Constellation Observing System for Meteorology, Ionosphere, and Climate

COSMIC
Spacecraft properties
COSMIC
Names	Formosat 3

Mission type	Meteorology, Ionosphere, Climatology, and Space weather research
COSPAR ID	2006-011A through 2006-011F
SATCAT №	29047 through 29052
Website	COSMIC at UCAR

Manufacturer	Orbital Sciences Corporation
Launch mass	155 lb (70 kg)

Start of mission
Launch date	01:40, April 15, 2006 (2006-04-15T01:40)-->
Rocket	Minotaur

Orbital parameters
Reference system	Geocentric
Eccentricity	0
Perigee	500 km (310 mi)
Apogee	500 km (310 mi)
Inclination	72°

Constellation Observing System for Meteorology, Ionosphere, and Climate (COSMIC) is a program designed to provide advances in meteorology, ionospheric research, climatology, and space weather by using GPS satellites in conjunction with low Earth orbiting (LEO) satellites. The term "COSMIC" may refer to either the organization itself or the constellation of satellites (also known as FORMOSAT-3, 福爾摩沙衛星三號, in Taiwan). The constellation is a joint U.S.-Taiwanese project with major participants including the University Corporation for Atmospheric Research (UCAR), the National Science Foundation, the Naval Research Laboratory (NRL), the Air Force Research Laboratory (AFRL) on the U.S. side and the National Space Organization (NSPO) on the Taiwanese side.

The total cost of the project is US$100 million, 80% of which is being provided by NSPO, and the remainder by various U.S. agencies.^[1]

After experiencing several delays, the launch of the COSMIC satellite constellation atop a Minotaur launch vehicle from Vandenberg AFB occurred at 01:40 GMT, on April 15, 2006, despite heavy fog.^[2] The satellites, which orbit at an altitude of 500 miles, required over a year to move into the correct positions to provide full global coverage.

Instruments

Components of a FORMOSAT-3 / COSMIC satellite

The COSMIC satellites are equipped with three primary forms of instrumentation for remote sensing, including:

GPS Radio Occultation Experiment
Tri-band beacon (TBB)
Tiny Ionospheric Photometer (TIP)^[3]

Deployment

All 6 microsatellites were launched on a single launch vehicle and deployed into a single parking orbit after launch. The spacecraft were then deployed into separate orbital planes through the use of precession due to the oblateness of the Earth and raised to a final orbital altitude over the course of several months. Scientific data were collected during the deployment process, along with experimental validation and calibration.

Status

Model of FORMOSAT-3.

Currently only four of the microsatellites remain fully functional. The FM2's power system lost 50% of its output in February 2007, while FM3's solar panel also malfunctioned since August 2007. As a result, both satellites are operating in a degraded state, capable of returning data only during specific solar angles. The FM6 went out of control in September 2007, but control was restored by November 16 of the same year.^[4]^[5] FM3 had severe power problem since July 6, 2010. It is declared not functional since then. FM4, FM5, and FM6 have had battery aging problem.^[6]

Orbital information

Parking orbit

Altitude: 500 km
Inclination: 72 degrees
Eccentricity: 0 degrees

Final orbital configuration

Altitude: 700 – 800 km
Inclination: 72 degrees
Eccentricity: 0 degrees
Spacing between right ascension of ascending node: 24 degrees
Spacing in mean anomaly between adjacent orbital planes: 45 degrees

References

↑ "COSMIC: About". UCAR COSMIC. Retrieved 2006-04-18.
↑ Ray, Justin (2006-04-14). "Launch Coverage for Minotaur Rocket' COSMIC Mission". Spaceflight Now. Archived from the original on 2006-04-15.
↑ "New Satellite System Will Use GPS Signals To Track Hurricanes, Climate Change, and Space Weather" (Press release). UCAR. 2006-04-12.
↑ COSMIC Current Status
↑ COSMIC Homepage
↑ C.-J. Fong, D. Whiteley, E. Yang, K. Cook, V. Chu, B. Schreiner, D. Ector, P. Wilczynski, T.-Y. Liu, & N. L. Yen, "Space & Ground Segment Performance of the FORMOSAT-3 / COSMIC Mission: Four Years in Orbit," Atmospheric Measurement Techniques Discussions, Volume 4, Issue 1, 2011, pp. 599-638 (abstract here: http://adsabs.harvard.edu/abs/2011AMTD....4..599F )

External links

Official site
COSMIC Mission Profile by NASA's Solar System Exploration
University Corporation for Atmospheric Research (UCAR)
UCAR Office of Programs (UOP)
National SPace Organization (NSPO) - COSMIC's Taiwanese counterpart.
ScienceNOW: The Little Satellite Fleet That Could,
Journal of Geophysical Research: Space Physics (1978–2012)

Comparison of COSMIC ionospheric measurements with ground-based observations and model predictions: Preliminary results 12 December 2006

Space Weather and the Global Positioning System

Orbital meteorological and remote sensing systems

Concepts

Current projects

Earth Observing System (EOS)	GPM TRMM Landsat 7 QuikSCAT Terra ACRIMSAT NMP/EO-1 Jason-1 OSTM/Jason-2 Jason-3 Meteor 3M-1/Sage III GRACE Aqua SORCE Aura CloudSat CALIPSO NPOESS Megha-Tropiques SARAL IRS ESSP Aquarius Landsat 8 SMAP

A-train satellites	Aqua Aura CALIPSO CloudSat GCOM-W1 (Shizuku) OCO-2

Copernicus programme	Sentinel-1 Sentinel-2 Sentinel-3 Sentinel-4 Sentinel-5 Precursor Sentinel-5

Geostationary meteorological satellites	Elektro-L Fengyun-2 GOES INSAT Meteosat Himawari-8

Other satellites	CBERS COSMO-SkyMed DMSP DMC EROS Fengyun-3 FORMOSAT-2 GOSAT (Ibuki) Landsat MetOp Meteor POES RADARSAT-2 SMOS SPOT TerraSAR-X THEOS

Former projects

Completed	ADEOS (Midori) ADEOS II (Midori 2) COSMIC (FORMOSAT-3) Envisat ERS FORMOSAT-1 Geosat GMS (Himawari) ICESat IKONOS Nimbus PARASOL QuickBird RADARSAT-1 Seasat SeaWiFS TIROS TOPEX/Poseidon UARS Vanguard

Failed	OCO Glory

Cancelled	NMP/EO-3

← 2005 · Orbital launches in 2006 · 2007 →

New Horizons \| Daichi \| EchoStar X \| Himawari 7 \| Akari · CUTE-1.7 + APD \| Arabsat-4A \| SpainSat-1 · Hot Bird 7A \| ST-5 \| FalconSAT-2 \| Soyuz TMA-8 \| JCSAT-5A \| COSMIC \| Astra 1KR \| Progress M-56 \| EROS-B \| Yaogan 1 \| CALIPSO · CloudSat \| Kosmos 2420 \| GOES 13 \| Satmex 6 · Thaicom 5 \| Resurs-DK No.1 \| KazSat-1 \| Galaxy 16 \| USA-187 · USA-188 · USA-189 \| Progress M-57 \| Kosmos 2421 \| USA-184 \| STS-121 (MPLM) \| INSAT-4C \| Genesis I \| Kosmos 2422 \| BelKA · Baumanets · PicPot · SACRED · ION · Rincon 1 · ICECube-1 · KUTESat Pathfinder · SEEDS · nCube · HAUSAT-1 · MEROPE · CP-2 · AeroCube-1 · CP-1 · Mea Huaka'i · ICECube-2 \| Arirang-2 \| Hot Bird 8 \| JCSAT-3A · Syracuse 3B \| Koreasat 5 \| Shijian 8 \| STS-115 (ITS P3/4) \| IGS-3A \| Chinasat-22A \| Kosmos 2423 \| Soyuz TMA-9 \| Hinode · HIT-SAT · SSSAT \| USA-190 \| DirecTV-9S · Optus D1 · LDREX \| MetOp-A \| Progress M-58 \| Shijian 6C · Shijian 6D \| STEREO \| Sinosat-2 \| XM-4 \| USA-191 \| Badr-4 \| USA-192 \| Fengyun 2-05 \| WildBlue 1 · AMC-18 \| STS-116 (ITS P5 · SpaceHab LSM · ANDE-MAA · ANDE-FACL · RAFT1 · MARScom · MEPSI-2) \| MEASAT-3 \| USA-193 \| TacSat-2 · GeneSat \| Kiku 8 \| SAR-Lupe 1 \| Meridian 1 \| Kosmos 2424 · Kosmos 2425 · Kosmos 2426 \| COROT

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in brackets.

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