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I gathered these information from various documents, Wiki pages, and email exchanges with specialists of the 30m telescope. Ideally I would like that this page contains the list of the various coordinates values delivered by the telescope, with their descriptions and the relations between them. It would good also to centralizes here links to related documents and wiki pages. I gathered these information from various documents, Wiki pages (in particular https://mrt-lx1.iram.es/mainWiki/AntennaMountDrive?highlight=%28CategoryNcs%29), and email exchanges with specialists of the 30m telescope. Ideally I would like that this page contains the list of the various coordinates values delivered by the telescope, with their descriptions and the relations between them. It would good also to centralizes here links to related documents and wiki pages.
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'''ATTENTION! The TimeStamp attribute in the table below gives the time when the message is generated inside the slow loop. So it is important to realize that this means TimeStamp is not the value of the time at which the parameters below (eg coordinates) are referring to; this temporal reference information is given by the MJD parameter, which is listed at a line of the table below.'''
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|| || LONGOBJ || rad or deg ? || Longitude of the source in the chosen coordinate system (RA or AZ etc.)|| predicted value at TimeStamp + 2s ||
|| || LATOBJ || rad or deg ? || Latitude of the source in the chosen coordinate system (DEC or EL etc.)|| predicted value at TimeStamp + 2s ||
|| || LONGOBJ || rad or deg ? || Longitude of the source in the chosen coordinate system (RA or AZ etc.)|| predicted value at !TimeStamp + 2s ||
|| || LATOBJ || rad or deg ? || Latitude of the source in the chosen coordinate system (DEC or EL etc.)|| predicted value at !TimeStamp + 2s ||
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|| LST || LST || seconds ? || Local Sideral Time || predicted value at TimeStamp + 2s ||
|| MJD || MJD || days || Modified Julian Day || predicted value at TimeStamp + 2s ||
|| paralact || PARANGLE || rad or deg ? || Paralactic angle [VALUE GENERATED IS WRONG] || ? ||
|| basisLat || BASELONG || radians ? || Actual longitude in the chosen coordinate system (RA or AZ etc.)|| predicted value at TimeStamp + 2s ||
|| basisLong || BASELAT || radians ? || Actual latitude in the chosen coordinate system (DEC or EL etc.)|| predicted value at TimeStamp + 2s ||
|| xOffset || LONGOFF || radians ? || Scan pattern longitude offset from the source in SYSTEMOF (RA or AZ etc.)|| predicted value at TimeStamp + 2s ||
|| yOffset || LATOFF || radians ? || Scan pattern latitude offset from the source in SYSTEMOF (DEC or EL etc.)|| predicted value at TimeStamp + 2s ||
|| actualAz || CAZIMUTH || radians ? || "Commanded" azimuth || TimeStamp-1s/slowRate ||
|| actualEl || CELEVATION || radians ? || "Commanded" elevation || TimeStamp-1s/slowRate ||
|| trackAz || AZIMUTH || radians ? || Real azimuth in the encoder reference || TimeStamp-1s/slowRate ||
|| trackEl || ELEVATION || radians ? || Real elevation in the encoder reference || TimeStamp-1s/slowRate ||
|| SigTrAz || TRACKING_AZ || radians ? || Azimuth RMS tracking error (sampling with fastRate = 128 Hz) || TimeStamp-1s/slowRate ||
|| SigTrEl || TRACKING_EL || radians ? || Elevation RMS tracking error (sampling with fastRate = 128 Hz) || TimeStamp-1s/slowRate ||
|| MaxTrAz || || radians ? || Azimuth Max tracking error (sampling with fastRate = 128 Hz) || TimeStamp-1s/slowRate ||
|| MaxTrEl || || radians ? || Elevation Max tracking error (sampling with fastRate = 128 Hz) || TimeStamp-1s/slowRate ||
|| MinTrAz || || radians ? || Azimuth Min tracking error (sampling with fastRate = 128 Hz) || TimeStamp-1s/slowRate ||
|| MinTrEl || || radians ? || Elevation Min tracking error (sampling with fastRate = 128 Hz) || TimeStamp-1s/slowRate ||
|| LST || LST || seconds ? || Local Sideral Time || predicted value at !TimeStamp + 2s ||
|| MJD || MJD || days || Modified Julian Day || predicted value at !TimeStamp + 2s ||
|| paralact || PARANGLE || rad or deg ? || Paralactic angle ['''VALUES ARE VISIBLY WRONG''', would be good to go in the code, find how they are calculated and correct the mistake] || ? ||
|| basisLat || BASELONG || radians ? || Actual longitude in the chosen coordinate system (RA or AZ etc.)|| predicted value at !TimeStamp + 2s ||
|| basisLong || BASELAT || radians ? || Actual latitude in the chosen coordinate system (DEC or EL etc.)|| predicted value at !TimeStamp + 2s ||
|| xOffset || LONGOFF || radians ? || Scan pattern longitude offset from the source in SYSTEMOF (RA or AZ etc.)|| predicted value at !TimeStamp + 2s ||
|| yOffset || LATOFF || radians ? || Scan pattern latitude offset from the source in SYSTEMOF (DEC or EL etc.)|| predicted value at !TimeStamp + 2s ||
|| actualAz || CAZIMUTH || radians ? || "Commanded" azimuth ('''isn't it rather the wished azimuth before pointing model and refraction corrections ?''') || !TimeStamp-1s/slowRate ||
|| actualEl || CELEVATION || radians ? || "Commanded" elevation ('''isn't it rather the wished elevation before pointing model and refraction corrections ?''') || !TimeStamp-1s/slowRate ||
|| trackAz || AZIMUTH || radians ? || Real azimuth in the encoder reference || !TimeStamp-1s/slowRate ||
|| trackEl || ELEVATION || radians ? || Real elevation in the encoder reference || !TimeStamp-1s/slowRate ||
|| !SigTrAz || TRACKING_AZ || radians ? || Azimuth RMS tracking error (sampling with fastRate = 128 Hz) || !TimeStamp-1s/slowRate ||
|| !SigTrEl || TRACKING_EL || radians ? || Elevation RMS tracking error (sampling with fastRate = 128 Hz) || !TimeStamp-1s/slowRate ||
|| !MaxTrAz || || radians ? || Azimuth Max tracking error (sampling with fastRate = 128 Hz) || !TimeStamp-1s/slowRate ||
|| !MaxTrEl || || radians ? || Elevation Max tracking error (sampling with fastRate = 128 Hz) || !TimeStamp-1s/slowRate ||
|| !MinTrAz || || radians ? || Azimuth Min tracking error (sampling with fastRate = 128 Hz) || !TimeStamp-1s/slowRate ||
|| !MinTrEl || || radians ? || Elevation Min tracking error (sampling with fastRate = 128 Hz) || !TimeStamp-1s/slowRate ||
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For simplicity I note ''Rot'' the rotation matrix which allows to switch from one coordinate system to another one, without specifying which are these coordinate system (to know this look at the values inside CTYPE1, CTYPE2 and SYSTEMOF) ==> this means that I do not distinguish between a rotation and its inverse operation, but the reader can figure out which is the direction of teh rotation from the context. Note that ''Rot'' may use the paralactic angle, but since the value is wrong it can be recalculated using Az, El, and the Site Latitude. For simplicity I note ''Rot'' the rotation matrix which allows to switch from one coordinate system to another one, without specifying which are these coordinate system (to know this look at the values inside CTYPE1, CTYPE2 and SYSTEMOF) ==> this means that I do not distinguish between a rotation and its inverse operation, but the reader can figure out which is the direction of the rotation from the context. Note that ''Rot'' may use the paralactic angle, but since the value is wrong it can be recalculated using Az, El, and the Site Latitude.
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With this conventions we should have (TO BE CHECKED ON A FITS FILE AND/OR 30m EXPERTS [AS/WB/HU/RZ...]): With this conventions we should have ('''TO BE CHECKED ON A FITS FILE AND/OR 30m EXPERTS [AS/WB/HU/RZ...]'''):

Relation between coordinates parameters of the 30m telescope

SL, 06/2013.

Important preliminary remark: for now this page is a sand box where I gather various informations about coordinates variables generated by the 30m telescope control system, which may be useful for the implementation of a new instrument into the system

I gathered these information from various documents, Wiki pages (in particular https://mrt-lx1.iram.es/mainWiki/AntennaMountDrive?highlight=%28CategoryNcs%29), and email exchanges with specialists of the 30m telescope. Ideally I would like that this page contains the list of the various coordinates values delivered by the telescope, with their descriptions and the relations between them. It would good also to centralizes here links to related documents and wiki pages.

Table of the coordinates parameters generated by the New Control System of the 30m telescope

In particular I list the variables from the antMD.trace category, that are also broadcast on the local network by the Elvin server. The correspondence with the parameters in the IMBFITS files recorded at the end of each scan, and the time stamp information and possibly units of these parameters are also displayed. ATTENTION! The TimeStamp attribute in the table below gives the time when the message is generated inside the slow loop. So it is important to realize that this means TimeStamp is not the value of the time at which the parameters below (eg coordinates) are referring to; this temporal reference information is given by the MJD parameter, which is listed at a line of the table below.

antMD.trace. parameter name

IMBFITS parameter name

units

Description

time of validity of the value

SITELONG

rad or deg ?

Telescope longitude

static

SITELAT

rad or deg ?

Telescope latitude

static

RXHORI

radians ?

Nasmyth offset in Pointing Model

static

RXVERT

radians ?

Nasmyth offset in Pointing Model

static

RXHORICO

radians ?

Nasmyth offset in Pako (user defined)

static

RXVERTCO

radians ?

Nasmyth offset in Pako (user defined)

static

P1 .. P6

radians ?

Pointing Model parameters

static

CTYPE1

string

Source coordinate system for BASELONG (e.g. AZ, RA, etc.)

static

CTYPE2

string

Source coordinate system for BASELAT (e.g. EL, DEC, etc.)

static

SYSTEMOF

string

System in which offsets (LONGOFF/LATOFF) are reported

static

LONGOBJ

rad or deg ?

Longitude of the source in the chosen coordinate system (RA or AZ etc.)

predicted value at TimeStamp + 2s

LATOBJ

rad or deg ?

Latitude of the source in the chosen coordinate system (DEC or EL etc.)

predicted value at TimeStamp + 2s

timeStamp

seconds ?

time at which the antMD message is sent

slowRate

Hz

Frequency at which the coordinates data are generated

LST

LST

seconds ?

Local Sideral Time

predicted value at TimeStamp + 2s

MJD

MJD

days

Modified Julian Day

predicted value at TimeStamp + 2s

paralact

PARANGLE

rad or deg ?

Paralactic angle [VALUES ARE VISIBLY WRONG, would be good to go in the code, find how they are calculated and correct the mistake]

?

basisLat

BASELONG

radians ?

Actual longitude in the chosen coordinate system (RA or AZ etc.)

predicted value at TimeStamp + 2s

basisLong

BASELAT

radians ?

Actual latitude in the chosen coordinate system (DEC or EL etc.)

predicted value at TimeStamp + 2s

xOffset

LONGOFF

radians ?

Scan pattern longitude offset from the source in SYSTEMOF (RA or AZ etc.)

predicted value at TimeStamp + 2s

yOffset

LATOFF

radians ?

Scan pattern latitude offset from the source in SYSTEMOF (DEC or EL etc.)

predicted value at TimeStamp + 2s

actualAz

CAZIMUTH

radians ?

"Commanded" azimuth (isn't it rather the wished azimuth before pointing model and refraction corrections ?)

TimeStamp-1s/slowRate

actualEl

CELEVATION

radians ?

"Commanded" elevation (isn't it rather the wished elevation before pointing model and refraction corrections ?)

TimeStamp-1s/slowRate

trackAz

AZIMUTH

radians ?

Real azimuth in the encoder reference

TimeStamp-1s/slowRate

trackEl

ELEVATION

radians ?

Real elevation in the encoder reference

TimeStamp-1s/slowRate

SigTrAz

TRACKING_AZ

radians ?

Azimuth RMS tracking error (sampling with fastRate = 128 Hz)

TimeStamp-1s/slowRate

SigTrEl

TRACKING_EL

radians ?

Elevation RMS tracking error (sampling with fastRate = 128 Hz)

TimeStamp-1s/slowRate

MaxTrAz

radians ?

Azimuth Max tracking error (sampling with fastRate = 128 Hz)

TimeStamp-1s/slowRate

MaxTrEl

radians ?

Elevation Max tracking error (sampling with fastRate = 128 Hz)

TimeStamp-1s/slowRate

MinTrAz

radians ?

Azimuth Min tracking error (sampling with fastRate = 128 Hz)

TimeStamp-1s/slowRate

MinTrEl

radians ?

Elevation Min tracking error (sampling with fastRate = 128 Hz)

TimeStamp-1s/slowRate

Relation between the various coordinates variables

For simplicity I note Rot the rotation matrix which allows to switch from one coordinate system to another one, without specifying which are these coordinate system (to know this look at the values inside CTYPE1, CTYPE2 and SYSTEMOF) ==> this means that I do not distinguish between a rotation and its inverse operation, but the reader can figure out which is the direction of the rotation from the context. Note that Rot may use the paralactic angle, but since the value is wrong it can be recalculated using Az, El, and the Site Latitude.

I note PM the corrections from the pointing model applied to the wished coordinates, to build the commanded coordinates that will allow to point in the sky real coordinates that are as close as possible to the wished coordinates.

Also I don't write the transformation from one unit system to another (ex: rad to deg, etc.).

With this conventions we should have (TO BE CHECKED ON A FITS FILE AND/OR 30m EXPERTS [AS/WB/HU/RZ...]):

  • [BASELONG; BASELAT] = [LONGOBJ; LATOBJ] + [LONGOFF; LATOFF]
  • [BASELONG; BASELAT](T-2s) = Rot[CAZIMUTH; CELEVATION](T+1s/slowRate) ; Attention! The relation given here is what I think was the intention of people who created this set of coordinates, however as reported in the GISMONCSInterfaceandFITSFormatv0.5.pdf document, the experience of tracking errors with GISMO prior to 2012 indicates that some corrections are missing in [CAZIMUTH; CELEVATION], in particular the inclinometer corrections, and possibly other corrections...

  • [AZIMUTH; ELEVATION] = PM([CAZIMUTH;CELEVATION]) + [TRACKING_AZ; TRACKING_EL] ; As indicated also in GISMONCSInterfaceandFITSFormatv0.5.pdf they seem to be encoder values, not coordinates in the sky

  • Taking into account the remarks above and calling AZ and EL the real Azimuth in the sky and the real Elevation in the sky: [AZ; EL](T) = Rot[BASELONG; BASELAT](T-2s) + [TRACKING_AZ; TRACKING_EL](T+1s/slowRate)

CoordinatesParamNCS (last edited 2013-10-18 13:37:41 by NikaBolometer)