- published: 08 Oct 2015
- views: 80721
In this build / maiden flight video I’m building a octocopter for my own flight controller. Check my website for more information: http://www.brokking.net/rpas_main.html Watch the next part to see the carbon fiber upgrade: https://youtu.be/8A23UG0VPpo
We are getting closer and closer to being able to ride in drones. Some day soon we will be able to pull up an app like for example UBER AIR and request to be picked up on the roof of a hotel. A drone with 2 seats will show up and off you go! No pilot license needed. No pilot needed! Just get in and fly away. I spotted this octocopter at CES 2018 sitting in the front lot. Its body is made of carbon fiber so its strong and light weight. It has 8 props with 8 individual electric motors so it powerful. It runs on electricity but also has a gas powered engine to recharge the batteries so basically it doesn't need a charge station. Just a gas station. And the biggest surprise is that it has a ballistic parachute in case everything fails. Now that is a feature I wish all aircraft had. You c...
PLEASE USE THE YMFC-AL (AUTO-LEVEL) SOFTWARE: https://youtu.be/DYpHB-LfloI These videos are just for reference. The new software is much easier to setup and supports almost all transmitters. You can download the Arduino sketch here: http://www.brokking.net/ymfc-al_main.html
The YMFC-AL is an auto-leveling Arduino Uno based quadcopter that is easy to build and fun to fly. Auto leveling means that, when you release the sticks the quadcopter levels itself. This makes it much easier to fly. The YMFC-AL is not a high level flight controller. The purpose of the YMFC-AL is to provide a simple and understandable code that is needed to build an Arduino based auto-level quadcopter flight controller. Website: http://www.brokking.net/ymfc-al_main.html IMU part 1: https://youtu.be/4BoIE8YQwM8 IMU part 2: https://youtu.be/j-kE0AMEWy4
This video explains how to program your own inertial measurement unit, or IMU for short, that can be used for auto-leveling (self-balancing) a multicopter. No Kalman filters, no libraries, no difficult calculations, just a simple and easy to understand tutorial that explains how to build an IMU that can be used for auto-leveling a multicopter. Website and Arduino code: http://www.brokking.net/imu.html Part 2: https://youtu.be/j-kE0AMEWy4
Check out this easy tutorial on How To Make A Drone using Arduino. Hope you guys enjoy the video. Do not forget to Like, Share & Comment on the video. Arduino Code https://goo.gl/Axt9b8 Buy Stuff Here : Motor & ESC & Props : http://amzn.to/2epig3A Frame : http://amzn.to/2goxcj7 Receiver & Transmitter : http://amzn.to/2ynKreg Arduino Uno : http://amzn.to/2euMAgD MPU6050 : http://amzn.to/2wX4ZKN ____________________________________________________ Follow Indian LifeHacker on: Facebook : https://www.facebook.com/IndianLifeHacker Twitter : https://twitter.com/HackerIndian Website : indianlifehacker.blogspot.com ______________________________________________________ Arduino code source credit: Joop Brokking https://www.youtube.com/user/MacPuffdog music Credit : Song: Elektronomia - ...
Carrying the 1000W LED light bar underneath the Freefly Alta. We now sell drone lighting systems: https://www.stratusleds.com/aerial-leds/ Help support my YouTube channel: https://www.patreon.com/danielriley Filmed by: Henning Sandstrom Mike Hagadorn Cody Wratten John Lillquist Deniz Ozgoren Colter Merritt IG: Danielriley_ Cameras used: Arri Alexa Mini Sony FS700 & Shogun Sony A7sii RED Epic Dragon Music: Lakey Inspired - Fast Lane https://soundcloud.com/lakeyinspired/fast-lane Yuji LED: http://store.yujiintl.com/collections/frontpage/products/bc-series-cob-400hs?variant=488243517
How to make a home made DIY Arduino based quadcopter. Link to Arduino code + schematics: https://www.dropbox.com/sh/qcfd27buc7o9ep0/AAAjgNwChewsASVR9SUxpiUXa?dl=0 ------------------------------ Parts: Motors: 4x FC 28-22 (1200kv) ESC: 4x Hobbyking SS Series 15-18A ESC Battery: 2x ZIPPY Compact 3700mAh 3S 25C Props: 4x 10x4.5 SF Props 2CW+2CCW Radio-controller: Hobby King 2.4Ghz 6Ch V2
Questions? Visit the YMFC-3D V2 website: http://www.brokking.net/ymfc-3d_v2_main.html Check the $150 hardware list on this page (click question 8) : http://www.brokking.net/ymfc-3d_v2_qanda.html You think that building a DIY Arduino based quadcopter is difficult? Think again. I made the YMFC-3D V2 flight controller software so everybody can build their own Arduino quadcopter and having a great learning experience. School project, just for fun or something to build with you kids? No fancy or difficult software. Easy build, easy setup and fun to fly.
The Voliro hexacopter has been developed, assembled and programmed as a student project at ETH Zurich. It has the unique capability of being able to hover in any arbitrary orientation, even vertically or upside down. Unlike standard multicopters, the position and the orientation are completely decoupled and can be steered independently. This is achieved by six additional tilting motors which allow the rotor units to turn around its axes. The Voliro hexacopter is a platform which expands the potential of conventional drones and allows many future applications. As it can fly vertically, it could also drive with a chassis on a wall and perform tasks like bridge inspection or creating paintings on the wall. Please support us for the public European drone hero award by voting at: http://woo...
The Omnicopter - an omni-directional six degrees-of-freedom flying machine In this video, we present a novel six degrees-of-freedom aerial vehicle. Based on a static force and torque analysis for generic actuator configurations, we have derived an eight-rotor configuration that maximizes the vehicle's agility in all directions. The resulting vehicle possesses full force and torque authority in all three dimensions, allowing it to fly novel maneuvers. For more details, please refer to the research paper "Design, Modeling and Control of an Omni-Directional Aerial Vehicle", IEEE International Conference on Robotics and Automation (ICRA), 2016: http://flyingmachinearena.org/wp-content/publications/2016/breIEEE16.pdf. * Researchers Dario Brescianini and Raffaello D'Andrea Institute for Dynami...
Full Arduino based drone. The tutorial is divided in a few parts. In this video I build the flight controller using the Arduino NANO and the MPU6050 gyro//accelerometer. To program the flight controller I've used the multiwii platform. Wait for the next parts, the radio receiver/transmitter and the final drone build. Help my projects on Patreon : https://www.patreon.com/ELECTRONOOBS my Q&A page: http://electronoobs.com/eng_preguntas.php ------------------COUPONS-------------------- Crealitu CR10: https://www.gearbest.com/3d-printers-3d-printer-kits/pp_441282.html?lkid=11382974 Coupon code: "11CR10EU" Creality CR10 MINI: https://www.gearbest.com/3d-printers-3d-printer-kits/pp_778274.html?lkid=11814180 COUPON: CR10MINI Anet E10: https://www.gearbest.com/3d-printers-3d-printer-kits/pp_6...
Thanks to Audible for supporting our channel. Get a free 30 day trial at http://www.audible.com/Computerphile Creating 3D models with an Octocopter, a camera and some custom software. Christian Mostegel, Research Assistant at TU Graz in Austria explains some of the technology behind the 3D Pitoti Project. More about 3D Pitoti: http://bit.ly/computerphile_rockscanner Finite State Automata: https://youtu.be/vhiiia1_hC4 CPU vs GPU: https://youtu.be/_cyVDoyI6NE 3D Rock Art Scanner: https://youtu.be/Ahdnkj77rAY Brain Scanner: https://youtu.be/TQ0sL1ZGnQ4 http://www.facebook.com/computerphile https://twitter.com/computer_phile This video was filmed and edited by Sean Riley. Computer Science at the University of Nottingham: http://bit.ly/nottscomputer Computerphile is a sister project t...
Don’t forget to visit my website: http://www.brokking.net In this video I’ll show you the carbon fiber upgrade of my personal designed octocopter. Previous video: https://www.youtube.com/watch?v=G52LtnBRG5w Weight without batteries: 1210 grams. Weight with two 3S/3800mAh/20C batteries: 1830 grams. Flight time without payload: 23 minutes (hover / no wind). Motor diagonal: 700mm.
Here i show you a short log of the build, programming and the first test flights of an octocopter made out of aluminium rails and the APM Flight control You can buy the APM 2.6 Flight control here : http://amzn.to/1PzqSBZ Please subscribe and Like for more :)
Looking at the sky and seeing a whole lot of sky…… but no octocopter. We all seen the DJI Phantom and Inspire 1 flyway’s. But this can also happen when you are not paying attention and accidentally flip the wrong switch on your transmitter. See the build of this octocopter here: https://www.youtube.com/watch?v=G52LtnBRG5w And the playlist: https://www.youtube.com/watch?v=lW7NbzqJ_5w&list=PL0K4VDicBzsgMF4rrGlGWlBwrtJMf0Dmp
This video explains how to program your own inertial measurement unit, or IMU for short, that can be used for auto-leveling (self-balancing) a multicopter. No Kalman filters, no libraries, no difficult calculations, just a simple and easy to understand tutorial that explains how to build an IMU that can be used for auto-leveling a multicopter. Part 1: https://youtu.be/4BoIE8YQwM8 The Arduino sketch and a detailed parts list that I used during this video can be found on my website: http://www.brokking.net/imu.html
The first flying blocks that allow you to build your dream aircraft/hovercraft to control and program.Back our project on Kickstarter now: https://www.kickstarter.com/projects/1818505613/airblock-the-modular-and-programmable-starter-dron
PLEASE USE THE YMFC-AL (AUTO-LEVEL) SOFTWARE: https://youtu.be/DYpHB-LfloI These videos are just for reference. The new software is much easier to setup and supports almost all transmitters. You can download the Arduino sketch here: http://www.brokking.net/ymfc-al_main.html Arduino Bit Math Tutorial: http://playground.arduino.cc/Code/BitMath ATmega328 Manual: http://www.brokking.net/YMFC-3D/YMFC-3D_ATmega328_manual.pdf ATmega328 pinout diagram: http://www.brokking.net/YMFC-3D/YMFC-3D_ATmega328_pinout_diagram.png You can download the Arduino sketch here: http://www.brokking.net/ymfc-3d_downloads.html
PLEASE USE THE YMFC-AL (AUTO-LEVEL) SOFTWARE: https://youtu.be/DYpHB-LfloI These videos are just for reference. The new software is much easier to setup and supports almost all transmitters. You can download the Arduino sketch here: http://www.brokking.net/ymfc-al_main.html The schematic: http://www.brokking.net/YMFC-3D/YMFC-3D_schematic.jpg More information on level converters: http://playground.arduino.cc/Main/I2CBi-directionalLevelShifter
The LEVEL mode seems good but in giro only, it tends to lean back even if the giros are calibrated. Also the octocoptex flat X code seems to have a bug on YAW authority, twitches and jumps on yaw, see at the end the propeller test. ITG 3205 giro, ADXL345 accelerometer, HMC5883 magnetometer, Mediatek GPS, BMP085 baro. More amazing aerial photos and videos on http://www.fotografieaeriana.eu Meet us on FaceBook http://www.facebook.com/filmare.fotografie.aeriana
Building my own quadcopter controller software based on a Arduin Uno. The program is 100% my own work without the use of existing programs or software. In this video i'm testing the GPS hold an return to home function of my multicopter controller. The program and hardware is built from scratch, 100% my own work without the use of existing programs or software. So no Aeroquad or MultiWii software. More information about the build (Dutch): http://www.modelbouwforum.nl/forums/multicopters-bouwverslagen/204886-bouwverslag-zelfbouw-flight-controler-op-basis-van-arduino-uno.html
Arduino UNO is used as the control Board or Flight controller of this Quadcopter. Buy Quadcopter Kit(Arduino, Battery not included)-http://amzn.to/2oDBmHa Code and Schematics- http://rztronics.com/arduino-flight-controller-for-your-quadcopter/ These Motors are connected to speed controllers which are being inputted with the PWM signals through Arduino.The Flight controller consists of the PID algorithm to control ESC's.The MPU6050 Module (GY-521) is used to sense the orientation of the Quadcopter.It also consists a magnetometer for proper directions.A transmitter is used to control the throttle, Pitch, Roll, and Yaw. I am trying to add some more features to it, Like a sonar sensor to sense Height.Also finding some Better Motor Replacements for my A2212's. Instagram-https://www.insta...