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Judy M Thoroughman
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M&AE Spring 2017 MEng Orientation
MEng Project Offerings for Spring 2017
A tower with which to study the dynamics of rainfall
Autonomous Artistic Behaviors for RobotArt Competition
Combustion Dynamics of Transportation Fuel Droplets
Create an Innovative Modular Robotics Platform Products and an R2-D2 in the Cornell Cup
Demonstration of inflated DEA actuators through foldable robots
Design a portable device to measure real-world fuel consumption and CO2 emissions
Design of a More Energy Efficient Ink Jet Printer
Develop an organ culture system to investigate the tendon injury and remodeling in vitro
Flow and wakes in complex terrain
Smart city sensing network design
Social Robot Companion
Thermal Decomposition of Organic Liquids in a Self-asembled Reactor
Thin Walled Carbon Fiber Tubes
Wearable Robotic Arm
11 more child pages
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M&AE Spring 2017 MEng Orientation
MEng Project Offerings for Spring 2017
Page Information
Title:
MEng Project Offerings for Spring 2017
Author:
Judy M. Thoroughman
Jan 11, 2017
Last Changed by:
Judy M. Thoroughman
Feb 01, 2017
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https://confluence.cornell.edu/x/U9ZRF
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Judy M Thoroughman (1)
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M&AE Spring 2017 MEng Orientation
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M&AE Spring 2017 MEng Orientation
Children (14)
Page:
A tower with which to study the dynamics of rainfall
Page:
Autonomous Artistic Behaviors for RobotArt Competition
Page:
Combustion Dynamics of Transportation Fuel Droplets
Page:
Create an Innovative Modular Robotics Platform Products and an R2-D2 in the Cornell Cup
Page:
Demonstration of inflated DEA actuators through foldable robots
Page:
Design a portable device to measure real-world fuel consumption and CO2 emissions
Page:
Design of a More Energy Efficient Ink Jet Printer
Page:
Develop an organ culture system to investigate the tendon injury and remodeling in vitro
Page:
Flow and wakes in complex terrain
Page:
Smart city sensing network design
Show all...
Page:
Social Robot Companion
Page:
Thermal Decomposition of Organic Liquids in a Self-asembled Reactor
Page:
Thin Walled Carbon Fiber Tubes
Page:
Wearable Robotic Arm
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Feb 01, 2017 09:50
Judy M. Thoroughman
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Feb 01, 2017 09:49
Judy M. Thoroughman
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Feb 01, 2017 09:49
Judy M. Thoroughman
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Feb 01, 2017 09:46
Judy M. Thoroughman
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Jan 25, 2017 18:10
Judy M. Thoroughman
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External Links (7)
https://confluence.cornell.edu/display/%7Ejmt14/Piezo+ather…
https://confluence.cornell.edu/display/%7Ejmt14/Lucy+3D+QA+…
https://www.mae.cornell.edu/academics/undergrad/hands-on/re…
blogs.cornell.edu/teams/
https://confluence.cornell.edu/display/%7Ejmt14/The+Aircraf…
https://www.bme.cornell.edu/mengprojects.cfm
https://confluence.cornell.edu/display/%7Ejmt14/ASML-Super+…
Judy M Thoroughman (27)
Page:
Design of a More Energy Efficient Ink Jet Printer
Page:
MEng Project Offering for 2016-17
Page:
Delivery of Injectable Patches for Intervertebral Disc Repair
Page:
Social Robot Companion
Page:
Flow and wakes in complex terrain
Page:
MEng Project Offerings for Spring 2017
Page:
Sustainable Energy Cookstove Modeling and Design
Page:
Wearable Robotic Arm
Page:
A tower with which to study the dynamics of rainfall
Page:
Autonomous Artistic Behaviors for RobotArt Competition
Page:
Hernandez Group
Page:
Dune Field Research
Page:
Methods and Devices for Reshaping Craniofacial Cartilage
Page:
Smart city sensing network design
Page:
Cornell University Sustainable Design
Page:
Wearable and Implantable Sensors for Monitoring of Arthritis Patients
Page:
Demonstration of inflated DEA actuators through foldable robots
Page:
Develop an organ culture system to investigate the tendon injury and remodeling in vitro
Page:
Thermal Decomposition of Organic Liquids in a Self-asembled Reactor
Page:
Thin Walled Carbon Fiber Tubes
Page:
Making extraterrestrial sand dunes in a lab
Page:
Create an Innovative Modular Robotics Platform Products and an R2-D2 in the Cornell Cup
Page:
Design a portable device to measure real-world fuel consumption and CO2 emissions
Page:
Compressible turbulence in a bottle
Page:
Combustion Dynamics of Transportation Fuel Droplets
Page:
TE Robotic Assembly Simulation
Page:
Loading Device to Enable Non-Surgical Study of Post-Traumatic Osteoarthritis in Rodents
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