Gap analyses by variable, type of mission or WIGOS subcomponent Help icon

Select gap analysis type

Select analysis type

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In "Simplified" mode, the results in the analysis are calculated by looking at each instrument's mission objectives: for each instrument we keep track of what the primary, secondary, and opportunity mission objectives are. These mission objectives indicate that an instrument is primarily envisioned to measure variable X, Y and Z, that variables A, B and C are its secondary objective, and that it may offer the opportunity to measure variables I and II although it is not optimized for that. The simplified Gap analysis produces a timeline based on this information. The simplified Gap analysis is only available for analyzing variables, not for missions.
In "Expert system" mode, the results in the analysis are calculated with an expert system. Internally, OSCAR works with a large set of 1700 rules that determine whether or not an instrument is capable of measuring a given variable, and to what degree. When you select "Expert system", the Gap analysis is performed based on this large set of rules.

Select a Variable

Select a type of Mission

Select a WIGOS subcomponent

Variable sorting criteria

 

Each instrument is assigned with a 5-step rating, evaluated as a blend of several elements.  For this particular Variable, the rating is driven by:

  • the observed volume (ionosphere or platform environment).

 

RATING CRITERIA:

1

  • Plasma velocity observed in the ionosphere

2

  • -

3

  • Plasma velocity observed in the platform environment

4

  • -

5

  • -
Measurement timeline for Ionospheric plasma velocity Help icon
Hint: Move around in the timeline by scrolling up, down, left or right.

Found 25 results

This table has a large number of results.
Instrument NRT? Relevance Satellite Orbit DLR
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
2005
2006
2007
2008
2009
2010
2011
2012
2013
2014
2015
2016
2017
2018
2019
2020
2021
2022
2023
2024
2025
2026
2027
2028
CERTO1 - primaryC/NOFS13 °
X
XXXXXX
X
CINDI1 - primaryC/NOFS13 °
X
XXXXXX
X
DIDM1 - primaryCHAMP87 °
X
XXXXXXXXX
X
DIDM1 - primaryC/NOFS13 °
X
XXXXXX
X
IVM1 - primaryICON27 °
X
XXXXX
PLP1 - primaryC/NOFS13 °
X
XXXXXX
X
VEFI1 - primaryC/NOFS13 °
X
XXXXXX
X
VIDI1 - primaryCOSMIC-224 °
X
XXXXXXX
SEM/SSI/ES-23 - highDMSP-F0210:00 desc
X
X
SEM/SSI/ES-23 - highDMSP-F0410:00 desc
X
X
SEM/SSI/ES-23 - highDMSP-F0506:20 desc
X
SEM/SSI/ES-23 - highDMSP-F0606:20 desc
X
XXXXXXXXXXXXXX
X
SEM/SSI/ES-23 - highDMSP-F0710:10 desc
X
XXXX
X
SEM/SSI/ES-23 - highDMSP-F0806:10 desc
X
XXXXXXXXXXXXXXXXXX
X
SEM/SSI/ES-23 - highDMSP-F0909:30 desc
X
XXXXX
X
SEM/SSI/ES-23 - highDMSP-F1007:30 desc
X
XXXXXX
X
SEM/SSI/ES-23 - highDMSP-F1105:00 desc
X
XXXXXXXX
X
SEM/SSI/ES-23 - highDMSP-F1203:35 desc
X
XXXXXXXXXXXXX
X
SEM/SSI/ES-23 - highDMSP-F1305:51 desc
X
XXXXXXXXXXXXXXXXXXX
X
SEM/SSI/ES-2No3 - highDMSP-F1405:00 desc
X
XXXXXXXXXXXXXXXXXXXX
SEM/SSI/ES-2No3 - highDMSP-F1514:50 asc
X
XXXXXXXXXXXXXXXXXXXX
X
SESS/SSI/ES-3No3 - highDMSP-F1606:20 desc
X
XXXXXXXXXXXXXXXX
SESS/SSI/ES-3 Important noteNo3 - highDMSP-F1706:40 desc
X
XXXXXXXXXXXXXXXX
SESS/SSI/ES-3 Important noteNo3 - highDMSP-F1804:50 desc
X
XXXXXXXXXXXXX
SESS/SSI/ES-3No3 - highDMSP-F1906:36 desc
X
X
X
All instruments for measuring Ionospheric plasma velocity
Instruments Relevance Operational limitations
CERTO1 - primary
CINDI1 - primary
DIDM1 - primary
IVM1 - primary
PLP1 - primary
VEFI1 - primary
VIDI1 - primary
SEM/SSI/ES-23 - high
SESS/SSI/ES-33 - high