related to petroleum.

First, a great graph of per capita VMT compared to changes in gas prices:

nyt_vmt_gasprices

Putting vehicle miles traveled per capita along the x-axis instead of time makes the swings in both price and VMT more obvious. The massive growth of VMT over time despite the swings in prices shows just how entrenched car culture and automobility are in the US.

All that VMT must need a lot of oil. The Times also has a handy map of the Coast Guard’s forecasts for the extent of the growing oil slick in the Gulf of Mexico.

April 22:

nyt-oil-1

April 28:

nyt-oil-2

May 1:

nyt-oil-3

May 4:

nyt-oil-4

Parking, Census, & Maps

Some cool map-related items:

San Francisco’s Parking Census – with one of those ideas that’s so obvious that no one ever thought of it before, San Francisco has completed the first known census of all the publicly available parking spaces in an American city.  The census found 441,541 spaces in the city, just 280,000 of which are on-street spaces – occupying an area comparable to the city’s Golden Gate Park.

The release of the public parking space census coincides with the redesign of the website for SFPark, an occupancy-based parking management trial funded with a $19.8 million federal congestion mitigation grant, which among many objectives, seeks to manage the supply of parking by adjusting the cost to match demand. To put that in laymen’s terms, if SFPark works well, there should be enough parking at the curb so that drivers don’t have to circle the block endlessly searching for that elusive space. By gradually adjusting the price of parking up or down in the pilot areas, the city expects to create roughly one or two free spaces per block face at any time, the original purpose of parking meters when they were introduced in the 1930s.

Jay Primus, who directs the SFPark trial for the MTA, said the parking census was the first step toward a better understanding of how parking works in San Francisco, filling a void where city planners could only make rough estimates previously. “If you can’t manage what you can’t count, doing a careful survey and documenting all publicly available parking was a critical first step for the MTA for how we manage parking more intelligently,” he said.

The importance of this data, especially to this level of detail, cannot be understated.  Applying this type of information to performance pricing systems is just one potential application.   The study’s accompanying PDF map shows just how detailed and granular the data is:

SF_Parking_Census_2

SF_Parking_Census_1

Each dot along the streets represents a meter, the larger circles within blocks represent off-street parking.   Garages and non-metered street spaces with less than 25 spaces per block aren’t even shown.

The real Census also has some cool maps – the Census Bureau’s Take 10 map allows you to see real time (relatively speaking) response rates by census tract for DC:

CensusMap_3-30-10

Currently, DC’s response rate stands at 44%.  Tract 4902, highlighted above, is only at 39%.