space station cubesat deployment space station...
TRANSCRIPT
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• Space Station Cubesat Deployment ServicesSpace Station Cubesat Deployment Services
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NanoRacks Cubesat Deployer (NRCSD)
• 51.6 degree inclination, 385-400 KM• Orbit lifetime 8-12 months• Deployment typically 1-3 months after
berthing• Soft stowage internal ride several times
per year
Photo credit: NASA
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NRCSD
• Each NRCSD can deploy up to 6U of CubeSats
• 8 NRCSD’s per airlock cycle, for a total of 48U deployment capability
• ~2 Air Lock cycles per mission
Photo Credit: NanoRacks LLC
Photo credit: NASA
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1. NRCSDs transported in CTBs
2. Launched by ISS visiting vehicle 3. NRCSDs installed by ISS Crew
4. JEM Air Lock depress & slide table extension
5. Grapple by JRMS
6. NRCSDs positioned by JRMS
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7. Deploy
8. JRMS return NRCSD-MPEP stack to slide table; Slide table retracts and pressurizes JEM air lock
9. ISS Crew un-install first 8 NRCSDs; repeat install/deploy for second set of NRCSDs
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NanoRacks Cubesat Mission (NR-CM )
• Orbital Sciences CRS-1 (Launched Jan. 9, 2014)
• Planet Labs Flock1A, 28 Doves
• Lithuanian Space Assoc., LitSat-1
• Vilnius University & NPO IEP, LituanicaSat-1
• Nanosatisfi, ArduSat-2
• Southern Stars, SkyCube
• University of Peru, UAPSat-1
3
Photo credit: NASA
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Mission Highlights
World’s largest remote sensing constellation
Most CubeSats launched in a single mission
Two countries attain space-faring status
Kickstarter funding
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Dove CubeSats
• NR-CM3• Orbital Science CRS-1, Launch Jan 9, 2014• Air Lock Cycle 1, Feb 11-15, 2014• Deployers 1-8 (all Planet Labs Doves)
Photo credit: NASA
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UAPSat-1
ArduSat-2
SkyCube
LitSat-1
Lituanicasat-1
• Deployer 15
• NR-CM3• Orbital Science CRS-1, Launch Jan 9, 2014• Air Lock Cycle 2, Feb 25-28, 2014• Deployers 9-14 (Planet Labs Doves)
Photo credit: NASA
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NanoRacks Cubesat Mission (NR-CM )4
• Orbital Sciences CRS-2
• Planet Labs Flock1B, 28 Doves
• NASA Ames, TechEdSat-4
• Taylor University, GEARRSat
• MIT-Lincoln Labs, MicroMAS
• San Jose University, Lambdasat
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Mission Highlights
World’s largest remote sensing constellation - gets
bigger!
Innovative Re-entry technology
Concept to flight hardware- 92 days
First passive microwave radiometer in a CubeSat
First space-based graphene experiment
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• NR-CM4• Orbital Science CRS-2, Launch July 13, 2014• Air Lock Cycle 1, Aug, 2014
Dove CubeSats
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• On-orbit deployment issues observed during ALC1
• NRCSDs returned safely to JEM
• Problem identified and replicated on the ground
• Coordinated path forward with NASA and JAXA
• Deployments planned to resume end of February
NanoRacks Cubesat Mission (NR-CM )4
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NanoRacks CubeSat Mission (NR-CM )
• Orbital Sciences CRS-3
• Planet Labs Flock1D, 26 Doves
• GomSpace, GOMX-2
• NASA JPL, RACE
• Planetary Resources Inc., Arkyd-3
5
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Mission Highlights
Majority of CubeSats lost due to launch failure on Oct 28, 2014
5/16 Deployers Recovered!Multiple Doves recovered, along
with GOMX-2
Arkyd-3 Re-flight being delivered at the end of the month for SpX-6
mission
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• SpaceX CRS-5
• Planet Labs Flock 1D’ – 2 Doves
NanoRacks CubeSat Mission (NR-CM )5’
Astronaut Terry Virts swaps in Flock1D’ Doves
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Mission Highlights
Rapid Re-flight
Less than two weeks between Orb-3 failure and delivery of flight hardware to NASA
Flock1D’ ready to deploy at the end of the month
Unprecedented coordination between Planet Labs, NASA, and NanoRacks
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• SpaceX CRS-6
• Planet Labs Flock1E – 14 Doves
• Booz Allen Hamilton, Centennial-1
• Planetary Resources Inc., Arkyd-3
NanoRacks CubeSat Mission (NR-CM )6
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Mission Highlights
PRI achieving re-flight
Planet Labs launches next generation of Doves
Tech demo of photon detector for ground based tracking and imaging of 1U size space crafts
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• Planet Labs Doves
• St. Thomas More Cathedral School, STMSat-1
• GomSpace, GOMX-3
• Aalborg University – AAUSat-5
• University of Colorado Boulder, MinXSS
• NASA Ames Research Center, NODeS
Upcoming CubeSats in 2015
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Schedule and Program Requirements
• Scheduling (L-/+ months)• L-9 Initial data call• L-3 Safety Review• L-1.5 Customer delivery• L-1 NanoRacks deliver to NASA• L+1.5 Deployment (typical)
• NanoRacks Requirements• Battery flight acceptance test• Electrical: 3 inhibits minimum• Customer responsible for spectrum
& remote sensing licensing• Fault-tolerance for deployables• Non/low toxicity materials• Secondary locking features
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Availability and Pricing
• Availability
• Orbital ATK
• SpaceX
• HTV
• Pricing
• Roughly $85,000 (USD) per Unit dependent on program.
• Inclusive: safety, integration, launch, on-orbit ops
• Volume discounts available
NanoRacks’ Space Act Agreement with NASA allows participation from ISS member organizations and also non-ISS partner customers with approval
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Acknowledgement