A short post on short trains

That's true, but if you've kept a lid on construction costs as light metros tend to do, the public will embrace building new relief lines that bring more service to areas with moderate access. That adds big capacity you can then continue to grow into. Paris is a great example of this, they often just add whole new lines rather than trying to wring a bit more capacity from existing ones.

> essentially nothing you can do now to fix it

You can build another line. This one was cheap and the demand is clearly there. And two medium capacity lines are generally better than one high capacity line in terms of offering more options to travelers.

Why not make the train longer and have it stop in the station in sections?

A similar thing happened with SkyTrain's Canada Line, where it reached capacity very soon after it was built. They did plan a contingency to be able to extend the platforms for somewhat longer trains, however.

The worst thing is the small line creates induced demand for that route. As in, people will literally move house and get jobs etc that are dependent on the route. So after they build it, the societal cost of "pausing for upgrades" is massive.

> and retrofitting all 30+ deep underground stations to be larger would be an insanely expensive and disruptive exercise.

But before this you had no idea that there was so much demand, right?

It's quite a lot easier to sell a huge monetary upgrade on something oversubscribed rather than a huge monetary outlay that may be a complete white elephant.

The replies to this comment remind me that the supposed unavoidable law of induced demand evaporates pretty quickly amongst urbanists when talking about things they want to build. At the risk of sounding really snarky, “just one more line bro”.

To be fair a bicycle is private transit but I agree with the rest.

For capacity calculations, headway is what matters. E.g. trains spaced 2 mins apart means that 30 trains run in an hour.

It’s the same with cars. A 2s headway with cars holding 1 person each means that the maximum capacity of a highway lane is 1,800 people per hour, no matter how fast they go (the cars are further apart at higher speeds).

> What is the cap of throughput is due to these speed limitations is an exercise left for the author of the article.

They already did that exercise:

> 3-car trains running at 30-40 trains per hour (a normal peak frequency for automated or even some human-driven metro lines) reach a capacity of about 18,000 passengers per hour per direction, well above the expected demand of any American line that doesn’t go through Manhattan.

I don’t think anybody has tapped into the forbidden magic trick of having CBTC broadcast position and velocity instead of position alone. For vehicle ACC at least, there is a safe region of velocity and follow distance where a following train can plan to enter the space where the lead train currently occupies.

I wonder if it's possible to run trains at higher speeds closer to each other using fixed brakes embedded near the tracks, similarly to how roller coasters often have mid-course brake runs that are only activated in emergencies when the train ahead unexpectedly slows or stops.

The second route is currently being built in Munich [0], with work started in 2017. I recently watched a youtube video by The B1M about rail projects in Germany that included a long section about the currently ongoing works in Munich [1] that gives a good visual overview.

[0] https://db-engineering-consulting.com/en/projects/munichs-se...

[1] https://www.youtube.com/watch?v=bPDQdnT-RaY

In a lot of train systems this exists in the form of fast / stop trains, the fast trains only do the bigger train stations, the stop trains stop at every station, servicing smaller stops.

As for short trains on long platforms, this is pretty common in NL where the bigger train stations can support both very long international trains and shorter local trains on the same platform; a train can switch to a center track halfway on the platform.

I don't think it would really work for a subway system; people expect it to be hop on, hop off. In some places the stops (or people's final destinations) are so close together they can choose to get on/off earlier/later, but this system makes that less viable. You'd have more people shuffling through train stations trying to figure out which train to get or whether they need to wait for the next one, also putting extra load on staff for confused not-locals. And finally, you'd need extra rails or tunnels so that a train can pass another.

I feel as if the time spent by each passenger walking to the right boarding area could easily surpass the dwell time of an extra stop or two.

Consider a metro system with trains 70 m long. With 10 m of space between the two boarding areas, that means the length between both sides of the station is 150 m. If the entrance to the platform is in the center, the walk to the middle of each boarding area is 45 m, taking about 30 seconds. If the entrance is at the end, that becomes 35 m or 115 m (taking about 20 to 90 seconds to walk). I think those figures are comparable to the dwell time of a typical metro system.

I do think it's a very interesting idea though! I think it'd work better for longer trains over longer distances, where the time spent accelerating and braking is often greater, but unfortunately few places are even considering anything shorter than 15 minute headways for such rail services.

How would that help? 3 minutes is the minimum separation distance, if the trains have different stopping patterns then that just means they'll be further apart for part of their journey. If you have to stay 3 minutes behind the train in front, you might as well stop at all the same stations that it does, you can only save time if you were further behind to start with, so you can't increase throughput by skipping stops.

This is how it already works in Europe (at least in Austria and Germany, but I assume elsewhere in Europe as well).

You will also find long trains that split in half mid-journey, so you need to make sure you get in the right car or you'll go to the wrong place.

Edit: I guess it's not exactly what you're saying, in Europe you will find platforms split into several sections with multiple trains to board, but they'll be for different lines with different destinations.

The main cost of construction is station length, so making longer platforms with shorter trains is the worst of both worlds.

there is nothing new about trains - we need to stop looking for innovation and just build them with small incremental improvements. The only useful innovation since 1920 is full automation (though I'm going to call high speed rail incremental since it is mostly a lot of small improvements on the way - this is debatable). Even full automation was a lot of incremental improvements.

That said, full automation is a major game changer because it enables short trains with high frequency which you would otherwise struggle to afford. Don't build light rail, build light metro which is a small cost more (build a metro with light rail) but now you can have full automation.

I also thought this omission was conspicuous. The author has some reasonable points, but the sections on NYC and NJ felt like political wish (spite?) casting: just about the only state in the US that struggles more to build mass transit than NY is NJ. The HBLR is a rare survivor in an otherwise very crowded graveyard of NJ mass transit projects.

I don't think there is any danger to running more frequent longer trains. Ultimately you are constrained by the signalling system; nobody is suggesting "just disable the tripcocks and plow through red signals". Modern systems use moving block cab signals, so are set up to succeed with high frequency. (But there are other problems, like terminal capacity, that can limit frequency. The MTA in NYC spent a ton of money giving the L CBTC to run 40+ tph... but the terminal at 8th Ave can't turn that many trains. Until that's fixed, the L will always be overcrowded.)

You can see whether the problem is being cheap or if it's actually a capacity issue. If weekend service sucks but peak hour service is good, then it's just being cheap. If rush hour can't handle passenger volumes, then you need a signal system / automation upgrade. (Or a parallel line!)

As a New Yorker, I'm very jealous of Vancouver's SkyTrain system. ("But NYC has the best metro in North America!!" Maybe...) The NYC subway has a lot of peak hour capacity. I hate traveling at peak hours. So that means I'm always standing in stations waiting 10 minutes for the next train. If I lived in Vancouver, then that would be 3 minutes. Sounds good to me!

I also agree with the author in that I'm not sure what elevated trains did to hurt people. I lived in Chicago next to the L for years. It never bothered me. It's nice to see out the window and look at something while you're in transit. And it's cheaper than building things underground. NYC apparently got rid of its elevated railways because of snow, so that's something to watch out for. But Chicago gets more snow and it does OK. (Having commuted on both systems in the snow, it's a mixed bag. Chicago doesn't shut down, but it's slow as people remember how to deal with snow. NYC can run on snow-free underground tracks, but sometimes the governor is like "fuck it, I'm cancelling all the trains anyway" and then you're just stuck.)

There are plenty driverless trains in operations. Some have been running for decades. For example Toulouse in France has a metro without drivers since 1993. I was there a decade or so ago and sat in the front of the train on a bench in the front of the train staring out into the tunnel. Because there isn't a driver compartment. Really cool. They have some fences on the platform that align with the train doors for safety. The train lines up, people get in/out and it drives to the next station. Some airports have similar systems. This stuff has been possible for quite some time.

These days, you should be designing for autonomous operation for new infrastructure. Much easier when you design from the ground up. Not doing that could be an expensive mistake.

I mean this is talking about construction of brand new lines, and in the Western world if you are building a brand new, totally separated line then automated is the no-brainer solution given high Western labor costs.

But then you'd need stations and part of the rails on the surface, taking up valuable real estate. Versus a small entrance building. Not sure how or how much it would save power either.

Some train lines are designed like this although obviously much more gradually like the Victoria Line in London. In practice it’s pretty negligible.

Automation with short trains is similar price to long trains, but the short trains will run a lot more often and that will attract riders who have a choice of driving or not. If they miss their bus/train or have a long wait for their bus/train they will fix that by driving. However if they try transit and service is frequent they will realize that transit works just fine and so they will choose to not drive even though they can.