HSC Physics Summary

renef - Sunil Gavini

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fiche de synthèse - matière potentielle : william kim hsc physics
fiche de synthèse - matière : physics

William Kim HSC Physics Summary | page 1 Physics Summary Contents Page Core Topic One: Space 1. Gravity 2 2. Space Launch and Return 3 3. Future Space Travel 13 4. Special Relativity 14 Core Topic Two: Motors and Generators 1. The Motor Effect 19 2. Electromagnetic Induction 24 3. Electric Generators 27 4. Transformers 29 5. Electric Motors 31 Core Topic Three: From Ideas to Implementation 1.

fixed point on the surface
astronaut during launch
rrr rrr
projectile
circular motion
centripetal force
rocket
momentum
point
velocity

Sujets

Physics

Apollo

Newton

Motion

Velocity

Projectile

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Publié par	renef
Nombre de lectures	29
Langue	English

Extrait

AN INTEGRATED DESIGN ENVIRONMENT FOR SMALL
SATELLITES

SUNIL GAVINI

Bachelor of Electrical Engineering

JNT University, India

April, 2004

Submitted in partial fulfillment of requirements for the degree

MASTER OF SCIENCE IN ELECTRICAL ENGINEERING

at the

CLEVELAND STATE UNIVERSITY

December, 2006
This thesis has been approved
for the Department of Electrical and Computer Engineering
and the College of Graduate Studies by

________________________________________________
Thesis Committee Chairperson, Dan Simon

________________________________
Department/Date

________________________________________________
Yongjian Fu

________________________________
Department/Date

________________________________________________
Wenbing Zhao

________________________________
Department/Date

To my family and friends

ACKNOWLEDGEMENTS

I would like to express my sincere gratitude to my thesis advisor Dr. Dan Simon,
for the ingenious commitment, encouragement and highly valuable advice he provided
me over the entire course of this thesis.
I would also like to thank my committee members Dr. Yongjian Fu and Dr.
Wenbing Zhao, for their support and advice. I should not forget to thank Dr. Charles
Alexander from the CREATE team for funding me through my course of study.
I also like to thank my lab mates at the Embedded Control Systems Research
Laboratory for their encouragement and intellectual input during the entire course of this
thesis, w ithout w hich this w ork w ouldn‟t have been possible.
Finally, I wish to thank my parents and my friends who have always been a
constant source of inspiration to me.
iv
AN INTEGRATED DESIGN ENVIRONMENT FOR SMALL
SATELLITES

SUNIL GAVINI

ABSTRACT
Small satellites are generally spacecraft weighing around few hundred kilograms
that are confined mostly to low Earth orbit where they perform specific tasks such as
remote sensing, conduct science operations, and serve as technology test beds and
communication relays. This ultimately results in a multibillion industry. Hence the design
of these small satellites plays an important role in developing a satellite. The following
thesis discusses an Integrated Design Environment for satellite design that integrates the
software required for the satellite design onto a single platform.
Software that is used for project management, requirements management and
electrical/power simulations are integrated using Visual Basic.Net. This allows the
developer to access the software from a single interface, reducing access time and
providing file sharing over the network.
v
TABLE OF CONTENTS
Page
LIST OF TABLES……………………………………………………………………… ix
LIST OF FIGURES……………………………………………………………………...x
I INTRODUCTION ....................................................................................................... 1
1.1 Literature Review........................................................................................ 3
1.2 Small Satellite Design Procedures .............................. 4
1.3 Integrated Design Environment for Small Satellites .................................. 6
1.4 The Space Mission Life Cycle .................................... 8
1.5 The Six-Step Process ................................................................................ 10
1.6 Thesis Organization .................. 15
II PROJECT MANAGEMENT .................................................................................. 16
2.1 Microsoft Project ...................... 18
2.2 Microsoft Office Project Server ................................................................ 20
2.3 Microsoft Project in the IDE ..... 22
2.4 Features of Microsoft Project .................................................................... 24
III REQUIREMENTS MANAGEMENT .... 33
3.1. Requirements Engineering ........................................................................ 34
3.2. Cradle ........................................ 36
vi
3.3. Cradle Modules ......................................................................................... 38
3.4. Cradle Components ................... 39
3.5. Cradle Functionality.................................................................................. 41
3.6. Model-Based Systems Engineering .......................... 45
IV DESIGN SIMULATIONS ...................................................................................... 51
4.1 Advantages of Simulations ....................................................................... 52
4.2 Ansoft Simplorer ....................................................................................... 54
4.3 Features of Simplorer ................ 55
4.4 Simplorer Examples .................................................................................. 60
V IMPLEMENTATION ............................. 71
5.1 The Integrated Design Environment ......................................................... 72
5.2 Project Management ................................................. 75
5.3 Requirements Management ...................................... 76
5.4 Design Simulations ................................................................................... 76
VI CONCLUSIONS And FUTURE WORK .............................. 78
6.1 Conclusions ............................................................................................... 78
6.2 Future Work .............................. 81
REFERENCES ................................................................................................................ 82

vii
APPENDICES ................................................................................................................. 86
A. Resource Management Table of Microsoft Project Template .................. 87
B. VHDL Code for Analog-to-Digital Conversion ....................................... 89

viii
LIST OF TABLES

Table Page
TABLE I: Tasks Listed In The Microsoft Project Template ..................................... 22
TABLE II: Data Pairs Of External Load (N) .............................................................. 64
TABLE III: Allocated Resources For Each Task ......................... 87

ix
LIST OF FIGURES

Figure Page
Figure 1: Centralized and Distributed Design/Analysis ............................................. 5
Figure 2: High level diagram of the IDE .................................. 14
Figure 3: Project Server options in Microsoft Project .............................................. 21
Figure 4: Gantt Chart View from IDE Template...................... 26
Figure 5: Calendar View from IDE Template .......................................................... 27
Figure 6: Network Diagram from IDE Template ..................... 28
Figure 7: PERT Analysis Toolbar ............................................................................ 29
Figure 8: Resource Sheet from the Template of the IDE ......... 31
Figure 9: Reports menu from Microsoft Project ...................................................... 31
Figure 10: Tracking Gantt View for the IDE Template ............. 32
Figure 11: Cradle modules ......................................................................................... 39
Figure 12: Cradle Capture Interface in Microsoft Word ............................................ 42
Figure 13: Class Diagram of the Users Class ............................................................. 46
Figure 14: Activity Diagram for a Print Class............................ 47
Figure 15: State Chart Diagram for a Cradle Server .................................................. 48
Figure 16: Use Case Diagram for IDE ....................................... 50
x

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