HDPWS

Radio JOVE MTSU Dual Dipole Array and Radio Jove 20.1 MHZ Data

ResourceID
spase://GBO/NumericalData/RadioJOVE/MTSU/DualDipole-RJ/PT0.1S

Description
Radio JOVE Single Frequency Data Product. This data set consists of observations made at the Middle Tennessee State University (MTSU) using a Dual Dipole Array and a 20.1 MHz Radio JOVE direct conversion receiver, 7 kHz Bandwidth. These data are generated using the Radio Sky-Pipe Software. The data set consists of a single channel of data. These data may include observations of Solar Radio Bursts, Jupiter decametric radio emission, or Galactic Background radio emission. The Radio-SkyPipe produced datafiles consist of a fixed length header and a variable length note. The data portion of the file for one channel of data consists of an 8 byte timestamp using the VisualBasic 6 date format (days since 1 Jan 1900) followed by one 8 byte data value (Channel 1), this pattern repeats until the end of file. More details can be found in the Data File Structure document on the Radio-SkyPipe help page (see Information URL).

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Details

Version:2.4.0

NumericalData

ResourceID
spase://GBO/NumericalData/RadioJOVE/MTSU/DualDipole-RJ/PT0.1S
ResourceHeader
ResourceName
Radio JOVE MTSU Dual Dipole Array and Radio Jove 20.1 MHZ Data
ReleaseDate
2022-02-19 12:34:56.789
RevisionHistory
RevisionEvent
ReleaseDate
2022-02-19 12:34:56.789
Note
RadioJOVE: Resource Header Description reformated, One URL corrected for // typo in some files. Metadata submitted by J.M. Weygand on 2021-11-08, reviewed by LFB
Description
Radio JOVE Single Frequency Data Product. This data set consists of observations made at the Middle Tennessee State University (MTSU) using a Dual Dipole Array and a 20.1 MHz Radio JOVE direct conversion receiver, 7 kHz Bandwidth. These data are generated using the Radio Sky-Pipe Software. The data set consists of a single channel of data. These data may include observations of Solar Radio Bursts, Jupiter decametric radio emission, or Galactic Background radio emission. The Radio-SkyPipe produced datafiles consist of a fixed length header and a variable length note. The data portion of the file for one channel of data consists of an 8 byte timestamp using the VisualBasic 6 date format (days since 1 Jan 1900) followed by one 8 byte data value (Channel 1), this pattern repeats until the end of file. More details can be found in the Data File Structure document on the Radio-SkyPipe help page (see Information URL).
Contacts
Role Person StartDate StopDate Note
1. DataProducer spase://SMWG/Person/Chuck.Higgins
2. TechnicalContact spase://SMWG/Person/Jim.Sky
3. ArchiveSpecialist spase://SMWG/Person/Leonard.N.Garcia
4. MetadataContact spase://SMWG/Person/James.M.Weygand
5. MetadataContact spase://SMWG/Person/Lee.Frost.Bargatze

InformationURL
Name
Radio Jove Spectrograph Users Group (SUG)
URL
Description
Available at this site is a description of the Observatory facilities, a manual for the Dual Dipole antenna, and a guide to reading the binary data file produced by the Radio-SkyPipe software.
InformationURL
Name
Radio Sky Publishing Radio-SkyPipe Help Page
URL
Description
The page "Radio-SkyPipe data file structure" describes the file standard.
InformationURL
Name
An Overview of the Radio JOVE Project
URL
Description
An Overview of the Radio JOVE Project–Summer 2014, Chuck Higgins, Middle Tennessee State University
AccessInformation
RepositoryID
AccessURL
Name
Radio JOVE Data Archive
URL
Format
Binary
InstrumentIDs
MeasurementType
Waves.Passive
SpectralRange
RadioFrequency
Parameter #1
Name
Time
Description
The time array of the data. The time resolution is variable but is typically set at about 0.1 seconds ( that is about 10 samples/second)
Units
Days since 1 January 1900
Support
SupportQuantity
Temporal
Parameter #2
Name
Channel 1 Data
Units
KiloKelvins
Wave
WaveType
Electromagnetic
WaveQuantity
ACElectricField
FrequencyRange
SpectralRange
RadioFrequency
Low
20.097
High
20.103
Units
MHz