"Real-time graphics" is typically used in gaming to differentiate between pre-rendered content and content that is rendered on the fly. It's not related to a 1-1 time scale of the content it's displaying. So, my assumption here is that they mean it's actually being rendered as you are using it and at an acceptable framerate, as opposed to the need for it to be simulated, rendered, and played back as a video.
Yep, went to CC, transferred to a school a great computer engineering program and saved a ton of money. My mental health got the best of me in high school and I almost definitely couldn't have gotten accepted anywhere if I hadn't gone the community route, so I am super happy it worked out the way it did.
I didn’t even apply to my community college until a few weeks before the first semester. Not sure if I would have went if I had to take a gap year. Probably would be slinging metal in the union right now but sometimes that sounds nicer.
I would presume this is like capturing rainbows or beautiful skies by photo. Harder than it seems. You can’t capture the dampening effect of the environment by (regular?) microphone.
74gear[1] on YouTube is a 747 Captain. It's a great aviation channel in general if anyone is interested in that stuff. He had mentioned two things that really illustrated to me your point a while back:
A) Stuff breaks on planes. All the time. They are complex machines, but they typically have so many redundancies that unless there is a completely catastrophic failure, they are still perfectly safe to fly. An example: a starter is out in one of the engines, but there are four starters for an engine. Once the issue is known, if they can't fix it where they are currently at, they will do an empty flight (well, crew only) to the next maintenance hub and get it fixed. Before a plane even gets off the ground they have a checklist and do their best to determine if the plane is airworthy and safe to fly or not. If they feel the plane is unsafe, they can refuse to fly it. It is important to them to make sure the plane is safe to fly because:
B) They also don't want to die.
That last bit really hit hard for me for some reason, it's hilarious but at the same time eye opening. I think that I just never really thought of it in that way before. Maybe it's just me.
> They are complex machines, but they typically have so many redundancies
But Boeing reduced redundancies, presumably to cut costs. The 737 MAX planes that crashed only had one AoA sensor. Where else did they cut costs? Where else did they reduce redundancies? The public trust has been lost. Boeing needs to design a new plane from scratch, this time let engineers design the plane without interference from accountants.
The 737 MAX, like all 737s, always had two AoA sensors. The problem was that Boeing engineers wrote software for the 737 MAX which could make critical flight control inputs based on the data from one sensor only. And didn't really tell pilots about it.
The fix, amongst other mitigations, was to have the MCAS software cross-check inputs from both AoA sensors.
The airplane could have a dozen AoA sensors, but if the software is ignoring 11 of them then there is only one actual AoA sensor for purpose of discussion. Even if the sensors are used for other aspects, such as pilot instrumentation.
And yes, I understand perfectly well that this invalidates the idea that the second sensor was "eliminated" to save cost - but if I remember correctly there was a paid option to have the MCAS consider both sensors. So there was a financial aspect to the decision. Someone please correct me if I'm wrong.
Close! AoA disagree hazard light was an optional feature. In the original implementation, the Flight computer in command, either the one on the pilot's side, or the one on the copilot's side (alternated on power up), were fed input from only the AoA sensor they shared a physical link with.
The optional feature was essentially networking the two ststems such that the data would be fed to the FCIC for warning light activation, so that pilot's could start running the right checklists.
Can't do that: the pilot can't be allowed to control, or even know about MCAS, because that would affect Boeing's ability to claim the plane is "just another" 737 and that the pilots don't need retraining. Giving the pilot the ability to control MCAS means the pilots all need retraining.
That's certainly the regulatory logic, but I feel like the entire idea of hiding critical systems from the pilots may have been a bad idea from the beginning. Regulators should never have even entertained the idea of using active compensation systems to maintain the type class.
They already received training on MCAS once they got 737 MAXes, albeit a short superficial one (1 hour of lecture&1 hour of simulator training iirc). Hence "cannot be allowed to know" does not apply anymore.
Yeah, and that's wrong. It should apply. Pilots should not be allowed to know, because that means this is a different plane than the one they were rated for. And so, since the plane can't be flown safely without proper training, the planes should not get the same type rating as the old 737, and either 1) they should just be demolished, or 2) they should be considered an entirely different plane, with all the training requirements that entails. The regulators completely failed here, and by allowing this are showing they're corrupt.
This is VERY bad engineering practice, you throw away knowns for unknowns. A blue sky design isn't a fix. Especially if your corporate culture has the wrong leadership. First year engineers take engineering economics for a reason. Money is always an object.
Is there never a case where it is cheaper + better to start over? I think sometimes there is. The design of 737 MAX was flawed from the get-go. They made the engines bigger because bigger engines run hotter and burn less fuel. Ordinarily this would require the fuselage to be raised as well, so that the bigger engine can fit under the wing. Instead they changed the position of the engine. Instead of being hung under the wing, as in earlier models, the engines have been moved forward and upward, potentially leading to an aerodynamic stall under certain circumstances. Instead of going back to the drawing board and getting the airframe hardware right, Boeing relied on something called the ‘Maneuvering Characteristics Augmentation System,’ or MCAS. [1]
It's just poor design. If software fails, then any plane should be designed to have a neutral center of gravity in order to give the crew the greatest amount of time to recover from the loss.
It’s almost impossible for a completely fresh design to be safer on day one. There’s so many different ways to fuck up many of them are counterintuitive because nobody ever considers if someone could install this backwards until someone does. 20+ years of debugging written with people’s lives tests just about everything in a way engineers never really think about
The flaw was fixed with MCAS. The problem that caused the two crashes was that pilots weren't trained on the new system because Boeing wanted to act like it was the same plane. The pilots didn't know what was going on or how to disable MCAS when it started misbehaving because of bad sensor.
With training, improved systems, and redundant sensors, MCAS should be safe. There are other planes that have similar systems. And there procedures for disabling bad sensors or misbehaving sensors.
I'm not sure if MCAS is necessary, there is some indication it is only there to mimic older 737 and plane would be safe without it and with training.
You can definitely treat it as a design flaw and fix it without impacting most systems.
Designers need to make radical changes before cockpit windows would need to be updated. That specific example may not seem like much but there’s a lot of safety critical engineering that goes into such things and yet design flaws where still uncovered.
Sure you can bring over the "good parts" of the old plane, but if this design flaw is fixed then it is essentially a new plane. They will no longer be able to pretend it is the same as the old 737s (and that's what got them into trouble).
When you say “parts” it’s really complex systems. The 737 family of aircraft has gone through many revisions over 50+ years at this point.
The original 737-100 was 61,994 lbs empty and the 737-900ER was more than 50% heavier at 98,495 before they started calling them MAX. The 900ER was in many ways a radically different aircraft but got there through a long list of incremental changes leveraging the past.
That’s not to say new designs can’t be quite safe. The much newer A320 family are some of the safest aircraft flying with only 38 hull losses and 1505 fatalities, but do not mistake good design for inevitability.
All-new aircraft designs are only certified to fly after many years of rigorous analysis and testing. It was Boeing's desire to avoid the full expensive certification process, by claiming that the MAX was just a minor update to an existing design, which led to two catastrophic crashes in the space of a few months.
On the other hand, no 787 or A380 has ever had a crash or incident that resulted in a passenger fatality or hull loss. This LATAM flight is probably the most serious incident that has ever happened on a 787 in almost 10 years of service, with over 1100 aircraft active.
> On the other hand, no 787 or A380 has ever had a crash or incident that resulted in a passenger fatality or hull loss.
There have been nearly 10x as many 737s built as 787s and A380s combined. Given the date of first flight (1967 vs. 2009 and 2203, respectively) it is safe to say they have been flown for significantly more than 10x the total flight hours. Probably at least 20x but I’m pulling that number out of thin air.
The data is certainly promising but it’s probably a little too soon to be too confident in relative safety comparisons. For one, we don’t have nearly as much data on those newer airframes as they age.
There are two recent accidents that show how much new airplane designs (and better safety measures) have improved survivability of accidents: Emirates Flight 521 (https://en.wikipedia.org/wiki/Emirates_Flight_521), a Boeing 777 that crashed in Dubai in 2016, where all 300 people on board survived (although un unfortunate firefighter lost his life); and the A350 that collided with another airplane while landing at Tokio Haneda airport in January this year - if you look at the burnt out airplane (https://en.wikipedia.org/wiki/2024_Haneda_Airport_runway_col...), it's hard to believe that all 379 people on board made it out alive...
The problem is quality control of production and new features. It doesn't matter how old most of the design is, if someone messes up in the production line, or if new features are not adequately tested like in case of MCAS.
Lack of QC is why I'll gladly choose any Airbus over any new Boeing.
> The 737 MAX planes that crashed only had one AoA sensor.
IIRC, it had two, but each of the computers only used the sensor on its side; which was OK for the original (pre-MAX) design because of they way these sensors were originally used by it.
Yes but do the flight crew have the ability to tell if a plane is safe to fly?
Without a deep understanding of the design of the plane they rely a lot on the metrics that the plane manufacturer display and on the manufacturers manuals to interpret them.
> Yes but do the flight crew have the ability to tell if a plane is safe to fly?
Yes, it's literally part of the job of the pilots, by federal regulation. If the captain feels the flight isn't fit to fly, the captain can say it's a no go, period.
> Yes but do the flight crew have the ability to tell if a plane is safe to fly?
Do you have the ability to tell if a street is safe to cross?
Most of the time, yes.
Sometimes, you can't tell for sure, but you cross anyways.
Sometimes, you are dead wrong about your judgement. Shit happens. Nobody expects 100% certainty.
The problem here may be that Boeing may be falling to meet the expectation of 99.????% certainty, and regressing down to 99.????% certainty, due to a broken corporate culture.
>It's a great aviation channel in general if anyone is interested in that stuff.
It's an aviation channel for people who aren't into aviation. Lot's of clickbait + obvious optimization of titles and topics to appeal to the masses. The Mr Beast of pilots.
Mentour Pilot is for people interested in aviation. He does breakdowns/analyses of plane incidents—not just crashes. He's also a certified trainer on at least one type.
It's funny, I was also thinking about Mentour Pilot, both because of the whole discussion here, and because of the post upthread talking about clickbait. I love Mentour Pilot once I get into one of the videos, but looking at all the attention-grabbing (and clickbaity!) stills on his video list makes me have to force myself to remember that it's fine once the video starts.
Mentour's recent videos have become much more fake salesy ultra-high energy. I actually had to unsubscribe.
The same phenomenon is unfolding in chess youtube world. The audience of laypeople (with minimal to zero chess knowledge) who are entertained by yelling and extreme over-excitement and butt-plug cheating scandals is 1000x as large as the audience of true chess nerds.
Hmm. I think that's interesting. I don't agree with you, but let's take your statement as fact.
What's wrong with that?
The content itself is generally him explaining from a pilot's point of view situations that have happened, like crashes or ATC issues, or responses to clickbait misinformation from other places on social media. His responses tend to be reasonable and enjoyable and for people who "aren't into aviation," maybe his videos will make them more interested. He has never made it about himself, the guy got promoted to Captain and didn't (and hasn't?) even mentioned it. Even his avatar and banner have him at 3 bars. It seems to me that he genuinely cares about aviation and informing people who aren't familiar with it. I feel like he brings a lot of value.
If you're not into it's fine, but I think it's a bit unfortunate you feel the need to play gatekeeper.
The last part doesn't always work the way you'd like it to - most aviation disasters these days have very definite things the pilots could have done to save themselves and everyone, which they failed to do.
Yep, and a regulator who thinks that the answer is millions of dollars in spending to build a system and hire admins. Understanding of self preservation could replace the same things with better training and empowerment of pilots to override unsafe decisions.
I believe they were saying that the rumors saying Red was going to be acquired Canon not Nikon, due to the fact Red cameras use a Canon mount, were incorrect.
https://nationaljeweler.com/articles/12184-steven-singer-jew...