Difference between revisions of "Multi-rotor"
(a few people using Arduino in their quadcopters) |
(a few people using ARM processors in their quadcopter) |
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* [http://www.google.com/#q="Real-time+stabilization+of+an+eight-rotor+UAV+using+optical+flow" Google: "Real-time stabilization of an eight-rotor UAV using optical flow"] | * [http://www.google.com/#q="Real-time+stabilization+of+an+eight-rotor+UAV+using+optical+flow" Google: "Real-time stabilization of an eight-rotor UAV using optical flow"] | ||
* kapteinkuk built a low-cost quadrotor flight stabilizer based on a Atmel AVR ATMega48 [http://www.rcgroups.com/forums/showthread.php?t=1143569]; connected to a standard RC receiver, 3 gyros with ordinary analog output, and 4 ESCs. That's all the electronics. | * kapteinkuk built a low-cost quadrotor flight stabilizer based on a Atmel AVR ATMega48 [http://www.rcgroups.com/forums/showthread.php?t=1143569]; connected to a standard RC receiver, 3 gyros with ordinary analog output, and 4 ESCs. That's all the electronics. | ||
+ | * the Quadrotto project[http://docwiki.gumstix.org/index.php/Customer_projects#Quadrotto] uses an ARM-based gumstix + an Atmel AVR ATMega128-based robostix | ||
+ | * Project Quadcopter [http://quadcopter.wordpress.com/] "altimeter is ... not our only altitude sensing device. We ... plan ... an ultrasound sensor for landing and low altitude flights. ... they work pretty well out to about 4 or 5 feet." ... apparently using an ARM cortex-m3 microcontroller | ||
* ArduPilot [http://www.diydrones.com/profiles/blogs/ardupilot-main-page] is a full-featured autopilot based on the Arduino open-source hardware platform. It uses infrared (thermopile) sensors or an IMU for stabilization and GPS for navigation. Optionally uses XBee modules for wireless telemetry. Jose Julio at DIY Drones [http://www.diydrones.com/profiles/blog/list?user=3n7oxlg4fanvy] uses it in his two quadcopters. He uses 4 standard props (No counter-rotating !). | * ArduPilot [http://www.diydrones.com/profiles/blogs/ardupilot-main-page] is a full-featured autopilot based on the Arduino open-source hardware platform. It uses infrared (thermopile) sensors or an IMU for stabilization and GPS for navigation. Optionally uses XBee modules for wireless telemetry. Jose Julio at DIY Drones [http://www.diydrones.com/profiles/blog/list?user=3n7oxlg4fanvy] uses it in his two quadcopters. He uses 4 standard props (No counter-rotating !). | ||
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Revision as of 09:15, 20 April 2010
A multi-rotor helicopter is a flying vehicle with more than one rotor.
The nice people at http://www.quadheli.com/ have asked for our help designing and building a multi-rotor helicopter.
Several people are using small unmanned helicopters with 4 rotors ("quadheli" or "quadcopter").
goals
motors and propellers
frame
camera
electronics
testing
BLDC
It appears that most modern small electric aircraft use so-called "brushless DC motors", each one driven by its own "BLDC ESC". (These are easily recognized -- BLDC motors have exactly 3 equally-fat wires that go into them, which come from the BLDC ESC -- as opposed to most electric aircraft a few years ago, which used brushed DC motors with exactly 2 equally-fat wires).
While it is probably not cost-effective to build your own BLDC motor or BLDC ESC, many of us are insatiably curious about what goes on inside these things, and so build one anyway:
- Wikipedia: brushless DC electric motor
- Atmel AVR444: Sensorless control of 3-phase brushless DC motors using ATmega48 (also works without change for ATmega88 and ATmega168). Assumes you've already read Atmel AVR443: Sensor-based control of three phase Brushless DC motor
- AVR194: Brushless DC Motor Control using ATmega32M1: BLDC motor control application using Hall effect position sensors to control commutation sequence.
- MikroKopter: brushless motor controller was designed to give lower latency than off-the-shelf PWM ESCs.
- OpenServo: Brushless DC Servo "The thing that will make our board different from other ESC's is that we are closing the feedback loop with a ... outside position reference."
unsorted
way too many links here. Please delete the ones not relevant to multi-rotor helicopters.
- Wikipedia: quadrotor is a nice introduction. But what are these "three rotor craft" it mentions? (TriCopter? Tri-copter?)
- the OpenPilot Wiki [1]: open source community
- The Gluonpilot wiki (autopilot) mentions "Quadrocopter" [2]
- MikroKopter wiki [3] semi-open-source "for noncommercial use"
- QC-Copter Wiki [4] : updates all motor speeds at 500 Hz.
- the NG Multikopter Project wiki [5]: a open source community project to build a modern autonomously flying Multicopter.
- the Wolferl Open Source QuadCopter (Universal Aerial Video Platform) wiki [6]. Apparently NS Rana at DIY Drones uses it in a very low-cost-frame quadcopter[7].
- QuadroCopter Wikia [8]
- ARM-o-Kopter wiki [9]
- comparing some currently known projects of airborne non-commercial or open community projects of multicopters[10]
- DIYdrones: "There are a zillion quad- and tri-copters out there" [11]
- DIYdrones: Quadcopters discussion forum [12]
- DIYdrones: Return to Home Quadrocopter (UAVX) [13]
- DIYdrones: "There are loads of open source quadcopters out there, but they're all ..." [14] Is it possible to design a helicopter that avoids this problem?
- the "ChRoMicro - Cheap Robotic Microhelicopter HOWTO" [15], [16] describes "how to build a 300 g helicopter with embedded Linux and Bluetooth datalink from off-the shelf components for less than 500 EUR." Can these ideas be adapted to helicopters with more rotors?
- Quadrotto: Project Quadcopter [17], [18]. Is there any way to avoid making the same mistakes all over again, and instead make fresh new mistakes? :-).
- RCgroups: Multi Rotor Helis discussion forum [19]
- AeroQuad discussion forum [20]: dedicated to the design and construction of the AeroQuad, a remote controlled four rotor helicopter ... that uses the Arduino (Mega or Duemilanove with 328P) microcontroller as the flight control board, with a "AeroQuad Shield" that connects to all the other electronics -- radio receiver, gyros, accelerometers, and off-the-shelf ESCs. An excellent tutorial showing how it all goes together with whatever frame you have; it claims "A good motor-to-motor distance to start with is around 60cm." (2 foot)
- microdrones [21]
- whatnick blog: "quadcopter taking shape"; and other quadcopter posts ... he apparently has a Gumstix Verdex and a BeagleBoard -- are either one of these going on the quadcopter?
- WSN wiki: wireless sensor node platforms -- perhaps we could use one of these boards for our wireless communication, or perhaps make incremental improvements, rather than designing yet another one from scratch?
- Dr. Igor Bensen designed the eight rotor helicopter on the front page of Popular Mechanics 1982 September.
- "Real-time+stabilization+of+an+eight-rotor+UAV+using+optical+flow" Google: "Real-time stabilization of an eight-rotor UAV using optical flow"
- kapteinkuk built a low-cost quadrotor flight stabilizer based on a Atmel AVR ATMega48 [22]; connected to a standard RC receiver, 3 gyros with ordinary analog output, and 4 ESCs. That's all the electronics.
- the Quadrotto project[23] uses an ARM-based gumstix + an Atmel AVR ATMega128-based robostix
- Project Quadcopter [24] "altimeter is ... not our only altitude sensing device. We ... plan ... an ultrasound sensor for landing and low altitude flights. ... they work pretty well out to about 4 or 5 feet." ... apparently using an ARM cortex-m3 microcontroller
- ArduPilot [25] is a full-featured autopilot based on the Arduino open-source hardware platform. It uses infrared (thermopile) sensors or an IMU for stabilization and GPS for navigation. Optionally uses XBee modules for wireless telemetry. Jose Julio at DIY Drones [26] uses it in his two quadcopters. He uses 4 standard props (No counter-rotating !).