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That's twice as many times that you have a vehicle needing to slow down, stop, open doors, close doors, and get back up to speed in order to flow the same number of passengers. What's going to be faster (extreme case), one train that makes one stop and lets ten passengers off, or ten trains that each need to make one stop in order to let one passenger off?
No? Each individual vehicle will slow down, stop, open doors, close doors, and get back up to speed the exact same amount of times as if there were 2 or 3 times less vehicles. If we for instance took the Yonge Line and halved the train length and doubled the frequency, a passenger travelling from Finch to Union off peak would still ride the train for 25 minutes and stop at 15 stations. This doesn't change no matter how long the train is, or how close the next or previous train is, assuming everything is properly signaled. Sure the amount of cumulative stop cycles increases with high frequencies, but so what? Is there a concern that we're releasing too much break dust? Do we have some weird power problem where we don't have enough power to account for the extra power needed to counter the... uh... the increased cumulative air resistance of all trains?
And even using your example of passenger behaviour with the doors closing, the counter scenario is that with twice as many trains pulling out of the stations you're twice as likely to have a passenger trying to catch the train. People are dumb. They'll grab the door on the streetcar when there's another one literally directly behind it.
Again, you're looking at data cumulatively, and are arriving at data that is basically meaningless. Don't look at "how many times someone holds the doors open within a timeframe?", look at "what is the chance any particular train will be stopped at a station by someone holding the door, and how often would it happen in any continuous end to end journey?". If we take a pessimistic value, and say that when a train stops at a station, there's a 50% chance someone will hold the door open. Sure, if you have trains arriving at the station twice as often, then sure you're going to have a train delayed twice as often, but so what? Your average journey will still experience the same delays. What matters is that 50%, does that number go up or down as frequency increases, and it usually goes down. Sure, idiots will still try to hold the door open, but the chance that someone would want to do that goes down as the headways decrease, or at the very least, it certainly doesn't go up.
Again, I'm not disagreeing that a larger number of smaller vehicles may offer advantages in some scenarios, I just don't think it's correct to assume that halving the size and doubling the frequency will necessarily work out to the same thing, in all cases.
Correct, there are differences, however most of the actually meaningful differences do not apply here. A simple example is express services. Say you have a 2 track mainline, with passing loops at specific stations, and you want to create a skip stop service. The less frequent your trains are, the more room you have to run these express skip stop services. Lower headways means there is a much larger distance that your express trains can cover before they begin to tail the train in front of them and they need to hit a passing loop, so if you want to have more express services, then it makes sense to run longer trains at longer headways. Obviously however, none of this applies to the subway lines we're building.

The second difference is future expansion. If you build your system with longer platforms, but make it capable to run at higher frequencies in the future, increasing headways is always going to be an easier solution to increasing capacity, than increasing train and platform lengths. This is arguably the only real point the Crosstown has in its favour, if in the future we fully grade separate the line, we can run frequencies approaching 90s and massively increase capacity. However the real solution here is to design your station with expansion in mind, keeping the tunnels approaching the station as straight and flat as possible. Not to mention, people on here seem convinced that Eglinton will NEVER need more than 15kpphpd so :rolleyes:. This also further puts into question the choice of Low Floor vehicles. As the person you responded to said, the line should've been built with high floor trains, since if and when in the future the change to full grade separation happens, the low floor trains will be nothing but a detriment to the line and the service it will be trying to provide.
 
Is it true that Eglinton Station is being shifted further north to better align with the Crosstown? I saw someone mention that on another forum.
Sort of, not as much as was originally planned but they are adding to the length of the curent Eglingtion platform to provide acces to the Crosstown platform
 
Hi! Question that I'm sure has been answered before, but if it was too expensive to put underground, why wasn't the eastern portion of the Crosstown elevated? Wouldn't that have made a lot of sense in order to have grade separation across the whole line? Was this ever considered/explored by Metrolinx et al?
 
Hi! Question that I'm sure has been answered before, but if it was too expensive to put underground, why wasn't the eastern portion of the Crosstown elevated? Wouldn't that have made a lot of sense in order to have grade separation across the whole line? Was this ever considered/explored by Metrolinx et al?
Im of the opinion it should have happened. some others who were around then would know more, i think it was considered like a skytrain elevated line, but of course natural nimbyism didnt want it elevated efficient transit be damned.

20-30 years on its going to have to be upgraded anyway with high floors, better trains and elevated eastern portion
 
Hi! Question that I'm sure has been answered before, but if it was too expensive to put underground, why wasn't the eastern portion of the Crosstown elevated? Wouldn't that have made a lot of sense in order to have grade separation across the whole line? Was this ever considered/explored by Metrolinx et al?
You can actually go to page 1354 of this thread to see what some people think of elevated transit. Now extrapolate this to the whole population and you'll understand why elevated is rarely used.

There's also accessibility issues where now you need 2 elevators at each stop. Anything above or below ground in this City is cursed. Look at the that new pedestrian bridge in Liberty Village that took 10 years to build and is already broken.
 
In 30 years they’ll shut down the whole line and then build a new underground subway to replace it, and have shuttle busses replace the line until the new subway opens.
More likely if there are bottlenecks at certain intersections they will create an underpass, and if there are real capacity issues they will build a Lawrence Line.
 
In 30 years they’ll shut down the whole line and then build a new underground subway to replace it, and have shuttle busses replace the line until the new subway opens.
In 30 years the line will remain as it is, and there wont be any changes to it asides from cars being upgraded from 2 car operation to 3 car. Sorry to anyone hoping for the eastern portion of the line to be tunneled or elevated, it simply wont happen.
 

Metrolinx Crosstown LRT breaks through to connect Cedarvale Station with Eglinton West TTC Station

March 24, 2022
Cedarvale Station is expected to be one of the busiest interchange stations on the line.
From the article:
> Earlier this year the at-grade team removed a portion of the retaining wall on the southwest side of the CP bridge. Now the retaining wall has been reinstated. Next up: the crew will continue widening the portion of Eglinton Avenue East adjacent to the wall.

I drove past that section last night, it is just up the hill east of Leslie intersection. Wow it looks like it is going to be an awkward s-bend to drive. Even with moving the retaining wall back it looks like the clearances are still too tight. Plus they have not widened the underpass at all, it’s going to be very tight once the bike lanes go in too.
 
In 30 years the line will remain as it is, and there wont be any changes to it asides from cars being upgraded from 2 car operation to 3 car. Sorry to anyone hoping for the eastern portion of the line to be tunneled or elevated, it simply wont happen.
Yes it will be fine, there won't be a plethora of riders coming out of nowhere, the rest of the system will be in trouble if that happens, and there is already a subway and a GO line to Kennedy Station.
 
In 30 years the line will remain as it is, and there wont be any changes to it asides from cars being upgraded from 2 car operation to 3 car. Sorry to anyone hoping for the eastern portion of the line to be tunneled or elevated, it simply wont happen.

I wonder if a system has ever upgraded an at-grade LRT to have a single elevated express track. Would be an interesting service pattern. Have the at-grade trains run local service and then an express 3rd track elevated in the middle on single pillars with stations only at the busiest stations/interchanges. Run one way in the AM and the other in the PM.

Probably wouldn't be worth the investment but still makes an interesting experiment.
 
Is there a breakdown in cost per km for underground versus street level?
 
I wonder if a system has ever upgraded an at-grade LRT to have a single elevated express track. Would be an interesting service pattern. Have the at-grade trains run local service and then an express 3rd track elevated in the middle on single pillars with stations only at the busiest stations/interchanges. Run one way in the AM and the other in the PM.

Probably wouldn't be worth the investment but still makes an interesting experiment.
Tokyo. Virtually most elevated lines today are former at grade interurban that had grade crossings removed to improve speed. What most people are claiming to be "impossible" has been done several times before in extremely developed countries.
 

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