Minimize ISS Utilization: TSIS

ISS Utilization: TSIS(Total and Spectral solar Irradiance Sensor)

Instrument   Launch   Mission Status   References

The TSIS instrument, first selected in 1998 for the NPOESS (National Polar-orbiting Operational Environmental Satellite System) mission, re-manifested in 2010 on the NOAA-NASA JPSS (Joint Polar Satellite System) mission, then on the NOAA Polar Free Flyer, is now (2015) scheduled to be implemented as part of the newly established SIDAR (Solar Irradiance, Data and Rescue) program with a launch planned in 2017 to the ISS (International Space Station). 1) 2)

The objective of TSIS is to acquire measurements of total and spectral solar irradiance (TSI and SSI, respectively). TSI (Total Solar Irradiance) is required for establishing Earth's total energy input while SSI (Solar Spectral Irradiance) is needed to understand how the atmosphere responds to changes in the sun's output. Solar irradiance is one of the longest and most fundamental of all climate data records derived from space-based observations.

TSIS provides continuation of the TIM (Total Irradiance Monitor) and the SIM (Spectral Irradiance Monitor), currently flying on the NASA SORCE (Solar Radiation and Climate Experiment) mission. Launched in 2003, SORCE is now more than six years beyond its prime-mission lifetime. The launch failure of the NASA Glory mission in 2011, coupled with diminished battery capacity on SORCE and delays in the launch of TSIS, have put the continuous 36-year TSI record at risk. In 2012, a plan to maintain continuity of the TSI calibration scale between SORCE and TSIS was rapidly implemented through the USAF Space Test Program STPSat-3 that launched in late 2013. The shorter SSI record faces a likely gap between SORCE and TSIS.

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Figure 1: Overview of Earth science instruments on the ISS (installed or planned) in the second decade of the 21st century (image credit: NASA) 3)

 

Development status:

• August 4, 2017: The TESIS-1 instrument has arrived at NASA/KSC (Kennedy Space Center) for a targeted December launch. 4)

• University of Colorado is upgrading existing chamber for TSIS-1 thermal vacuum testing.

• NASA assumed responsibility for TSIS-1 as of October 1, 2015. The TSIS-1 project (and LASP contract) are funded.

• A TSIS-1 delta-Critical Design Review was successfully completed July 2015.

• A NASA decision to accommodate TSIS-1 on the ISS (International Space Station) was provided in April 2014.

• A portion of the TSIS-1 sensors were already fabricated over the years; they are in storage at CU/LASP (Figure 2).

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Figure 2: Status of the TSIS elements in November 2015 (image credit: CU/LASP)

Science Objectives:

• Nominal five-year mission, provides continuation of TSI record from SORCE and USAF STPSat-3

• Quantify variability in incoming solar radiation, as the most precise indicator for changes in Sun's energy output

• Determine regions/layers of Earth's atmosphere that are affected by solar variability, in order to quantify solar forcing mechanisms causing changes in climate

• Determination of whether the Sun's spectral ultraviolet output is in- or out-of-phase with visible wavelength output

• Provision of TSI and SSI data to support community science in climate, atmosphere, solar physics, and radiative transfer modeling.

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Figure 3: Total and spectral solar irradiance missions of NASA and NOAA (image credit: NOAA, NASA, Ref. 2)

• NASA/GSFC (Goddard Space Flight Center), Greenbelt, Maryland:

- TSIS-1 project: project management, system engineering, safety and mission assurance, and engineering oversight for the TSIS-1 payload

- ESDIS (Earth Science Data and Information System) Project/GES DISC (Goddard Earth Sciences Data and Information Services Center): archive and distribution for TSIS-1 data

• University of Colorado CU/LASP (Laboratory for Atmospheric and Space Physics), Boulder, CO:

- Design, development and testing of TSIS-1, support for ISS integration, science operations of the TSIS-1 instrument, data processing, data evaluation and delivery to the GES DISC

- TSIS-1 Science Operations Center, TSIS-1 Science Data System

• International Space Station Program:

- Launch services and robotic installation of the TSIS-1 payload onto an ISS Express Logistics Carrier (ELC-3), mission operations, and communications

- ISS interface: ISS POIC (Payload Operations Integration Center), Huntsville Operations Support Center, AL.

Table 1: Overview of TSIS-1 mission responsibilities 5)

The TSIS-1 mission is planned for an operational period of 5 years with solar tracking during sunlit phases.

• TIM (Total Irradiance Monitor) provides 7 configurations. TIM measures TSI incident at outer boundaries of atmosphere.

• SIM (Spectral Irradiance Monitor) provides 13 configurations. SIM measures SSI from 200 – 2400 nm (96% of TSI).

Mounted on the ELC-3 (ExPRESS Logistics Carrier 3), TSIS will acquire measurements of total and spectral solar irradiance (TSI and SSI, respectively). TSI is required for establishing Earth's total energy input while SSI is needed to understand how the atmosphere responds to changes in the sun's output. Solar irradiance is one of the longest and most fundamental of all climate data records derived from space-based observations.

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Figure 4: Artist's rendition of the TSIS-1 instrument to be installed at ELC-3 of the ISS (image credit: NASA, LASP)

Legend to Figure 4: The TSIS TPS (Thermal Pointing System) is deployed above the ELC-3 location after installation in order to provide sufficient clearance to track the sun each orbit with a two-axis gimbal.

 


 

TSIS (Total and Spectral solar Irradiance Sensor) instrument

In early 2014, NOAA and NASA agreed to fly TSIS on the ISS (International Space Station). In the FY16 President's Budget, NASA assumes responsibility for the TSIS mission on ISS (Ref. 5).

The TSIS-1 TIM and SIM instruments are upgraded versions of the two instruments that are flying on the SORCE (Solar Radiation and Climate Experiment) mission.

TSIS-1 is needed on-orbit as soon as practical to provide total and spectral solar irradiance measurements needed to maintain 35+ year climate data record continuity:

- Solar irradiance data record is critical for determining solar influences on Earth climate

- SORCE (Solar Radiation and Climate Experiment), launched in 2003 with a 5-year design life, currently provides these measurements

- Total Solar Irradiance Calibration Transfer Experiment (TCTE), built from "spare parts" and launched November 2013 on Air Force Space Test Program Satellite (STPSat-3, 2-3 year design life), will provide calibration between SORCE and TSIS-1 total solar irradiance measurements.

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Figure 5: The TSI Climate Data Record now spans 36 years. Instrument offsets are unresolved calibration differences, much of which are due to internal instrument scatter (image credit: CU/LASP)

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Figure 6: This composite shows the Sun's total solar irradiance since 1978 as observed from nine previous satellites. These observations are important to help scientists know precisely how much the Sun's energy changes and how that affects Earth (image credit: NASA) 6)

Figure 7: SORCE (Solar Radiation and Climate Experiment), launched in 2003, currently measuring total solar irradiance from space, observed a dip in the irradiance during intense solar flare activity in September 2017. TSIS-1 will continue these observations with one-third the uncertainty of its predecessor (image credit: NASA)

 

Launch: TSIS-1 was launched on 15 December 2017 (15:36 UTC) on the SpaceX-13 Falcon 9FT vehicle in a Dragon trunk as an unpressurized payload. The launch site was the Cape Canaveral Air Force Station, SLC-40 (Space Launch Complex 40). 7) 8)

Orbit: Near-circular orbit of the ISS, altitude of ~400 km, inclination = 51.6º, period = 93 minutes.

This mission marks the first time SpaceX has flown both a flight-proven Falcon 9 and a flight-proven Dragon spacecraft in the same mission. Falcon 9's first stage previously supported the CRS-11 mission in June 2017 and the Dragon spacecraft previously supported the CRS-6 mission in April 2015.

 


 

Mission status

• The SpaceX CRS-13 Dragon cargo spacecraft was installed on the Harmony module of the ISS on 17 Dec. 2017 at 8:26 a.m. EST or13:26 GMT (Ref. 10).

- The 13th contracted commercial resupply mission from SpaceX (CRS-13) delivered 2205 kg of supplies and payloads to the station. This includes 490 kg of supplies and provisions for the crew, 711 kg of scientific equipment and experiments, 189 kg of space station hardware, 5 kg of computer equipment and 165 kg of hardware to support EVAs (Extra-Vehicular Activities), or spacewalks, from the station (Ref. NO TAG#.

Two unpressurized payloads, with a combined mass of 645 kg, are contained within Dragon's Trunk.

1) SDS ( Space Debris Sensor) will be mounted to the outside of the Columbus laboratory. With a surface area of 1 m2, it will detect impacts from small pieces of orbital debris measuring as small as 50 µm across. SDS will operate at the station for at least two years, recording the velocity and size of objects that impact it.

2) TSIS-1 (Total and Spectral Solar Irradiance Sensor-1) will be mounted on the station's ELC-3 (ExPRESS Logistics Carrier-3) platform, which is attached to the station's P3 port truss segment. TSIS-1, will measure the Sun's energy input to Earth. TSIS-1 measurements will be three times more accurate than previous capabilities, enabling scientists to study the Sun's natural influence on Earth's ozone, atmospheric circulation, clouds and ecosystems.

- Research materials flying inside Dragon's pressurized area include an investigation demonstrating the benefits of manufacturing fiber optic filaments in a microgravity environment. Designed by the company Made in Space, and sponsored by CASIS (Center for the Advancement of Science in Space), the investigation will attempt to pull fiber optic wire from ZBLAN, a heavy metal fluoride glass commonly used to make fiber optic glass. Results from this investigation could lead to the production of higher-quality fiber optic products for use in space and on Earth.

- Dragon is scheduled to depart the station in January 2018 and return to Earth with more than 1630 kg of research, hardware and crew supplies.

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Figure 8: ISS configuration on 17 Dec. 2017. Four spaceships are parked at the space station including the SpaceX Dragon space freighter, the Progress 67 and 68 resupply ships and the Soyuz MS-06 crew ship (image credit: NASA) 9)

• While to ISS was traveling overhead between Australia and Papua New Guinea, NASA astronauts Mark Vande Hei and Joe Acaba captured the Dragon spacecraft on 17 Dec. 2017 at 5:57 a.m. EST (9:57 GMT) using the space station's robotic arm. 10) 11)

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Figure 9: The Dragon resupply ship is pictured just 10 meters away from the space station's Canadarm2 (image credit: NASA TV)

 


1) "Quick Facts: Total and Spectral Solar Irradiance Sensor (TSIS)," CU/LASP (University of Colorado/ Laboratory for Atmospheric and Space Physics), 2015, URL: http://lasp.colorado.edu/home/missions-projects/quick-facts-tsis/

2) Dan Mamula, "NOAA Solar Irradiance Data and Rescue (SIDAR) Program," NOAA, April 30, 2015, URL: http://satelliteconferences.noaa.gov/2015/doc
presentation/Session%204/4
3d_NSC2015_Session_4.3d_Mamula.pdf

3) Julie A. Robinson, William L. Stefanov,"Earth Science Research on the International Space Station," Committee on Earth Science and Applications from Space (CESAS) Space Studies Board National Academies of Science, Engineering, Medicine, 29 March 2016, URL: http://sites.nationalacademies.org/cs/groups/ssbsite
documents/webpage/ssb_171788.pdf

4) "TSIS shipped to Kennedy Space Center for upcoming launch," LASP, 4 Aug. 2017, URL: http://lasp.colorado.edu/home/blog/2017/08/04/tsis
shipped-to-kennedy-space-center-for-upcoming-launch/

5) Candace Carlisle, "Total and Spectral solar Irradiance Sensor (TSIS-1) Project Overview, " 2015 Sun-Climate Symposium, Savannah, Georgia, USA, Nov. 10-13, 2015 URL: http://lasp.colorado.edu/media/projects/SORCE
meetings/2015/presentations
Session%207/e_Carlisle_TSIS_Overview_Savannah2015.pdf

6) Kasha Patel, "Four Decades and Counting: New NASA Instrument Continues Measuring Solar Energy Input to Earth," NASA, 28 Nov. 2017, URL: https://www.nasa.gov/feature/goddard/2017
four-decades-and-counting
new-nasa-instrument-continues-measuring-solar-energy-input

7) "NASA Sends New Research to Space Station Aboard SpaceX Resupply Mission," NASA Press Release 17-096, 15 Dec. 23017, URL: https://www.nasa.gov/press-release/nasa-sends-new
research-to-space-station-aboard-spacex-resupply-mission

8) "SpaceX Flight-Proven Falcon 9 and Dragon Successfully Head to ISS on Resupply Mission," Satnews Daily, 15 Dec. 2017, URL: http://www.satnews.com/story.php?number=1159119243#

9) "Visiting Vehicle Launches, Arrivals and Departures," NASA, 17 Dec. 2017, URL: https://www.nasa.gov/feature/visiting-vehicle-launches-arrivals-and-departures

10) Mark Garcia, "Astronauts Capture Dragon Loaded With New Science," NASA, 17 Dec. 2017, URL: https://blogs.nasa.gov/spacestation/

11) "'Dragon back' as cargo reaches space station," Space Daily, 17 Dec. 2017, URL: http://www.spacedaily.com/reports/Dragon_back_as
cargo_reaches_space_station_999.html

 


The information compiled and edited in this article was provided by Herbert J. Kramer from his documentation of: "Observation of the Earth and Its Environment: Survey of Missions and Sensors" (Springer Verlag) as well as many other sources after the publication of the 4th edition in 2002. - Comments and corrections to this article are always welcome for further updates (herb.kramer@gmx.net).

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