Oh yea, that pesky sun. Used to work with a KU band system, and there were a couple of days, for a few minutes, 4 times a year, where the sun would transit behind our satellite. You could watch the noise floor on the spectrum analyzer, creep up and just totally eat the signal lobe. Complete LoS for about 4 minutes or so. Mean old radiation ball... :)
@@driftwavez the moon is simply reflecting the radiation & light from the sun. The moon itsels is not radioactive / does not emit radioactivity on its own
It would be interesting to see what you got if you pointed it in the direction of some of the larger planets. Many years ago I had the opportunity to visit the radio telescope at Jodrell Bank in the UK. In the visitor centre they had a 5m dish that you could steer manually and the coordinates for various planets. I was amazed at how much RF was being emitted from Jupiter.
I need to write some code to account for Earth's rotation and stay on a moving target! Jupiter would be interesting, although I think the radio frequencies it emits are much lower than this little dish can detect.
As a first step you could just run your current code to scan the sky and see if it picks up anything when it passes Jupiter. I suspect that you are correct though about the frequency range being much lower.
@@saveitforparts You can use the rotation of the earth as one of the scanning axis. It was a common technique for huge low frequency antennas used for radop astronomy.
@@saveitforparts 🔴 What Is Islam? 🔴 Islam is not just another religion. 🔵 It is the same message preached by Moses, Jesus and Abraham. 🔴 Islam literally means ‘submission to God’ and it teaches us to have a direct relationship with God. 🔵 It reminds us that since God created us, no one should be worshipped except God alone. 🔴 It also teaches that God is nothing like a human being or like anything that we can imagine. 🌍 The concept of God is summarized in the Quran as: 📖 { “Say, He is God, the One. God, the Absolute. He does not give birth, nor was He born, and there is nothing like Him.”} (Quran 112:1-4) 📚 🔴 Becoming a Muslim is not turning your back to Jesus. 🔵 Rather it’s going back to the original teachings of Jesus and obeying him. More ....
@@1islam1 Wow. You're annoying. You're not going to win any hearts and minds with that spam. Would you eat spam? No, of course not. So, what makes you think anyone else would swallow your spam? You can enjoy life and show respect to your creator and your fellow humans by not being a miserable little spammer.
Excellent chase of ideas . Years ago I did a few experiments in pasive 3 dimensional imaging of microwave emissions for realtime terrain navigation making waveguides and mostly modifying salvaged equipment you had an easier time doing what took me months as a start of the several years of dabbling .
I had an aha! moment during this video. You essentially were collecting data about your surroundings without an active emitter. This passive “RADAR” is what modern military aircraft use to get a picture of the battle field without giving away their position. I’m sure their hardware/software has a higher resolution but the concept is the same. Wow. Thanks for that. Great job!
These satellite videos have been my favorite series of videos so far! It's really inspiring, too. Time for me to finally finish my Raspberry Pi projects.
I subscribed to your YT channel because of the name SaveItForParts. Re-using discontinued/failed/older electronics is the ULTIMATE way to re-cycle them because it retains the "man-hours" and intellectual effort to construct our devices going decades back into the last century. That labor & IP cannot be recycled if the "e-Waste" is ground-up and melted down - the human labor VALUE is lost forever... Bravo sir!
08:56 - Good Lord, I hadn't really seen a visualization of just how many artificial satellites we've launched into orbit. The term "astounding" comes to mind. Just wow.
Quick update on this, if anyone is thinking of doing the same and looking for a compatible antenna: I got my older (2011) Tailgater with the Mini-USB jack to give me a serial console. The firmware is slightly different and it doesn't have the elangle command, but everything else seems to be the same. Sadly the motors are 100% seized up from water ingress at some point (probably why I got that one for free). If I can find the same motor online I might try to replace them. So, I'm guessing any Tailgaters between at least 2011 and 2014 will work for this! You might have to substitute elev for elangle and tweak the range values in the Python code depending on firmware version.
1:48 Am I the only one impressed at this Reflection on the Computer Screen Shot!?! It's such a simple idea Yet I Honestly haven't seen anyone else do that..lol! All Around GREAT Video!! I couldn't have hit that Sub & Notification button faster!
I think you're great! One of my goals to be able to program homestead needs to actuators and such, from stuff that I find. I think I can do it. Thank you for the inspiration and information. Sending you thoughts for much success to you and your channel.
I think it makes sense to have adaptive resolution: If the dish picks up a strong signal, it can use the nudge feature to increase the resolution in this area. If not the standard resolution is probably enough.
I agree... find the edge of the object and then nudge back across it to see if you can get more details. Use the more accurate nudge direction for scanning. Then "restore" back to the position it was and continue on.
Limited resolution from the small dish size. If you could determine the resolution function imaging a point source… eg a satellite, you could deconvolve the image to get a higher resolution result. Failing that you could use multiple dishes and then use interferometry to synthesise a higher resolution… but the hardware probably won’t allow that. Cool project!!
@@zazugee if you could phase connect them together and do the maths. The more in each direction and the further apart the better. If an amateur could pull it off I would be impressed.
I love your videos! One thing to consider on these RV dish antennas is that they expect you to point them to the South, which is where their satelites are located. Keep up the great job!!
To get higher resolution you'll actually need a better dish! That one is small and not very parabolic - that's why you see ringing artifacts around those sats on the left by the tree. Those are caused by the dish not being "focused" enough. You can think of it like bokeh from a lens that's not focused properly. It's designed just to pick up a signal, not a perfect pinpoint focused signal, which is what you'd want for clearer scanning for imaging purposes. Still awesome!
That's kind of what I thought the rings might be. I've been debating if it's worth doing the "nudge" command for smaller scan increments, but it looks like the beam width of the dish is more than a degree.
Whoa! I had no idea you could use small dishes in this way. That is rad! Also I didn't know you have a CS background. Nice job with the coding. I'm an IT guy by trade - had to learn Ruby over the past sixth months. I am crap at coding in general though. 😂 Looking forward to where you go with these dishes. Thanks for the great video. Very creative!
I'm the guy who designed the system and built the software. You got lucky. This is the first generation firmware - we didn't bother to put any doors preventing anyone from accessing the console. The next version onwards, it needs a special sequence to unlock the control console. And I wrote this exact same code, also in Python, back in 2012 to build maps of the sky in the Ku band and built a new algorithm that can detect satellites purely with pattern matching (as opposed to detecting the Network ID from the MPEG stream beamed down from the satellite). Ask me any questions and if it's not something proprietary, I will answer them.
Fun fact. It took me 2 weeks to build the 'nudge' move. It's incredibly difficult to move a DC motor with just PWM control by a tiny amount due to gear backlash. The motors on the Tailgater are heavily geared down to provide power in really cold weather. The Tailgater is made in Minneapolis, so we pay special attention to our ice fishing customer base. Hmm, and I notice I said 'we' even though I left the company 6 years ago.
Thanks for the comments, this is really cool to know! I'm curious what some of the other commands in the Tailgater console do (if that's something you can tell me). Such as "scan", and "stat". I'd also like to know if there's any way to get an instant signal strength or do an "rfwatch" less than 1 second. Waiting for rfwatch 1 every time really makes for slow scans. Someone commented with their version at a much faster speed, and now I'm jealous :-D I did get an older Tailgater to finally respond over USB, it's got some water damage so the motors are shot, but I'm looking for replacement online. It uses older firmware, and doesn't have elangle as an option. If I get it running I'll write a version of the code using elev instead. I assume VuQube units are from the same company (or predecessor?). I have a couple of those that look identical, but don't have USB. They do have an rj-11 phone port on the bottom, I'm not sure if that's for a serial interface or for one of the little handheld remotes. They also have a mysterious block of 8 jumper pins in the middle of the board, someone suggested that 4 of them could be UART, but I'm not too familiar with that protocol. Sorry for so many questions, it's just cool to talk to one of the original developers! If you prefer email I'm gabe@saveitforparts.com. Thanks again!
This is really interesting. Your use of those surplus dishes is fantastic. Being able to see the 3rd harmonic of the 5.8GHz module on your PC and those geostationary satellites is very interesting.
How cool is that to see a picture like that again. I did something similar with a 1.2m Ku Band DX Dish that also had a elevation correction. But it could not move as freely as your antenna. However the picture I generated from the sattelites looked pretty much the same. This was back in 1994 when we had to take a picture, develop it and scan it with a scanner. No digital cameras back then.
Really cool. Glad they work so well as radiotelescopes. That code is great. Seems a lot more accessible than most other radiotelescope projects. Those scans are amazing. The resolution is really impressive.
I originally came here because of the train stuff. But whoa! This stuff is amazing! I had NO idea you could take a 'microwave' image of a house/anything. REALLY impressive. Thanks for this. ☮
DIY dumpster microwave - classic! I wonder if one could use ChatGTP to help with the coding? I think one could also use stellarium to help name the satellites, or is all that info carried in the signals? Another aspect of amateur radio to consider...thank you!
I got some of the satellite names from dishpointer.com based on the direction they're in. Someone else commented that there are multiple satellites in each orbital slot and I got a few of the names wrong.
Keeping the steppers and replacing the electronic guts with a cheap 3d printer board, maybe get real fancy with an encoder, and you could microstep to your hearts content :D
VERY cool vid! I work in pro video and using a scaled waveform is similar how you can make out objects in the luminosity levels. Its like reading the matrix! Been absolutely loving the channel! I have to keep it somewhat neat at home but at work I have my hoard of parts and broken things and I love using it all to keep things working. Respect!
I wonder if you could hack a PCB electronically steered array receiver onto the antenna horn in place of the stock receiver for better fine spatial resolution without relying on the motors? And then use the motors for coarse adjustment. There's probably some open source electronically steered array PCB receivers online somewhere.
This is basically how commercial dish pointing systems (e.g. on news vans) work. The controller points the dish in roughly the right direction using GPS, compass heading and a database of satellite orbits, then does a peaking search on the beacon frequency in a small grid to account for errors in its calculation of where it thinks the satellite should be. All sensors have error. Of course this only works for geostationary satellites.
The really old trucks were all manual. You just had to learn where they were and what the spectrum looked like. Now they just call us old guys when the auto dish fails or needs a new sat programmed in 😂
If you wanted a more precise signal chart you'd need to use a much larger dish. Smaller reflectors pick up signals from their adjacent satellites --which makes them easier to peak up onto a signal, while larger dishes are able to focus more on specific orbital slots but require more precise pointing. DBS satellites (Dish/DirecTV) are a minimum of 9 degrees apart unless there are two or more in an orbital "box" that service a single slot such as Dish @ 110 (two actual satellites). FSS satellites are at least 4 degrees apart.
This is a "bistatic radar" A lot of the random blips you saw at 14:51 were likely airplanes. What you are doing is essentially radio astronomy. Very cool.
Thanks for interesting video about satellite adjustable dishs technology via PC. I never installed a satellite dish (never got information about and never needed it in my first professional education as radio TV service technician (1984 analog electronic + terristrial broadcast). After finishing it I and a friend decided to qualify electrical engineering with specialization computer engineering in my home town (Flensburg University of Applied Sciences, a Motorola branch produced/shipped their first mobile phones in europe/EMEA). That was a better choice than my first choice which was unfortunately not offered in my home town: communication technology, and when meeting fresh communication engineers they told me their work was programming, so I stayed and continued going into programming and software development, but that was never my first choice, it was more by accident.
I love this video. Thanks. I feel you about a CS degree not teaching coding. I have a CS BS and in the course of my degree I had a course or two in C, C++, Ada, and 370 ASM (not necessarily in that order). In short, nothing modern. I mainly code in Bash these days, though I can sometimes read C if it's not too complex. For imaging fast objects (LEO), I suggest you scan the sky in vertical stripes, then do the rest of the scene however you want. Depending on which way you move the stripe the image will either be expanded or squashed, but probably not very skewed. For sending text one char at a time, you could write a procedure that takes a command and sends it one char at a time. Then in the body of your code, call your new procedure. It won't make things work any better, it just makes your code easier to read. Anyhow, best of luck.
I noticed your matrix has a characteristic error where even/odd scan lines are misaligned. I suspect this is due to excessive backlash in the x-axis gear drive. You could fix it mechanically or via code either experimentally by using a fixed offset for even rows or mathematically by finding the maximal alignment of two matrices (one of even rows and one of odds), and use that as the offset.
@@saveitforparts looking at your video it sure looks like that tailgator would make a nice HRPT tracker if it was fast enough. Pop that small dish off and put on a small grid dish our similar
Nice job overall. The Satellites you see are the real hi power ku TV satellites. The lower power KU signals are not conducive to being received by the real small dish you are using. The KU bands are also not circular polarized as the DTV satellites used by the North American carriers. Also remember that the US carriers use spot beams to broadcast their signals, in most cases the local Broadcast Stations otherwise the 2 carriers in the US would run out of bandwidth or frequencies.😊 If you can watch a band between 900-1600 MHz on a receiver or spectrum analyzer connected to the coax, you will see the transponders of the satellites you are tracking. Each slot will have a different fingerprint so to say and real apparent. The LNB on the dish requires 13 volts, 18 volts and a 22 kHz signal to point the dish at different birds. Depending on which slots are used. I am a semi retired Dish and TVRO technician as well as a cable company engineer. Coding is not my strong suit, getting computers to work right , no matter the OS is my strong suit. I play well in DOS, Windows, MacOS and Linux. As well as networking!!!😅😅😅 You never know what the home user will throw at you.😅😅😅 73’s DE N2JYG
Very cool, thanks! It would be interesting to take this on a road trip and see which satellites are aimed at different regions in the US and Canada. I'm sure all of that is online, but it's fun to see what it looks like in real life.
lol I cannot stop wtatching your satellite videos! this all started a few months ago when I was walking my dogs and saw a house with 4 different dishes - just had to find someone on youtube doing something interesting with them 😂
Oh yea, that pesky sun. Used to work with a KU band system, and there were a couple of days, for a few minutes, 4 times a year, where the sun would transit behind our satellite. You could watch the noise floor on the spectrum analyzer, creep up and just totally eat the signal lobe. Complete LoS for about 4 minutes or so. Mean old radiation ball... :)
sometimes at night when i do it. the moon messes with my signal cuz the moon has bad radiation. did u know that?
@@driftwavez the moon is simply reflecting the radiation & light from the sun. The moon itsels is not radioactive / does not emit radioactivity on its own
Had the same experience with several geostationary satcomm providers. As you say, the signal would just fade out for 4-5 minutes.
Only 4 minutes? These small satellite dishes are that focused?
Sunfade season was always crazy at my NOC
So many notices to send out explaining that it's the sun's fault
I love that shot with the reflection in the monitor. That was a really cool effect (and it's a neat project!)
I think it’s far more likely the sky noise isn’t noise at all and you saw LEO sats! Good work awesome project
Really cool.
It would be interesting to see what you got if you pointed it in the direction of some of the larger planets. Many years ago I had the opportunity to visit the radio telescope at Jodrell Bank in the UK. In the visitor centre they had a 5m dish that you could steer manually and the coordinates for various planets. I was amazed at how much RF was being emitted from Jupiter.
I need to write some code to account for Earth's rotation and stay on a moving target! Jupiter would be interesting, although I think the radio frequencies it emits are much lower than this little dish can detect.
As a first step you could just run your current code to scan the sky and see if it picks up anything when it passes Jupiter. I suspect that you are correct though about the frequency range being much lower.
@@saveitforparts You can use the rotation of the earth as one of the scanning axis. It was a common technique for huge low frequency antennas used for radop astronomy.
@@saveitforparts 🔴 What Is Islam?
🔴 Islam is not just another religion.
🔵 It is the same message preached by Moses, Jesus and Abraham.
🔴 Islam literally means ‘submission to God’ and it teaches us to have a direct relationship with God.
🔵 It reminds us that since God created us, no one should be worshipped except God alone.
🔴 It also teaches that God is nothing like a human being or like anything that we can imagine.
🌍 The concept of God is summarized in the Quran as:
📖 { “Say, He is God, the One. God, the Absolute. He does not give birth, nor was He born, and there is nothing like Him.”} (Quran 112:1-4) 📚
🔴 Becoming a Muslim is not turning your back to Jesus.
🔵 Rather it’s going back to the original teachings of Jesus and obeying him.
More ....
@@1islam1 Wow. You're annoying. You're not going to win any hearts and minds with that spam. Would you eat spam? No, of course not. So, what makes you think anyone else would swallow your spam?
You can enjoy life and show respect to your creator and your fellow humans by not being a miserable little spammer.
Excellent chase of ideas .
Years ago I did a few experiments in pasive 3 dimensional imaging of microwave emissions for realtime terrain navigation making waveguides and mostly modifying salvaged equipment you had an easier time doing what took me months as a start of the several years of dabbling .
Love your interest and enthusiasm. This is great! :)
Great video
I had an aha! moment during this video. You essentially were collecting data about your surroundings without an active emitter. This passive “RADAR” is what modern military aircraft use to get a picture of the battle field without giving away their position. I’m sure their hardware/software has a higher resolution but the concept is the same. Wow. Thanks for that. Great job!
super!
These satellite videos have been my favorite series of videos so far! It's really inspiring, too. Time for me to finally finish my Raspberry Pi projects.
I subscribed to your YT channel because of the name SaveItForParts. Re-using discontinued/failed/older electronics is the ULTIMATE way to re-cycle them because it retains the "man-hours" and intellectual effort to construct our devices going decades back into the last century.
That labor & IP cannot be recycled if the "e-Waste" is ground-up and melted down - the human labor VALUE is lost forever...
Bravo sir!
You're preaching my religion.
Yep, I hate seeing perfectly good stuff get thrown out, and can never pass a dumpster without checking it.
Reminds me of the Post Apocalyptic Inventor's philosophy. I love his channel.
Also subscribed due to the name👍
08:56 - Good Lord, I hadn't really seen a visualization of just how many artificial satellites we've launched into orbit. The term "astounding" comes to mind. Just wow.
This is incredibly cool
I love the camera angle where you've got code on screen and you're using that same screen as a mirror... that's superb!!!
Quick update on this, if anyone is thinking of doing the same and looking for a compatible antenna:
I got my older (2011) Tailgater with the Mini-USB jack to give me a serial console. The firmware is slightly different and it doesn't have the elangle command, but everything else seems to be the same. Sadly the motors are 100% seized up from water ingress at some point (probably why I got that one for free). If I can find the same motor online I might try to replace them.
So, I'm guessing any Tailgaters between at least 2011 and 2014 will work for this! You might have to substitute elev for elangle and tweak the range values in the Python code depending on firmware version.
The direction the angle is measured in does make sense: from X to Y axis that is counterclockwise.
+Y
-x + X
-y
In celestial coordinates, East is + because that's the direction, the Earth is rotating.
1:48 Am I the only one impressed at this Reflection on the Computer Screen Shot!?!
It's such a simple idea Yet I Honestly haven't seen anyone else do that..lol!
All Around GREAT Video!!
I couldn't have hit that Sub & Notification button faster!
Love the monitor reflection shot.
thanks for the shoutout!
Its really cool that you went to grad school for cs, I went to grad school for physics.
Thanks for the help! This was a fun project!
One of the coolest facts in this video was learning the Arthur C Clarke came up with geo stationary orbits
I think you're great! One of my goals to be able to program homestead needs to actuators and such, from stuff that I find. I think I can do it. Thank you for the inspiration and information. Sending you thoughts for much success to you and your channel.
I think it makes sense to have adaptive resolution: If the dish picks up a strong signal, it can use the nudge feature to increase the resolution in this area. If not the standard resolution is probably enough.
I agree... find the edge of the object and then nudge back across it to see if you can get more details. Use the more accurate nudge direction for scanning. Then "restore" back to the position it was and continue on.
Limited resolution from the small dish size. If you could determine the resolution function imaging a point source… eg a satellite, you could deconvolve the image to get a higher resolution result. Failing that you could use multiple dishes and then use interferometry to synthesise a higher resolution… but the hardware probably won’t allow that. Cool project!!
if you had 4 dishs in a square array, you could do a phased array to get better resolution
@@zazugee if you could phase connect them together and do the maths. The more in each direction and the further apart the better. If an amateur could pull it off I would be impressed.
Fun stuff. Subscribed. Great channel - look forward to seeing some of the other videos. Thanks. Cheers.
boy, I just discovered this guy and he is AWESOME!
That was incredibly interesting. Wonderful video!!
I love your videos! One thing to consider on these RV dish antennas is that they expect you to point them to the South, which is where their satelites are located. Keep up the great job!!
To get higher resolution you'll actually need a better dish! That one is small and not very parabolic - that's why you see ringing artifacts around those sats on the left by the tree. Those are caused by the dish not being "focused" enough. You can think of it like bokeh from a lens that's not focused properly. It's designed just to pick up a signal, not a perfect pinpoint focused signal, which is what you'd want for clearer scanning for imaging purposes. Still awesome!
That's kind of what I thought the rings might be. I've been debating if it's worth doing the "nudge" command for smaller scan increments, but it looks like the beam width of the dish is more than a degree.
2:17 love the creativity behind the face cam in this shot 😁
Man, great attitude!!
I dont know anything about radio gear but its cool hearing you get into it!
Discovered you today, watched 3 videos & can truly say you re a legend! :)
so it is just a signal strength map not quite a heat map probably could be done with advanced radio location sensors
Whoa! I had no idea you could use small dishes in this way. That is rad!
Also I didn't know you have a CS background. Nice job with the coding. I'm an IT guy by trade - had to learn Ruby over the past sixth months. I am crap at coding in general though. 😂
Looking forward to where you go with these dishes. Thanks for the great video. Very creative!
I rarely do any coding, but it's actually kind of fun when it's for a weird project like this!
This is fantastic... Subscribed!!!!!
I'm the guy who designed the system and built the software. You got lucky. This is the first generation firmware - we didn't bother to put any doors preventing anyone from accessing the console. The next version onwards, it needs a special sequence to unlock the control console.
And I wrote this exact same code, also in Python, back in 2012 to build maps of the sky in the Ku band and built a new algorithm that can detect satellites purely with pattern matching (as opposed to detecting the Network ID from the MPEG stream beamed down from the satellite).
Ask me any questions and if it's not something proprietary, I will answer them.
Fun fact. It took me 2 weeks to build the 'nudge' move. It's incredibly difficult to move a DC motor with just PWM control by a tiny amount due to gear backlash. The motors on the Tailgater are heavily geared down to provide power in really cold weather. The Tailgater is made in Minneapolis, so we pay special attention to our ice fishing customer base. Hmm, and I notice I said 'we' even though I left the company 6 years ago.
Very cool! I will definitely have some questions for you!
Thanks for the comments, this is really cool to know!
I'm curious what some of the other commands in the Tailgater console do (if that's something you can tell me). Such as "scan", and "stat". I'd also like to know if there's any way to get an instant signal strength or do an "rfwatch" less than 1 second. Waiting for rfwatch 1 every time really makes for slow scans. Someone commented with their version at a much faster speed, and now I'm jealous :-D
I did get an older Tailgater to finally respond over USB, it's got some water damage so the motors are shot, but I'm looking for replacement online. It uses older firmware, and doesn't have elangle as an option. If I get it running I'll write a version of the code using elev instead.
I assume VuQube units are from the same company (or predecessor?). I have a couple of those that look identical, but don't have USB. They do have an rj-11 phone port on the bottom, I'm not sure if that's for a serial interface or for one of the little handheld remotes. They also have a mysterious block of 8 jumper pins in the middle of the board, someone suggested that 4 of them could be UART, but I'm not too familiar with that protocol.
Sorry for so many questions, it's just cool to talk to one of the original developers! If you prefer email I'm gabe@saveitforparts.com. Thanks again!
@@saveitforparts I sent an email out to you. We'll continue talking there.
This is really interesting. Your use of those surplus dishes is fantastic. Being able to see the 3rd harmonic of the 5.8GHz module on your PC and those geostationary satellites is very interesting.
This is Fascinating Experimental Tech.
This is so damn awesome, and you are such an inspiration to me.
How cool is that to see a picture like that again. I did something similar with a 1.2m Ku Band DX Dish that also had a elevation correction. But it could not move as freely as your antenna. However the picture I generated from the sattelites looked pretty much the same. This was back in 1994 when we had to take a picture, develop it and scan it with a scanner. No digital cameras back then.
I was really impressed by that! A great presentation. 👍
Thank you for this insight on radiofrequence
Very cool project and well executed .
Love your work, dude
Really cool. Glad they work so well as radiotelescopes. That code is great. Seems a lot more accessible than most other radiotelescope projects. Those scans are amazing. The resolution is really impressive.
I originally came here because of the train stuff.
But whoa!
This stuff is amazing!
I had NO idea you could take a 'microwave' image of a house/anything.
REALLY impressive.
Thanks for this.
☮
Glad you like it! I'm working on train stuff right now, so there should be more of that soon!
The resolution is going to be 1/4 wavelength, same as Fish finder flashers behave.
Essentially he’s built a passive bistatic radar that uses noncooperative transmitters. Neat stuff.
Awesome project! Thanks for sharing! 🙏
you can do a phased array version with this project as your next
Passive radar would be super cool!
Absolutely brilliant work….
Love your energy keep up this work.
DIY dumpster microwave - classic! I wonder if one could use ChatGTP to help with the coding?
I think one could also use stellarium to help name the satellites, or is all that info carried in the signals? Another aspect of amateur radio to consider...thank you!
I got some of the satellite names from dishpointer.com based on the direction they're in. Someone else commented that there are multiple satellites in each orbital slot and I got a few of the names wrong.
Keeping the steppers and replacing the electronic guts with a cheap 3d printer board, maybe get real fancy with an encoder, and you could microstep to your hearts content :D
A lot of people thin that CS means programming. I also think people want to see the trials of error. It helps them understand.
Awesome, really inspiring stuff!
This is fantastic! Thank you for sharing and I'm looking forward to more!
Excellent post. Very interesting.
Regarding what you need to learn that stuff:
1. be smart
2. be motivated
You seem to have both.
very well done Sir.
Woa! I'm glad this worked! I really wanna do this!
This is just amazingly cool. Really fun project, never knew this could be done. I'm subscribing.
I really like WHAT YOU DO, greetings from Argentina
97 has a lot of transponders, but they are all 10 watts
This is a super cool project i have often wondered about seeing in spectrums other than light
Also this channel is an instant subscribe for me
Brilliant work. Awesome video.
Great discovery’s! Love this grass roots tech 👍
This is fascinating!
Excellent !
VERY cool vid! I work in pro video and using a scaled waveform is similar how you can make out objects in the luminosity levels. Its like reading the matrix! Been absolutely loving the channel! I have to keep it somewhat neat at home but at work I have my hoard of parts and broken things and I love using it all to keep things working. Respect!
This was really cool!
I wonder if you could hack a PCB electronically steered array receiver onto the antenna horn in place of the stock receiver for better fine spatial resolution without relying on the motors? And then use the motors for coarse adjustment. There's probably some open source electronically steered array PCB receivers online somewhere.
This is basically how commercial dish pointing systems (e.g. on news vans) work. The controller points the dish in roughly the right direction using GPS, compass heading and a database of satellite orbits, then does a peaking search on the beacon frequency in a small grid to account for errors in its calculation of where it thinks the satellite should be. All sensors have error. Of course this only works for geostationary satellites.
I should look for an old news van at surplus sales :-D
The really old trucks were all manual. You just had to learn where they were and what the spectrum looked like. Now they just call us old guys when the auto dish fails or needs a new sat programmed in 😂
Great job, thanks for motivation
This is fantastic. Thanks for sharing.
Very nicely done, and explained!
You're a wizard!
That's a pretty sweet milk crate collection!
Really cool stuff man , enjoyed watching and learned a lot, take care 73 de ve3hip from Welland Ontario Canada 🇨🇦
This is brilliant!
Incredibly cool imaging! If you want a good calibration radio source for Ku band get a CCFL bulb and turn it on.
Interesting, I'll have to try that!
to fix the nudge drift, why not add some encoder feedback for exact positioning? Should be a cheap add on given all you have done already !
Love it, very interesting stuff.
If you wanted a more precise signal chart you'd need to use a much larger dish. Smaller reflectors pick up signals from their adjacent satellites --which makes them easier to peak up onto a signal, while larger dishes are able to focus more on specific orbital slots but require more precise pointing. DBS satellites (Dish/DirecTV) are a minimum of 9 degrees apart unless there are two or more in an orbital "box" that service a single slot such as Dish @ 110 (two actual satellites). FSS satellites are at least 4 degrees apart.
I have a bigger dish, just don't have motors for it. That's on the to-do list!
Awesome work!
This is a "bistatic radar" A lot of the random blips you saw at 14:51 were likely airplanes. What you are doing is essentially radio astronomy. Very cool.
Just found your channel. I'm no _Expert_ at this stuff but
This seems like a really *REALLY well done* Applied (physics) Lab-type.Thingy
Great Work.
This was really interesting!
Thanks for interesting video about satellite adjustable dishs technology via PC.
I never installed a satellite dish (never got information about and never needed it in my first professional education as radio TV service technician (1984 analog electronic + terristrial broadcast). After finishing it I and a friend decided to qualify electrical engineering with specialization computer engineering in my home town (Flensburg University of Applied Sciences, a Motorola branch produced/shipped their first mobile phones in europe/EMEA). That was a better choice than my first choice which was unfortunately not offered in my home town: communication technology, and when meeting fresh communication engineers they told me their work was programming, so I stayed and continued going into programming and software development, but that was never my first choice, it was more by accident.
Fascinating. Thanks.
cool project
Very cool!
I love videos with radio imagery
I remember thoughtemporium made one and imaged the wifi routers in his dorm
just as I commented this, you mentioned thoughtemporium lmao
I've talked to them briefly about another of my projects, they do some cool stuff!
Awesome job!
I love this video. Thanks.
I feel you about a CS degree not teaching coding. I have a CS BS and in the course of my degree I had a course or two in C, C++, Ada, and 370 ASM (not necessarily in that order). In short, nothing modern. I mainly code in Bash these days, though I can sometimes read C if it's not too complex.
For imaging fast objects (LEO), I suggest you scan the sky in vertical stripes, then do the rest of the scene however you want. Depending on which way you move the stripe the image will either be expanded or squashed, but probably not very skewed.
For sending text one char at a time, you could write a procedure that takes a command and sends it one char at a time. Then in the body of your code, call your new procedure. It won't make things work any better, it just makes your code easier to read.
Anyhow, best of luck.
I noticed your matrix has a characteristic error where even/odd scan lines are misaligned. I suspect this is due to excessive backlash in the x-axis gear drive. You could fix it mechanically or via code either experimentally by using a fixed offset for even rows or mathematically by finding the maximal alignment of two matrices (one of even rows and one of odds), and use that as the offset.
Yep, that's something I need to work on.
I love these videos! I wish I would of found this channel sooner!
Excellent! Well done Video, and even better experimenting!
Thanks! Your projects have given me a lot of inspiration! I'm having a lot of fun slowly improving my satellite and radio skills.
@@saveitforparts looking at your video it sure looks like that tailgator would make a nice HRPT tracker if it was fast enough. Pop that small dish off and put on a small grid dish our similar
Nice job overall. The Satellites you see are the real hi power ku TV satellites. The lower power KU signals are not conducive to being received by the real small dish you are using. The KU bands are also not circular polarized as the DTV satellites used by the North American carriers. Also remember that the US carriers use spot beams to broadcast their signals, in most cases the local Broadcast Stations otherwise the 2 carriers in the US would run out of bandwidth or frequencies.😊
If you can watch a band between 900-1600 MHz on a receiver or spectrum analyzer connected to the coax, you will see the transponders of the satellites you are tracking. Each slot will have a different fingerprint so to say and real apparent. The LNB on the dish requires 13 volts, 18 volts and a 22 kHz signal to point the dish at different birds. Depending on which slots are used. I am a semi retired Dish and TVRO technician as well as a cable company engineer.
Coding is not my strong suit, getting computers to work right , no matter the OS is my strong suit. I play well in DOS, Windows, MacOS and Linux. As well as networking!!!😅😅😅 You never know what the home user will throw at you.😅😅😅
73’s
DE N2JYG
Very cool, thanks! It would be interesting to take this on a road trip and see which satellites are aimed at different regions in the US and Canada. I'm sure all of that is online, but it's fun to see what it looks like in real life.
This is amazing.
Thanks! I'm glad you liked it that much! I have some other satellite dish experiments on the channel, and a few coming up in the near future.
lol I cannot stop wtatching your satellite videos!
this all started a few months ago when I was walking my dogs and saw a house with 4 different dishes - just had to find someone on youtube doing something interesting with them 😂
Dish envy. 😍 I miss my 12ft Conifer.
Awesome episode. You're a great inspiration. Keep up the great work.
And you got a mention from Hackaday! Woot!