I was at a family lunch this week and we got on to the topic of VR/AR headsets. Some of my relatives have the Meta Quest, but nobody has the Apple Vision Pro and nobody has even tried it. However, the comment was that the Meta one is already pretty convincing, so the Vision Pro must be that much more amazing. Like I do on this blog, I encouraged everyone to go and book a demo.
What is obvious, of course, is that Vision Pro is far from a mainstream product. Few people are buying it. It's too expensive. And I think most people can't imagine a world where it becomes part of their daily life. But as we were all talking, I was reminded that I'm dangerously close.
Here are 3 use cases that I'm already excited about:
Watching movies and doing work on airplanes. I love traveling. But sitting on a plane sucks. If I could watch immersive movies and bury myself in work, I think I might actually enjoy having my femur crushed by the seat in front of me. It would be an environment free of any distractions. Already I have found reliable in-flight wifi to be a game changer for productivity.
Experiencing live sports from seats I wouldn't pay for in real life. To be fair, I don't generally watch a lot of sports unless a Toronto team is in the playoffs. But selling an unlimited number of courtside seats (or their equivalent) to people via Vision Pro seems like an obvious use case. I would pay for this after experiencing Lebron dunk in my face in the demo, especially if it works with groups of people. And if it doesn't already exist, I'm sure there will be a way to stream live content.
Walking through the BIM model of a yet-to-be-constructed building. The construction industry needs this. I need this. I walk all of our sites at least once a week. But imagine if it were possible to do this before construction actually starts and costly mistakes are found on site. That's always been the promise of BIM, but alas, it hasn't solved the problem of poorly coordinated drawings and too many site changes.
The list of great use cases is endless. These are just 3 that immediately came to mind and that wouldn't require the technology to be significantly better to spur greater adoption. In fact, the technology is already there and convincing enough. I also don't think the above requires the hardware to be as small, or as fashionable, as a pair of sunglasses. It just needs to be cheaper, a bit more portable, and have a few incremental features.
At that point, I'll be ready to buy. What about you?
Cover photo by Bram Van Oost on Unsplash
Canada is a metric country. We started adopting the metric system in 1970 and in 1971 we got the Weights and Measures Act. But even though we are officially a metric country, it is still common to use the imperial system in everyday life. For example, my driver's license says 190 cm, but I would never tell someone this, unless I were in Europe. I would use feet and inches.
The other area where it is common to use the imperial system is in construction and real estate. Officially, all drawings submitted to a municipality need to be in metric. Typically millimeters are used, meaning a common residential floor-to-floor height in Toronto works out to something like 2950 or 3000 if you want 9 feet clear to the underside of each slab.
As you can see, in design and construction it is very common to switch back and forth between millimeters and feet/inches. Marketing floor plans are typically always in square feet as well. A lot of this, I'm sure, has to do with our historical ties to the UK and our deep integration with the US market.
But the reality is that switching back and forth is inefficient, and imperial weights and measures feel like a random and outdated system. Nate Bargatze does a hilarious job of highlighting that in this SNL skit called Washington's Dream. So I don't know about you, but I'm ready to go full metric. I wonder what it will take for the US to finally get on board with the rest of the world.
(Thanks to my business partner Lucas for sharing the above skit with me. I'm a big Nate Bargatze fan.)
Cover photo by patricia serna on
We've spoken before about One Delisle's fun slab edges. No two floors are the same. The tower is constantly changing as it transforms from a square at its base to a hexadecagon at its top (16-sided shape). But one part of each floor that does repeat is the core (the center of each floor plate that houses the elevators and other essential stuff). And so for this, the site team is now using something known as an automatic climbing system to "jump" the concrete forms between the floors. More specifically, we are using a Doka Super Climber SCP.
Here's what that looks like inside the core of the building right now:
At a high level, the way it works is pretty simple. The system has two levels of brackets that can anchor to the concrete core of the building, below the floor that is currently being poured. The concrete forms are then raised using hydraulics. And once that has happened, the lower brackets "climb" up the building and get reattached at a higher point. If this isn't clear in your mind, imagine Spiderman climbing up a tall shaft. His arms would represent the upper brackets and his legs would represent the lower brackets. Maybe this isn't helpful.
In any event, the point of this system is that it makes construction go faster. So now that the ACS is up and running, the team is looking to bring down our cycle time per floor. Hopefully you'll notice that the next time you go by One Delisle.
I was at a family lunch this week and we got on to the topic of VR/AR headsets. Some of my relatives have the Meta Quest, but nobody has the Apple Vision Pro and nobody has even tried it. However, the comment was that the Meta one is already pretty convincing, so the Vision Pro must be that much more amazing. Like I do on this blog, I encouraged everyone to go and book a demo.
What is obvious, of course, is that Vision Pro is far from a mainstream product. Few people are buying it. It's too expensive. And I think most people can't imagine a world where it becomes part of their daily life. But as we were all talking, I was reminded that I'm dangerously close.
Here are 3 use cases that I'm already excited about:
Watching movies and doing work on airplanes. I love traveling. But sitting on a plane sucks. If I could watch immersive movies and bury myself in work, I think I might actually enjoy having my femur crushed by the seat in front of me. It would be an environment free of any distractions. Already I have found reliable in-flight wifi to be a game changer for productivity.
Experiencing live sports from seats I wouldn't pay for in real life. To be fair, I don't generally watch a lot of sports unless a Toronto team is in the playoffs. But selling an unlimited number of courtside seats (or their equivalent) to people via Vision Pro seems like an obvious use case. I would pay for this after experiencing Lebron dunk in my face in the demo, especially if it works with groups of people. And if it doesn't already exist, I'm sure there will be a way to stream live content.
Walking through the BIM model of a yet-to-be-constructed building. The construction industry needs this. I need this. I walk all of our sites at least once a week. But imagine if it were possible to do this before construction actually starts and costly mistakes are found on site. That's always been the promise of BIM, but alas, it hasn't solved the problem of poorly coordinated drawings and too many site changes.
The list of great use cases is endless. These are just 3 that immediately came to mind and that wouldn't require the technology to be significantly better to spur greater adoption. In fact, the technology is already there and convincing enough. I also don't think the above requires the hardware to be as small, or as fashionable, as a pair of sunglasses. It just needs to be cheaper, a bit more portable, and have a few incremental features.
At that point, I'll be ready to buy. What about you?
Cover photo by Bram Van Oost on Unsplash
Canada is a metric country. We started adopting the metric system in 1970 and in 1971 we got the Weights and Measures Act. But even though we are officially a metric country, it is still common to use the imperial system in everyday life. For example, my driver's license says 190 cm, but I would never tell someone this, unless I were in Europe. I would use feet and inches.
The other area where it is common to use the imperial system is in construction and real estate. Officially, all drawings submitted to a municipality need to be in metric. Typically millimeters are used, meaning a common residential floor-to-floor height in Toronto works out to something like 2950 or 3000 if you want 9 feet clear to the underside of each slab.
As you can see, in design and construction it is very common to switch back and forth between millimeters and feet/inches. Marketing floor plans are typically always in square feet as well. A lot of this, I'm sure, has to do with our historical ties to the UK and our deep integration with the US market.
But the reality is that switching back and forth is inefficient, and imperial weights and measures feel like a random and outdated system. Nate Bargatze does a hilarious job of highlighting that in this SNL skit called Washington's Dream. So I don't know about you, but I'm ready to go full metric. I wonder what it will take for the US to finally get on board with the rest of the world.
(Thanks to my business partner Lucas for sharing the above skit with me. I'm a big Nate Bargatze fan.)
Cover photo by patricia serna on
We've spoken before about One Delisle's fun slab edges. No two floors are the same. The tower is constantly changing as it transforms from a square at its base to a hexadecagon at its top (16-sided shape). But one part of each floor that does repeat is the core (the center of each floor plate that houses the elevators and other essential stuff). And so for this, the site team is now using something known as an automatic climbing system to "jump" the concrete forms between the floors. More specifically, we are using a Doka Super Climber SCP.
Here's what that looks like inside the core of the building right now:
At a high level, the way it works is pretty simple. The system has two levels of brackets that can anchor to the concrete core of the building, below the floor that is currently being poured. The concrete forms are then raised using hydraulics. And once that has happened, the lower brackets "climb" up the building and get reattached at a higher point. If this isn't clear in your mind, imagine Spiderman climbing up a tall shaft. His arms would represent the upper brackets and his legs would represent the lower brackets. Maybe this isn't helpful.
In any event, the point of this system is that it makes construction go faster. So now that the ACS is up and running, the team is looking to bring down our cycle time per floor. Hopefully you'll notice that the next time you go by One Delisle.
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