POV-Ray : Newsgroups : povray.binaries.images : Amalthea, lit by Jupitershine Server Time
14 Nov 2024 12:22:21 EST (-0500)
  Amalthea, lit by Jupitershine (Message 1 to 9 of 9)  
From: Jörg 'Yadgar' Bleimann
Subject: Amalthea, lit by Jupitershine
Date: 6 May 2009 05:15:41
Message: <4a01553d@news.povray.org>
High!

As I plan to launch an animation of the small Jovian moon Amalthea soon, 
I introduced radiosity in PoVSolar... but I think there's still much to 
improve!

Current radiosity settings are:

       brightness 3.2
       always_sample off
       error_bound 1.5
       count 100

If I lower error_bound too much (e. g. to 1.0 or even lower), I get 
Amalthea's portions which are closest to Jupiter glowing in an 
unrealistic red, surrounded by olive-green hues...

See you in Khyberspace!

Yadgar

Now playing: I've Been Losing You, Dub Version (a-ha)


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From: Cousin Ricky
Subject: Re: Amalthea, lit by Jupitershine
Date: 6 May 2009 17:55:00
Message: <web.4a02071ccf0118f078641e0c0@news.povray.org>
=?ISO-8859-1?Q?J=F6rg_=27Yadgar=27_Bleimann?= <yaz### [at] gmxde> wrote:
> As I plan to launch an animation of the small Jovian moon Amalthea soon,
> I introduced radiosity in PoVSolar... but I think there's still much to
> improve!

What are you using for the starry background?


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From: nemesis
Subject: Re: Amalthea, lit by Jupitershine
Date: 6 May 2009 20:55:01
Message: <web.4a02307ecf0118f0a77de5000@news.povray.org>
Hmm, it's amorphous format and the brown color make it look a bit like, eh...
you know... :P


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From: Jörg 'Yadgar' Bleimann
Subject: Re: Amalthea, lit by Jupitershine
Date: 7 May 2009 05:19:38
Message: <4a02a7aa@news.povray.org>
High!

Cousin Ricky wrote:

> What are you using for the starry background?


This:


// (Atlas for Skywatchers) (C) 1997 Franckh-Kosmos Verlags-GmbH & Co., 
Stuttgart, Germany

yaz### [at] gmxde

// [0] Visual brightness in orders of magnitude
// [1] Rectascension, hours
// [2] Rectascension, minutes
// [3] Declination, degrees

                            // Flam- Bayer     Constel-   Name         Notes
#declare Cat=array[900][4] // steed           lation
{
   { 4.5,  2,  2,   70.91 } // 48              Cas multiple
   { 4,    2,  3.4, 72.42 } // 50              Cas
   { 2,    2, 31.8, 89.26 } //  1    (alpha)   UMi (Polaris)
   { 4.8, 12, 49.2, 83.41 } // 78              Cam (32 Cam) multiple
   { 4.3, 14, 27.5, 75.7  } //  5              UMi
   { 2.1, 14, 50.7, 74.16 } //  7    (beta)    UMi (Kokhab)
   { 3,   15, 20.7, 71.83 } // 13    (gamma)   UMi (Ferkad)
   { 4.3, 15, 44.1, 77.79 } // 16    (zeta)    UMi
   { 5,   16, 17.5, 75.76 } // 21    (eta)     UMi
   { 4.2, 16, 46,   82.04 } // 22    (epsilon) UMi
   { 4.4, 17, 32.2, 86.59 } // 23    (delta)   UMi
   { 5.1, 18,  0.1, 80    } // 40+41           Dra multiple
   { 5.1, 20, 28,   81.43 } // 75              Dra multiple
   { 2.1,  0,  8.4, 29.09 } // 21    (alpha)   And (Alferatz, Zirrah)
   { 3.3,  0, 39.3, 30.86 } // 31    (delta)   And
   { 4.5,  0, 49.8, 41.08 } // 35    (ny)      And
   { 3.9,  0, 56.8, 38.5  } // 37    (my)      And
   { 2.1,  1,  9.7, 35.62 } // 43    (beta)    And (Mirakh)
   { 4.1,  1, 36.8, 41.41 } // 50    (upsilon) And                     3 
planets!
   { 3.6,  1, 38,   48.63 } // 51              And
   { 4  ,  1, 43.7, 50.69 } //       (phi)     Per
   { 3.4,  1, 53.1, 29.58 } //  2    (alpha)   Tri (Elmuthalleth)
   { 5,    1, 56,   37.26 } // 56              And multiple
   { 2.1,  2,  3.9, 42.33 } // 57    (gamma)   And (Alamak) multiple
   { 3,    2,  9.5, 34.99 } //  4    (beta)    Tri
   { 5.6,  2, 10.9, 39.04 } // 59              And multiple
   { 4.9,  2, 12.4, 30.3  } //  6    (iota)    Tri multiple
   { 4,    2, 17.3, 33.85 } //  9    (gamma)   Tri
   { 5.1,  2, 35.8, 34.7  } // 15              Tri multiple
   { 8,    2, 37,   34.26 } //  R              Tri fluctuating
   { 2.3   0,  9.2, 59.15 } // 11    (beta)    Cas (Kaf)
   { 4.7,  0, 31.8, 54.52 } // 14    (lambda)  Cas
   { 3.7,  0, 37,   53.9  } // 17    (zeta)    Cas
   { 2.2,  0, 40.5, 56.54 } // 18    (alpha)   Cas (Shedir)
   { 3.4,  0, 49.1, 57.82 } // 24    (eta)     Cas (Akhird) multiple
   { 2.35, 0, 56.7, 60.72 } // 27    (gamma)   Cas
   { 4.8,  1, 20.1, 58.23 } // 34    (phi)     Cas multiple
   { 2.7,  1, 25.8, 60.24 } // 37    (delta)   Cas (Rukhbah)
   { 3.4,  1, 54.4, 63.67 } // 45    (epsilon) Cas
   { 4.5,  2, 29.1, 67.4  } //        iota     Cas multiple
   { 5.95  2, 52,   68.89 } // SU              Cas fluctuating
   { 4.3,  4, 54.1, 66.34 } //  9    (alpha)   Cam
   { 4,    5,  3.4, 60.44 } // 10    (beta)    Cam multiple
   { 4.8,  5,  6.2, 58.98 } // 11+12           Cam multiple
   { 4.2,  2, 50.6, 38.32 } // 16              Per
   { 3.8,  2, 50.7, 55.9  } // 15    (eta)     Per
   { 3.9,  2, 54.3, 52.76 } // 18    (tau)     Per
   { 2.9,  3,  4.8, 53.51 } // 23    (gamma)   Per
   { 3.4,  3,  5.2, 38.84 } // 25    (rho)     Per fluctuating
   { 2.75, 3,  8.2, 40.96 } // 26    (beta)    Per (Algol) fluctuating
   { 4.1,  3,  9.1, 49.61 } //        iota     Per
   { 3.8,  3,  9.5, 44.86 } // 27    (kappa)   Per
   { 1.8,  3, 24.3, 49.86 } // 33    (alpha)   Per (Mirfak)
   { 3,    3, 42.9, 47.79 } // 39    (delta)   Per
   { 3.8,  3, 44.3, 32.39 } // 38    (omikron) Per (Atik)
   { 3.8,  3, 45.2, 42.58 } // 41    (ny)      Per
   { 2.8,  3, 54.1, 31.88 } // 44    (zeta)    Per
   { 2.9,  3, 57.9, 40.01 } // 45    (epsilon) Per multiple
   { 4,    3, 59,   35.79 } // 46    (xi)      Per (Menkib)
   { 4,    4,  8.7, 47.71 } // 48    (upsilon) Per
   { 4.1,  4, 14.9, 48.41 } // 51    (my)      Per
   { 5.4   4, 32,   53.91 } //  1              Cam multiple
   { 5.6,  4, 33.4, 43.05 } // 57              Per multiple
   { 5.4,  4, 40,   53.47 } //  2              Cam multiple
   { 2.7,  4, 57,   33.17 } //  3    (iota)    Aur
   { 4.9,  4, 59.3, 37.89 } //  4    (omega)   Aur multiple
   { 3.4,  5,  2,   43.82 } //  7    (epsilon) Aur fluctuating
   { 3.85, 5,  2.5, 41.08 } //  8    (zeta)    Aur fluctuating
   { 3.2,  5,  6.5, 41.23 } // 10    (eta)     Aur
   { 4.9,  5, 15.4, 32.69 } // 14              Aur multiple
   { 0.1,  5, 16.7, 46    } // 13    (alpha)   Aur (Capella)
   { 5.4,  5, 38.6, 30.49 } // 26              Aur
   { 4,    5, 51.5, 39.15 } // 32    (ny)      Aur
   { 3.7,  5, 59.5, 54.28 } // 33    (delta)   Aur
   { 1.9,  5, 59.5, 44.95 } // 34    (beta)    Aur (Menkalinan)
   { 2.6,  5, 59.7, 37.21 } // 37    (theta)   Aur multiple
   { 5.8,  6, 11.6, 48.71 } // 41              Aur multiple
   { 5.1,  6, 26.8, 58.42 } //  5              Lyn multiple
   { 5.35, 6, 28.6, 30.49 } // 48              Aur (RT Aurigae) fluctuating
   { 4.8,  6, 46.2, 59.44 } // 12              Lyn multiple
   { 4.4,  6, 57.3, 58.42 } // 15              Lyn
   { 5.3,  7, 22.9, 55.29 } // 19              Lyn multiple
   { 4.3,  8, 22.8, 43.19 } // 31              Lyn
   { 3.35, 8, 30.3, 60.72 } //  1    (omikron) UMa fluctuating
   { 3.1,  8, 59.2, 48.02 } //  9    (iota)    UMa (Talitha)
   { 4,    9,  0.6, 41.78 } // 10              UMa
   { 3.6,  9,  3.6, 47.16 } // 12    (kappa)   UMa
   { 3.8,  9, 18.8, 36.8  } // 38              Lyn multiple
   { 3.1,  9, 21.1, 34.39 } // 40    (alpha)   Lyn
   { 5.3,  9, 28.7, 45.6  } // 41              Lyn multiple
   { 3.7,  9, 31.5, 63.06 } // 23              UMa
   { 3.2,  9, 32.9, 51.68 } // 25    (theta)   UMa
   { 4.5,  9, 34.5, 69.83 } // 24              UMa
   { 3.8,  9, 51,   59.04 } // 29    (ny)      UMa
   { 4.2, 10, 27.9, 36.71 } // 31    (beta)    LMi
   { 3.8, 10, 53.3, 34.21 } // 46    (omikron) LMi
   { 3.5, 10, 17.1, 42.91 } // 33    (lambda)  UMa (Tania Borealis)
   { 3.1, 10, 22.3, 41.5  } // 34    (my)      UMa (Tania Australis)
   { 6,   10, 45.1, 67.41 } // VY              UMa fluctuating
   { 2.3, 11,  1.8, 56.38 } // 48    (beta)    UMa (Merak)
   { 1.8, 11,  3.7, 61.75 } // 50    (alpha)   UMa (Dubhe)
   { 3.0, 11,  9.7, 44.5  } // 52    (psi)     UMa
   { 3.7, 11, 46.1, 47.78 } // 63    (chi)     UMa
   { 2.4, 11, 53.8, 53.69 } // 64    (gamma)   UMa (Phegda, Phad)
   { 3.3, 12, 15.4, 57.03 } // 69    (delta)   UMa (Megrez)
   { 1.8, 12, 54,   55.96 } // 77    (epsilon) UMa (Alioth)
   { 4.9, 13,  0.7, 56.37 } // 78              UMa fluctuating
   { 2,   13, 23.9, 54.93 } // 79    (zeta)    UMa (Mizar)
   { 4,   13, 25.2, 54.99 } // 80              UMa (Alkor)
   { 1.9, 13, 47.5, 49.31 } // 85    (eta)     UMa (Alkaid, Benetnasch)
   { 3.8, 11, 18.2, 31.53 } // 53    (xi)      UMa (Alula Australis) 
multiple
   { 3.5, 11, 18.5, 33.09 } // 54    (ny)      UMa (Alula Borealis)
   { 4.2, 12, 33.7, 41.36 } //  8    (beta)    CVn
   { 5.4, 12, 45.1, 45.44 } //  Y              CVn fluctuating
   { 2.8, 12, 56,   38.32 } // 12    (alpha)   CVn (Cor Caroli) multiple
   { 5.3, 13,  9.9, 38.51 } // 17,15           CVn multiple
   { 4.8, 13, 37.5, 36.29 } // 25              CVn multiple
   { 4.4, 14, 13.5, 51.79 } // 17    (kappa)   Boo multiple
   { 4.7, 14, 16.2, 51.37 } // 21    (iota)    Boo multiple
   { 4,   14, 25.2, 51.85 } // 23    (theta)   Boo
   { 3,   14, 32.1, 38.31 } // 27    (gamma)   Boo (Ceginus)
   { 5.7, 14, 49.7, 48.72 } // 39              Boo multiple
   { 3.5, 15,  1.9, 40.39 } // 42    (beta)    Boo (Nekkar)
   { 4.8, 15,  3.8, 47.65 } //  i              Boo multiple, fluctuating
   { 3.4, 15, 15.5, 33.31 } // 49    (delta)   Boo multiple
   { 4.2, 15, 24.5, 37.38 } // 51    (my)      Boo (Alkalurops) multiple
   { 4.6, 15, 39.4, 36.64 } //  7    (zeta)    CrB multiple
   { 4.2, 16,  8.8, 44.93 } // 11    (phi)     Her
   { 5.2, 16, 17.4, 33.86 } // 17    (sigma)   CrB multiple
   { 3.9, 16, 19.7, 46.31 } // 22    (tau)     Her
   { 4.85,16, 28.6, 41.88 } // 30    (g)       Her fluctuating
   { 4.2, 16, 34.1, 42.44 } // 35    (sigma)   Her
   { 2.8, 16, 41.3, 31.6  } // 40    (zeta)    Her
   { 3.5, 16, 42.9, 38.92 } // 44    (eta)     Her
   { 3.9, 17,  0.3, 30.93 } // 58    (epsilon) Her
   { 3.2, 17, 15,   36.81 } // 67    (pi)      Her
   { 5.15,17, 17.3, 33.1  } // 68    (u)       Her fluctuating
   { 4.1, 17, 23.7, 37.15 } // 75    (rho)     Her multiple
   { 3.8, 17, 39.5, 46.01 } // 85    (iota)    Her
   { 3.9, 17, 56.3, 37.25 } // 91    (theta)   Her
   { 3.8, 11, 31.4, 69.33 } //  1    (lambda)  Dra (Giauzar)
   { 3.9, 12, 33.5, 69.76 } //  5    (kappa)   Dra
   { 3.7, 14,  4.4, 64.38 } // 11    (alpha)   Dra (Thuban)
   { 3.3, 15, 24.9, 58.97 } // 12    (iota)    Dra (Edasich)
   { 4,   16,  1.9, 58.57 } // 13    (theta)   Dra
   { 2.7, 16, 24,   61.51 } // 14    (eta)     Dra
   { 4.5, 16, 36.2, 52.91 } // 17,16           Dra multiple
   { 4.9, 17,  5.3, 54.47 } // 21    (my)      Dra multiple
   { 3.2, 17,  8.8, 65.71 } // 22    (zeta)    Dra
   { 2.8, 17, 30.4, 53.3  } // 23    (beta)    Dra (Rastaben)
   { 4.1, 17, 32.2, 55.18 } // 25,24 (ny)      Dra multiple
   { 5.2, 17, 35,   61.87 } // 26              Dra multiple
   { 4.3, 17, 41.9, 72.15 } // 31    (psi)     Dra multiple
   { 3.7, 17, 53.5, 56.87 } // 32    (xi)      Dra (Grumium)
   { 2.2, 17, 56.6, 51.49 } // 33    (gamma)   Dra (Ettanin)
   { 3.6, 18, 21.1, 72.73 } // 44    (chi)     Dra
   { 4.9, 18, 23.9, 58.8  } // 39              Dra multiple
   { 3.1, 19, 12.6, 67.66 } // 57    (delta)   Dra (Altais)
   { 3.8, 19, 48.2, 70.27 } // 63    (epsilon) Dra multiple
   { 4.3, 18, 19.9, 36.06 } //  1    (kappa)   Lyr
   { 0,   18, 36.9, 38.78 } //  3    (alpha)   Lyr (Vega)
   { 3.9, 18, 44.4, 39.64 } //  5,4  (epsilon) Lyr multiple
   { 4.1, 18, 44.8, 37.6  } //  6,7  (zeta)    Lyr multiple
   { 3.75,18, 50.1, 33.36 } // 10    (beta)    Lyr (Sheliak) 
fluctuating, multiple
   { 4.2, 18, 54.5, 36.9  } // 12    (delta-2) Lyr
   { 4.15,18, 55.3, 43.95 } // 13    (R)       Lyr fluctuating
   { 3.2, 18, 58.9, 32.69 } // 14    (gamma)   Lyr (Sulaphat)
   { 3.8, 19, 17.1, 53.37 } //  1    (kappa)   Cyg
   { 3.8, 19, 29.7, 51.73 } // 10    (iota)    Cyg
   { 2.9, 19, 30.7, 27.96 } //  6    (beta)    Cyg (Albireo) multiple
   { 4.3, 19, 36.4, 50.22 } // 13    (theta)   Cyg multiple
   { 5.4, 19, 41.8, 50.52 } // 16              Cyg multiple
   { 2.9, 19, 45,   45.13 } // 18    (delta)   Cyg multiple
   { 9,   19, 50.6, 32.91 } //       (chi)     Cyg fluctuating
   { 4.9, 19, 55.6, 52.44 } // 24    (psi)     Cyg multiple
   { 3.9, 19, 56.3, 35.08 } // 21    (eta)     Cyg
   { 3.4, 20, 13.6, 46.76 } // 31  (omikron-1) Cyg multiple
   { 4.6, 20, 14.6, 36.8  } // 29              Cyg multiple
   { 4,   20, 15.5, 47.71 } // 32  (omikron-2) Cyg
   { 4.8, 20, 17.8, 38.03 } // 34    (P)       Cyg fluctuating
   { 2.2, 20, 22.2, 40.26 } // 37    (gamma)   Cyg (Sadr)
   { 4,   20, 29.4, 30.37 } // 41              Cyg
   { 5.1, 20, 31.2, 49.22 } // 46    (omega-2) Cyg
   { 1.3, 20, 41.4, 45.28 } // 50    (alpha)   Cyg (Deneb)
   { 4.2, 20, 45.7, 30.72 } // 52              Cyg
   { 2.5, 20, 46.2, 33.97 } // 53    (epsilon) Cyg
   { 4.5, 20, 47.4, 36.49 } // 54    (lambda)  Cyg multiple
   { 5.75,20, 51.5, 28.25 } //  T              Vul fluctuating
   { 3.9, 20, 57.2, 41.17 } // 58    (ny)      Cyg
   { 3.7, 21,  4.9, 43.93 } // 62    (xi)      Cyg
   { 3.2, 21, 12.9, 30.23 } // 64    (zeta)    Cyg
   { 3.4, 20, 45.3, 61.84 } //  3    (eta)     Cep
   { 7.8, 21,  9.5, 68.49 } //  T              Cep fluctuating
   { 2.5, 21, 18.6, 62.59 } //  5    (alpha)   Cep (Alderamin)
   { 3.2, 21, 28.7, 70.56 } //  8    (beta)    Cep (Alfirk) multiple
   { 4.2, 21, 43.5, 58.78 } //       my        Cep fluctuating
   { 4.3, 22,  3.8, 64.63 } // 17    (xi)      Cep multiple
   { 3.4, 22, 10.9, 58.2  } // 21    (zeta)    Cep
   { 4.2, 22, 15,   57.04 } // 23    (epsilon) Cep
   { 3.8, 22, 29.2, 58.42 } // 27    (delta)   Cep fluctuating, multiple
   { 3.5, 22, 49.7, 66.2  } // 32    (iota)    Cep
   { 4.4, 23,  7.9, 75.39 } // 33    (pi)      Cep multiple
   { 4.7, 23, 18.6, 68.11 } // 34    (omikron) Cep multiple
   { 4.9, 23, 24.8, 62.28 } //  4              Cas multiple
   { 4.8, 23, 30,   58.55 } // AR              Cas multiple
   { 3.2, 23, 39.3, 77.63 } // 35    (gamma)   Cep (Errai)
   { 4.5, 23, 54.4, 57.5  } //  7    (rho)     Cas fluctuating
   { 4.9, 23, 59,   55.76 } //  8    (sigma)   Cas multiple
   { 4.8, 21,  6.9, 38.75 } // 61              Cyg multiple
   { 3.7, 21, 14.8, 38.05 } // 65    (tau)     Cyg
   { 4.2, 21, 17.4, 39.39 } // 67    (sigma)   Cyg
   { 4,   21, 34,   45.59 } // 73    (rho)     Cyg
   { 5.8, 21, 36,   45.37 } //  W              Cyg fluctuating
   { 5.4, 21, 43.5, 38.29 } // 79              Cyg multiple
   { 4.4, 21, 44.2, 28.75 } // 78    (my)      Cyg multiple

   { 4.1, 22, 16,   37.75 } //  1              Lac
   { 4.6, 22, 21,   46.54 } //  2              Lac
   { 4.4, 22, 23.6, 52.23 } //  3    (beta)    Lac
   { 4.6, 22, 24.5, 49.48 } //  4              Lac
   { 4.3, 22, 29.5, 47.71 } //  5              Lac
   { 3.8, 22, 31.3, 50.28 } //  7    (alpha)   Lac
   { 5.3, 22, 35.9, 39.63 } //  8              Lac multiple
   { 3.6, 23,  1.9, 42.33 } //  1    (omikron) And
   { 3.85,23, 37.6, 46.46 } // 16    (lambda)  And fluctuating
   { 4.3, 23, 38.1, 43.27 } // 17    (iota)    And
   { 4.1, 23, 40.4, 44.33 } // 19    (kappa)   And
   { 5.4,  0,  9.4,-27.99 } //       (kappa1)  Scl multiple
   { 3.6,  0, 19.4, -8.82 } //  8    (iota)    Cet
   { 5.7,  0, 21.8,-20.06 } //  T              Cet fluctuating
   { 2,    0, 43.6,-17.99 } // 16    (beta)    Cet (Deneb Kaitos)
   { 4.3,  0, 58.6,-29.36 } //       (alpha)   Scl
   { 3.5,  1,  8.6,-10.18 } // 31    (eta)     Cet
   { 5,    1, 14.4, -7.92 } // 37              Cet multiple
   { 3.6,  1, 24,   -8.18 } // 45    (theta)   Cet
   { 5.7,  1, 36.1,-29.91 } //       (tau)     Scl multiple
   { 3.5,  1, 44.1,-15.94 } // 52    (tau)     Cet
   { 4.5,  1, 49.6,-10.69 } // 53    (chi)     Cet multiple
   { 3.7,  1, 51.5,-10.33 } // 55    (zeta)    Cet (Baten Kaitos)
   { 4,    2,  0,  -21.08 } // 59    (ny)      Cet
   { 5.5,  2, 12.8, -2.39 } // 66              Cet multiple
   { 6.3,  2, 19.3, -2.98 } // 68    (omikron) Cet (Mira) fluctuating

   { 4.9,  2, 33.8,-28.23 } //       (omega)   For multiple
   { 4.1,  2, 39.5,  0.33 } // 82    (delta)   Cet
   { 3.5,  2, 43.3,  3.24 } // 86    (gamma)   Cet multiple
   { 4.2,  2, 44.1,-13.86 } // 89    (pi)      Cet
   { 4.3,  2, 44.9, 10.11 } // 87    (my)      Cet
   { 2.5,  3,  2.3,  4.09 } // 92    (alpha)   Cet (Menkar)
   { 2.8,  0, 13.2, 15.18 } // 88    (gamma)   Peg (Algenib)
   { 5.8,  0, 15,    8.82 } // 35              Psc multiple
   { 5,    0, 28,   17.89 } // 47              Psc (TV Piscium) fluctuating
   { 4.1,  0, 47.3, 24.27 } // 34    (zeta)    And
   { 4.4,  0, 48.7,  7.59 } // 63    (delta)   Psc
   { 5.5,  0, 49.9, 27.71 } // 65              Psc multiple
   { 5.5,  0, 55,   23.63 } // 36              And multiple
   { 4.3,  1,  2.9,  7.89 } // 71    (epsilon) Psc
   { 4.7,  1,  5.7, 21.47 } // 74    (psi1)    Psc multiple
   { 4.9,  1, 13.7,  7.58 } // 86    (zeta)    Psc multiple
   { 3.6,  1, 31.5, 15.35 } // 99    (eta)     Psc
   { 4.4,  1, 41.4,  5.49 } //106    (ny)      Psc
   { 4.3,  1, 45.4,  9.16 } //110    (omikron) Psc
   { 5.8,  1, 50.1, 22.28 } //  1              Ari multiple
   { 3.9,  1, 53.5, 19.29 } //  5    (gamma)   Ari (Mesarthim) multiple
   { 4.6,  1, 53.6,  3.19 } //111    (xi)      Psc
   { 2.6,  1, 54.6, 20.81 } //  6    (beta)    Ari (Sheratan)
   { 4.7,  1, 57.9, 23.6  } //  9    (lambda)  Ari multiple
   { 3.8,  2,  2,    2.76 } //113    (alpha)   Psc multiple
   { 5.6,  2,  3.7, 25.94 } // 10              Ari multiple
   { 2,    2,  7.2, 23.46 } // 13    (alpha)   Ari (Hamal)
   { 3.6,  2, 50,   27.26 } // 41              Ari
   { 4.6,  2, 59.2, 21.34 } // 48    (epsilon) Ari multiple
   { 4.5,  2, 45.1,-18.57 } //  1    (tau1)    Eri
   { 4.4,  2, 49.1,-32.41 } //       (beta)    For
   { 3.9,  2, 56.4, -8.9  } //  3    (eta)     Eri

   { 3.9,  3, 12.1,-28.99 } //       (alpha)   For multiple
   { 3.7,  3, 19.5,-21.76 } // 16    (tau4)    Eri
   { 3.7,  3, 32.9, -9.46 } // 18    (epsilon) Eri
   { 4.3,  3, 33.8,-21.63 } // 19    (tau5)    Eri
   { 3.5,  3, 43.2, -9.77 } // 23    (delta)   Eri
   { 4.2,  3, 46.8,-23.25 } // 27    (tau6)    Eri
   { 4.5,  3, 54.3, -2.95 } // 32              Eri multiple
   { 3,    3, 58,  -13.51 } // 34    (gamma)   Eri (Zaurak)
   { 4,    4, 11.9, -6.84 } // 38    (omikron1)Eri
   { 4.9,  4, 14.4,-10.26 } // 39              Eri multiple
   { 4.4,  4, 15.3, -7.64 } // 40    (omikron2)Eri multiple
   { 3.6,  4, 17.9,-33.8  } // 41    (upsilon4)Eri
   { 4,    4, 24,  -34.02 } // 43    (upsilon3)Eri
   { 3.8,  4, 35.6,-30.56 } // 52    (upsilon2)Eri
   { 3.9,  4, 36.3, -3.35 } // 48    (ny)      Eri
   { 3.9,  4, 38.2,-14.3  } // 53              Eri
   { 4,    4, 45.5, -3.25 } // 57    (my)      Eri
   { 2.8,  5,  7.9, -5.09 } // 67    (beta)    Eri (Cursa)
   { 3.9,  5, 31.2,-35.47 } //       (epsilon) Col
   { 2.6,  5, 39.6,-34.07 } //       (alpha)   Col
   { 3.1,  5, 51,  -35.77 } //       (beta)    Col
   { 4.4,  5, 57.5,-35.28 } //       (gamma)   Col
   { 3.9,  6, 22.1,-33.44 } //       (delta)   Col
   { 3.6,  3, 24.8,  9.03 } //  1    (omikron) Tau
   { 3.7,  3, 27.2,  9.73 } //  2    (xi)      Tau
   { 3.7,  3, 44.9, 24.11 } // 17              Tau (Electra)
   { 4.3,  3, 45.2, 24.47 } // 19              Tau (Taygeta)
   { 3.8,  3, 45.8, 24.37 } // 20              Tau (Maia)
   { 4.1,  3, 46.3, 23.95 } // 23              Tau (Merope)
   { 2.8,  3, 47.5, 24.11 } // 25    (eta)     Tau (Alcyone)
   { 3.6,  3, 49.2, 24.06 } // 27              Tau (Atlas)
   { 5.05, 3, 49.2, 24.14 } // 28    (BU)      Tau (Pleione) fluctuating
   { 3.65, 4,  0.7, 12.49 } // 35    (lambda)  Tau fluctuating
   { 3.9,  4,  3.2,  5.99 } // 38    (ny)      Tau
   { 4.8,  4, 13.9,  9.26 } // 47              Tau multiple
   { 3.6,  4, 19.8, 15.63 } // 54    (gamma)   Tau
   { 3.8,  4, 22.9, 17.54 } // 61    (delta1)  Tau
   { 4.3,  4, 25.5, 17.93 } // 68    (delta3)  Tau multiple
   { 3.5,  4, 28.6, 19.18 } // 74    (epsilon) Tau
   { 3.8,  4, 28.6, 15.96 } // 77    (theta1)  Tau
   { 3.4,  4, 28.7, 15.87 } // 78    (theta2)  Tau
   { 4.2,  4, 35.7, 10.16 } // 88              Tau multiple
   { 0.9,  4, 35.9, 16.51 } // 87    (alpha)   Tau (Aldebaran) probably 
planet(s)!
   { 4.2,  4, 42.2, 22.96 } // 94    (tau)     Tau multiple
   { 1.7,  5, 26.3, 28.61 } //112    (beta)    Tau (Elnath, Nath)
   { 5.5,  5, 29.3, 25.15 } //118              Tau multiple
   { 3,    5, 37.6, 21.14 } //123    (zeta)    Tau
   { 7.85, 4, 59.6,-14.81 } //  R              Lep fluctuating
   { 3.2,  5,  5.5,-22.37 } //  2    (epslion) Lep
   { 5.6,  5, 11.4,-11.85 } // RX              Lep fluctuating
   { 3.3,  5, 12.9,-16.21 } //  5    (my)      Lep fluctuating
   { 4.4,  5, 13.2,-12.94 } //  4    (kappa)   Lep multiple
   { 0.1,  5, 14.5, -8.2  } // 19    (beta)    Ori (Rigel) multiple
   { 3.6,  5, 17.6, -6.84 } // 20    (tau)     Ori
   { 2.8,  5, 28.2,-20.76 } //  9    (beta)    Lep (Nihal)
   { 2.6,  5, 32.7,-17.82 } // 11    (alpha)   Lep (Arneb)
   { 4,    5, 35.3, -5.4  } // 41,43 (theta)   Ori quadruple
   { 4.1,  5, 35.4, -4.84 } // 42,45           Ori multiple
   { 2.8,  5, 35.4, -5.91 } // 44    (iota)    Ori multiple
   { 3.5,  5, 44.5,-22.45 } // 13    (gamma)   Ori multiple
   { 3.6,  5, 47,  -14.82 } // 14    (zeta)    Ori
   { 2.1,  5, 47.8, -9.67 } // 53    (kappa)   Ori (Saiph)
   { 3.8,  5, 51.3,-20.88 } // 15    (delta)   Lep
   { 3.7,  5, 56.4,-14.17 } // 16    (eta)     Lep
   { 3.2,  4, 49.8,  6.96 } //  1    (pi3)     Ori
   { 3.7,  4. 51.2,  5.61 } //  3    (pi4)     Ori
   { 3.7,  4, 54.3,  2.44 } //  8    (pi5)     Ori
   { 5.3,  5,  7.9,  8.5  } // 14              Ori multiple
   { 4.4,  5, 21.7, -0.39 } // 22              Ori multiple
   { 4.9,  5, 22.8,  3.55 } // 23              Ori multiple
   { 3.45, 5, 24.5, -2.4  } // 28    (eta)     Ori multiple, fluctuating
   { 1.6,  5, 21.2,  6.35 } // 24    (gamma)   Ori (Bellatrix)
   { 4.2,  5, 30.8,  5.95 } // 32              Ori multiple
   { 5.4,  5, 31.2,  3.29 } // 33              Ori multiple
   { 2.2,  5, 32,   -0.3  } // 34    (delta)   Ori (Mintaka) multiple
   { 5.5,  5, 33.5, -1.16 } // VV              Ori fluctuating
   { 3.4,  5, 35.1,  9.93 } // 39    (lambda)  Ori multiple
   { 1.7,  5, 36.2, -1.2  } // 46    (epsilon) Ori (Alnilam)
   { 3.6,  5, 38.8, -2.6  } // 48    (sigma)   Ori multiple
   { 1.7,  5, 40.8, -1.94 } // 50    (zeta)    Ori (Alnitak) multiple
   { 5.3,  5, 48,    6.45 } // 52              Ori multiple
   { 0.6,  5, 55.2,  7.41 } // 58    (alpha)   Ori (Beteigeuze) fluctuating
   { 3,    6, 20.3,-30.06 } //  1    (zeta)    CMa (Phurud) multiple 
(perspectivic)
   { 2,    6, 22.7,-17.96 } //  2    (beta)    CMa (Mirzam)
   { 4,    6, 36.7,-19.26 } //  7    (ny2)     CMa
   {-1.5,  6, 45.1,-16.72 } //  9    (alpha)   CMa (Sirius)
   { 3.75, 6, 49.8,-32.51 } // 13    (kappa)   CMa multiple, fluctuating
   { 3.9,  6, 54.1,-24.18 } // 16    (omikron1)CMa fluctuating
   { 1.5,  6, 58.6,-28.97 } // 21    (epsilon) CMa (Adhara) multiple
   { 3.5,  7,  1.7,-27.93 } // 22    (sigma)   CMa
   { 3,    7,  3,  -23.83 } // 24    (omikron2)CMa
   { 4.1,  7,  3.8,-15.63 } // 23    (gamma)   CMa
   { 1.8,  7,  8.4,-26.39 } // 25    (delta)   CMa (Wezen)
   { 4.55, 7, 14.3,-26.35 } // 27              CMa (EW CMa) fluctuating
   { 3.9,  7, 14.8,-26.77 } // 28    (omega)   CMa fluctuating
   { 4.5,  7, 16.6,-23.31 } //145              CMa multiple (perspectivic)
   { 5.05, 7, 18.7,-24.56 } // 29              CMa (UW CMa) fluctuating
   { 2.4,  7, 24.1,-29.3  } // 31    (eta)     CMa (Aludra) multiple 
(perspectivic)
   { 5.1,  7, 34.3,-23.47 } //  n              Pup multiple
   { 3.8,  7, 38.8,-26.8  } //  k    (kappa)   Pup multiple
   { 3.9,  7, 43.8,-28.96 } //  3              Pup
   { 3.2,  7, 49.3,-24.86 } //  7    (xi)      Pup (Aspidiske) multiple 
(perspectivic)
   { 4.2,  7, 56.9,-22.88 } // 11              Pup
   { 2.8,  8,  7.5,-24.3  } // 15    (rho)     Pup
   { 3.3,  6, 14.9, 22.51 } //  7    (eta)     Gem (Tejat Prior) fluctuating
   { 2.9,  6, 23,   22.51 } // 13    (my)      Gem (Tejat Posterior)
   { 4.1,  6, 29,   20.21 } // 18    (ny)      Gem
   { 1.9,  6, 37.7, 16.4  } // 24    (gamma)   Gem (Alhena)
   { 4.6,  6, 41,    9.9  } // 15              Gem multiple
   { 3.1,  6, 43.9, 25.13 } // 27    (epsilon) Gem (Mebsuta)
   { 3.4,  6, 45.3, 12.9  } // 31    (xi)      Gem
   { 3.6,  6, 52.8, 33.96 } // 34    (theta)   Gem
   { 4.7,  6, 54.6, 13.18 } // 38              Gem multiple
   { 3.9,  7,  4.1, 20.57 } // 43    (zeta)    Gem (Mekbuda) multiple 
(perspectivic), fluctuating
   { 3.6,  7, 18.1, 16.54 } // 54    (lambda)  Gem
   { 3.5,  7, 20.1, 21.98 } // 55    (delta)   Gem (Wasat)
   { 3.8,  7, 25.7, 27.8  } // 60    (iota)    Gem
   { 4.2,  7, 29.1, 31.78 } // 62    (rho)     Gem
   { 1.6,  7, 34.6, 31.89 } // 66    (alpha)   Gem (Castor) multiple
   { 4.1,  7, 35.9, 26.9  } // 69    (upsilon) Gem
   { 3.6,  7, 44.4, 24.4  } // 77    (kappa)   Gem
   { 1.1,  7, 45.3, 28.03 } // 78    (beta)    Gem (Pollux)
   { 4,    6, 14.9, -6.27 } //  5    (gamma)   Mon
   { 3.7,  6, 28.8, -7.03 } // 11    (beta)    Mon multiple
   { 4.1,  6, 54.2,-12.04 } // 14    (theta)   CMa
   { 5,    6, 56.1,-14.04 } // 18    (my)      CMa multiple
   { 4.2,  7, 11.9, -0.49 } // 22    (delta)   Mon
   { 6.6,  7, 30.8, -9.78 } //  U              Mon fluctuating
   { 3.9,  7, 41.2, -9.55 } // 26    (alpha)   Mon
   { 5.7,  7, 45.5,-14.69 } //  2              Pup multiple
   { 5.5,  7, 47.9,-12.19 } //  5              Pup multiple
   { 4.4,  8,  8.6, -2.98 } // 29    (zeta)    Mon
   { 4.7,  8, 11.3,-12.93 } // 19              Pup
   { 4.3,  6, 23.8,  4.59 } //  8    (epsilon) Mon multiple
   { 6.1,  6, 25.2,  7.09 } //  T              Mon fluctuating
   { 2.9,  7, 27.2,  8.29 } //  3    (beta)    CMi (Gomeisa)
   { 4.3,  7, 28.2,  8.93 } //  4    (gamma)   CMi
   { 0.4,  7, 39.3,  5.22 } // 10    (alpha)   CMi (Procyon)
   { 4.7,  8, 12.2, 17.65 } // 16    (zeta)    Cnc multiple
   { 3.5,  8, 16.5,  9.19 } // 17    (beta)    Cnc (Altarf)
   { 5.5,  8, 26.8, 26.94 } // 23    (phi2)    Cnc multiple
   { 4.7,  8, 43.3, 21.47 } // 43    (gamma)   Cnc (Asellus Borealis)
   { 3.9,  8, 44.7, 18.15 } // 47    (delta)   Cnc (Asellus Australis)
   { 3.9,  8, 46.7, 28.76 } // 48    (iota)    Cnc multiple
   { 5.3,  8, 52.5, 28.3  } // 55    (rho1)    Cnc multiple 
(perspectivic), 4 planets!
   { 5.4,  8, 54.2, 39.58 } // 57              Cnc multiple
   { 6.25, 8, 55.4, 17.23 } //  X              Cnc fluctuating
   { 4.3,  8, 58.5, 11.86 } // 65    (alpha)   Cnc
   { 5.8,  9, 10.6, 30.96 } // RS              Cnc fluctuating
   { 3.9,  8, 25.7, -3.91 } //  C              Hya
   { 4.1,  8, 37.7,  5.79 } //  4    (delta)   Hya
   { 4.4,  8, 38.8,  3.34 } //  5    (sigma)   Hya
   { 4,    8, 40.1,-35.31 } //       (beta)    Pyx
   { 4.3,  8, 43.2,  3.4  } //  7    (eta)     Hya
   { 3.7,  8, 43.6,-33.19 } //       (alpha)   Pyx multiple
   { 3.4,  8, 46.8,  6.42 } // 11    (epsilon) Hya multiple
   { 4.4,  8, 48.4,  5.84 } // 13    (rho)     Hya
   { 4,    8, 50.5,-27.71 } //       (gamma)   Pyx
   { 3.1,  8, 55.4,  5.95 } // 16    (zeta)    Hya
   { 3.9,  9, 14.4,  2.31 } // 22    (theta)   Hya
   { 4.7,  9, 20.5, -9.56 } // 27              Hya multiple
   { 2,    9, 27.6, -8.66 } // 30    (alpha)   Hya (Alphard)
   { 4.5,  9, 29.1, -2.77 } // 31    (tau1)    Hya multiple
   { 3.9,  9, 39.9, -1.14 } // 35    (iota)    Hya
   { 4.1,  9, 51.5,-14.85 } // 39    (upsilon1)Hya
   { 5.1,  9, 52.5, -8.11 } //  8    (gamma)   Sex
   { 4.5, 10,  7.9, -0.37 } // 15    (alpha)   Sex
   { 3.6, 10, 10.6,-12.35 } // 41    (lambda)  Hya
   { 3.8, 10, 26.1,-16.84 } // 42    (my)      Hya
   { 4.3, 10, 27.2,-31.07 } //       (alpha)   Ant
   { 4.9, 10, 37.6,-13.38 } //  U              Hya fluctuating
   { 5.8, 10, 43.3,  4.75 } // 33              Sex multiple
   { 3.1, 10, 49.6,-16.19 } //       (ny)      Hya
   { 5.4,  9, 28.5,  9.06 } //  2    (omega)   Leo multiple
   { 4.3,  9, 31.7, 22.97 } //  4    (lambda)  Leo (Alterf)
   { 3.5,  9, 41.2,  9.89 } // 14    (omikron) Leo
   { 3,    9, 45.9, 23.77 } // 17    (epsilon) Leo
   { 7.9,  9, 47.6, 11.43 } //  R              Leo fluctuating
   { 3.9,  9, 52.8, 26.01 } // 24    (my)      Leo
   { 3.5, 10,  7.3, 16.76 } // 30    (eta)     Leo
   { 1.4, 10,  8.4, 11.97 } // 32    (alpha)   Leo (Regulus) multiple
   { 3.4, 10, 16.7, 23.42 } // 36    (zeta)    Leo (Aldhafera)
   { 2,   10, 20,   19.84 } // 41    (gamma)   Leo (Algieba) multiple
   { 3.8, 10, 32.8,  9.31 } // 47    (rho)     Leo
   { 4.3, 10, 55.6, 24.75 } // 54              Leo multiple
   { 2.6, 11, 14.1, 20.52 } // 68    (delta)   Leo (Zosma)
   { 3.3, 11, 14.2, 15.43 } // 70    (theta)   Leo (Coxa)
   { 4,   11, 23.9, 10.53 } // 78    (iota)    Leo multiple
   { 2.1, 11, 49.1, 14.57 } // 94    (beta)    Leo (Denebola)
   { 4.1, 10, 59.8,-18.3  } //  7    (alpha)   Crt (Alkes)
   { 4.5, 11, 11.7,-22.83 } // 11    (beta)    Crt
   { 3.6, 11, 19.3,-14.78 } // 12    (delta)   Crt
   { 4.1, 11, 24.9,-17.68 } // 15    (gamma)   Crt
   { 4.9, 11, 27.9,  2.85 } // 84    (tau)     Leo multiple (perspectivic)
   { 4.9, 11, 32.3,-29.26 } //  N              Hya multiple
   { 3.5, 11, 33,  -31.86 } //       (xi)      Hya
   { 4,   11, 45.9,  6.53 } //  3    (ny)      Vir
   { 3.6, 11, 50.7,  1.76 } //  5    (beta)    Vir (Zawijava)
   { 4.3, 11, 52.9,-33.91 } //       (beta)    Hya
   { 4,   12,  8.4,-24.73 } //  1    (alpha)   Crv (Alchiba)
   { 3,   12, 10.1,-22.62 } //  2    (epsilon) Crv
   { 2.6, 12, 15.8,-17.54 } //  4    (gamma)   Crv (Gienah)
   { 3.9, 12, 19.9, -0.67 } // 15    (eta)     Vir (Zaniah)
   { 2.9, 12, 29.9,-16.52 } //  7    (delta)   Crv (Algorab)
   { 2.7, 12, 34.4,-23.4  } //  9    (beta)    Crv
   { 4.6, 12, 39.2, -8    } // 26    (chi)     Vir
   { 2.7, 12, 41.7, -1.45 } // 29    (gamma)   Vir (Porrima) multiple
   { 3,   13, 18.9,-23.17 } // 46    (gamma)   Hya
   { 6.95,13, 29.7,-23.28 } //  R              Hya fluctuating
   { 5.8, 12,  4.3, 21.46 } //  2              Com multiple
   { 4.4, 12, 26.9, 28.27 } // 15    (gamma)   Com
   { 5,   12, 28.9, 25.91 } // 17              Com multiple
   { 4.8, 12, 35.1, 18.38 } // 24              Com multiple
   { 5.8, 12, 52.3, 17.09 } // 32,33           Com multiple (perspectivic)
   { 4.9, 12, 53.3, 21.24 } // 35              Com multiple
   { 4.3, 13, 10,   17.53 } // 42    (alpha)   Com (Diadem)
   { 4.2, 13, 11.9, 27.88 } // 43    (beta)    Com
   { 4.1, 13, 49.5, 15.8  } //  5    (upsilon) Boo
   { 2.7, 13, 54.7, 18.4  } //  8    (eta)     Boo (Muphrid)
   { 0,   14, 15.7, 19.18 } // 16    (alpha)   Boo (Arcturus)
   { 3.6, 14, 31.8, 30.37 } // 25    (rho)     Boo
   { 4.5, 14, 40.7, 16.42 } // 29    (pi)      Boo multiple
   { 3.8, 14, 41.1, 13.73 } // 30    (zeta)    Boo
   { 4.8, 14, 43.4, 26.53 } // 34              Boo (W Bootis) fluctuating
   { 2.4, 14, 45,   27.07 } // 36    (epsilon) Boo (Izar) multiple
   { 3.7, 14, 46.2,  1.89 } //109              Vir
   { 4.5, 14, 51.4, 19.1  } // 37    (xi)      Boo multiple
   { 5,   15, 23.2, 30.29 } //  2    (eta)     CrB multiple
   { 3.7, 15, 27.8, 29.11 } //  3    (beta)    CrB (Nusakan)
   { 4.1, 15, 32.9, 31.36 } //  4    (theta)   CrB
   { 2.2, 15, 34.8, 26.71 } //  5    (alpha)   CrB (Alphekka, Gemma)
   { 3.8, 15, 42.7, 26.3  } //  8    (gamma)   CrB multiple
   { 6,   15, 48.6, 28.16 } //  R              CrB fluctuating
   { 4.6, 15, 49.6, 26.07 } // 10    (delta)   CrB
   { 4.1, 15, 57.6, 26.88 } // 13    (epsilon) CrB
   { 3.4, 12, 55.6,  3.4  } // 43    (delta)   Vir
   { 2.8, 13,  2.2, 10.96 } // 47    (epsilon) Vir (Vindemiatrix)
   { 4.4, 13,  9.9, -5.54 } // 51    (theta)   Vir
   { 1,   13, 25.2,-11.16 } // 67    (alpha)   Vir (Spica)
   { 3.4, 13, 34.7, -0.6  } // 79    (zeta)    Vir
   { 4.3, 13, 51.8,-32.99 } //  3              Cen multiple
   { 4.2, 14,  1.6,  1.54 } // 93    (tau)     Vir
   { 3.3, 14,  6.4,-26.68 } // 49    (pi)      Hya
   { 3.9, 14, 43.1, -5.66 } //107    (my)      Vir
   { 5,   14, 46,  -25.44 } // 54              Hya multiple
   { 5.3, 14, 49.3,-14.15 } //  7    (my)      Lib multiple
   { 2.6, 14, 50.9,-16.04 } //  9,8  (alpha)   Lib (Zubenelgenubi) multiple
   { 5.4, 15,  1,   -8.52 } // 19    (delta)   Lib fluctuating
   { 3.3, 15,  4.1,-25.28 } // 20    (sigma)   Lib
   { 2.6, 15, 17,   -9.38 } // 27    (beta)    Lib (Zubeneschemali)
   { 3.8, 15, 34.8,-10.54 } // 13    (delta)   Ser multiple
   { 3.9, 15, 35.5,-14.79 } // 38    (gamma)   Lib
   { 3.6, 15, 37,  -28.13 } // 39    (upsilon) Lib
   { 3.7, 15, 38.7,-29.78 } // 40    (tau)     Lib
   { 2.6, 15, 44.3,  6.43 } // 24    (alpha)   Ser (Unukalhai)
   { 3.7, 15, 46.2, 15.42 } // 28    (beta)    Ser
   { 4.1, 15, 48.7, 18.14 } // 35    (kappa)   Ser
   { 3.5, 15, 49.6, -3.43 } // 32    (my)      Ser
   { 9.5, 15, 50.7, 15.13 } //  R              Ser fluctuating
   { 3.7, 15, 50.8,  4.48 } // 37    (epsilon) Ser
   { 4,   15, 51,  -33.63 } //  5    (chi)     Lup
   { 3.9, 15, 56.5, 15.66 } // 41    (gamma)   Ser
   { 4.6, 15, 56.9,-33.97 } //       (xi)      Lup multiple
   { 4.1, 16,  4.4,-11.37 } //       (xi)      Sco multiple
   { 2.7, 16, 14.3, -3.69 } //  1    (delta)   Oph (Yed Prior)
   { 3.2, 16, 18.3, -4.69 } //  2    (epsilon) Oph (Yed Posterior)
   { 4.45,16, 27,  -18.46 } //  7    (chi)     Oph fluctuating
   { 3.8, 16, 30.9,  1.98 } // 10    (lambda)  Oph (Marfik) multiple
   { 2.5, 16, 37.2,-10.57 } // 13    (zeta)    Oph
   { 3.2, 16, 57.7,  9.38 } // 27    (kappa)   Oph
   { 2.4, 17, 10.4,-15.72 } // 35    (eta)     Oph (Sabik)
   { 2.1, 17, 34.9, 12.56 } // 55    (alpha)   Oph (Rasalhague)
   { 3.5, 17, 37.6,-15.4  } // 55    (xi)      Ser
   { 2.8, 17, 43.5,  4.57 } // 60    (beta)    Oph (Cebalrai)
   { 5.6, 17, 44.6,  2.58 } // 61              Oph multiple
   { 3.8, 17, 47.9,  2.71 } // 62    (gamma)   Oph
   { 9.5, 17, 57.8,  4.69 } // Pfeilstern          (Barnards Stern)
   { 3.3, 17, 59,   -9.77 } // 64    (ny)      Oph
   { 3.9, 18,  0.6,  2.93 } // 67              Oph multiple
   { 4.8, 18,  3.1, -8.18 } // 69    (tau)     Oph multiple
   { 4,   18,  5.5,  2.5  } // 70              Oph multiple
   { 3.7, 18,  7.4,  9.56 } // 72              Oph multiple (perspectivic)
   { 3.9, 15, 56.9,-29.21 } //  5    (rho)     Sco
   { 2.9, 15, 58.9,-26.11 } //  6    (pi)      Sco
   { 2.3, 16,  0.3,-22.62 } //  7    (delta)   Sco
   { 2.4, 16,  5.4,-19.8  } //  8    (beta)    Sco (Acrab) multiple
   { 3.9, 16,  6.8,-20.67 } //  9    (omega1)  Sco
   { 3.9, 16, 12,  -19.46 } // 14    (ny)      Sco multiple
   { 2.9, 16, 21.2,-25.59 } // 20    (sigma)   Sco
   { 4.4, 16, 25.6,-23.44 } //  5    (rho)     Oph multiple
   { 1,   16, 29.4,-26.43 } // 21    (alpha)   Sco (Antares) multiple, 
fluctuating
   { 2.8, 16, 35.9,-28.22 } // 23    (tau)     Sco
   { 2.3, 16, 50.2,-34.29 } // 26    (epsilon) Sco
   { 8,   16, 56.6,-30.58 } // RR              Sco fluctuating
   { 4.3, 17, 15.3,-26.6  } // 36              Oph multiple
   { 4.9, 17, 18,  -24.29 } // 39    (omikron) Oph multiple
   { 3.3, 17, 22,  -25    } // 42    (theta)   Oph
   { 4.7, 16, 18.1, 17.05 } //  7    (kappa)   Her multiple
   { 3.7, 16, 21.9, 19.15 } // 20    (gamma)   Her
   { 2.8, 16, 30.2, 21.49 } // 27    (beta)    Her (Ruticulus)
   { 3,   17, 14.6, 14.39 } // 64    (alpha)   Her (Rasalgethi) 
multiple, fluctuating
   { 3.1, 17, 15,   24.84 } // 65    (delta)   Her
   { 3.4, 17, 46.5, 27.72 } // 86    (my)      Her
   { 3.7, 17, 57.8, 29.25 } // 92    (xi)      Her
   { 4.3, 18,  1.5, 21.6  } // 95              Her multiple
   { 3.8, 18,  7.5, 28.76 } //103    (omikron) Her
   { 5.1, 18,  7.8, 26.1  } //100              Her multiple
   { 3.2, 18, 21.3, -2.9  } // 58    (eta)     Ser
   { 3.8, 18, 23.7, 21.77 } //109              Her
   { 5.2, 18, 27.2,  0.2  } // 59d             Ser multiple
   { 3.9, 18, 35.2, -8.24 } //       (alpha)   Sct
   { 5.6, 18, 46.5, -0.96 } //  5              Aql multiple
   { 4.2, 18, 47.2, -4.75 } //       (beta)    Sct
   { 5.75,18, 47.5, -5.7  } //  R              Sct
   { 4,   18, 56.2,  4.2  } // 63    (theta)   Ser multiple
   { 3,   18,  5.8,-30.42 } // 10    (gamma)   Sgr (Alnasl)
   { 3.8, 18, 13.8,-21.06 } // 13    (my)      Sgr
   { 2.7, 18, 21,  -29.83 } // 19    (delta)   Sgr (Kaus Media)
   { 1.8, 18, 24.2,-34.38 } // 20    (epsilon) Sgr (Kaus Australis)
   { 2.8, 18, 28,  -25.42 } // 22    (lambda)  Sgr (Kaus Borealis)
   { 3.2, 18, 45.7,-26.99 } // 27    (phi)     Sgr
   { 2,   18, 55.3,-26.3  } // 34    (sigma)   Sgr (Nunki)
   { 3.5, 18, 57.5,-21.11 } // 37    (xi2)     Sgr
   { 2.6, 19,  2.6,-29.88 } // 38    (zeta)    Sgr
   { 3.8, 19,  4.7,-21.74 } // 39    (omikron) Sgr
   { 3.3, 19,  6.9,-27.67 } // 40    (tau)     Sgr
   { 2.9, 19,  9.8,-21.02 } // 41    (pi)      Sgr
   { 4,   18, 59.6, 15.07 } // 13    (epsilon) Aql
   { 4,   19,  1.7, -5.74 } // 12              Aql
   { 5.2, 19,  5,   -4.03 } // 15              Aql multiple (perspectivic)
   { 3,   19,  5.4, 13.86 } // 17    (zeta)    Aql
   { 3.4, 19,  6.2, -4.88 } // 16    (lambda)  Aql
   { 7.9, 19,  6.4,  8.23 } //  R              Aql fluctuating
   { 3.4, 19, 25.5,  3.11 } // 30    (delta)   Aql
   { 4.4, 19, 28.7, 24.66 } //  6    (alpha)   Vul
   { 4.4, 19, 40.1, 18.01 } //  5    (alpha)   Sge
   { 4.4, 19, 41,   17.48 } //  6    (beta)    Sge
   { 2.7, 19, 46.3, 10.61 } // 50    (gamma)   Aql (Tarazed)
   { 3.7, 19, 47.4, 18.53 } //  7    (delta)   Sge
   { 5.7, 19, 48.7, 11.82 } // 52    (pi)      Aql multiple
   { 0.8, 19, 50.8,  8.87 } // 53    (alpha)   Aql (Altair)
   { 3.95,19, 52.5,  1.01 } // 55    (eta)     Aql fluctuating
   { 5.3, 19, 54.6, -8.23 } // 57              Aql multiple
   { 3.7, 19, 55.3,  6.41 } // 60    (beta)    Aql (Alschain)
   { 3.5, 19, 58.8, 19.49 } // 12    (gamma)   Sge
   { 5.2, 20,  2,   24.94 } // 16              Vul multiple
   { 5.4, 20,  4.1, 17.08 } // 15              Sge multiple (perspectivic)
   { 3.2, 20, 11.3, -0.82 } // 65    (theta)   Aql
   { 4,   20, 33.2, 11.3  } //  2    (epsilon) Del
   { 3.6, 20, 37.5, 14.6  } //  6    (beta)    Del
   { 3.8, 20, 39.6, 15.91 } //  9    (alpha)   Del
   { 4.4, 20, 43.5, 15.07 } // 11    (delta)   Del
   { 3.9, 20, 46.7, 16.12 } // 12    (gamma)   Del multiple
   { 3.9, 19, 21.7,-17.85 } // 44    (rho1)    Sgr
   { 4.3, 20, 17.6,-12.51 } //  5    (alpha1)  Cap (Algiedi Secundus)
   { 3.6, 20, 18.1,-12.54 } //  6    (alpha2)  Cap (Algiedi Primus) 
known from "Dune" (Harkonnen system)
   { 3,   20, 21,  -14.78 } //  9    (beta)    Cap multiple
   { 4.6, 20, 28.9,-17.82 } // 11    (rho)     Cap multiple (perspectivic)
   { 5.5, 20, 29.9,-18.58 } // 12    (omikron) Cap multiple
   { 4.1, 20, 46.1,-25.27 } // 16    (psi)     Cap
   { 4.1, 20, 51.8,-26.92 } // 18    (omega)   Cap
   { 4.1, 21,  5.9,-17.23 } // 23    (theta)   Cap
   { 4.3, 21, 22.2,-16.83 } // 32    (iota)    Cap
   { 3.8, 21, 26.7,-22.41 } // 34    (zeta)    Cap
   { 3.7, 21, 40.1,-16.66 } // 40    (gamma)   Cap
   { 2.95,21, 47,  -16.13 } // 49    (delta)   Cap (Deneb Algiedi) 
fluctuating
   { 5.4, 22,  0.8,-28.45 } // 12    (eta)     PsA multiple
   { 4.3, 22, 31.5,-32.35 } // 17    (beta)    PsA multiple
   { 4.2, 22, 40.7,-27.04 } // 18    (epsilon) PsA
   { 4.5, 22, 52.5,-32.88 } // 22    (gamma)   PsA multiple
   { 4.2, 22, 55.9,-32.54 } // 23    (delta)   PsA
   { 1.2, 22, 57.6,-29.62 } // 24    (alpha)   PsA (Fomalhaut)
   { 5.2, 20, 59.1,  4.29 } //  1    (epsilon) Equ multiple
   { 4.7, 21, 10.3, 10.13 } //  5    (gamma)   Equ
   { 4.5, 21, 14.5, 10.01 } //  7    (delta)   Equ
   { 3.9, 21, 15.8,  5.25 } //  8    (alpha)   Equ (Kitalphar)
   { 4.1, 21, 22.1, 19.8  } //  1              Peg
   { 2.4, 21, 44.2,  9.88 } //  8    (epsilon) Peg (Enif)
   { 4.1, 21, 44.6, 25.65 } // 10    (kappa)   Peg
   { 3.8, 22,  7,   25.35 } // 24    (iota)    Peg
   { 4.3, 22, 10,   33.18 } // 29    (pi)      Peg (pi2 Pegasi)
   { 3.5, 22, 10.2,  6.2  } // 26    (theta)   Peg (Baham)
   { 5.5, 22, 30,    4.43 } // 37              Peg
   { 3.4, 22, 41.5, 10.83 } // 42    (zeta)    Peg (Homam)
   { 2.9, 22, 43,   30.22 } // 44    (eta)     Peg (Matar)
   { 4,   22, 46.5, 23.57 } // 47    (lambda)  Peg
   { 4.2, 22, 46.7, 12.17 } // 46    (xi)      Peg
   { 3.5, 22, 50,   24.6  } // 48    (my)      Peg (Sadalbari)
   { 2.5, 23,  3.8, 28.08 } // 53    (beta)    Peg (Scheat) fluctuating
   { 4.5, 23,  3.9,  3.82 } //  4    (beta)    Psc
   { 2.5, 23,  4.8, 15.21 } // 54    (alpha)   Peg (Markab)
   { 3.7, 23, 17.2,  3.28 } //  6    (gamma)   Psc
   { 4.3, 23, 28,    6.38 } // 10    (theta)   Psc
   { 5,   23, 34,   31.33 } // 72              Peg multiple
   { 4.1, 23, 39.9,  5.63 } // 17    (iota)    Psc
   { 4.5, 23, 42,    1.78 } // 18    (lambda)  Psc
   { 5,   23, 46.4,  3.49 } // 19              Psc (TX Piscium) fluctuating
   { 4,   23, 59.3,  6.86 } // 28    (omega)   Psc
   { 3.8, 20, 47.7, -9.5  } //  2    (epsilon) Aqr
   { 5.5, 21,  4.1, -5.82 } // 12              Aqr multiple
   { 4.5, 21,  9.6,-11.37 } // 13    (ny)      Aqr
   { 2.9, 21, 31.6, -5.57 } // 22    (beta)    Aqr (Sadalsuud)
   { 3,   22,  5.8, -0.32 } // 34    (alpha)   Aqr (Sadalmelik)
   { 5.3, 22, 14.3,-21.07 } // 41              Aqr multiple
   { 3.9, 22, 21.7, -1.39 } // 48    (gamma)   Aqr (Sadachbia)
   { 3.7, 22, 28.8, -0.02 } // 55    (zeta)    Aqr multiple
   { 4,   22, 35.4, -0.12 } // 62    (eta)     Aqr
   { 4,   22, 49.6,-13.59 } // 71    (tau2)    Aqr
   { 3.7, 22, 52.6, -7.58 } // 73    (lambda)  Aqr
   { 3.3, 22, 54.6,-15.82 } // 76    (delta)   Aqr
   { 3.7, 23,  9.4,-21.17 } // 88              Aqr
   { 5.1, 23, 19.1,-13.46 } // 94              Aqr multiple
   { 4,   23, 23,  -20.1  } // 98              Aqr
   { 4.7, 23, 33.3,-20.91 } //101              Aqr multiple
   { 4.8, 23, 41.8,-17.81 } //104              Aqr
   { 8,   23, 43.8,-15.28 } //  R              Aqr fluctuating
   { 5.3, 23, 46,  -18.68 } //107              Aqr multiple
   { 3.9,  0,  9.4,-45.75 } //       (epsilon) Phe
   { 2.8,  0, 25.8,-77.25 } //       (beta)    Hyi
   { 3.9,  0, 26.2,-43.68 } //       (kappa)   Phe
   { 2.4,  0, 26.3,-42.31 } //       (alpha)   Phe (Ankaa)
   { 3.7,  0, 31.6,-62.96 } //       (beta)    Tuc multiple
   { 3.3,  1,  6.1,-46.72 } //       (beta)    Phe
   { 3.15, 1,  8.4,-55.25 } //       (zeta)    Phe multiple, fluctuating
   { 3.4,  1, 28.4,-43.32 } //       (gamma)   Phe
   { 3.9,  1, 31.3,-49.07 } //       (delta)   Phe
   { 0.5,  1, 37.7,-57.24 } //       (alpha)   Eri (Achernar)
   { 5,    1, 39.8,-56.2  } //  p              Eri multiple
   { 3.7,  1, 56,  -51.61 } //       (chi)     Eri
   { 2.9,  1, 58.8,-61.57 } //       (alpha)   Hyi
   { 3.6,  2, 16.5,-51.51 } //       (phi)     Eri
   { 4.1,  2, 40.7,-39.86 } //       (iota)    Eri
   { 8.85, 2, 53.9,-49.89 } //  R              Hor fluctuating
   { 2.9,  2, 58.3,-40.3  } //       (theta)   Eri (Acamar) multiple
   { 4.3,  3, 48.6,-37.62 } //  f              Eri multiple
   { 3.8,  3, 44.2,-64.81 } //       (beta)    Ret
   { 3.3,  3, 47.2,-74.24 } //       (gamma)   Hyi
   { 4.6,  3, 58.7,-61.4  } //       (delta)   Ret
   { 3.9,  4, 14,  -42.29 } //       (alpha)   Hor
   { 3.3,  4, 14.4,-62.47 } //       (alpha)   Ret
   { 4.3,  4, 16,  -51.49 } //       (gamma)   Dor
   { 4.4,  4, 16.5,-59.3  } //       (epsilon) Ret
   { 3.3,  4, 34,  -55.05 } //       (alpha)   Dor
   { 5.2,  4, 50.9,-53.46 } //       (iota)    Pic multiple
   { 3.75, 5, 33.6,-62.49 } //       (beta)    Dor fluctuating
   { 3.9,  5, 47.3,-51.07 } //       (beta)    Pic
   { 4.5,  5, 49.8,-56.17 } //       (gamma)   Pic
   { 4,    5, 59.1,-42.82 } //       (eta)     Col
   {-0.7,  6, 24,  -52.7  } //       (alpha)   Car (Canopus) known from 
"Dune" (planet Arrakis)
   { 3.2,  6, 37.8,-43.2  } //       (ny)      Pup
   { 3.2,  6, 48.2,-61.94 } //       (alpha)   Pic
   { 2.9,  6, 49.9,-50.61 } //       (tau)     Pup
   { 3.6,  7,  8.7,-70.5  } //       (gamma)   Vol multiple
   { 4,    7, 16.8,-67.96 } //       (delta)   Vol
   { 3.9,  7, 41.8,-72.61 } //       (zeta)    Vol
   { 3.5,  7, 56.8,-52.98 } //       (chi)     Car
   { 4.7,  8, 19.9,-71.51 } //       (kappa)   Vol multiple
   { 1.9,  8, 22.5,-59.51 } //       (epsilon) Car (Avoir)
   { 3.8,  8, 25.7,-66.14 } //       (beta)    Vol
   { 3.8,  8, 55,  -60.64 } //  c              Car
   { 4,    9,  2.4,-66.4  } //       (alpha)   Vol
   { 4.5,  7, 13.5,-44.64 } //  L2             Pup fluctuating
   { 2.7,  7, 17.1,-37.1  } //       (pi)      Pup
   { 4.1,  7, 18.4,-36.74 } //  y    (upsilon) Pup multiple
   { 3.3,  7, 29.2,-43.3  } //       (sigma)   Pup
   { 3.6,  7, 45.3,-37.97 } //  c              Pup
   { 3.7,  7, 52.2,-40.58 } //  a              Pup
   { 2.2,  8,  3.6,-40    } //       (zeta)    Pup
   { 1.6,  8,  9.5,-47.34 } //       (gamma)   Pup (Suhail al-Muhlif) 
multiple, fluctuating
   { 3.6,  8, 40.3,-52.92 } //       (omikron) Pup
   { 3.8,  8, 40.6,-46.65 } //  b              Vel
   { 4,    8, 44.4,-42.65 } //  d              Vel multiple
   { 1.9,  8, 44.7,-54.71 } //       (delta)   Vel
   { 3.9,  8, 46,  -46.04 } //  a              Vel
   { 3.8,  9,  4.2,-47.1  } //  c              Vel
   { 2.2,  9,  8,  -43.43 } //       (lambda)  Vel (Suhail al-Wazn)
   { 2.5,  9, 22.1,-55.01 } //       (kappa)   Vel
   { 3.6,  9, 30.7,-40.47 } //       (psi)     Vel
   { 3.5,  9, 56.9,-54.57 } //       (phi)     Vel
   { 3.9, 10, 14.7,-42.12 } //  q              Vel
   { 3.8, 10, 37.3,-48.23 } //  p              Vel
   { 4.1, 10, 39.3,-55.6  } //  x              Vel multiple
   { 2.7, 10, 46.8,-49.42 } //       (my)      Vel
   { 4.1,  8, 18.5,-76.92 } //       (alpha)   Cha
   { 4.7,  8, 57,  -59.23 } //  b1             Car multiple
   { 3.4,  9, 11,  -58.97 } //  a              Car
   { 4,    9, 11.3,-62.32 } //  i              Car
   { 1.7,  9, 13.2,-69.72 } //       (beta)    Car (Miaplacidus)
   { 2.2,  9, 17.1,-59.28 } //       (iota)    Car
   { 3.2,  9, 31.2,-57.03 } //  N              Vel
   { 6.85, 9, 32.2,-62.79 } //  R              Car fluctuating
   { 3.7,  9, 45.2,-62.51 } //  l              Car (ZZ Carinae) fluctuating
   { 2.9,  9, 47.1,-65.07 } //       (upsilon) Car multiple
   { 3.3, 10, 13.7,-70.04 } //       (omega)   Car
   { 3.4, 10, 17.1,-61.33 } //  q              Car
   { 3.9, 10, 24.4,-74.02 } //  I              Car multiple (perspectivic)
   { 3.8, 10, 27.9,-58.74 } //  s              Car
   { 3.3, 10, 32,  -61.69 } //  p              Car
   { 4.1, 10, 35.5,-78.61 } //       (gamma)   Cha
   { 2.7, 10, 43,  -64.39 } //       (theta)   Car
   { 4.1, 10, 45.6,-80.52 } //       (delta)   Cha multiple
   { 3.7, 10, 53.5,-58.86 } //  u              Car multiple (perspectivic)
   { 3.9, 11,  8.6,-58.97 } //  x              Car
   { 4.7, 11, 59.7,-78.22 } //       (epsilon) Cha
   { 3.9, 11, 21,  -54.49 } //       (pi)      Cen
   { 4.4, 11, 31.8,-59.48 } //       (omikron) Cen multiple, fluctuating
   { 3.1, 11, 35.8,-63.02 } //       (lambda)  Cen
   { 3.6, 11, 45.6,-66.73 } //       (lambda)  Mus
   { 2.4, 12,  8.3,-50.71 } //       (delta)   Cen multiple
   { 4,   12, 11.7,-52.37 } //       (rho)     Cen
   { 2.8, 12, 15.1,-58.75 } //       (delta)   Cru
   { 4.15,12, 17.6,-67.96 } //       (epsilon) Mus fluctuating
   { 4.1, 12, 18.4,-64    } //       (zeta)    Cru
   { 3.55,12, 21.4,-60.4  } //       (epsilon) Cru fluctuating
   { 0.7, 12, 26.6,-63.1  } //       (alpha)   Cru (Acrux) multiple
   { 3.9, 12, 28,  -50.23 } //       (sigma)   Cen
   { 1.6, 12, 31.2,-57.11 } //       (gamma)   Cru (Gacrux) multiple 
(perspectivic)
   { 3.8, 12, 32.5,-72.13 } //       (gamma)   Mus
   { 2.7, 12, 37.2,-69.14 } //       (alpha)   Mus
   { 3.9, 12, 37.7,-48.54 } //       (tau)     Cen
   { 2.2, 12, 41.5,-48.96 } //       (gamma)   Cen
   { 3,   12, 46.3,-68.11 } //       (beta)    Mus multiple
   { 1.3, 12, 47.7,-59.69 } //       (beta)    Cru (Mimosa)
   { 3.7, 12, 54.6,-57.18 } //       (my)      Cru multiple
   { 3.6, 13,  2.3,-71.55 } //       (delta)   Mus
   { 2.8, 13, 20.6,-36.71 } //       (iota)    Cen
   { 4.3, 13, 22.6,-60.99 } //  J              Cen multiple
   { 3.9, 13, 31,  -39.41 } //  d              Cen
   { 2.3, 13, 39.9,-53.47 } //       (epsilon) Cen
   { 5,   13, 41.7,-54.56 } //  Q              Cen multiple
   { 3.4, 13, 49.5,-41.69 } //       (ny)      Cen
   { 3.25,13, 49.6,-42.47 } //       (my)      Cen
   { 2.5, 13, 55.5,-47.29 } //       (zeta)    Cen
   { 3.8, 13, 58.3,-42.1  } //       (rho)     Cen
   { 3.9, 13, 58.7,-44.8  } //       (upsilon1)Cen
   { 0.6, 14,  3.8,-60.37 } //       (beta)    Cen (Hadar, Agena)
   { 2.1, 14,  6.7,-36.37 } //  5    (theta)   Cen
   { 7.9, 14, 16.6,-59.91 } //  R              Cen fluctuating
   { 2.3, 14, 35.5,-42.16 } //       (eta)     Cen
   {-0.3, 14, 39.6,-60.83 } //       (alpha)   Cen (Rigil Kentaurus) 
multiple
   { 4,   14, 42,  -37.79 } //  b              Cen
   { 3.2, 14, 42.5,-64.98 } //       (alpha)   Cir
   { 3.1, 14, 59.2,-42.1  } //       (kappa)   Cen
   { 4.6, 15, 16.8,-60.94 } //       (delta)   Cir multiple
   { 4.1, 15, 17.5,-58.8  } //       (beta)    Cir
   { 4.5, 15, 23.4,-59.32 } //       (gamma)   Cir
   { 3.5, 14, 19.4,-46.06 } //       (iota)    Lup
   { 2.3, 14, 41.9,-47.39 } //       (alpha)   Lup
   { 2.7, 14, 58.5,-43.13 } //       (beta)    Lup
   { 3.9, 15,  5.1,-47.05 } //       (pi)      Lup multiple
   { 3.7, 15, 11.9,-48.74 } //       (kappa)   Lup multiple
   { 3.4, 15, 12.3,-52.1  } //       (zeta)    Lup multiple
   { 4.1, 15, 18.5,-47.88 } //       (my)      Lup quadruple
   { 3.2, 15, 21.4,-40.65 } //       (delta)   Lup
   { 3.6, 15, 21.8,-36.26 } //       (rho1)    Lup
   { 3.4, 15, 22.7,-44.69 } //       (epsilon) Lup
   { 2.8, 15, 35.1,-41.17 } //       (gamma)   Lup
   { 4.5, 15, 35.9,-44.96 } //  d              Lup multiple
   { 3.4, 16,  0.1,-38.4  } //       (eta)     Lup multiple
   { 4,   16, 19.8,-50.16 } //       (gamma2)  Nor
   { 4.4, 16, 27.2,-47.55 } //       (epsilon) Nor multiple
   { 3.8, 16, 49.8,-59.04 } //       (eta)     Ara
   { 3.1, 16, 58.6,-55.99 } //       (zeta)    Ara
   { 4.1, 16, 59.6,-53.16 } //       (epsilon1)Ara
   { 2.8, 17, 25.3,-55.53 } //       (beta)    Ara
   { 3.3, 17, 25.4,-56.38 } //       (gamma)   Ara
   { 3.6, 17, 31.1,-60.68 } //       (delta)   Ara
   { 2.9, 17, 31.8,-49.88 } //       (alpha)   Ara
   { 3.7, 18,  6.6,-50.09 } //       (theta)   Ara
   { 3.05,16, 51.9,-38.05 } //       (my1)     Sco fluctuating
   { 3.6, 16, 52.3,-38.02 } //       (my2)     Sco
   { 3.6, 16, 54.6,-42.36 } //       (zeta2)   Sco
   { 3.3, 17, 12.2,-43.24 } //       (eta)     Sco
   { 2.7, 17, 30.8,-37.39 } // 34    (upsilon) Sco (Lesath)
   { 1.6, 17, 33.6,-37.1  } // 35    (lambda)  Sco (Shaula)
   { 1.9, 17, 37.3,-43    } //       (theta)   Sco (Sargas)
   { 2.4, 17, 42.5,-39.03 } //       (kappa)   Sco
   { 3,   17, 47.6,-40.13 } //       (iota1)   Sco
   { 3.2, 17, 49.9,-37.04 } //  G              Sco
   { 3.1, 18, 17.6,-36.76 } //       (eta)     Sgr multiple
   { 3.5, 18, 27,  -45.97 } //       (alpha)   Tel
   { 4.1, 18, 28.8,-49.07 } //       (zeta)    Tel
   { 5.2, 18, 33.4,-38.72 } //       (kappa)   CrA multiple
   { 4.85,18, 58.7,-37.11 } //       (epsilon) CrA fluctuating
   { 4.7, 19,  3.1,-42.1  } //       (zeta)    CrA
   { 4.2, 19,  6.4,-37.06 } //       (gamma)   CrA multiple
   { 4.6, 19,  8.3,-40.5  } //       (delta)   CrA
   { 4.1, 19,  9.5,-37.9  } //       (alpha)   CrA
   { 4.1, 19, 10,  -39.34 } //       (beta)    CrA
   { 3.9, 19, 22.6,-44.46 } //       (beta1)   Sgr multiple
   { 4,   19, 23.9,-40.62 } //       (alpha)   Sgr
   { 4.3, 14, 26.9,-83.67 } //       (delta)   Oct
   { 3.8, 14, 47.9,-79.04 } //       (alpha)   Aps
   { 2.9, 15, 18.9,-68.68 } //       (gamma)   TrA
   { 4.1, 15, 36.7,-66.32 } //       (epsilon) TrA
   { 2.8, 15, 55.1,-63.43 } //       (beta)    TrA
   { 3.9, 16, 15.4,-63.59 } //       (delta)   TrA
   { 4.2, 16, 20.4,-78.69 } //       (delta)   Aps multiple
   { 3.9, 16, 33.5,-78.9  } //       (gamma)   Aps
   { 4.2, 16, 43.1,-77.52 } //       (beta)    Aps
   { 1.9, 16, 48.7,-69.03 } //       (alpha)   TrA
   { 3.6, 17, 45.7,-64.72 } //       (eta)     Pav
   { 4,   18, 43,  -71.43 } //       (zeta)    Pav
   { 4.2, 18, 52.2,-62.19 } //       (lambda)  Pav
   { 3.35,18, 56.9,-67.23 } //       (kappa)   Pav fluctuating
   { 4,   20,  0.6,-72.91 } //       (epsilon) Pav
   { 3.6, 20,  8.7,-66.18 } //       (delta)   Pav
   { 1.9, 20, 25.6,-56.74 } //       (alpha)   Pav (Peacock)
   { 3.1, 20, 37.6,-47.29 } //       (alpha)   Ind
   { 3.4, 20, 45,  -66.2  } //       (beta)    Pav
   { 3.7, 20, 54.8,-58.45 } //       (beta)    Ind
   { 4.4, 21, 19.9,-53.45 } //       (theta)   Ind multiple
   { 3.7, 21, 41.5,-77.39 } //       (ny)      Oct
   { 3,   21, 53.9,-37.37 } //       (gamma)   Gru
   { 1.7, 22,  8.2,-46.96 } //       (alpha)   Gru (Alnair)
   { 2.9, 22, 18.5,-60.26 } //       (alpha)   Tuc
   { 5.2, 22, 23,  -45.93 } //       (pi)      Gru multiple (perspectivic)
   { 4,   22, 29.3,-43.5  } //       (delta1)  Gru
   { 4.1, 22, 29.8,-43.75 } //       (delta2)  Gru
   { 2.1, 22, 42.7,-46.88 } //       (beta)    Gru
   { 4.1, 22, 46.1,-81.38 } //       (beta)    Oct
   { 3.5, 22, 48.6,-51.32 } //       (epsilon) Gru
   { 3.9, 23, 10.4,-45.25 } //       (iota)    Gru
   { 4,   23, 17.4,-58.24 } //       (gamma)   Tuc

}

// #declare minmag=6;                  // magnitude of the faintest 
stars to be visible
// #declare w=800;                    // image width
// #declare an=50;                     // field of view
// #declare m=0.00058/(w/800)/(50/an); // radius of the faintest stars 
adjusted to image width and field of view
// #declare fac=2;                     // logarithmic factor for orders 
of magnitude,
                                     // should be smaller at low 
resolutions to prevent bright stars
                                     // from being unnaturally large

#macro Stars(minmag, w, an, fac)
   #local stars=union
   {
     #local m=0.00058/(w/800)/(50/an);
     #local a=0;
     #while (a<dimension_size(Cat, 1))
       #local rad=m*pow(fac, (minmag-Cat[a][0])/2);
       #local rec=-Cat[a][1]*15-Cat[a][2]*0.25;
       #local dec=Cat[a][3];
       sphere { <sin(rec*(pi/180))*cos(dec*(pi/180)), sin(dec*(pi/180)), 
cos(rec*(pi/180))*cos(dec*(pi/180))>, rad }
       #declare a=a+1;
     #end
   }
   sky_sphere
   {
     pigment
     {
       object { stars color rgb 0 color rgb 1 }
     }
     rotate y*90
     rotate x*23.4333
   }
#end
// end of code

Still not perfect, as back then, I didn't know of the environment 
variable image_width...

Perhaps later on, I'll program a version using the Hipparcos Catalogue 
which contains about 150,000 stars...

See you in Khyberspace!

Yadgar


Post a reply to this message

From: Rarius
Subject: Re: Amalthea, lit by Jupitershine
Date: 7 May 2009 06:38:20
Message: <4a02ba1c$1@news.povray.org>

news:4a02a7aa@news.povray.org...
> High!
>
> Cousin Ricky wrote:
>
>> What are you using for the starry background?
>
>
> This:
>

> // (Atlas for Skywatchers) (C) 1997 Franckh-Kosmos Verlags-GmbH & Co., 
> Stuttgart, Germany

> yaz### [at] gmxde

<BIG SNIP>

> Still not perfect, as back then, I didn't know of the environment variable 
> image_width...
>
> Perhaps later on, I'll program a version using the Hipparcos Catalogue 
> which contains about 150,000 stars...

I wouldn't bother unless you want to produce telescopic views.  The human 
eye can only see stars down to about Mag 5.5-6.0... This means the brightest 
1500 stars or so. You also ought to know that the coverage of the Hipparcos 
Catalogue is not balanced. Some areas show fainter stars than others.

I converted the Bright Star Catalogue (BSC) into a POV include a while back. 
I'll post it in the povray.binaries-scene-files for anyone to look at.

Rarius


Post a reply to this message

From: Jörg 'Yadgar' Bleimann
Subject: Re: Amalthea, lit by Jupitershine
Date: 7 May 2009 07:39:12
Message: <4a02c860@news.povray.org>
High!

Rarius wrote:

> I wouldn't bother unless you want to produce telescopic views.
>  The human 
> eye can only see stars down to about Mag 5.5-6.0... This means the brightest 
> 1500 stars or so.

...as an amateur astronomer (owning a Newton 4.5-incher, on parallactic 
mounting) I'm quite aware of this... but I can't rule out to generate 
also telescopic views with PoVSolar in the future!

> I converted the Bright Star Catalogue (BSC) into a POV include a while back. 
> I'll post it in the povray.binaries-scene-files for anyone to look at.

Good idea... is it in the public domain like Hipparcos?

But my original question was about fine-tuning radiosity...

See you in Khyberspace!

Yadgar

Now playing: Barco a Venus (Mecano)


Post a reply to this message

From: Rarius
Subject: Re: Amalthea, lit by Jupitershine
Date: 7 May 2009 08:13:12
Message: <4a02d058$1@news.povray.org>

news:4a02c860@news.povray.org...
> High!
>
> Rarius wrote:
>
>> I wouldn't bother unless you want to produce telescopic views.
>>  The human eye can only see stars down to about Mag 5.5-6.0... This means 
>> the brightest 1500 stars or so.
>
> ...as an amateur astronomer (owning a Newton 4.5-incher, on parallactic 
> mounting) I'm quite aware of this... but I can't rule out to generate also 
> telescopic views with PoVSolar in the future!

In all the years I've been an astronomer (25+), I have never heard it called 
a parallactic mount. I had to Google the term. I have always heard it 
described as an Equatorial mount. I have a 10in Orion Optics newtonian 
reflector myself on a large wooden fork mount.

BTW I had done some of this kind of POV work before. I have a topographic 
model of Mars if you'd like it.

>> I converted the Bright Star Catalogue (BSC) into a POV include a while 
>> back. I'll post it in the povray.binaries-scene-files for anyone to look 
>> at.
>
> Good idea... is it in the public domain like Hipparcos?

Yes the BSC is public domain too.

Rarius


Post a reply to this message

From: Jörg 'Yadgar' Bleimann
Subject: Re: Amalthea, lit by Jupitershine
Date: 7 May 2009 08:28:25
Message: <4a02d3e9@news.povray.org>
High!

Rarius wrote:

> In all the years I've been an astronomer (25+), I have never heard it called 
> a parallactic mount.

Here in Germanistan ;-) we call it "parallaktische Montierung"...

> I had to Google the term. I have always heard it 
> described as an Equatorial mount. I have a 10in Orion Optics newtonian 
> reflector myself on a large wooden fork mount.

Fork mount? Is it a Dobsonian? Nevertheless, 10 inch would be large 
enough to resolve Neptune as a disc - I just hope you also have the 
appropriate sky at your location! Big city astronomy wouldn't be much 
fun with such a large aperture, with all that scattered artificial light...

> BTW I had done some of this kind of POV work before. I have a topographic 
> model of Mars if you'd like it.

What resolution?

See you on www.khyberspace.de!

Yadgar

Now playing: Shadow On The Wall (Mike Oldfield)


Post a reply to this message

From: clipka
Subject: Re: Amalthea, lit by Jupitershine
Date: 7 May 2009 09:30:00
Message: <web.4a02e1cacf0118f0f708085d0@news.povray.org>
=?ISO-8859-1?Q?J=F6rg_=27Yadgar=27_Bleimann?= <yaz### [at] gmxde> wrote:
>        brightness 3.2
>        always_sample off
>        error_bound 1.5
>        count 100
>
> If I lower error_bound too much (e. g. to 1.0 or even lower), I get
> Amalthea's portions which are closest to Jupiter glowing in an
> unrealistic red, surrounded by olive-green hues...

"brightness 3.2" sounds utterly wrong to me - 1.0 should be realistic (provided
that the implementation is correct in this respect... I'm not perfectly sure
whether it is though; but what I've seen so far when comparing to MCPov output
suggests values even below 0.3)

If you think the thing is too dark with brightness 1.0, maybe you may want to
check your gamma settings?


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