Let's add some historical context to yesterday's post about autonomous vehicles. As the regular non-autonomous version of cars started to infiltrate our cities in the early 20th century, largely following the creation of the mass-produced Ford Model T, there was a general view that cars were dangerous and a menace to cities. Arguably, not much has changed.
So in the 1930s, the Federal Housing Authority decided to publish a pamphlet explaining what street networks it thought were suitable for this new emerging car world and which street networks were not. The exact terms that they used were "bad" and "good", and here's what that looked like (taken from this CNU article):
The "bad" ones are largely how the US liked to design its cities before the arrival of the car. Some historic settlements, like Boston and Manhattan south of 14th street were based on different street logics, but as far back as the 1680s, William Penn had already started laying out a grid iron plan for Philadelphia. And in reality, this kind of street pattern goes all the way back to ancient cities.
However, when the car arrived, these grid iron plans were thought to offer an inadequate amount of separation between people and machine. The solution was to optimize around the car and introduce a clear hierarchy of different streets. Big streets for moving cars quickly, and smaller streets, like cul-de-sacs, for people to live on.
These "good" examples, of course, represent the modern suburb. But we now recognize that these types of street networks are unequivocally terrible for walkability, the environment, public health, social equity, and a whole host of other things. I mean, look at this extreme example of two suburban homes in Orlando whose backyards adjoin but are technically separated by 7 miles and a 20-minute drive!
My point with all of this is that, for many/most at the time, this was progress. Cars were the future and there was optimism about the kind of freedoms and other benefits that they would bring to people. And this optimism is perhaps not all that different from what many people feel today, myself included, when it comes to autonomous vehicles.
So on the one hand, you could point to the car and say, "look at all the damage that this thing did to our cities. Let's not do that again. Autonomous vehicles must be stopped." But that's akin to wishing the car was never invented. Another option is to point to the negative externalities associated with the car and say, "look at what we've done. We can do better. Let's make our cities better."
Positive change, no matter how late, is always a possibility.
https://youtu.be/TjouGyWXVM0
You can tell a lot about a place by the quality of its public toilets. I don't know about you, but if I'm at a restaurant and the toilets are filthy, I automatically assume that the kitchen is at least as filthy.
And so what does it say about Japan that it decided to hire the country's leading architects to design 17 new public toilets in Tokyo?
I first wrote about "The Tokyo Toilet" back in the summer of 2021. But now that the majority of them have been constructed, I figured it was time to revisit the project.
The two toilets designed by Shigeru Ban are particularly noteworthy in that they are clear glass boxes that become automatically opaque when in use. This was done so you can see if there's anyone lurking inside.
I also love this one by Kazoo Sato.
But of course, all of them are remarkable and all of them are probably better than the general level of public architecture that you'll find in most other cities.
I just learned about the TomTom Traffic Index today. It covers 404 cities across 58 countries, and uses anonymized traffic data from more than 600 million drivers (people who use TomTom's tech) to come up with a list of the cities with the worst traffic congestion.
Here's the global top 10 (for 2021):
Let's add some historical context to yesterday's post about autonomous vehicles. As the regular non-autonomous version of cars started to infiltrate our cities in the early 20th century, largely following the creation of the mass-produced Ford Model T, there was a general view that cars were dangerous and a menace to cities. Arguably, not much has changed.
So in the 1930s, the Federal Housing Authority decided to publish a pamphlet explaining what street networks it thought were suitable for this new emerging car world and which street networks were not. The exact terms that they used were "bad" and "good", and here's what that looked like (taken from this CNU article):
The "bad" ones are largely how the US liked to design its cities before the arrival of the car. Some historic settlements, like Boston and Manhattan south of 14th street were based on different street logics, but as far back as the 1680s, William Penn had already started laying out a grid iron plan for Philadelphia. And in reality, this kind of street pattern goes all the way back to ancient cities.
However, when the car arrived, these grid iron plans were thought to offer an inadequate amount of separation between people and machine. The solution was to optimize around the car and introduce a clear hierarchy of different streets. Big streets for moving cars quickly, and smaller streets, like cul-de-sacs, for people to live on.
These "good" examples, of course, represent the modern suburb. But we now recognize that these types of street networks are unequivocally terrible for walkability, the environment, public health, social equity, and a whole host of other things. I mean, look at this extreme example of two suburban homes in Orlando whose backyards adjoin but are technically separated by 7 miles and a 20-minute drive!
My point with all of this is that, for many/most at the time, this was progress. Cars were the future and there was optimism about the kind of freedoms and other benefits that they would bring to people. And this optimism is perhaps not all that different from what many people feel today, myself included, when it comes to autonomous vehicles.
So on the one hand, you could point to the car and say, "look at all the damage that this thing did to our cities. Let's not do that again. Autonomous vehicles must be stopped." But that's akin to wishing the car was never invented. Another option is to point to the negative externalities associated with the car and say, "look at what we've done. We can do better. Let's make our cities better."
Positive change, no matter how late, is always a possibility.
https://youtu.be/TjouGyWXVM0
You can tell a lot about a place by the quality of its public toilets. I don't know about you, but if I'm at a restaurant and the toilets are filthy, I automatically assume that the kitchen is at least as filthy.
And so what does it say about Japan that it decided to hire the country's leading architects to design 17 new public toilets in Tokyo?
I first wrote about "The Tokyo Toilet" back in the summer of 2021. But now that the majority of them have been constructed, I figured it was time to revisit the project.
The two toilets designed by Shigeru Ban are particularly noteworthy in that they are clear glass boxes that become automatically opaque when in use. This was done so you can see if there's anyone lurking inside.
I also love this one by Kazoo Sato.
But of course, all of them are remarkable and all of them are probably better than the general level of public architecture that you'll find in most other cities.
I just learned about the TomTom Traffic Index today. It covers 404 cities across 58 countries, and uses anonymized traffic data from more than 600 million drivers (people who use TomTom's tech) to come up with a list of the cities with the worst traffic congestion.
Here's the global top 10 (for 2021):
And here's the North American top 10 (also for 2021):
The way to interpret these congestion level percentages is to think of them as additional time over and above baseline free-flowing traffic times. For example, a 62% congestion level for Istanbul, means that a trip that would take 30 minutes without any traffic congestion, will instead take, on average, 18.6 minutes longer (0.62 x 30 minutes).
We all like to complain about traffic in our home city, but these percentages certainly help to put things into a global perspective.
And here's the North American top 10 (also for 2021):
The way to interpret these congestion level percentages is to think of them as additional time over and above baseline free-flowing traffic times. For example, a 62% congestion level for Istanbul, means that a trip that would take 30 minutes without any traffic congestion, will instead take, on average, 18.6 minutes longer (0.62 x 30 minutes).
We all like to complain about traffic in our home city, but these percentages certainly help to put things into a global perspective.
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