space exploration logistics workshopspacelogistics.mit.edu/workshops/0106nasaspace...space...

Space Exploration Logistics WorkshopSpace Exploration Logistics Workshop17-18 January 200617-18 January 2006Omni Shoreham Hotel, Washington, DCOmni Shoreham Hotel, Washington, DC

Discussion Area IntroductionDiscussion Area Introduction

Dr. Martin Steele, NASA/KSCDr. Martin Steele, NASA/KSC

Dr. Robert Shishko, JPLDr. Robert Shishko, JPL

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Breakout SessionsBreakout SessionsBreakout Session IBreakout Session I

Group AGroup A RFID and Information Architecture for Remote LogisticsRFID and Information Architecture for Remote Logistics

Group CGroup C Database ManagementDatabase Management

Group DGroup D Logistics Implications of Space Vehicle Design and ManifestingLogistics Implications of Space Vehicle Design and Manifesting

Breakout Session IIBreakout Session II

Group EGroup E Technology Impacts on Logistics RequirementsTechnology Impacts on Logistics Requirements

Group FGroup F Spares ManagementSpares Management

Group GGroup G Space Logistics Network DesignSpace Logistics Network Design

Breakout Session IIIBreakout Session III

Group IGroup I Spaceport and Earth-To-Orbit LogisticsSpaceport and Earth-To-Orbit Logistics

Group JGroup J Space Depot MaintenanceSpace Depot Maintenance

Group KGroup K Space Logistics Regulations Space Logistics Regulations

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Important logistics considerations and/or issuesImportant logistics considerations and/or issuesidentified by each breakout sessionidentified by each breakout session

Potential impacts, risks, opportunities, andPotential impacts, risks, opportunities, andmitigations identified for each issue for eachmitigations identified for each issue for eachexploration mission typeexploration mission type

Better understanding of current research effortsBetter understanding of current research effortsand logistics technology trendsand logistics technology trends

Lively exchanges of informationLively exchanges of information New ideas from log communityNew ideas from log community

Workshop Desired OutcomesWorkshop Desired Outcomes

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Issues Issues ––Long Lunar MissionLong Lunar Mission1. Issue:1. Issue: Predicted Impact: Predicted Impact: Potential Mitigation: Potential Mitigation: Testing Methods: Testing Methods: Impact on Other Systems: Impact on Other Systems: Potential Solutions: Potential Solutions:

2. Issue:2. Issue: Predicted Impact: Predicted Impact: Potential Mitigation: Potential Mitigation: Testing Methods: Testing Methods: Impact on Other Systems: Impact on Other Systems: Potential Solutions: Potential Solutions:

3. Issue:3. Issue: Predicted Impact: Predicted Impact: Potential Mitigation: Potential Mitigation: Testing Methods: Testing Methods: Impact on Other Systems: Impact on Other Systems: Potential Solutions: Potential Solutions:

5Discussion Area IntroductionDiscussion Area Introduction

Lunar Sortie (Short) MissionLunar Sortie (Short) Mission

Crew Size:Crew Size: 4 4 Crew On -Surface: Crew On -Surface: 44 Surface Duration: Surface Duration: 4 to 7 days4 to 7 days EVA Operations:EVA Operations: 4 days x 4 crew4 days x 4 crew Mission Design:Mission Design: EOR EOR –– LOR LOR Transit Time:Transit Time: 3.5 days (outbound) 3.5 days (return)3.5 days (outbound) 3.5 days (return) Logistics Strategy:Logistics Strategy: Carry-alongCarry-along

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Lunar Outpost (Long) MissionLunar Outpost (Long) Mission

Crew Size:Crew Size: 4 4 Crew On -Surface: Crew On -Surface: 44 Surface Duration: Surface Duration: 6 to 12 months6 to 12 months EVA Operations:EVA Operations: 130+ days x 4 crew130+ days x 4 crew Mission Design:Mission Design: EOR EOR –– LOR LOR Transit Time:Transit Time: 3.5 days (outbound) 3.5 days (return)3.5 days (outbound) 3.5 days (return) Logistics Strategy:Logistics Strategy: Pre-positioning, Re-supply, ISRU, Carry-alongPre-positioning, Re-supply, ISRU, Carry-along

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Lunar Outpost DeploymentLunar Outpost Deployment

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Mars MissionMars Mission

Crew Size:Crew Size: 6 6 Crew On -Surface: Crew On -Surface: 66 Surface Duration: Surface Duration: 500 days500 days EVA Operations:EVA Operations: 400 days x 4 crew400 days x 4 crew Mission Design:Mission Design: 4 4 –– 5 assembly 5 assembly

flights to LEOflights to LEO Transit Time:Transit Time: 158 days158 days

(outbound) (outbound) 180 days180 days(return)(return)

Logistics Strategy:Logistics Strategy: Pre-positioning,Pre-positioning,Re-supply (push),Re-supply (push),ISRU, Carry-alongISRU, Carry-along