Skip to content

Plate Solving

Overview#

Plate solving is a method used to determine exactly where the telescope is pointing in the sky by comparing the star field in an image to a database of star positions. Upon matching the image's stars, the plate solving application returns the right ascension (RA) and declination (Dec) of the center of the image. N.I.N.A. understands this output, and may be used to synchronise the mount to that coordinate. This gives the mount a very accurate notion of where it is pointing in space, making subsequent slews very precise.

Important

Plate solving requires that your camera and telescope settings are correct. The two important settings are the camera's sensor pixel size and the focal length of the telescope. N.I.N.A. will usually be able to detect the sensor's pixel size, but the user will need to inform the software of the effective focal length of the optical path. This includes the focal length of the telescope itself and any focal length-affecting devices such as reducers, telecompressors, or barlows.

Manual Plate Solving#

To manual trigger plate solve of an image you need to use the Plate Solving tool in the image panel. There clicking on the play button a new image will be captured and solved based on the given parameters. Should the solve attempt fail, N.I.N.A. will prompt if the Blind Solver should be used to solve the image. The reason for this is that while most plate solving software is quite good, none are infallible. Where one fails to solve a given image, another might succeed. Thus, the Blind Solver acts as a back up method.

Before being able to plate solve N.I.N.A., any setup that the primary and blind solvers require must be done in accordance with their respective instructions.

Tip

In the event that both the Primary and Blind plate solving applications fail to produce a result, please verify that your image is in focus and, if necessary, increase the exposure time or change the filter type to allow more stars to be adequately exposed.
Furthermore the last failure is stored in %LOCALAPPDATA%\NINA\PlateSolver\Failed to analyze why it failed

To apply the plate solving results to your mount, you need to enable the Sync option and, if desired, the Reslew To Target option in the Plate Solving panel. The former will synchronize your mount's notion of its pointing position to the position that the plate solver has determined is it pointed. The latter option will make N.I.N.A. slew your mount to the location where it was supposed to be in the first place. This allows skipping the star alignment process that is typically done during a mount's start-up process. For a precise centering with a given error margin use the "Repeat until error <" option.

Automatic Plate Solving#

Plate solving is also utilized in the Sequencer to center on a given target and Automated Meridian Flip feature to recenter the scope after a flip occurred. Here plate solving will be triggered automatically and the parameters are used from the Plate Solving Options. This is essential for a hands-off operation of N.I.N.A. and it is recommended that the application is set up to have a blind solver, should the preferred primary plate solver not work as expected.

Important Parameters for Platesolving#

In order for plate solving to work properly a couple of important parameters have to be set as precice as possible. When these deviate to some degree from the real world hardware, platesolving software will have a hard time solving the image or even fail all the time.

  1. Camera Pixel Size
    Go to Options->Equipment->Camera section, the pixel size needs to be entered in micrometers.
  2. Telescope Focal Length
    Go to Options->Equipment->Telescope section and set the focal length of your telescope in millimeters. The value has to be the effective focal length considering all correctors and optical elements that could shift the overall focal length

Tip

If you are unsure about the effective focal length, you can use nova.astrometry.net to validate your real focal length. Upload a non binned image of a target that used your current setup. Once the image is solved the "Pixel Scale" is displayed. You can extract the focal length now by using the formula
"Focal Length = (Camera Pixel Size / Pixel Scale) * 206.26"

Plate Solving Software#

N.I.N.A. supports the most popular plate solving software suites available, each of which has its own benefits and drawbacks. The following is a list of support plate solving software and their general characteristics.

Author: Han Kleijn
URL: www.hnsky.org/astap.htm

The ASTAP (Astrometric STAcking Program) astrometric solver and FITS file viewer is a powerful standalone plate solve application. It is downloaded and installed in two parts - the application itself, and its star database.

Benefits

  • Fast
  • Reliable
  • Capable of fast blind solves even when the mount is far off the expected position
  • Does not require an Internet connection

Drawbacks

  • Requires precise parameter setup

Recommendation

  • Primary Solver: Recommended
  • Blind Solver: Recommended

Astrometry.Net (online)#

Author: Astrometry.Net Project
URL: astrometry.net

N.I.N.A. can upload the image to the API servers of Astrometry.Net for them to plate solve it. This requires the user to register for an account on Astrometry.Net and generate an API key that is then entered into the plate solve settings for Astrometry.Net.

Benefits

  • Reliable when the mount's location is unknown or far off the expected position
  • Does not need to know the camera's sensor pixel size or telescopes focal length

Drawbacks

  • Requires an Internet connection
  • Slow

Recommendation

  • Primary Solver: Not recommended
  • Blind Solver: Recommended when an Internet connection is available

Local Astrometry.Net (ansvr)#

Author: Andy Glasso
URL: adgsoftware.com/ansvr/

The local Astrometry.Net plate solver needs to be installed separately. It requires download of index files which can be installed through N.I.N.A., as well as the required index files that you need for your combination of focal length and pixel size. See plate solving settings.

Benefits

  • Reasonably fast when the mount's location is unknown or far off the expected position
  • Fast when the mounts location is close
  • Does not require an Internet connection

Drawbacks

  • The downloading and installation of the correct and numerous index files is crucial for performance
  • Can mistake hot pixels for stars (a possible issue with DSLRs and other noisy sensors)
  • Most installer bundles for Windows deliver rather outdated versions

Recommendation

  • Primary Solver: Not recommended
  • Blind Solver: Not recommended

All Sky Platesolver#

Author: Giovanni Benintende
URL: astrogb.com/astrogb/All_Sky_Plate_Solver.html

This application is basically a wrapper for the local astrometry.net client.

Benefits

  • Much easier to set up than the local astrometry.net client
  • Does not require an Internet connection

Drawbacks

  • Same as local astrometry.net client, except the setup part

Recommendation

  • Primary Solver: Not recommended
  • Blind Solver: Not recommended

PlateSolve2#

Author: PlaneWave Instruments
URL: planewave.com/downloads/software/

PlateSolve2 is a standalone executable which can be downloaded from Planewave's PlateSolve2 downloads page. It requires the download of at least one catalogue of stars so it can properly work. You need to start the executable once standalone and set the catalog location of the catalog that you want to use. Both the APM or UCAC3 catalogues will work fine, but it is recommended to download both of them should you encounter issues with either one of them.

Benefits

  • Very fast when the mount's location is close to expected position
  • Does not require an Internet connection

Drawbacks

  • Slow plate solves when the mount's location is far off the expected position and the focal length of the telescope is long
  • The regional settings of windows need to be set to use a point as the decimal symbol

Recommendation

  • Primary Solver: Recommended
  • Blind Solver: use as a Blind Solver is not possible

PlateSolve3#

Author: PlaneWave Instruments (Dave Rowe) URL: PlateSolve 3.80 5GB

Nina has kindly been selected to add the new PlateSolve3 program to its arsenal of platesolvers, courtesy of Dave Rowe. PlateSolve3 is a standalone executable which has been improved to work with longer focal lengths and smaller FOVs with fewer stars. This download has the necessary catalogues already added. Just unpack it into a directory of your choosing and point to it in Nina platesolving options.
You need to start the executable once standalone and select File - Configure directory.
Set the GaiaDr2 location to the 'UD Catalog' directory in the unpacked PlateSolve3.80 directory.
Then set the UCAC4 location to the 'Kepler' directory in the same unpacked directory. You will also need to set your location in View - Parameters

Benefits

  • Works really well with long focal lengths and small FOVs. Tested up to 12000mm.
  • Very fast (blind) solver
  • Does not require an Internet connection

Drawbacks

  • A little slow to start up.
  • The regional settings of windows need to be set to use a point as the decimal symbol

Recommendation

  • Primary Solver: Recommended
  • Blind Solver: Recommended