Difference between revisions of "User:CSU-FCUAV"

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The increasing interest in practical fuel cell powered UAVs motivated research into design methods for fuel cell powered aircraft.  The purposes of the design studies are 1) to characterize the design tradeoffs and optimal configurations of aviation-specific fuel cell powerplants, 2) to compare the performance of fuel cell aircraft to conventional aircraft, and 3) to function as a preliminary design tool in a development process for a fuel cell UAV.
The increasing interest in practical fuel cell powered UAVs motivated research into design methods for fuel cell powered aircraft.  The purposes of the design studies are 1) to characterize the design tradeoffs and optimal configurations of aviation-specific fuel cell powerplants, 2) to compare the performance of fuel cell aircraft to conventional aircraft, and 3) to function as a preliminary design tool in a development process for a fuel cell UAV.


== CSU-FCUAV Team Blog ==


'''April 1, 2009:'''
The design process has been started on the modified [http://www.blue-airlines.com/explorer.htm Blue Airlines Explorer].  Currently, CAD modeling is being done on the major components of the build so we can do a systems layout of the fuel cell power plant components and start working on a fuselage to hold everything.  The second Paparazzi autopilot was received and an airframe file has been started for the new plane.
Read more: [[CSUBlog]]


== Hobby Lobby Senior Telemaster ARF Autopilot/Sensor Mule==
== Hobby Lobby Senior Telemaster ARF Autopilot/Sensor Mule==


[[Image:CSUTelemaster.JPG]]
[[Image:CSUTelemaster.JPG]]
This aircraft was our first to be integrated with the Paparazzi Autopilot.  It is now used as a test platform for new flight plans, equipment, and sensors.  Recently we were able to repeatedly runway land this aircraft under autopilot control.  Soon we will test autonomous take off.  Current work includes the development of a direct IR replacement IMU to be used in other aircraft.


'''Specs:'''
'''Specs:'''
Line 26: Line 22:
Airframe: Hobby Lobyy Senior Telemaster ARF
Airframe: Hobby Lobyy Senior Telemaster ARF


RX: Modified Futaba R617FS
RX: Futaba R6014FS to PPZUAV PPM Encoder


Autopilot: Tiny 2.11 LEA-5H from PPZUAV
Autopilot: Tiny 2.11 LEA-5H from PPZUAV
Line 34: Line 30:
IR: PPZUAV IRV and IRH Sensors
IR: PPZUAV IRV and IRH Sensors


Extras: AttoPilot Current Sensor (IP)
Extras: Spartan DS760 AVCS Gyro




'''Associated Files:'''
'''Associated Files:'''


Airframe:  
Airframe: [[CSU_Telemaster]]
 
Heading Hold Gyro: [[CSU_SpartanDS760]]




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[http://www.youtube.com/watch?v=byjTX09vLNI Flight 3 Video]
[http://www.youtube.com/watch?v=byjTX09vLNI Flight 3 Video]


== Blue Airlines Explorer ==
== Long Endurance Hand Launchable Man Packable UAV ==
 
[[Image:CSU_MPUAV.jpg]]
 


Status: Design Stage
This aircraft was designed with the help of a Powertrain Design and Optimization Tool developed by Colorado State University to provide enough thrust for hand launchability and high efficiency cruise.  Initial flight and hardware in the loop simulation suggest the aircraft is capable of greater than three hours endurance.


Airframe: Blue Airlines Explorer
Current work on this aircraft includes building a better, stronger wing to handle the overspeed conditions experienced in test flights as well as a final long endurance flight.


RX: Futaba R617FS, Futaba R6014FS to PPZUAV PPM Encoder
 
'''Specs:'''
 
Status: Rebuild
 
Airframe: CSU MPUAV
 
RX: Modified Futaba R617FS


Autopilot: Tiny 2.11 LEA-5H from PPZUAV
Autopilot: Tiny 2.11 LEA-5H from PPZUAV
Line 65: Line 73:




'''Associated Files:'''
Airframe: [[CSU_Telemaster]]
'''Media:'''
[http://www.youtube.com/watch?v=mJHMrWltcy4 First Hand Launch Attempt]
[http://www.youtube.com/watch?v=FjzURBxRLws Second Hand Launch Attempt]
[http://www.youtube.com/watch?v=pxJ1bWzmUkA Second Hand Launch Attempt Crash Feed]
[http://www.youtube.com/watch?v=c2yUffSuJ60 Crash Aftermath]
[http://www.youtube.com/watch?v=-mbEqAVP2-E Maiden Flight]
== Vertical Take-Off and Landing UAV ==
After going to the RC field a few times we decided one project we would like to attempt is use an IMU to provide sensor input for a hovering fixed wing aircraft to accomplish vertical take-off and landing.  Currently, the ARF has been assembled and tested.  The next step is the development of the IMU for IR sensor replacement and a landing tripod attached to the aircraft.  Once flight testing has been completed with the landing tripod, a Paparazzi autopilot will be installed.
Status: Build
Airframe: [http://www.hangar-9.com/Products/Default.aspx?ProdID=HAN4210 Hangar 9 Twist 60]
RX: Futaba R6014FS to PPZUAV PPM Encoder


== Contact Information ==
== Contact Information ==

Latest revision as of 07:45, 3 August 2010

CSU - Long Endurance Flight Team

CSUFCUAV.jpg


The long endurance unmanned aerial vehicle (UAV) has significant value as a low-cost, autonomous reconnaissance and remote sensing platform for research, commercial and military missions. Fuel cell powerplants are of interest in this application because of the potential to construct powerplants of high specific energy, low noise, low thermal signature, and improved environmental compatibility.

Because of these performance advantages, fuel cells have recently found their first aviation applications as powerplants for small-scale long-endurance and long-range UAVs.

The increasing interest in practical fuel cell powered UAVs motivated research into design methods for fuel cell powered aircraft. The purposes of the design studies are 1) to characterize the design tradeoffs and optimal configurations of aviation-specific fuel cell powerplants, 2) to compare the performance of fuel cell aircraft to conventional aircraft, and 3) to function as a preliminary design tool in a development process for a fuel cell UAV.


Hobby Lobby Senior Telemaster ARF Autopilot/Sensor Mule

CSUTelemaster.JPG

This aircraft was our first to be integrated with the Paparazzi Autopilot. It is now used as a test platform for new flight plans, equipment, and sensors. Recently we were able to repeatedly runway land this aircraft under autopilot control. Soon we will test autonomous take off. Current work includes the development of a direct IR replacement IMU to be used in other aircraft.

Specs:

Airframe: Hobby Lobyy Senior Telemaster ARF

RX: Futaba R6014FS to PPZUAV PPM Encoder

Autopilot: Tiny 2.11 LEA-5H from PPZUAV

Link: XBee Pro 2.4 GHz

IR: PPZUAV IRV and IRH Sensors

Extras: Spartan DS760 AVCS Gyro


Associated Files:

Airframe: CSU_Telemaster

Heading Hold Gyro: CSU_SpartanDS760


Media:

Flight 1 Video

Flight 2 Video

Flight 3 Video

Long Endurance Hand Launchable Man Packable UAV

CSU MPUAV.jpg


This aircraft was designed with the help of a Powertrain Design and Optimization Tool developed by Colorado State University to provide enough thrust for hand launchability and high efficiency cruise. Initial flight and hardware in the loop simulation suggest the aircraft is capable of greater than three hours endurance.

Current work on this aircraft includes building a better, stronger wing to handle the overspeed conditions experienced in test flights as well as a final long endurance flight.


Specs:

Status: Rebuild

Airframe: CSU MPUAV

RX: Modified Futaba R617FS

Autopilot: Tiny 2.11 LEA-5H from PPZUAV

Link: XBee Pro 2.4 GHz

IR: FMA IRV and IRH Sensors


Associated Files:

Airframe: CSU_Telemaster


Media:

First Hand Launch Attempt

Second Hand Launch Attempt

Second Hand Launch Attempt Crash Feed

Crash Aftermath

Maiden Flight

Vertical Take-Off and Landing UAV

After going to the RC field a few times we decided one project we would like to attempt is use an IMU to provide sensor input for a hovering fixed wing aircraft to accomplish vertical take-off and landing. Currently, the ARF has been assembled and tested. The next step is the development of the IMU for IR sensor replacement and a landing tripod attached to the aircraft. Once flight testing has been completed with the landing tripod, a Paparazzi autopilot will be installed.


Status: Build

Airframe: Hangar 9 Twist 60

RX: Futaba R6014FS to PPZUAV PPM Encoder

Contact Information

Dr. Thomas H. Bradley

Mechanical Engineering

Colorado State University

E: thomas.bradley@colostate.edu