CityLab published an article last week on multi-modal cities that caught my attention (because it used a picture of Toronto with about 3 or 4 streetcars stacked up along Queen Street). The premise of the article is that all of this car vs. transit debate is actually missing the bigger picture: our cities are multi-modal and we need to be planning for that.
That’s not to say that the shift away from cars isn’t a good thing. It is. But it’s not as simple as saying that, instead of driving, people should now only take transit. In today’s cities people walk, bike, take streetcars, take buses, take subways, take taxis, take private shuttles, use Uber, and, yes, they still drive.
From my own experience, this is absolutely how I get around Toronto today. I walk to the gym. I ride my bike whenever I’m going somewhere downtown. I take the subway to my office in midtown because it’s far and I would be too sweaty if I biked there. I use Uber and Hailo when I’m going out at night. And I drive when I need to go to the suburbs or leave the city.
But the key takeaway here is that we now have a much tougher challenge on our hands. When we were only optimizing for cars – however detrimental to our cities that was – we only had one mode to plan for. Now we have several. Some of which are public and some of which are private.
However we also have access to technologies that we didn’t have before. We are networked in ways that weren’t possible before and we’re at the dawn of many profound mobility changes, such as driverless cars. (Have you read about Tesla’s new Autopilot feature yet?)
So as I’ve said before, I really believe that we need to look at this, not as a war on the car, but as a war on inefficiency. The problem we are trying to solve relates to mobility: What’s the best way to move lots of people around dense urban regions? Stop focusing so much on the technologies and focus more on the people.
Last week The National Post published an article talking about Toronto's Crosstown LRT and how it’s spurring a wave of development all along Eglinton Avenue. Below is a map, taken from that article, showcasing some of the developments that are currently in the pipeline and awaiting the Crosstown’s opening date of 2020.
Not surprisingly, developers like transit investment. But more specifically, they like fixed track transit investment. Rarely do new bus routes elicit the same sort of response that you’re seeing above. And that’s because fixed track investment has permanence. If you’re going to go long on an area, you want certainty.
As the Crosstown tunnel boring machines move across midtown Toronto, I thought it would be interesting to look at a transit concept that I first learned about through Jarrett Walker’s Human Transit blog. It’s called: the radius of demand.
One of things that transportation planners look at when designing and building a new line is the spacing of stops. Typically, as you move from buses all the way up to subways, the spacing between stops and stations increases. Spacing is always a bit of a trade off though, because more stops means easier access for riders, but it also means slower overall service. Somewhat famously, Paris designed its metro system so that you’re rarely more than 500 meters away from a station.
I was cruising the twitter sphere yesterday when I came across the following chart, outlining the various transit vehicle capacities here in Toronto. It was created by Cameron MacLeod of #CodeRedTO, which is a grassroots group advocating for “a rational, affordable, and achievable rapid transit strategy for Toronto.”
On the left you have the vehicle type and then you have the capacity in terms of number of seats and standing room. The planned capacity is essentially the sum of those two numbers and the “unsafe crush load” is the number of people you could fit if you really put your back into it.
Articulated buses refer to the longer (1.5x) bendy ones and, similarly, ALRV streetcars are the longer, articulated version of our regular streetcars. The low-floor streetcar is similar to what
CityLab published an article last week on multi-modal cities that caught my attention (because it used a picture of Toronto with about 3 or 4 streetcars stacked up along Queen Street). The premise of the article is that all of this car vs. transit debate is actually missing the bigger picture: our cities are multi-modal and we need to be planning for that.
That’s not to say that the shift away from cars isn’t a good thing. It is. But it’s not as simple as saying that, instead of driving, people should now only take transit. In today’s cities people walk, bike, take streetcars, take buses, take subways, take taxis, take private shuttles, use Uber, and, yes, they still drive.
From my own experience, this is absolutely how I get around Toronto today. I walk to the gym. I ride my bike whenever I’m going somewhere downtown. I take the subway to my office in midtown because it’s far and I would be too sweaty if I biked there. I use Uber and Hailo when I’m going out at night. And I drive when I need to go to the suburbs or leave the city.
But the key takeaway here is that we now have a much tougher challenge on our hands. When we were only optimizing for cars – however detrimental to our cities that was – we only had one mode to plan for. Now we have several. Some of which are public and some of which are private.
However we also have access to technologies that we didn’t have before. We are networked in ways that weren’t possible before and we’re at the dawn of many profound mobility changes, such as driverless cars. (Have you read about Tesla’s new Autopilot feature yet?)
So as I’ve said before, I really believe that we need to look at this, not as a war on the car, but as a war on inefficiency. The problem we are trying to solve relates to mobility: What’s the best way to move lots of people around dense urban regions? Stop focusing so much on the technologies and focus more on the people.
Last week The National Post published an article talking about Toronto's Crosstown LRT and how it’s spurring a wave of development all along Eglinton Avenue. Below is a map, taken from that article, showcasing some of the developments that are currently in the pipeline and awaiting the Crosstown’s opening date of 2020.
Not surprisingly, developers like transit investment. But more specifically, they like fixed track transit investment. Rarely do new bus routes elicit the same sort of response that you’re seeing above. And that’s because fixed track investment has permanence. If you’re going to go long on an area, you want certainty.
As the Crosstown tunnel boring machines move across midtown Toronto, I thought it would be interesting to look at a transit concept that I first learned about through Jarrett Walker’s Human Transit blog. It’s called: the radius of demand.
One of things that transportation planners look at when designing and building a new line is the spacing of stops. Typically, as you move from buses all the way up to subways, the spacing between stops and stations increases. Spacing is always a bit of a trade off though, because more stops means easier access for riders, but it also means slower overall service. Somewhat famously, Paris designed its metro system so that you’re rarely more than 500 meters away from a station.
I was cruising the twitter sphere yesterday when I came across the following chart, outlining the various transit vehicle capacities here in Toronto. It was created by Cameron MacLeod of #CodeRedTO, which is a grassroots group advocating for “a rational, affordable, and achievable rapid transit strategy for Toronto.”
On the left you have the vehicle type and then you have the capacity in terms of number of seats and standing room. The planned capacity is essentially the sum of those two numbers and the “unsafe crush load” is the number of people you could fit if you really put your back into it.
Articulated buses refer to the longer (1.5x) bendy ones and, similarly, ALRV streetcars are the longer, articulated version of our regular streetcars. The low-floor streetcar is similar to what
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Once you have your station locations, it’s quite common to then draw a radius around each stop to simulate the catchment area. In other words: How much of the city can I service with this station and how far will people be willing to walk in order to get there? However, this distance, which is the radius of the circle, usually depends on the type of transit. Oftentimes people are willing to walk further in order to get to faster transit service.
But what’s most interesting about this radius of demand is that it’s entirely dependent on the fabric of the city. Take for example, the following two maps from Seattle, which I have taken from Walker’s blog. On the left is a suburban setting and on the right is a downtown setting. In both cases, the red circle represents a 1 km radius.
Now, if humans could fly over barriers, such as highways, and every Seattle resident was willing to fly exactly 1 km to a transit station, these two radiuses of demand would be perfectly accurate. But since that’s not the case, we instead need to look at what actually represents a 1 km walk – those are the blue lines in each image.
Because once you do that, you realize that the cul-de-sacs and highways on the left make it impossible for most of that radius of demand to actually walk to the station in under 1 km. So the catchment area actually becomes much smaller. On the other hand, if you look at the image on the right, you’ll see that the tried and true city grid is actually remarkably efficient for walking. Almost all of the circle is serviced.
So as the Eglinton Crosstown LRT makes its way through the center of Toronto, I think it’s important to keep in mind that it’ll be cutting through quite a few different kinds of street grids. Some of them will be highly conducive to transit usage and others not as much. And in many ways, this is one of the greatest challenges of transit investment. The track itself is only one part of the puzzle.
That’s why the City of Toronto is also undertaking a planning exercise called Eglinton Connects. Its intent is to leverage the opportunities, as well as address the challenges, that will result from Metrolinx’s Crosstown LRT. If you’re interested in the future of Eglinton Avenue, you should consider getting involved. Oftentimes it’s only the critics that speak up. But that’s not the best way to build anything.
Toronto will be getting
. And SRT is the Scarborough Rapid Transit system.
The chart also compares between vehicle types: How many cars would you need to move the same number of people? How many buses? And so on. As one example, you would need 15.9 buses or 982 cars to move the same number of people as the Yonge subway line!
What’s missing from the above chart though is light rail transit (LRT), which is comparable to the linking of up to 3 low-floor streetcars. In the case of the under construction Eglinton Crosstown LRT line, the planned capacity is 750 people!
This is an hugely important takeaway because many people, including our own Mayor, do not properly distinguish between streetcar and light rail. The two are not one and the same. LRT has the potential to move a lot more people.
In fact, at 750 people, the Eglinton Crosstown could move more people than the Sheppard subway line, which is only operating on 4 cars (as compared to 6 on our other subway lines).
So while it’s all fine and dandy to bang our fists on the table and advocate for subways, they don’t make economic sense in all parts of our city. With the Sheppard line, we’ve been leaving capacity on the table and wasting taxpayer money.
Of course this chart is also useful for those outside of Toronto. What I like about it is that it clearly shows the tool chest available to cities when it comes to building transit. Every city and neighborhood is different. And I think it’s important to have intelligent conversations about what makes sense in each.
Once you have your station locations, it’s quite common to then draw a radius around each stop to simulate the catchment area. In other words: How much of the city can I service with this station and how far will people be willing to walk in order to get there? However, this distance, which is the radius of the circle, usually depends on the type of transit. Oftentimes people are willing to walk further in order to get to faster transit service.
But what’s most interesting about this radius of demand is that it’s entirely dependent on the fabric of the city. Take for example, the following two maps from Seattle, which I have taken from Walker’s blog. On the left is a suburban setting and on the right is a downtown setting. In both cases, the red circle represents a 1 km radius.
Now, if humans could fly over barriers, such as highways, and every Seattle resident was willing to fly exactly 1 km to a transit station, these two radiuses of demand would be perfectly accurate. But since that’s not the case, we instead need to look at what actually represents a 1 km walk – those are the blue lines in each image.
Because once you do that, you realize that the cul-de-sacs and highways on the left make it impossible for most of that radius of demand to actually walk to the station in under 1 km. So the catchment area actually becomes much smaller. On the other hand, if you look at the image on the right, you’ll see that the tried and true city grid is actually remarkably efficient for walking. Almost all of the circle is serviced.
So as the Eglinton Crosstown LRT makes its way through the center of Toronto, I think it’s important to keep in mind that it’ll be cutting through quite a few different kinds of street grids. Some of them will be highly conducive to transit usage and others not as much. And in many ways, this is one of the greatest challenges of transit investment. The track itself is only one part of the puzzle.
That’s why the City of Toronto is also undertaking a planning exercise called Eglinton Connects. Its intent is to leverage the opportunities, as well as address the challenges, that will result from Metrolinx’s Crosstown LRT. If you’re interested in the future of Eglinton Avenue, you should consider getting involved. Oftentimes it’s only the critics that speak up. But that’s not the best way to build anything.
Toronto will be getting
. And SRT is the Scarborough Rapid Transit system.
The chart also compares between vehicle types: How many cars would you need to move the same number of people? How many buses? And so on. As one example, you would need 15.9 buses or 982 cars to move the same number of people as the Yonge subway line!
What’s missing from the above chart though is light rail transit (LRT), which is comparable to the linking of up to 3 low-floor streetcars. In the case of the under construction Eglinton Crosstown LRT line, the planned capacity is 750 people!
This is an hugely important takeaway because many people, including our own Mayor, do not properly distinguish between streetcar and light rail. The two are not one and the same. LRT has the potential to move a lot more people.
In fact, at 750 people, the Eglinton Crosstown could move more people than the Sheppard subway line, which is only operating on 4 cars (as compared to 6 on our other subway lines).
So while it’s all fine and dandy to bang our fists on the table and advocate for subways, they don’t make economic sense in all parts of our city. With the Sheppard line, we’ve been leaving capacity on the table and wasting taxpayer money.
Of course this chart is also useful for those outside of Toronto. What I like about it is that it clearly shows the tool chest available to cities when it comes to building transit. Every city and neighborhood is different. And I think it’s important to have intelligent conversations about what makes sense in each.
