Manipulated latin

• In Principio Creavit
  The Vulgate Bible Genesis Chapters 1-25 [ full ] [ page ]
  
      More of the same. I don't see anything worth commenting here...
  
  
  l = 1    r = 0 [ colorized page ] [ bits per tuple ]
  l = 2    r = 0 [ colorized page ] [ bits per tuple ]
  l = 3    r = 0 [ colorized page ] [ bits per tuple ]
  l = 1    r = 1 [ colorized page ] [ bits per tuple ]
  
  
  
• I Dain Pri Dain
  G. Landini's "dain daiin" mapping of the Vulgate Genesis [ full ] [ page ]
  
      This text is the result of an experiment by Gabriel Landini. The goal was to imitate the entropy and wordlength distribution of Voynichese, by subjecting a Latin text to a letter substitution where the replacement texts contained word breaks. This sample used specifically the substitution "u"-->"ii", "n"-->" dain ", "m"-->" daiin ".
      As expected, the dains and daiins are very predictable once they start, and managed to push the entropy h₃ the low levels (around 2.0) characteristic of Voynichese.
  
  l = 1    r = 0 [ colorized page ] [ bits per tuple ]
  l = 2    r = 0 [ colorized page ] [ bits per tuple ]
  l = 3    r = 0 [ colorized page ] [ bits per tuple ]
  l = 1    r = 1 [ colorized page ] [ bits per tuple ]
  
  
  
• In Cinipipor Caretiv
  René Zandbergen's word-scrambling of the Vulgate Genesis [ full ] [ page ]
  
      In this version of the Vulgate Bible, the letters in each word were scrambled in a way that would reduce the second-order entropy h₂, without changing h₀ or h₁. In his words:

  Take a word (e.g. latin) and split into vowels and consonants. Then interleave these, both in alphabetical order so: latin -> (a,i) + (l,n,t) -> lanit ... beginning with the set with most elements. This was driven by the observation that Voynichese seems to have something like 'vowel-consonant' harmony.

      Keep in mind that the entropies shown at the bottom of each page are overestimated, because of the relatively small sample and large "a priori" alphabet size built into my formulas. René reports that his transformation reduced h₂ from 2.5 to 2.1; my numbers are 3.3 and 3.0, respectively.
  
  l = 1    r = 0 [ colorized page ] [ bits per tuple ]
  l = 2    r = 0 [ colorized page ] [ bits per tuple ]
  l = 3    r = 0 [ colorized page ] [ bits per tuple ]
  l = 1    r = 1 [ colorized page ] [ bits per tuple ]