Well, the automotive industry has been working on making self driving a thing, and I recall when they first tried to tackle the problem of lane keeping.
The first proposal was to embed magnets or similar into the road surface that the car could have a set of sensors for to determine if it was drifting left or right in its lane.
Motherfucker, that’s just a virtual track for your dumb four-wheeled mini-train.
It didn’t catch on, but AFAIK it was implemented in small areas as a trial and it performed adequately given the technology of the time.
So I’m out here going, why the fuck are we pretending that vehicles are not just rail-free personal trains?
The first proposal was to embed magnets or similar into the road surface that the car could have a set of sensors for to determine if it was drifting left or right in its lane.
That’s a thing for forklifts since what, a century? Even better, they use a wire with a set frequency instead of magnets, it’s called wire guidance system.
That’s the end game for self-driving cars. They can drive close enough together to draft, efficiency goes way up. If a problem happens ahead, they communicate back so that pileups don’t happen.
I am looking for intersections with two catepillars of drafting vehicles that slightly intersperse to cross each other at right angles by microtiming the gaps to avoid collisions by microseconds.
IMO, the big strength with self driving cars, if we ever get there is that level of car to car communication. The vehicle will be able to communicate ahead and see the best possible route, and where there’s congestion etc, then optimize the drive to avoid unnecessary delays.
A big problem with human drivers is the tenancy for ghost traffic jams to occur. There was a test they did with about 10-20 drivers of all varieties put into cars and told to drive a circle track, following eachother. No other instructions were given. All they need to do was keep distance in front of them and everything would be fine, what was observed was that some drivers went more quickly than others, and would brake to a near stop when they came close to the person in front. In doing so, everyone ended up basically in stop and go conditions.
IMO, that test exemplifies the problem with human drivers. Put enough of them on the same road and given enough drivers and enough time, traffic/congestion will create slowdowns that otherwise shouldn’t exist.
Taking people out of the equation means that all of the cars can accelerate at the same time and travel in tight packs, so merges are effortless because the entire system is working together to ensure that merging vehicles are able to merge (allowing sufficient space for them to merge), and perhaps more importantly, the merging cars will match pace with the flows of traffic already traveling on the road. Those are the two main tenants of a zipper merge. Find space to merge into, and match pace with the vehicles in the lane you are merging into. Seems that a lot of people forget that last bit.
I read a study once that covered the stop and go traffic wave effect. Apparently all you have to do to stop the wave propagation as have a couple of drivers with a two - three car buffer. The first person to not have to come to a stop in the wave has the power to more or less reset and stop the wave.
You don’t, some will get ahead of you but not everybody does that, and the same assholes that are swerving to get ahead of you are the ones that cause the propagation of the wave. You’re slowing down a little bit and accepting some leakage makes it that much better for the whole crowd
Self driving taxis aren’t an awful solution for last-mile transport. Trains can’t take you door to door, and walking isn’t always a good option (people with mobility issues, inclement weather, etc).
Key word being “taxis”. They don’t need to be in every individual’s garage.
Well, the automotive industry has been working on making self driving a thing, and I recall when they first tried to tackle the problem of lane keeping.
The first proposal was to embed magnets or similar into the road surface that the car could have a set of sensors for to determine if it was drifting left or right in its lane.
Motherfucker, that’s just a virtual track for your dumb four-wheeled mini-train.
It didn’t catch on, but AFAIK it was implemented in small areas as a trial and it performed adequately given the technology of the time.
So I’m out here going, why the fuck are we pretending that vehicles are not just rail-free personal trains?
That’s a thing for forklifts since what, a century? Even better, they use a wire with a set frequency instead of magnets, it’s called wire guidance system.
TIL. Thanks for that. I wonder what frequency they use…
That’s the end game for self-driving cars. They can drive close enough together to draft, efficiency goes way up. If a problem happens ahead, they communicate back so that pileups don’t happen.
I am looking for intersections with two catepillars of drafting vehicles that slightly intersperse to cross each other at right angles by microtiming the gaps to avoid collisions by microseconds.
https://www.youtube.com/watch?v=GhA917NnnCg
IMO, the big strength with self driving cars, if we ever get there is that level of car to car communication. The vehicle will be able to communicate ahead and see the best possible route, and where there’s congestion etc, then optimize the drive to avoid unnecessary delays.
A big problem with human drivers is the tenancy for ghost traffic jams to occur. There was a test they did with about 10-20 drivers of all varieties put into cars and told to drive a circle track, following eachother. No other instructions were given. All they need to do was keep distance in front of them and everything would be fine, what was observed was that some drivers went more quickly than others, and would brake to a near stop when they came close to the person in front. In doing so, everyone ended up basically in stop and go conditions.
IMO, that test exemplifies the problem with human drivers. Put enough of them on the same road and given enough drivers and enough time, traffic/congestion will create slowdowns that otherwise shouldn’t exist.
Taking people out of the equation means that all of the cars can accelerate at the same time and travel in tight packs, so merges are effortless because the entire system is working together to ensure that merging vehicles are able to merge (allowing sufficient space for them to merge), and perhaps more importantly, the merging cars will match pace with the flows of traffic already traveling on the road. Those are the two main tenants of a zipper merge. Find space to merge into, and match pace with the vehicles in the lane you are merging into. Seems that a lot of people forget that last bit.
So rush hour nonsense will at least be reduced.
I read a study once that covered the stop and go traffic wave effect. Apparently all you have to do to stop the wave propagation as have a couple of drivers with a two - three car buffer. The first person to not have to come to a stop in the wave has the power to more or less reset and stop the wave.
Yep. I do this all the time on highways. I’ve seen dark red traffic lines on Google Maps as I’ve driven over them turn green.
Patience and the efforts of a single person in a wavefront can make an enormous difference, like a rock sticking up from a pond.
How do you prevent people from squeezing into your buffer?
You don’t, some will get ahead of you but not everybody does that, and the same assholes that are swerving to get ahead of you are the ones that cause the propagation of the wave. You’re slowing down a little bit and accepting some leakage makes it that much better for the whole crowd
Self driving taxis aren’t an awful solution for last-mile transport. Trains can’t take you door to door, and walking isn’t always a good option (people with mobility issues, inclement weather, etc).
Key word being “taxis”. They don’t need to be in every individual’s garage.