Q: What would you recommend as a reasonably priced (sub 150$) quad-copter/drone, that has a camera, the ability to be programmed (so that I can process video/write my own stability algorithms for it), good range, and reasonable flying time? In the event nothing fits that price point, any pointers on what the state of the art is?
Thanks!
What sort of price range would I be looking at for a homemade long-range drone (I assume a plane) that could fly fairly high for a while and carry 10kg+ of weight?
I ask this as someone completely ignorant of aviation; I'm not sure what sane values of "fairly high" and "fly for a while" actually are.
For "fairly high" I'd say "can it be high up enough to be hard to see and hear from the ground?" (Binoculars are fine; camera zoom lenses win everything and trying to fight those would be stupid.)
For "fly for a while" I'm curious if I'd be able to fit enough gas (I don't expect batteries to work for this) to run for 20 minutes, or even an hour or maybe more.
I'd be interested in what a cost gradient for 10kg, 20kg, etc would look like.
This is just a "how much would it cost to carry things around" back-of-my-mind question I've been mentally noodling for a while.
I don't honestly need super-specifics; back-of-the-envelope ballpark figures would be great. (I expect Amazon will nail drone delivery in practice; not trying to plan business ideas or anything.)
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Also - what's out there that can fly for an hour+, and which is reasonably "positionable", as in something I can get to hover in place for short periods? (ie, a plane needs to fly straight to stay in the sky, so that doesn't work)
Keep in mind you said drone and not quadcopter. You could very easily buy a ready to run flying wing [1] with a 30 minute flight time out of the box for just $90. A flying wing is more more suitable for gas or jet A powered motors as the natural lift of the airframe shape keeps it up in the air and balanced. This design scales up linearly (see the B-2 bomber.)
I've hypothesized that a dirigible filled with helium or hydrogen could potentially stay up for days or weeks if you had a full carbon composite airframe with a well sealed mylar skin. Lift capacity wouldn't be as great but it's still a fun thought exercise.
[1] https://hobbyking.com/en_us/phantom-fpv-flying-wing-epo-airp...
Expect to pay more than $10,000 for an off the shelf solution. 10kg is a lot of weight for a commercial drone. Are you sure you need that much?
I'm mostly finding drones with multiple rotors and batteries thus far, not much that's like a more traditional "is a plane, has an engine" type of approach, which I suspect will net me a fair bit of flight time.
This is really just a thought experiment - I saw the thread and decided to throw the question out there as something I've been mildly curious about for some time. "Could I load up a bunch of stuff into something that looks like a (big) model plane, head down to the local park, hit 'go' and have it land near a friend's house in a couple hours?"
I'll admit I was kind of expecting $10k, although that is duly disappointing to learn nonetheless.
PM me for another great combination/consultation.
I haven't seen anything that fits those requirements in that price range.
Just getting a PixHawk flight controller so you can program the drone would cost that much. Same for a good radio transmitter to actually fly the drone.
I think DIY is out of the question at that price point.
That's a nice controller, but heavy and expensive, 37 grams and $75 according to amazon. My sub-250g build used a Naze32 which weighs about 4 grams without connectors and was $35. I flashed it with cleanflight from github
https://github.com/cleanflight/cleanflight
Presumably OP wanting to modify stuff will want FOSS like cleanflight.
This is of course ancient obsolete history because things move fast in multicopter world and that was like 6 months ago. Not even sarcasm. This advice was reasonably contemporary last fall, but this spring I donno.
OP will rapidly get into a scalability problem where I assume OP wants to do something interesting or complicated and aerospace is highly optimized so OP is likely to have much more success driving a flight controller as if it servos using a ras-pi or something, than trying to compile cleanflight to add Alexa to the cleanflight itself or whatever it is OP is trying to do.
Electronics have improved quite a bit. Back in the 80s we'd buy a $200 mosfet motor controller with a half pound heatsink and connect it to a $20 motor in your RC dune buggy (running off old fashioned nicads LOL) but now a days you attach a $11 no-heatsink controller to a $40 brushless motor and call it good. Of course you don't need a cooling fan if you have hundreds of watts of fan blowing on it from half an inch away...
Something to think about ops desire for a $100 multicopter is control electronics and surprisingly chassis and props and serial receivers are cheap, but I dropped $40 on EACH motor, by far the most expensive part of the build. Of course at 220 grams flying weight my build has the vertical acceleration performance of a large model rocket, which can be slightly terrifying when learning to fly, something lower performance but still flyable might be cheaper. I just thought it interesting that most of my build's money is in the motors, like about half of it.
If you're considering crazyflie, Flybrix is a programmable octocopter at $189. We are developing a camera module with onboard processing for optical flow, to release later this year. we are taking extraordinary pains to get a programmable drone with programmable computer vision at a reasonable price point.
A 15W solar panel is about three square feet, and probably weighs several pounds. A 15W quadcoptor is about two square feet and has a takeoff weight of less then three pounds.
You might be able to carry a small solar panel as a backup in case the copter runs out of power in a remote location, but it would have to sit for quite a while before it's ready to fly again.
Arduino lets you program it. Apm and multiwii are essentially arduino. Video is a bit tricky, but you can always transmit it back to your laptop and process however you like
10872233 - 8989411 = 1882822
Take for example, this open source chassis [1] that is based on the DJI Mavic (retail $1,000). Plenty of fun for those with the time and desire to take this even further.
At 150 its going to be quite hard to get all the features you are looking for. Even with DIY route you will need Motors, Controller, Camera, Transmitter etc. Easily 300+ bucks.
You'll also need all the ancillaries (receiver, batteries, charger, rc transmitter) although you'll need those anyway if you plan to fly outdoors in a safe manner.
Alternatively, if you want a ready to go solution which is good for indoor and limited outdoor use, the Parrot ARDrone [2] runs linux, has two cameras and has aftermarket firmware available from both Ardupilot and Paparazzi projects.
Be aware that if you intend to use your drone for 'work' or commerce you should check your local air regulator (FAA/CAA/CASA etc) to see whether you require any permissions or qualifications to legally operate.
2: https://www.parrot.com/uk/drones/parrot-ardrone-20-gps-editi...
[0] https://www.banggood.com/Hubsan-X4-H107C-2_4G-4CH-RC-Quadcop...
If you only need high-level access to a flight API - e.g. sending commands like "take off" and "forward 1m", then take a look at GoBot: https://gobot.io/documentation/platforms/ - they have a few quadcopters on their supported platforms list.
https://forums.hak5.org/index.php?/topic/39735-reversing-mav...
https://nrkbeta.no/2011/10/13/slik-bygger-du-ditt-eget-quadk...
http://www.asctec.de/en/uav-uas-drones-rpas-roav/asctec-humm...
It's hard to recommend anything without knowing the specifics of what you want to use it for
If you are trying to use the camera for some sort of remote processing, you'll need a vtx [7]
The thing no one is saying so far though, is be careful. Playing with your own balancing software on a quadcopter is an easy way to turn it into an unpredictable missile with an exposed blender attached. You will get hurt or someone else will get hurt. Do it inside and tether it down at first, that way the only day you ruin is your own
Here's a part list for you ($108 total):
- [1] Lisam-LS-210 Frame ($16): cheap, sturdy, lots of room for your stuff
- [2] Matek Power Distribution Board ($4): easy to run power to everything, plus it gives you 5v and 12v BEC for powering your other stuff like an Arduino
- [3] Omnibus Flight Controller ($25): runs cleanflight/betaflight open source flight controller software. That way you can choose whether you want to write your software on the controller or on your arduino
- [4] 4x 2205 2300KV brushless motors ($25): these will let you add a decent amount of stuff to your platform without it bogging down
- [5] 4x 20 amp esc's ($26): Needed for the brushless motors. They run BLHeli control software, so yet another thing you can fiddle with
- [6] camera ($12): simple camera, decent but not hd quality
[1] https://www.banggood.com/Lisam-LS-210-210mm-Carbon-Fiber-Fra...
[2] https://www.banggood.com/Matek-Systems-PDB-XT60-W-BEC-5V-12V...
[3] https://www.banggood.com/Betaflight-F4-Flight-Controller-STM...
[4]https://www.banggood.com/4X-Racerstar-2205-BR2205-2300KV-2-4...
[5] https://www.banggood.com/4-PCS-Racerstar-RS20A-Lites-20A-Blh...
[6] https://www.banggood.com/700TVL-2_8mm-Lens-100-Degree-Wide-A...
[7] http://www.banggood.com/TS5823S-Micro-VTX-5_8G-200mW-48CH-Mi...
All this is basically straight from this part list, but seems applicable
