The requested URL /forum/viewtopic.php?t=4200 was not found on this server.Skip to main content Download, and you're ready to flyFree Flight app, piloting a drone has never been so intuitive. Control your drone easily by tilting your tablet or smartphone. The AR Drone is stuffed with sensors that help ensure its stability. The landing and take-off phases, as well as some aerobatics, are automated; there's no easier way to fly like an ace! Download on the App Store Get it on Google Play Follow all of your flights with precision!Drone 2.0 GPS EditionDrone 2.0 Tutorial video #1 : SetupDrone 2.0 Tutorial video #2 : PilotDrone 2.0 Tutorial video #3 : Record To change your mind When you buy a drone by biludavis is licensed under the Creative Commons - Attribution - Share Alike license. If you print this Thing and display it in public proudly give attribution by printing and displaying this tag. Replacement propellers, gears, and clips to get your Parrot AR Drone up and flying again.

Or just make your drone look awesome by printing in new colors. The models of the propellors and gears are edited versions of models by ajolivette, bellbm and jingabar. I would like to thank these makers for all of the dedication they put into their models to help others. Remove damaged propellers and gears from drone by taking off clips and removing shaft Slide the new gears onto the shafts Attach the propellers to the gears on the shafts Reattach the new clips This is an in-browser 3D model of an AR.Drone that shows telemetry See a demo at http://wiseman.github.io/ardrone-browser-3d/ To run it with your drone, first do Then connect to your drone's wifi and start the app: Now point your browser at http://localhost:3000/, pick up your drone and make it dance. Alternately, if you don't have a drone handy, you can press the "Play" button on the page and watch the playback of some telemetry data I recorded with my drone.

Just a simple hack This is just a simple, ugly hack: Take the "ar drone 2.0 bleu" Sketchup by tototech and tweak it a little. modify it a bit. Really I just use it to get the navdata websocket, but this entire project could be a plugin for ardrone-webflight. Create a subclass of THREE.Object3D that knows how to transform rotations from the AR.Drone frame of reference/coordinate system into the three.js coordinate system:CGTrader - 3D Models / 3D Designers5 Sign inDescriptionParrot AR Drone 3D modelParrot AR Drone 2ar drone battery dies fast patible with 3ds Max 2012, 2013 and higher.contains two versions:ar drone 2 noise 1- simple with medium size diffuse textures(1024*1024) for games and simple usage with skcanline renderer. parrot ar drone blade replacement

this also comes as fbx. 2- one with generated textures and full materials with mentalray renderer.the model is sepreated into parts and groups of parts. Main Parts and Groups: 3-Fans(group for each fan) 4-UpperBody (outdoor cover / indoor cover)*don't forget to hide the cover that you are not going to use.The model was created using a real physical drone as a reference not just images. the model is rigged: 1- Fans are animatable you cantrol the speed from drone dummy controller.parrot ar-drone helicoptero 2- turn Leds on and off from the dummy controller.buy rc predator drone 3- the Drone is attached to the dummy controller you can use it for animation.dji drone stock market This model contains 41,575 polygons. ar drone 2 tuning

Previews rendered with Mental Ray. aerialairaircraftcameracamerasdroneelectronicsfbxotherphotosrobotshootingspyspyplanesurveillancetoyuavunmanned Email or usernamePassword Remember MeUsernameEmailPasswordBy registering you confirm, that you accept our Terms of Use, Content and Privacy Policy.So you’re a big fan of drones. But have you ever thought about a 3D printed drone? It’s not as crazy as it might sounds. Here are useful things you should now about it. While it’s not yet possible to fabricate electrical components like motors, sensors or even electronics – but watch this space – it’s entirely possible to 3D print drone parts like the frame, landing gear, and propellers. And these are usually the parts that break easily. Have we piqued your interest? Read about the pros and cons of 3D printed drones, plus a guide to the best resources to be found online. What‘s the benefit of 3D printed drones? If you’re not an experienced RC pilot, crashing and breaking parts of your aerial vehicle can be expensive.

Instead of buying new parts at a hobby shop, you can 3D print your own spare parts as needed. With your own 3D printer to hand, part designs can be easily upgraded and further developed to improve the performance of your quadcopter. On top of that, 3D printed drone parts are quickly interchangeable and you can do it yourself. You can even have the parts manufactured by a professional 3D printing service – if you want to get the best price for a special item, please consult All3DP’s price comparison service. Building your own RC vehicle out of 3D printed parts serves as a great opportunity to learn about how it works and how it reacts to modifications you make. First, 3D printing takes time. It can take up to several hours to print a small sized part of sufficient quality. Moreover, becoming an expert in 3D modeling and 3D printing requires skills you have to develop and practice. In the early stages, a beginner may experience frustration when designing the parts they need.

But don’t worry, there are plenty of tutorials online, plus websites where you can find. STL files of 3d printable drone parts which you can download and print without having to create them yourself. Other than the above, there aren’t many reasons why you shouldn’t just go ahead and 3D print your own parts! There are many resources online that not only offer 3D printed drone parts for existing makes and models, but also instructions how to build your own 3D printed drone parts. You’ll need to buy the electronic components in most cases, but a significant chunk of the parts can be fabricated on any 3D printer. Resources for 3D Printed Drones: Watch the amazing mechanism that moves the landing struts up when in mid-air (to lower the center of gravity) and down while landing… It’s a really sophisticated piece of design. Aside from vital components, there is a huge variety of extra things you can add to your quad-copter. There are functional accessories… and then less functional accessories.

One might make a flying Helicarrier from The Avengers movie out of their drone (which would be awesome). Others will stick to more practical applications like 3D printed propeller guards, cases for transportation and mounts for various cameras used on FPV drones (which is also awesome). The possibilities are limited only by your imagination. Parts you can 3D print range from optional accessories to add-on protective equipment like prop guards. The latter are useful for small indoor quadcopters like the Hubsan X4 and gear protectors for the very popular Parrot AR versions. Every part that will commonly bump into obstacles (including the ground) may need replacement at some point. If you 3D print drone spares, you won’t suffer from much downtime when this occurs. Of course, we’re not referring to mounting the drone onto something, that would be pointless. Rather, the idea is to mount accessories onto the drone. And if you’re planning on getting started with FPV drone racing, 3D printed parts like a camera mount as well as mounts for the live video transmitter or maybe an additional antenna holder are highly useful.

Elsewhere, the GoPro mount for the Phantom 2 lets you add the standard GoPro accessories onto your aerial vehicle. If you want to know more, please consult this article. There are many ways you can come up with iterations of existing parts that may or may not improve your drone – and it’s fun to experiment for sure! For different use cases, different designs will prove worthwhile. For the hobbyist that buys a fully assembled quadcopter (like the DJI Phantom or Inspire models), they’ll still appreciate a simple 3D printed range booster that, acting as a parabolic reflector with some metallic tape, will increase the range of the remote control threefold. Elsewhere, the tech enthusiast that builds his own drone from scratch can improve the accuracy of his onboard electronics by eliminating general shakiness with a 3D Printed Anti Vibration Mount, which still conducts major movements that come from actual changes in flight. Choosing the right material is vital, because every gram of weight will cost you flight time.

Because the heavier the drone, the faster the drain on the drone’s battery. At the same time, it would be foolish to try to navigate properly with a wobbly construction made from shoddy parts. There are many "high-grade” 3D printing filaments available. They are sold as extra-strong and durable alternatives to the widely used PLA and ABS. You can also spend extra cash on some enhanced filament spools with carbon fiber. So, should you print in nylon, PET or rather use some exotic stuff you haven’t even heard of yet? PLA is easy to work with, has no odor, and is cheap and widely available. However, it’s not UV or heat-resistant. ABS is tough and stable, lightweight, and has better temperature resistance. It’s also cheap and widely available. However, you need a heated print bed for optimal results, and there are the dreaded toxic fumes to consider. PLA / ABS-like filaments with fiberglass or carbon fiber are stable and rigid, but expensive. They require a heated print bed.