AAE 450 Spring 2008 1

Alan Schwing2/21/08

PM

Near-term Goals & Report Outline

AAE 450 Spring 2008 2

Near-term Goals

! Risk Analysis (Non-Catastrophic) -– Nominal and standard devs to DNC by midnight Tues (2/26)

– AT / Traj = Wind Gusting - Prop = Thrust / Prop Mass

– Avionics / DNC = Gyro Drift - Struc = Inert Mass

! Risk Analysis (Catastrophic) -– List of causes should be sent to me by each group by

midnight Friday (2/29)

– Preliminary numbers should be included

! Design phase 1 complete by midnight Tues (2/26) withall inputs to DNC

PM

February 2008

Spring Break

AAE 450 - Schedule

AAE 450 - Deadlines

AAE 450 - Milestones

January 2008

S M T W T F S

1 2 3 4 5

6 7 8 9 10 11 12

13 14 15 16 17 18 19

20 21 22 23 24 25 26

27 28 29 30 31

February 2008

S M T W T F S

1 2

3 4 5 6 7 8 9

10 11 12 13 14 15 16

17 18 19 20 21 22 23

24 25 26 27 28 29

March 2008

S M T W T F S

1

2 3 4 5 6 7 8

9 10 11 12 13 14 15

16 17 18 19 20 21 22

23 24 25 26 27 28 29

30 31

Sunday Monday Tuesday Wednesday Thursday Friday Saturday

27 28 29 30 31

Section I Presents

1 2

3 4 5

Analysis Code Written

6 7

Section II Presents

8

Cost into Model Analysis

9

10

Model Analysis to Yaple

11 12

Model Analysis Review

13 14

Section I Presents

15 16

17 18 19

Begin Design of Test Case

Trajectory …de Complete

20

Design Codes Finished

21

Section II Presents

22

Final Model…sis to Yaple

Designs Selected

Test Case Design Ends

Architecture Chosen

23

Final Design Begins

24 25 26

Non-Catastrophic Due

Design 1 Complete

27

Monte Carlo Run

28

Section I Presents

Design 1 Evalutation

29

Catastrophic Due

1

Design 2 Complete

Page 2/4

Report Outline Version 4 – 2/20/08

Page 1/4

1.0 Foreward - (Prof. Longuski)

2.0 Acknowledgements – (Schwing)

3.0 Project Overview / Abstract

3.1 Mission Goals – (Schwing)

3.2 Mission Requirements – (Schwing)

3.3 Interpretation of Mission Requirements – (Schwing)

3.4 Model Analysis – (Schwing)

3.5 Costing Methods – (Schwing)

3.6 Risk Analysis – (Schwing)

3.7 Final Design – (Briden)

3.7.1 200g Payload

3.7.2 1 kg Payload

3.7.3 5 kg Payload

3.8 Lessons Learned – (Schwing)

4.0 Detailed Design

4.1 200g Payload

4.1.1 Vehicle Overview – (Briden)

4.1.1.1 Staging Detail

4.1.1.2 Performance Characteristics

4.1.1.3 Sample Mission Timeline

4.1.2 Nominal Trajectory – (Breitengross)

4.1.3 Subsystem Details

4.1.3.1 Propulsion

4.1.3.2 Aerothermal

4.1.3.3 Structures

4.1.3.4 Avionics

4.1.3.5 Dynamics and Controls

4.1.3.6 Risk Analysis – (Schwing)

4.1.3.7 Cost – (Schwing)

4.2 1 kg Payload

4.2.1 Vehicle Overview – (Briden)

4.2.1.1 Staging Detail

4.2.1.2 Performance Characteristics

4.2.1.3 Sample Mission Timeline

4.2.2 Nominal Trajectory – (Guzik)

4.2.3 Subsystem Details

4.2.3.1 Propulsion

4.2.3.2 Aerothermal

4.2.3.3 Structures

4.2.3.4 Avionics

4.2.3.5 Dynamics and Controls

4.2.3.6 Risk Analysis – (Schwing)

4.2.3.7 Cost – (Schwing)

4.3 5 kg Payload

4.3.1 Vehicle Overview – (Briden)

Report Outline Version 4 – 2/20/08

Page 2/4

4.3.1.1 Staging Detail

4.3.1.2 Performance Characteristics

4.3.1.3 Sample Mission Timeline

4.3.2 Nominal Trajectory – (Donahue)

4.3.3 Subsystem Details

4.3.3.1 Propulsion

4.3.3.2 Aerothermal

4.3.3.3 Structures

4.3.3.4 Avionics

4.3.3.5 Dynamics and Controls

4.3.3.6 Risk Analysis – (Schwing)

4.3.3.7 Cost – (Schwing)

5.0 About the Team

Appendix

A.1.0 Aerothermal

A.1.1 Introduction

A.1.2 Design Methods

A.1.2.1 Drag

A.1.2.2 Pitching Moment

A.1.2.3 Lift and Lifting Bodies

A.1.2.4 CMARC

A.1.2.5 Computational Fluid Dynamics

A.1.2.6 Assent Aeroheating Analysis

A.1.3 Closing Comments

A.1.4 References

A.1.5 User’s Guides for Aerothermal Codes

A.2.0 Avionics

A.2.1 Introduction – (Bryan)

A.2.2 Design Methods

A.2.2.1 Comm Analysis – (Rhodes)

A.2.2.2 Link Budget Analysis – (Rhodes)

A.2.2.3 Range Safety Considerations – (Lorenzana)

A.2.2.4 Sensor Requirements and Design – (Bryan and Yaple)

A.2.2.5 Power Budget – (Yaple)

A.2.2.6 Battery Selection – (Yaple)

A.2.2.7 Power Distribution – (Rhodes)

A.2.2.8 Tracking Considerations – (Lorenzana and Rhodes)

A.2.3 Closing Comments – (Bryan)

A.2.4 References – (Bryan)

A.2.5 User’s Guides for Avionics Codes – (Rhodes)

A.3.0 Dynamics and Controls

A.4.0 Propulsion

A.5.0 Structures

Report Outline Version 4 – 2/20/08

Page 3/4

A.6.0 Trajectory

A.6.1 Introduction – (Harkness)

A.6.2 Design Methods

A.6.2.1 Equations of Motion - (Harkness)

A.6.2.1.1 Aircraft Launch – (Ferris)

A.6.2.1.2 Balloon Launch – (Ferris)

A.6.2.1.3 Ground Launch – (Ferris)

A.6.2.1.4 Wind and Atmosphere – (Donahue and Guzik)

A.6.2.1.5 Thrust – (Chua)

A.6.2.1.6 Lift and Drag – (Ferris)

A.6.2.2 Steering Law Development – (Briden and Kanehara)

A.6.2.2.1 Aircraft Launch

A.6.2.2.2 Balloon and Ground Launch

A.6.2.3 Optimization – (Chua)

A.6.2.4 DeltaV Analysis – (Breitengross)

A.6.2.5 Trajectory Code

A.6.3 Closing Comments – (Harkness)

A.6.4 References – (Harkness)

A.6.5 User’s Guides for Trajectory Codes – (Harkness)

A.7.0 Model Analysis

A.7.1 Introduction – (Schwing and Yaple)

A.7.2 Design Methods

A.7.2.1 Assumptions – (Yaple)

A.7.2.1.1 Propulsion – (Bluestone, Lattibeaudiere, Wilcox)

A.7.2.1.2 Structures – (Hiu and White)

A.7.2.2 Procedure – (Yaple)

A.7.2.3 Automation – (Ling and/or Rhodes)

A.7.2.4 Winning Cases – (Yaple)

A.7.3 Closing Comments – (Yaple)

A.7.4 References – (Yaple)

A.7.5 User’s Guides for Model Analysis Codes – (Yaple)

A.8.0 Risk Analysis

A.8.1 Introduction – (Schwing)

A.8.2 Design Methods

A.8.2.1 Non-Catastrophic Failure – (Schwing)

A.8.2.1.1 Avionics – (???)

A.8.2.1.2 Aerothermal – (???)

A.8.2.1.3 Dynamics and Controls – (???)

A.8.2.1.4 Propulsion – (???)

A.8.2.1.5 Structures – (???)

A.8.2.1.6 Trajectory – (???)

A.8.2.2 Catastrophic Failure – (Schwing)

A.8.2.2.1 Avionics – (???)

A.8.2.2.2 Aerothermal – (???)

A.8.2.2.3 Dynamics and Controls – (???)

A.8.2.2.4 Propulsion – (???)

Report Outline Version 4 – 2/20/08

Page 4/4

A.8.2.2.5 Structures – (???)

A.8.2.2.6 Trajectory – (???)

A.8.3 Closing Comments – (Schwing)

A.8.4 References – (Schwing)

A.8.5 User’s Guides for Risk Analysis Codes – (Schwing)

A.9.0 Costing Methods

A.9.1 Introduction – (Schwing)

A.9.2 Design Methods

A.9.2.1 Avionics – (???)

A.9.2.2 Aerothermal – (???)

A.9.2.3 Dynamics and Controls – (???)

A.9.2.4 Propulsion – (Balta, Bluestone, Ling, Morris, Wilcox)

A.9.2.5 Structures – (Childers)

A.9.3 Closing Comments – (Schwing)

A.9.4 References – (Schwing)

A.9.5 User’s Guides for Costing Methods Codes – (Schwing)