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HumTemP Team SPARTA Space Proximity Atmospheric Research above Tropospheric Altitudes Title slide Jerod Baker Mechanical & System Design Lisa.

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Presentation on theme: "HumTemP Team SPARTA Space Proximity Atmospheric Research above Tropospheric Altitudes Title slide Jerod Baker Mechanical & System Design Lisa."— Presentation transcript:

1 HumTemP Team SPARTA Space Proximity Atmospheric Research above Tropospheric Altitudes Title slide Jerod Baker Mechanical & System Design Lisa Caraway Electrical Interface & Design James Mathis System Software Design Norfolk State University 11/11/2018 SPARTA - Science

2 HumTemP Science Background Requirements Payload System Data Analysis
Mechanical Software Electronic Data Analysis Project Overview Presentation outline 11/11/2018 SPARTA - Science

3 Mission Goal Our goal for this experiment is to accurately characterize the atmosphere by investigating relative humidity, temperature and pressure, as it relates to altitude, within the troposphere, tropopause and lower stratosphere. 11/11/2018 SPARTA - Science

4 NOAA data Summer 2007 Maximum expected balloon altitude 11/11/2018
SPARTA - Science

5 Relative Humidity Measurements above the Tropopause Compare to NOAA
Science Objectives Relative Humidity Measurements above the Tropopause Compare to NOAA (National Oceanic and Atmospheric Administration) 11/11/2018 SPARTA - Science

6 Science Objectives Maximum expected balloon altitude 11/11/2018
SPARTA - Science

7 Science Requirements Maximum altitude expected 11/11/2018
SPARTA - Science

8 Scientific Requirements
Data points needed: 360 Minimum pressure measurements: 4 mb Minimum Relative Humidity Levels: 0%-5% Altitude Resolution: 500 ft. 11/11/2018 SPARTA - Science

9 Technical Requirements
Data rate twice per minute External sensors function in -70oC Power supply functions in cold Payload withstands force of landing Recover data after landing 11/11/2018 SPARTA - Science

10 Technical Requirements cont.
Power ~ 3 hours Interior temperature above -20o C External sensors record temperature and relative humidity Minimal movement inside of Payload 11/11/2018 SPARTA - Science

11 External System External system photo 11/11/2018 SPARTA - Science

12 Internal Design 11/11/2018 SPARTA - Science

13 Payload Design 11/11/2018 SPARTA - Science

14 Software Design: Preflight
11/11/2018 SPARTA - Science

15 Software Design: In-flight
11/11/2018 SPARTA - Science

16 Software Design: Postflight
11/11/2018 SPARTA - Science

17 Temperature Calibration
11/11/2018 SPARTA - Science

18 Pressure Calibration 11/11/2018 SPARTA - Science

19 Humidity Calibration 11/11/2018 SPARTA - Science

20 Data Analysis 11/11/2018 SPARTA - Science

21 Inside Temperature 11/11/2018 SPARTA - Science

22 Temperature - ABITA 11/11/2018 SPARTA - Science

23 Pressure 11/11/2018 SPARTA - Science

24 Relative Humidity 11/11/2018 SPARTA - Science

25 Mixing Ratio 11/11/2018 SPARTA - Science

26 Reproduce NOAA data for July 29, 2008
Project Overview Payload HumTemP Designed Developed Fabricated Launched HumTemP Recovered HumTemP Analyzed Data Reproduce NOAA data for July 29, 2008 11/11/2018 SPARTA - Science

27 Preliminary Design Review Critical Design Review
Milestones Preliminary Design Review Critical Design Review Flight Readiness Review Balloon Launch Balloon Recovered Science Presentation 11/11/2018 SPARTA - Science

28 Team leader/Management
SPARTA Organization Responsibilities Team Member Team leader/Management Dr. Hinton Mechanical Design Jerod Baker Software Design JP Mathis Electronic Design Lisa Caraway 11/11/2018 SPARTA - Science

29 Acknowledgements Special Thanks: CSBF LaSpace Brad Ellison LSU
TIGRE Team NSF Special Thanks: Brad Ellison Greg Guzik Jim Giammanco Gloria Giammanco Doug Granger John Wefel 11/11/2018 SPARTA - Science

30 Thank You for Your Attention!
11/11/2018 SPARTA - Science

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