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No, I'm not referring to the airplanes themselves, I'm referring to the abilities of the airlines to estimate weights of passengers by season and such. They might just be trying to build better prediction models.
What I’m saying is that the loading records for the individual flights averaged and aggregated by flight number (or plane type or route or date…) gives sufficient data to do that. It’s something I do for a living - not plane loading, but statistical data analysis over far larger and much more complex data sets.
Not only can’t I imagine individual passenger data bringing any additional insights to the table, I can’t imagine any scenario where any imaginary advantage would pay for the cost of the additional data collection and analysis. I currently run a team of data scientists for a very large corporation, and that kind of thing is not free. I can’t see this costing the airline less than multiple hundreds of thousands of dollars between collection, analysis, and actioning the data.
Maybe there’s something I’m missing - like I said, I’m making an assumption about how they measure loading now - but this is something I do for a living and I’m just not seeing it.
If anything, I can only see it being more noisy and require harsher methods to get a proper descriptive characterization.
Fair enough. I was just speculating about possible reasons, but based on what you've said that's not not one of them.
So I don't do statistical analysis, but I do planes for a living. Here are a few things that you may have not considered.
People are getting fatter, this might be a model update.
We used bags to balance the plane. Depending on the plane there can be anywhere from 2 to 30ish places to put bags underneath.
Belly freight. Passenger planes move a lot of the air freight. This makes more money for the airline than most passengers.
There is a pretty big margin of safety on weight and balance for what can fly. The better it is the less you have to trim in flight. Saving fuel cost, add in the extra money for the extra freight.
Lastly being able to load in a way that helps unload gives you a faster turn time.
Mostly though big airlines are multi billion dollars business. A few hundred thousand is worth it to save a thousand dollars of fuel on every flight. Especially when you have a few hundred flights a day.
Hope that helps your thought process.
I absolutely do understand that, but thank you for the detailed explanation.
What I’m saying is this. I’m assuming (based on having flights make adjustments to seating at the gates and just thinking about how I’d design it if I were engineering an airplane) that each wheel/strut measures the weight placed on it while on the ground. This, to some level of accuracy (think back to sig figs from physics 101) gives you the average loading for a flight. You already have the loading for checked baggage (which are already weighed independently as the bags are checked), and I assume something similar is done with any additional cargo. So the total passenger weight (people plus carryons) would be total loading - checked bags - cargo. The passenger/carryon component is automatically an average over that particular flight, since it’s the total weight that you could then divide by the number of passengers. You get that metric for free, since the sensors and data collection is already in place to ensure flight safety and (I assume) required by federal regulations or something.
So you can say that Flight XY3094 that flies from Dallas to NYC at 9AM averages (I’m just making up a number here) 30k lbs of passenger weight. Because you already have the data, you can break that down to seasonal metrics (more weight in Dec and Jan, less in Jun and July eg), compare between flights on the same route but different days of the week or times of day, and so on. You can look at the variability for the data as a whole or within each collection (eg +/- 3000 lbs for winter flights). These are just the most simple examples I can come up with, but hopefully you get the idea. I could have a data scientist write this in such a way that it is constantly updating the stats daily, and be able to perform time series analysis to see whether they’re increasing as a trend over time, or whether the deviations are increasing. I could tie in the data with ad campaigns, to see if those act as a driver that give us a predictive model we could use to offset ad expenses and increased fuel costs versus ticket sales, and so on.
The only additional resolution you’d get from weighing individual passengers/carryon is per passenger variability data, which would not be useful unless they’re looking to build a model where they adjust ticket price by weight of the individual passengers. Remember, they already have the aggregate data. To get the aggregate data from the individual passenger data, they’d have to add them all together then divide by the number of passengers and so on. You could look at stats like the skew in the data (“What percentage of our passenger weight comes from really heavy passengers?”) but again, I don’t see that being useful unless they’re intending to redo their ticket pricing model.
Again, it’s not free. There are costs for collection (purchase and distribution and maintenance of equipment), personnel (“Sir, please stand on this platform. No, like this.” Etc), data collection (physical network and software to collect and transfer the data), analysis (including defining the metrics and writing the software to execute on it and make reports), and actioning the data (business types figuring out what to do with it). That’s easily several million dollars, now that I’m thinking about it step by step.
They have to have justified this - they’re expecting it to pay for itself. I just can’t think of anything unless, despite their denials, this is going to be used to create a legal argument to charge heavy passengers more money.
No you are you are totally right you could analyze each flight that way and they do to a certain extent. All commercial aircraft do have a switch called the Weigh On Wheel sensor, which detects when the gear is loaded. I don't know the sensitivity of them though. I do know that some planes the WOW is just a on/off switch. Some do use load sensors. I would expect them to have a pretty low resolution. So to do that they would need load cells that are both sensitive and extremely high weight. Plus you can't just swap parts on a plane. Every part is certified and has all the government red tape. Additionally you can't really feel it in the passenger cabin but planes move around a lot during loading and in loading. Getting a good data point may be difficult at best. If it is windy forget about it.
Also you would still need to seat people in the class they paid for. So say all the big people are in first. I don't know I am speculating a bit at this point.
Fundamentally you are correct. I just don't think that it would be as easy/possible to implement fleet wide. Part of what makes flying safe is the technology of commercial planes is always a generation or two old. So you always have to ask yourself if this could happen ~20 years ago.
Having said all that, discount airlines would love to charge by the pound of flesh. I bet the only reason they don't is optics.
That makes a lot of sense. I worked with space systems for a while, and so I’m very conscious of technological conservatism and its critical role in aviation and space systems. Absolutely no pushback there.
I did not anticipate a binary/on-off system for weight detection. Even in legacy systems, that seems less than ideal, but I’ve been around enough that it shouldn’t surprise me. For that, though, I can see the need for more accurate readings and will concede that it might be cheaper to weigh every passenger than to upgrade a fleet given the certifications etc.
I do harbor a suspicion that things like wind loading, given enough readings and the additional meteorological data, could be corrected for more cheaply than deploying a passenger weighing system just based on what I know about data corrections, but I do have to admit that I was not taking that effect into account in my initial thinking. This was exactly the kind of pragmatic insight I was hoping to get, so thank you! Basically, the approach I would start with would be the same flight number/aircraft model with the airport wind speed or other weather data and see how it affects variability against a null model where you assume no effect. But when you combine that with janky or binary sensors (and I’ve only been to Finland when the weather was actually quite nice so I can’t speak to the variability in their data), and then I can see why this approach might be quite pragmatic.
Thank you! I learned something today.
It is my pleasure this is what I like about lemmy, every so often you get to learn something new. I love finding out something I didn't know before.
I find that very interesting that you think that wind loading could be correct for. I would have that though that would have been impossible. It is interesting to know how things advance.
Keep reading if you want to know more about WOW switchers. Avionics/flight system is not my area but I do know a little about it. The WOW switch is used of course to tell the aircraft it is on the ground. This is used by both the flight computer and the transponder.
The transportation uses the WOW and speed to switch between in-flight or on the ground. Something that ATC uses to help with aid in approach/departure clearances especially if they can't see the runways in the tower.
It is used by the flight computer in a lot of different ways the main one is for CAT III landing where the auto pilot takes the plane all the way down to landing and rollout. Deploying things like auto brakes, speed brakes, thrust reversers, etc. It can also enable/disable some systems so the pilots can't accidentally hit a button at the wrong time.
One of the defining features of the WOW system is that it needs to have a positive signal for 2ish seconds in case of bounce on landing. As you could imagine very bad things could happen if the aircraft thinks it is somewhere it isn't.
Happy exploring.
In that use case, it makes perfect sense for a binary switch to say I am (not) on the ground. It doesn’t necessarily address the situations in which flight attendants will make manual adjustments to passenger seating assignments in smaller planes while at the gate (which I assume would still involve actual numerical values to some actionable degree of accuracy), but I’ve worked with enough engineered systems to know the design limitations that went into them versus what we wish they would do. That still happens in shipping smartphones. I remember working on a study design from 10 years ago where we could tell the survey team pulled over to the shoulder of the road based on their gps signal but only because they were in the middle of nowhere with a clear line of sight to multiple satellites.