P09231: Airframe A A. Matt Greco (ME) B. Shawn O’Neil (ME) C. Eric Lannan (ME) D. Will Pisarello (EE) E. Brian Lindquist (IE) F. Phil Davenport (IE)

Slides:

Advertisements

Similar presentations

10- M3200 STD PSA – 250 PSIG Daesung Korea - Job # 8297 Kamal Hatami, Product Engineer Feb 20 th, 2009.

Advertisements

Special Programs Presentation Nano-Satellite Program Exploring Frugal Engineering in India Living Lab in the Communities.

Daniel Graves –Project Lead James Reepmeyer – Lead Engineer Brian Smaszcz– Airframe Design Alex Funiciello – Airfoil Design Michael Hardbarger – Control.

P11213: Modular Student Attachment to the Land Vehicle for Education Jared Wolff, Andrew Komendat, Oyetunde Jolaoye, Dylan Rider.

P09231 MSD I Winter  Matt Greco: Project Manager  Shawn O’Neil: Lead Engineer  Will Pisarello: Electrical Systems Engineer  Phil Davenport:

Daniel Graves (ME). Open Architecture, Open Source Unmanned Aerial Vehicle for Imaging Systems  Primary Customer: RIT College of Imaging Science ○ Currently.

1. P09203 – 1kg Robotic Motor Module Gen 2 Platform This project is Sponsored by the Kate Gleason Foundation.  Team Members:  Lauren Farnsworth → Team.

P09231 MSD I Winter  Matt Greco: Project Manager  Shawn O’Neil: Lead Engineer  Will Pisarello: Electrical Systems Engineer  Phil Davenport:

P09231: Airframe A A. Matt Greco (ME) B. Shawn O’Neil (ME) C. Eric Lannan (ME) D. Will Pisarello (EE) E. Brian Lindquist (IE) F. Phil Davenport (IE)

Project Status Update II R09230: Open Architecture, Open Source Unmanned Aerial Vehicle for Imaging Systems A. Benjamin Wager (ME) B. Michael Skube (ME)

Design Review Three Micro Air Vehicle Project: P Sponsored by Impact Technologies The Boeing Company Mark Baybutt Electrical Engineering.

University of Southern California Enterprise Wide Information Systems Manufacturing Planning and Execution Instructor: Richard W. Vawter.

ME 495 EV Team 3: Adapter Plate Brett Joseph, John Jolly ME 495 EV: Electric Pontiac Fiero Project.

Preliminary Project Outline P09231: Airframe A; Open Architecture, Open Source Unmanned Aerial Vehicle for Imaging Systems A. Matt Greco (ME) B. Shawn.

Ujaval Patel General Regulatory Requirements Flight Crew Regulations Flight Crew Scheduling.

P09231 MSD II Spring  Matt Greco: Project Manager  Shawn O’Neil: Lead Engineer  Will Pisarello: Electrical Systems Engineer  Phil Davenport:

Christopher Barrett (ME) Daniel Graves (ME). Open Architecture, Open Source Unmanned Aerial Vehicle for Imaging Systems Primary Customer: ○ Currently.

UAV Helicopter Project 12-May-08 Presented by Mark Diel Whirled Air Incorporated Stanford University.

1 Connecticut Corsair Senior Design School of Engineering Connecticut Corsair Senior Capstone Design Project.

Systems Analysis and Design: The Big Picture

Leaders in Technology & Innovation ISO 9001:2000 & AS9100 Certified.

University of Southern California Enterprise Wide Information Systems Manufacturing Planning and Execution (cont.) Instructor: Richard W. Vawter.

ME 150 Engineering Drawing 1

2014 CDR Team Name Critical Design Review CDR CDR Delieverables 1.Mechanical drawings in pdf format 2.Electrical schematics in pdf format 3.Completed.

Air Venture Aerospace Education Programs Malaysian Workshops Overview.

Managing the development and purchase of information systems (Part 1)

Your Logo 1 TREATMENT OF TIME IN A FLIGHT SIMULATOR In a real-time simulator, the most important resource to manage is time itself. A flight simulator.

Engineering 1182 College of Engineering Engineering Education Innovation Center Solid Modeling Introduction Rev: , AJPSolid Modeling Introduction1.

Engineering Development New Products New Product Idea Funnel Trade Shows Visits to Customers Input from Rep’s Input from Sales Mgr. Existing Products.

Motivation Collision Avoidance – Inefficient airspace utilization – Increased air traffic workload – Use of obsolete technologies 2.

Recent and Future Research for Bird-like Flapping MAVs of NPU Prof. B.F.Song Aeronautics School of Northwestern Polytechnical University.

Low Altitude Balloon Experiment in Technology (LABET) Group Members – Richard George – Industrial Technology Mike Svendsen – Computer Engineer Steve Towey.

Basic Utility Vehicle (BUV) ME 462 Capstone Design Presentation Department of Mechanical Engineering, IUPUI December 14, 2005 Presented by: Tom Peters.

ME 440 Aerospace Engineering Fundamentals Hot Topic of the Week.

I NTRO TO PO10029: C ONTROL E NHANCEMENTS FOR A IR M USCLE B IOMIMETIC H AND Dr. Kathleen Lamkin-Kennard Sept. 14, 2009.

1.04 Documentation References: Canadian Aviation Regulations

Customer Experience at. Experience Good:  Web site provided lots of information:  Technical specs  Customer reviews  Picture of what the cameras.

Ken Youssefi Mechanical Engineering department 1 Introduction to Concurrent Engineering Computer Aided Design (CAD) Computer Aided Manufacturing (CAM)

Final Design Presentation AUVSI 2013 Student Unmanned Air Systems Competition Team 6: Autonomous Ariel Vehicle Robert Woodruff Matthew Yasensky Cristopher.

April 21, 2010 Sunflower Project Monthly Conversion Meeting – April.

Li-Po Batteries. Why Li-Po battery is used? Light Weight Have large capacities i.e. they hold lots of power in a small package High discharge rates to.

UNITY IV Critical Design Review Hill Air Force Base 13 April 2000 Phase II First Launch.

Case Study 3: Operate a Manufacturing Company (Introduction) EIN 6133 Logistics Engineering Summer B, 2015.

What is Design/Build/Fly?  Each year we:  Design an RC airplane to accomplish a prescribed set of missions  Build our design  Fly the finished aircraft.

 Our system supplies the data and manuals that an airline needs to fly -- at the maximum levels of safety, security, and efficiency -- based on The system.

Flight Review By Mark Roberson. The Flight Review is required by Federal Aviation Regulations for all pilots who intend to act as pilot in command of.

P07122: Autonomous Quadcopter Jason Enslin – EE: Team Leader, Circuit Design/Testing Glenn Kitchell – CE: Programming, Software Design Richard Nichols.

P07122: Autonomous Quadcopter Jason Enslin – EE: Team Leader, Circuit Design/Testing Glenn Kitchell – CE: Programming, Software Design Richard Nichols.

The History of Human Aviation By Thomas Francis. The Wright Brothers The Wright Brothers were the first people to fly a self-powered, heavier then air,

EDGE™ Preliminary Project Plan P09102 – METEOR Stage Separation System JJ Guerrette (ME)

Desktop Fan Project Introduction

Overview of Flight Training Global Picture IAOPA World Assembly July 22, 2016.

Av-Tech Industries- Quality, Service and Precision Kitting

Planetary Lander PDR Team Name

Liquid LVs propellant consumption control terminal system

Air Traffic Organization

AY: – Track Project Lead Airframe A Matt Greco P09231

FINAL REVIEW UAV AIRFRAME B

AIRCRAFT MAINTENANCE SCIENCE

Systems Design, Implementation, and Operation

HEMODYNAMIC SIMULATOR II P09026

Fuel Cell UAV 2016 PROJECT ADVISORS DR. ZHANG AND DR. DEMUREN

Sounding Rocket PDR Team Name

Sounding Rocket CDR Team Name

Light Distribution Model (Trace-Pro)

Industrial Training Provider ,

Managerial REVIEW UAV AIRFRAME B

Optical Stage Redesign

Market Test the Offer.

Presentation transcript:

P09231: Airframe A A. Matt Greco (ME) B. Shawn O’Neil (ME) C. Eric Lannan (ME) D. Will Pisarello (EE) E. Brian Lindquist (IE) F. Phil Davenport (IE)

Customer Needs Something that is able to fly! Carry a camera and take pictures Simple air to ground communication system Approx. 10 airframes by May Future Needs Aircraft with extended flight time (≈1 hour)

Benchmark Basic airframe design and prototype – Flight-worthy – 10 min flight time – Payload capacity of 2 to 3 lbs. Meteor Project – Not flight-worthy (time consuming and costly to complete)

Work Breakdown Structure Mechanical: – Conversion of airframe elements to Solidworks or Pro E – Finite element analysis on each portion of airframe – Documentation of finite element analysis Industrial: – Procurement of laser cutter – Analysis of airframe A assembly – Room for improvement/consultation of Airframe B design Electrical: – Simple telemetry system – Real time communication. system

Project Schedule Week 31) Get Hampton Roads price quotes, order one kit? 2) Begin to convert Shawn’s model to Pro E version 3) Talk to measurements group for data to receive 4) Finalize laser cutter spec 5) Purchase online components (motors) 6) Begin pilot training on simulator Week 41) Receive parts for test build of prototype 2) Write P.O. for laser cutter 3) Validate prototype design 4) Coordinate with Kyle Wright for pilot training on real aircraft Week 51) Initiate build of prototype and test 2) Electrically confirm sizing and special restraints of comm. system 3) Assuming success of prototype, order kits from Hampton for next copies Week 61) Build