Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at...
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![Page 1: Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at Rochester Institute of Technology Jason Grow – BS/MS Graduate.](https://reader030.fdocuments.net/reader030/viewer/2022032703/56649d2a5503460f949fe25d/html5/thumbnails/1.jpg)
Rochester Institute of Technology Kate Gleason College of Engineering
MAV and UAV Research atRochester Institute of Technology
MAV and UAV Research atRochester Institute of Technology
Jason Grow– BS/MS Graduate of RIT– 2003-2004 MAV Team Lead– Boeing Phantom Works, HB– 714-372-9026– [email protected]
Andrew Streett– 5th year BS/MS Student– 2005-2006 MAV Team Lead
![Page 2: Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at Rochester Institute of Technology Jason Grow – BS/MS Graduate.](https://reader030.fdocuments.net/reader030/viewer/2022032703/56649d2a5503460f949fe25d/html5/thumbnails/2.jpg)
© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
Outline• Introduction of MAV and UAV
• RIT Mechanical Engineering – Projects, Facilities and Research
• RIT MAV/UAV Integration Road Map and Research Thrusts
• MAV Research
• UAV Research
• 2005-2006 MAV/UAV Objectives
• Sponsorship Needs
![Page 3: Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at Rochester Institute of Technology Jason Grow – BS/MS Graduate.](https://reader030.fdocuments.net/reader030/viewer/2022032703/56649d2a5503460f949fe25d/html5/thumbnails/3.jpg)
© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
History of MAV / UAV
• DARPA (1993) contracted Aerovironment to produce a MAV that had maximum linear dimensions of 6 inches
• Designed and built the Black Widow
• 1996 – International MAV Competition began for Universities• UF, UA, Notre Dame, Brigham Young
• This will be the 4th year that RIT has been involved in this research
• Endurance - 30 min
• Range – 1.8 km
• Video
• Flight Data – Heading, Speed, etc.
• UAV’s have become the next generation of intelligence
• Military and Civilian
• Military – Globalhawk and Aerovironment Pointer
![Page 4: Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at Rochester Institute of Technology Jason Grow – BS/MS Graduate.](https://reader030.fdocuments.net/reader030/viewer/2022032703/56649d2a5503460f949fe25d/html5/thumbnails/4.jpg)
© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
R.I.T. Mechanical Engineering• Mechanical Engineering Students
• ~120 students per year• Variety of Concentrations offered
• Aerospace• Automotive• Bio-Engineering• Energy and Environment
• Mandatory Co-op (Significant presence with Boeing and other large corporations)
• Multi-Disciplinary Capstone Projects• Involves integrating senior design projects from all Engineering majors
• Mechanical, Electrical, Computer, Industrial and Software Engineering• Introduces program management, design process, etc.• System of System Engineering
• Graduate Programs• BS/MS Program• Controls, Thermo/Fluids and Structures Concentrations• Research funded by department and major corporations
• Boeing, Delphi, Kodak, Xerox, Borg-Warner, Valeo, General Mills, Sentry Safe and more…
![Page 5: Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at Rochester Institute of Technology Jason Grow – BS/MS Graduate.](https://reader030.fdocuments.net/reader030/viewer/2022032703/56649d2a5503460f949fe25d/html5/thumbnails/5.jpg)
© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
M.E. Projects and Research • Projects
MAV/UAV SAE Formula One NASA Moonbuggy Team AIAA/SAE Aero Design Team
• Facilities Aero Lab Composites Lab Windtunnel MicroE Clean Room EE Labs
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
Under-graduate
Research & Design
GraduateResearch
Multi-DisciplinaryProjects
ME Labs and Facilities
• Aerospace Program
• Labs and Capabilities
• MAV/UAV Research
RIT Mechanical Engineering
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
Aero Lab
• Home of the SAE Aero Team
• Participates in the SAE Heavy Lift Competition
• 12 years of experience
• Allows students to get hands on experience
• Composites, team dynamics, design and build process, etc.
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
R.I.T. Composites Lab• Experience
RIT > 5 years Programs
MAV, UAV and Aero Moon-buggy Research SAE Formula Multiple Senior Design Projects
• Capabilities Material Testing
Tensile, Torsional and Vibration
• Classes Intro to Composite Materials Advanced Composite Materials
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
R.I.T. WindtunnelClosed Loop
Subsonic Wind Tunnel
• Ideal wind tunnel for MAV/UAV testing– 21” x 29” x 48” test section– Sustain speeds from 13 to 120 mph
• Load cell sting balance capable of both static and dynamic measurements of lift, drag, and pitching moment; variable angle of attack
• Resolution to ± 0.1 grams• Thrust Stand for dynamic propeller
testing• Fully Automated Lab-View Interface• Variety of projects have utilized
– Formula, graduate work, etc.
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
Aerospace Materials and AviationTechnology Laboratory (AMATL)
Student performs dye penetrant inspection on a horizontal stabilizer
• The AMATL merges a need for advanced materials analysis and the knowledge of aerospace structures into an interactive laboratory environment
• RIT is creating a Light-Sport Aircraft inspection course that will use full-scale aircraft.
– The 16-hour course gives students an “FAA accepted” completion certificate convertible to a Repairman certificate with inspection rating
• Can be used to perform legal inspections on Experimental Light Sport Aircraft (ELSA)
• Aerostructures in the lab will be used for NDE and aging aircraft structure research
• Undergraduates will apply statics and design of machine elements principles in “mini labs” offered at the AMATL
The lab currently has two full-scale Light Sport Aircraft:< 1320 lbs.< 120 kts. max cruise speedNo more than two passengers
• All RIT Mechanical Engineering undergraduates will experience 1 – 2 day labs in the AMATL in:
– Statics– Design of Machine Elements– Materials Science
• Some will experience more:– Aerostructures– Fatigue and fracture
• Outreach includes– Girl scout aerospace badge program– Boy scouts– 1 – 3 day experiences for middle school students
• Inspection certification for outstanding HS and Vo-Tech students
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
Current M.E. Research Thrusts • Micro Air Vehicle Platform (MAV)
– RIT Imaging Science and ME funded platform research– Going into 4th year of research– Attend International MAV Competition every year
• Unmanned Aerial Vehicle (UAV)– RIT Imaging Science and ME funded platform
research– Concentrate on Stability Augmentation Systems
– Inertial/GPS NAV, Stable Flight, Obstacle Avoidance, Advanced Communications
– Project will investigate new and advanced technologies for airframe capability
– UAV systems into MAV systems
• Micro-Turbine– Produces power from a high pressure source– 5 Watt source under 50 grams– Package can be integrated on UAV
– Produce electrical power or propeller power
• Inertial Navigation
![Page 12: Rochester Institute of Technology Kate Gleason College of Engineering MAV and UAV Research at Rochester Institute of Technology Jason Grow – BS/MS Graduate.](https://reader030.fdocuments.net/reader030/viewer/2022032703/56649d2a5503460f949fe25d/html5/thumbnails/12.jpg)
© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
R.I.T. MAV/UAV Road Map
StabilityAugmentation
System
Inertial Navigation System
Peer to Peer Communications
MAVPlatform
UAVPlatformObstacle
AvoidanceSystem
Micro Turbine
Alternative Power: Micro-Fuel Cell, Photovoltaic Cells
Advanced Composite & Manufacturing
1 year 2 year 3 year 4 year 5 year
Orinthopter
Smart Airframe: Morphable Surfaces, etc.
Hovering (Hybrid) Capability
Customer:• RIT Imaging Science• ???
Advanced Electronics
10 year
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
Previous MAV Research
Vehicle Performance
– Flight duration = 9 minutes
– Flight range = 450 meters
Swappable Payload ~ 20g
Overall mass ~ 90 g
Vehicle Dimensions
– 12” Span
– 6” Root Chord
– 4” Tip Chord
– AR = 2.32
Capability
– Black and White Video
Vehicle Performance– Flight duration = 11 minutes
– Flight range = 600+ meters
Swappable Payload ~ 40g
Overall mass ~ 183 g
Vehicle Dimensions– 18.5” Span
– 7.3” Root Chord
– 3.5” Tip Chord
Capability– Color Video
2003-2004 2004-2005
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
UAV Research
• Mechanical Engineering supports the Center for Imaging Science (CIS) in the design and construction of airborne platforms• Design goal:
• Carry a 3 lb. payload autonomously for fire detection• 6” x 6” x 33” payload bay• Two-year project
• 2004 – 2005: Successful flights of a hand launched, all electric UAV
– Flight of 20 minutes duration– Successful belly landing– A capable, remote launching and landing surveillance vehicle
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
2005-2006 MAV Platform Energy Source:- Batteries
Advanced Structures:- Composite Fuselage & Wings- Advanced Materials- Manufacturing Techniques
Morph-able control surfaces:Piezo-electricSmart Material
Propulsion: - Ducted Fan/Motor
Electronics:
- Video
- GPS
- Stability Augmentation ??
Endurance: 16 mins
Range: 850 m
Competitive Presence at International MAV Competition
Graduate Research Projects:• Leading Edge Control Surfaces• Control with Smart Materials
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
• Extend Range - Use of PV technology• Quiet UAV• 30 lb. payload capacity• Autonomous surveillance• More plans are pending…..
Future UAV work
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© 2005 Rochester Institute of Technology Kate Gleason College of Engineering
What RIT needs to step forward?
• Budget Assistance• Materials
• Composite Tools and Material• Electronics: Video, GPS, Controls, etc.• Misc.: Balsa, Composite Tape, Foam, Mold Materials, etc.
• Lab Assistance• Improved lab capability• Instrumentation• AMATL Lab
• Design Input• Boeing’s UAV outlooks• Assist Boeing with R&D