Good Transit Is Simple: Lessons in Good Route Design

Avoid Loops, Limit Deviations, Space Stops Appropriately, and Respect Layovers

Nadine Lee, the current CEO of Dallas Area Rapid Transit (DART), was the keynote speaker at the 2024 Transport Chicago conference¹. The theme of her address; “It’s ok to be basic.” Nadine’s statement reaffirms what sometimes feels lost in my industry (I’m a transit planner). Against a backdrop of Tesla tunnels, autonomous Microtransit, and AI powered ROW detection systems, most transit trips are still taken on a bus or a train. Of the nearly 50 million DART trips taken in 2023 , 97.8% of them were taken on a bus or a train, slightly above the national average…of 97%.

How was your last ride on the bus? How about the train? How about your last 10 rides? Remember the 5:1 rule?

If 97% of transit trips happen on a bus or a train, our mandate should be to ensure those trips are convenient, reliable and dignified. Frequent transit service gets you well on the way. If you want to keep going, sound route design is next. Here’s a crash course.

Lines 👍🏽, Loops 👎🏽

Best Practice: In general, routes should avoid loops. The inbound trip should follow the same path as the outbound trip, in the reverse direction.

When a transit route line is a line, trip planning is simple². Hop on the bus to go to the store. To go home, cross the street and catch the bus going the other way.

When a transit line loops, the return trip becomes more complicated. This is a quirk for people whose trip is about halfway around the loop, and an active deterrent for everybody else. Take for example, this bus line below.

If you’re using this line to get between the transit center and the casino, your trip is alright. Your return trip is slightly different, but not very.

If you’re taking this line to get between church and home, getting to church is fine, but your return trip might require some prayer. Your options are to:

• Ride the bus all the way around through the southern portion until you get back home -OR-

• Get off near the high school and catch the next inbound bus -OR-

• Get off near the high school and walk home

Let’s hope you prayed for patience.

In general, transit lines should be lines, not loops, with the inbound routing matching the outbound. If you find yourself designing a transit line, grab a pencil and trace your route. If you can trace all of the route exactly twice (once inbound, and once outbound) without lifting your pencil, your route design is on solid foundation. Let’s check out some examples below.

The last picture is an example of a transit route with a deviation, which leads us to another element of good route design.

Transit Lines Should Limit Deviations

Best Practice: Transit lines should be direct and linear , with limited deviations

There are tons of well intentioned reasons that an otherwise direct transit line might pick up a deviation. Unfortunately, similar to the road to hell, the road to bad route design is paved with good intentions. The problem with deviations is they delay everybody’s trip that does not include the deviation. Let’s return to the route from the last example.

Imagine you are coming home from church and you opted to ride the bus all the way around instead of getting off and walking. Along the way you will deviate from the main road to serve the casino, Menards and an Apartment complex. These deviations add ~12 minutes to the trip…in each direction. (It would have taken you 7 minutes in total to drive home instead).

Deviations are great if it’s your stop, and a pain if it’s not. This must be considered when adding a deviation to a transit route.

DART’s service standard document has one of the most thought out approaches to deviations I’ve seen. They calculate the ratio of the automobile travel time to the transit travel time between two points and use that ratio to guide their directness standard. Their most frequent routes are held to a ratio of 1.2 or less, while their coverage routes are held to a ratio 1.4.

Another approach I have seen is to quantify the ridership gained by the deviation and check if it is more or less than the ridership lost due to riders avoiding the deviation³.

Generally, deviations should be avoided when designing transit lines. When deviations are unavoidable, work to minimize their impact. Make the deviation quick. Avoid deviations into places like parking lots that are prone to delays. If the bus must deviate into a parking lot prone to delays, could your bus drivers benefit from a layover here?

Where the Line Ends Matters a Lot

Best Practice: Ideally, bus lines should begin and end at transit centers or major destinations like malls or colleges. At minimum, they must end where there is a dignified bathroom for the driver⁴.

Bus line have to end somewhere. If you’re lucky, the line ends at an existing destination like a mall or college. Sometimes, the line just stops. This could be because development stops, or because you hit a political boundary, or maybe you’re at the edge of the cycle time and can’t afford to allocate another bus. Done intentionally, ends of line can be key operational assets, facilitating comfortable layovers and supporting timely service.

Cycle Time (n). Transit Planning - The time required for a transit vehicle to complete a round trip and be prepared to start another trip. Includes runtime, plus any additional recovery time. Dividing the cycle time by the desired frequency tells you how many vehicles are required to operate the transit service.

Layover (n) or (v). Transit Planning - Time scheduled into a transit route for the vehicle to recover any time lost in the last lap and start the next lap on time. This also gives the bus driver a break to take care of themselves (eat, stretch, 🧻, etc.)

To maximize operational benefits at the end of the line, ensure there is room for multiple buses to layover, and there is a clean and dignified bathroom available for your bus drivers at all times the bus is operating. Bonus points if there is somewhere to grab a snack🍔. When scheduling layovers, my general rule is 15% of the runtime. For example, a bus that just ran for 50 minutes would get a 7.5 minute recovery⁵.

To the transit rider, ends of lines represent critical decision points. If I want to continue this journey, I’ll need to transfer to a different line, or a different mode of travel altogether. Locating ends of lines at key nodes and destinations like transit centers, malls and colleges ensures that there are options for riders when presented with this question.

Aim for Four to Five Stops Per Mile

Best Practice: Generally, bus stops should be spaced every 1/4 mile

I’ve previously advocated for 1/4 mile spacing and stand by this recommendation. Check out my article on bus stop spacing if you want to learn more!

1

If you have opinions about transportation policy in Chicago, you should attend this conference. Here’s the link to the conference website. It is one of my favorite conferences and I am devastated that I will not be able to attend this year.

2

If trip planning is harder than calling an Uber….👀

3

Quantifying this can be tricky, which is why I don’t see it often

4

This is more of a bus problem than a train problem, since trains have to end at stations.

5

In this case, the driver would realistically end up with a 10 min recovery. 50 min + 7.5 min = 57.5 minutes. The minimum cycle time at an every 15, 20, 30 and 60 min frequency are all 60 minutes.

Comments

[bnjd]

Christof Spieler claimed that some Houston (before Reimagining c 2013) bus routes were adapted from the old streetcar routes that were over a century old. Two concepts he stressed for route and network design are diction and legibility. Transit use requires wayfinding. Transit planners should make the system legible in order to make wayfinding easy.