Supersonic Aerodynamic Control

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“Supersonic aerodynamic control” is in no way the same thing as “terminal guidance” two dudes in the van out front of my house.

BPS: "The good news is we aren't doing any of that math today..."
Me: " :( "
BPS: "...That's the topic of the next video."
ME: " :) "

Imagine the thickness of FBI's folder on this guy

13:07 cracked me up, i just wasn’t expecting that mouth movement

Whenever you say “ should I do a video on it“ no matter what it is I immediately want to see it

JOEY B BACK WITH ANOTHER SLAMMER OF A VIDEO

“And as always, they were mounted with about thirty pounds of hot glue” there is something profoundly wrong with this man and that is why i am subscribed to his channel

The neat thing about unplugging the servo on the first flight is it gave you a baseline for comparison and illustration of future flights.

You could have convinced me the animation looking down along the airframe was real footage. Holy moly the little tabs work so well!

We leaving the ground with this one 🗣️🔥🔥🔥

When you started in on canards, I started muttering "elevons". When you started talking about talking about rotation the whole fin, I nearly yelled "elevons" at the TV as well as grumbling in 737 Max overcontrol. Then when you showed your solution, I was like, DUH, elevons. Yes, I know the shuttle used a separate rudder, but honestly you should be getting the point since you had four "wings" instead of two. This is how supersonic aircraft control their flight.
And if you see my name and picture, and recognize them, LONG LIVE THE PID. Glad I found your channel, we did know each other. And to really induce swearing you need to botch a Kalman filter.

The simulations at the end are outstanding and it demonstrates how your channel not only inspires others to take on engineering projects, but perhaps even more importantly the channel builds a community of very talented aerospace engineers who come together and make meaningful contributions. Great job! Kudos to Gabriel, Matt, Andrew and Dan.

My dad helped develop a few rockets for General Dynamics, they used something called “dithering” which made the fins vibrate(?) and when they wanted to steer in a particular direction they just made the fins spend more time on one side by interrupting the occultations, favoring the direction they wanted to go

Joey B out here controlling an aircraft over a WIDEEEEE envelope on his f̶i̶r̶s̶t̶ second try, and I hope ya'll know just how hard that is! Aircraft control derivatives scale with dynamic pressure (combo of airspeed and air density)... This basically means an aircraft behaves very differently at different speeds/altitudes with the same control deflection. The successful flight is a testament to Joe's math all collapsing down and "un-coupling" the rocket from its environment, from aero modeling to control system design to sensing. Next video is gonna be good! TL;DR: 😍🚀😍

Silo launched rockets, guiding eggs to specific places on the ground, supersonic aerodynamic control, and soon to be a space shot? You are definitely on a watchlist somewhere.

It's fun seeing you go through the same problems I encountered about 15 yrs ago.
I built a rocket with canard driven by high-powered rc servos. I put together a controller with an $1100 Analog Devices IMU and a custom microcontroller with SD card parameter control and data recording.
I initially wanted to control roll. had 9 flights without success. At first I thought I had a control system bug, then I thought I might have a hardware problem. Finally I mechanically fixed the canard at a constant angle. I had roll reversal in every flight. I finally installed a camera to verify the data collection. Unfortunately the rocket came in ballistic and the 8 foot rocket was compressed into 8" long wad.
I researched this problem and ran across a group in the NW that was having the same problem and had identified AIAA research that identified the problem many years ago.

"I am not proud of everything I do." is my life motto.

There’s nothing better than trigonometry

There is a reason for all moving fins other than extreme manouvrability. At the end of WW2 aircraft became uncontrollable due to the elevator being behind the shockwave (where it looses effectiveness) just when they were very much needed because of the onset of Mach tuck (which is a nose-down moment on the lifting surface in transonic flow). The problem of controllablility was solved on the Bell X-1 with an all moving horizontal stabilizer. On supersonic missiles this is the all moving fin. Your trim tab seems to function more as a spoiler (so to create drag) than as an aerodynamic surface to direct the airflow. It definitely gets credits for a shoestring approach. Hope you don't mind me making a suggestion: spoilers don'' t necessarily have to be in the fin section, they might as well be in the aera where you would expect the canard fins or anywhere else on the vehicle. The obvious advantage of moving the spoilers away from the fins is the available space for the servo's. Now your fins can be thin again to reduce the drag. I hope this suggestion will help you past Mach 2 and eventually into space in a controlled manner.

For sure please do a video on control over transonic flight regimes! And I'd love to see one (maybe combine them) about CFD you mentioned, what specifically was the effort required to succeed, the process, and the modeling. We love the theory

As a computer scientist, I would be interested if you could make a wind tunnel to gather enough data on the effect of the vortices and build a controller to compensate for them. No idea how hard it is to build a wind tunnel though, and I'm sure I'm underestimating the difficulty of that control problem. Good luck! Great video as always

15:15 🤣🤣🤣🤣🤣. I'm very glad for your sake that you got that on camera!

The fins extra thickness didn't seem to be an issue, but if you do want to reduce there thickness in the future one option is to mount the servos inside the fuselage and have a thin shaft go up into the fin to control the tab.
This could also allow almost all the cables to be inside the fuselage as well, further reducing drag.

Before I finish watching the video; there is a neat trick that the first AIM-9 Sidewinder missile used to avoid needing to compensate for things like density altitude: it used force servos on the fins rather than position servos. The result is that, with a few assumptions about the center of force on the fin staying more or less the same distance behind the pivot, a given turning force on the fin created the same side force on the missile body more or less regardless of speed or altitude.
The entire guidance and control system on the first marks of the AIM-9 are a fascinating cases study in how a spec project with almost no budget can force better designs.

joey out here innovating cost-effective aerospace telemetry and guidance solutions with servo-in-wing-tabs

21:15 Aside from the first couples seconds or so of this, you could've absolutely fooled me into thinking this was on-board flight footage. Well done to the community for helping here. Also would love a video on transsonic flight.

I always love the sheer attention to every detail Joe puts into everything. Everything from the rocket's functionality, the camera shots, and the video edits are all phenomenal quality. Keep up the good work.

I think you bumped into the problem they had breaking the sound barrier with the oldschool split control surfaces. You've gone smart and made a teeny tiny control surface, but the split control surface becomes basically useless in the transonic region, which is why they moved to all moving control surfaces.
You've probably already come to this conclusion, but if you put a teeny all moving contol surface at the tip of your fin, you'll retain control authority at speed. Having the surfaces that far out will make them more potent in roll as they have a longer lever, but hey, make smaller movements.
Keep it up, it's an instant click whenever I see one of your videos!

We leavin the earths atmosphere with this one 🗣️ 🔥🔥🔥

This edit hits different! Loving it 💯

Man, I'm an automation and Control engineer in Brazil, I have a masters degree in robótica and I have been teaching engineering and mechatronics for 8 years. I have no idea how on earth you deal with so many complex details in these projects. It seems like it is done for a team of 10 senior engineers. You are crazy! How do you tune the controllers before the launch? Do you have a detailed mathematical model for the whole structure? You are insane man, keep up with the work. You're going to heaven.

Your humanity and willingness to share mistakes is what keeps me coming back. Keep it up. Also, what about air brake flaps angled to push the air away from the body (as opposed to the traditional direction of air brakes that “bite” the air)? They would be very small, not need to be particularly strong, and should be very light. They would be very fine tunable too I think. Just an idea.

I've been watching your last 3-5 years of videos over the last month or two, this is pretty much the solution I've been yelling at the screen through all your roll control adventures. looking forward to the rest of the story.

You’re both a good rocket scientist and also a good storyteller

Outstanding video production Joe! Very interesting discussion on the control issues and the importance of doing good post flight analysis of what worked and what didn't.

Supersonic flow is fascinating. I have been working on my own rocket to test control methods in a compressed flow flight envelope and can say the work you are doing is really amazing. I can't wait for the next video!

I love watching the process over the years

I was just watching the previous video wondering when the next one would be- and my prayers got answered!

Control systems are so satisfying when they do what you want. Great to see how it worked in this case and can't wait to see the next video of details!

For the camera thing, instead of having it spin to counter the rotation of the rocket you could do an array of cameras all around and spice the feeds together in post to get a non moving view. I hope this made sense.

Joseph bizzlington back with actual missiles now 😂

BRO ITS YHE GUY BEPIS JOHN OUT HERE ROCKET? a good start to the day :)

That jaw movement is hilarious 😂 13:08

Don't feel too bad, Lockheed made a very similar connector mistake on the THAAD program. Missile went about 100 yard before burying itself into the desert. The connector was to load the guidance program, but when the wires pulled out they shorted the guidance system. So, no guidance. D'oh!

YES HE UPLOADED

I am 13 year old boy. You have truly inspired me to pursue my passion in rocketry.

This is awesome! And your videos were already amazing, but the increase in animations, editing, etc took it through the roof!!

Excellent job. Very impressive how you have stuck with this for so many years.

AIM 120 AMRAAM has left the chat

Every time I watch one of your videos I am genuinely happy for you and what you've accomplished. Keep it going man, you're doing great.

Great news Joe, about the test flights. So amazing to view the simulated flight using telemetry, great work of friends continual on with learning and working with the Mission. :)

he looks exactly like elon musk

You are the perfect mix of youtuber and engineer, these videos are great and inspire people. Thank you... can't wait for the math video :)

great job on making that rocket! this is so awesome!! honestly that CAD model of the data from the flight is pretty cool, ive not seen POV like that before

Transonic video needs to happen for sure. Also great job on figuring this one out, I know it was a big step and took a lot of hard work. Every day you are getting closer to space and I love to see it!

Transonic! Yes please!! Great videos, I love learning along with you. Thanks for putting in all the crazy effort.

One of your best videos of all time. Your persistence is inspiring. BPS!!

Way cool. So stoked every time one of these videos hits my feed, thanks for doing all this!

Always great to see a video and your trials, wins and successes… I live by data and have often debated the value of on board footage and you always show the benefits.

this is super cool, really looking forward to the next vid. would also enjoy seeing a video on transsonic flight issues, I'm vaguely familiar with how they affect aircraft, but it'd be interesting to hear about how they come into play with rockets

Absolutely fantastic, wow. Impressive work and passion. Go for it.

Just did the incogni deal. That was very cool. Thanks

Masterful storytelling, Joe. Great ride. Thank you.

Incredible work, looking forward to the next video!

You passion is absolutely incredible.

As an Aerospace Control Engineer, this is absolutely amazing! Yes we would actually love to see more videos on control architecture and if you had implemented gain scheduling for pre and post mach flight!!
Thanks a lot these video! All the best for future control missions

What an amazing video. Congrats. Please upload moru frequently

I think this is the best video you've ever made, keep upping that production values! This is amazing!
Also, yes please, we all want to see the video about transonic flight regimes.

I perceive through my experience of supersonic/near supersonic flight control (16 years around F-111 Avionics, :-)), your early on hunting may have been an effect of the boundary layer flow (BLF) across the fins going through changes due to the sonic transitioning shock wave generation. Once supersonic flow was stable, the roll surface could 'play' in a 'quiet' space. We had multiple static pressure sensors and localized pitots around our jet airframe that would measure Boundary layer pressure to, then help, fine tune surfaces such as flight controls but also engine inlet shaping to keep inlet air subsonic. I would suggest looking into the design changes done, over the early years, to both aileron placement along the trailing edges of wings to eliminate/minimize aileron blanking and things like spoiler tabs, etc. Also, early supersonic aircraft went from horizontal stabs w/elevator tabs, but had to switch to all moving tail planes for elevator control, as the elevators could also blank, but some of that effect had to do with the REALLY turbulent stuff coming of those wings (and their shock waves in front of the always rear mounted elevators/elevons. Definitely a lot more of a dilemma than just pointing the surface/tab where you want to 'steer'. Excellent work sir!!! 😁

I was driving the other day across the desert and had a thought that I hadn't seen anything new from you in awhile. Good to see a new video!

I've been following the Sugar Shot to Space project for what seems like 20 years. I dare say you're going to beat them to space. Subscribed. Good Luck!

Great video as always! I have one idea. Instead of going down the route of preventing the rocket / cameras from spinning, what about attaching cameras to each side of the rocket such that you get 360 degrees of coverage, then, stitch the footage together from all the cameras and un-spin it using the recorded gyro measurements during flight? You would likely need some high frame rate cameras to help avoid motion blur but from what I've seen on 360 degree videos on youtube, you can spin those puppies to your heart's content!

Great job Gabriel, thanks for your contribution using Ansys STK simulation SW.

OMG! Another BPS Video. Best Day in my life!

Very much looking forward to your upcoming videos about cameras and the transonic speed issues.

10:36 that reminds me of the stabilizer-stabilator thing with airplanes. When you have a stabilator the stabilizer is the elevator, so basically the stabilizer itself rotates the change the altitude. When you have a stabilizer, there is a separate elevator that moves on the back of the stabilizer. This is like the stabilizer.

The missile knows where it is at all times. It knows this because it knows where it isn't by subtracting where it is from where it isn't.

This is REALLY cool. Good job! I am looking forward for the next video.

Bravo. As a controls engineer, seeing your process is fascinating. Keep it up!

Awesome, great job!!! Mind-blowing everything you do.
Incrível, ótimo trabalho!! Imaginável todos esses estudos quê tú faz.

Man just discovered the power of the trim tab! Very cool

Thanks! An awesome video, I just loved model rockets when I was a kid. Turned that into a EE/computer programmer.

Always enjoyable, always quality. Thanks!

Love it! This is why I love engineering. There's always something you did not think about and finding the solution can be the most fun part. :D

Very impressive work!

Awesome job, this whole process i so satisfying to watch. Getting those vizualisations is a great bonus outcome of that little camera error :)

Yay, the latest BPS episode. Finally, a good roll control method for your rockets! I wonder how this compares to reaction wheels? Would having both perhaps help improve control through the transonic region? I would love a video on why that speed is hard to control flight at.
I'm also curious about the fluid modeling, and how accurate different modeling approaches are.
What data can you get before launching? What tools do you use? How much uncertainty do you have in the results?
Looking forward to the next episode!

Really enjoyed this video.

Luv your videos! Thanks!

I just love your informative videos

Awesome video again, can't wait till the next.

Joe, it is amazing project! And super-fun story! Good luck to you and cosmic launch heights to your rockets!!

Congratulations. Amazing

Wow! Super hard job 💪🏻. Thanks man 👍🏻

Awesome, awesome, and awesome! YES, we want to see the maths and analytics video. Thank you for your great work.

Thank you joeB once again for my absolute favourite content. Have a good day!

That red curve...always speechless watching your videos. Such a brilliant young man.

Your videos are escalating steadily. Respect ++

I was sitting here waiting for you to mention the rollerons on the sidewinder cause its like, one of my absolute favorite engineering solutions ever. So elegantly simple and yet works incredibly well
Edit: im not an engineer, just a mechanic, but i think a combination of servo tabs and entirely moving fins is the way to go. This is how the trim system works on just about all modern jet aircraft. Little tab moves in opposite direction of where you want the surface to go, and generates a moment on the major surface. Allows for precise correction without having to put an enormous load on whatever you're gonna hinge the tab with. Much easier to design a fin hinge that can withstand that sort of load than a tab hinge that can. Just my $0.02 though, supersonic aerodynamics is super weird, and aviation and rocketry are only marginally similar