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Lunar Exploration Transportation System (LETS)

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Presentation on theme: "Lunar Exploration Transportation System (LETS)"— Presentation transcript:

1 Lunar Exploration Transportation System (LETS)
MAE 491 / 492 2008 IPT Design Competition Instructors: Dr. P.J. Benfield and Dr. Matt Turner Team Frankenstein Final Review Presentation 4/29/08

2 Team Disciplines The University of Alabama in Huntsville
Team Leader: Matt Isbell Structures: Matthew Pinkston and Robert Baltz Power: Tyler Smith Systems Engineering: Kevin Dean GN&C: Joseph Woodall Thermal: Thomas Talty Payload / Communications: Chris Brunton Operations: Audra Ribordy Southern University Mobility: Chase Nelson and Eddie Miller ESTACA Sample Return: Kim Nguyen and Vincent Tolomio

3 Agenda Project Office Systems Engineering The Need The Requirements
The Solution Performance Operations Structures GN&C Communications Payload Power Thermal Conclusions Questions

4 Project Office

5 Systems Engineering

6 The Need

7 The Requirements

8 The Solution

9 Performance

10 Operations

11 Structures

12 GN&C

13 Communications Rover Penetrators Parabolic Dish Reflector
Antenna (PDRA) T-712 Transmitter Communication Bandwidth : X-band Data Transmission Rate: 150 Mbps Data Storage Capacity: 10 Gb Penetrators Omnidirectional Antenna Communication Bandwidth: S-band Data Transmission Rate: 8 Kbps Data Storage Capacity: 300 Mb

14 Communications/Payload
Single Site Box (SSB) Determines lighting conditions every 2 hours for one year, micrometeorite flux, and assess electrostatic dust levitation Omnidirectional Antenna Communication Bandwidth: S-band Data Transmission Rate: 8 Kbps Data Storage Capacity: 1Gb Surface Stereo Imager (SSI) Mass: 10 Kg Dimensions: 155x68.5x35.5 cm Power: Solar Panel

15 Payload Gas Chromatograph Mass Spectrometer (GCMS)
Performs atmospheric and organic analysis of the lunar surface Mass: 6 Kg Dimensions: 10x10x8 cm Power: Rover Surface Sampler Assembly (SSA) Purpose is to acquire, process and distribute samples from the moon’s surface to the GCMS Mass: 15.5 Kg Dimensions: 110X10X10 cm

16 Payload Penetrators (Deep Space 2 )
Mission’s main source of data acquisition in the permanent dark regions Mass (15 Penetrators): Kg Dimensions: 13.6Dx10L cm Power: 2 Lithium Ion Batteries Ea. Miniature Thermal Emission Spectrometer (Mini-TES) Objective to provide measurements of minerals and thermo physical properties on the moon Mass: 2.4 Kg Dimensions: 23.5x16.3x15.5 cm Power: Rover

17 Power

18 Thermal

19 Conclusions

20 Questions

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