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1. • CommentRowNumber1.
   • CommentAuthorfpaugam
   • CommentTimeJul 10th 2011
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   Author: fpaugam
   Format: TextDo you have some ideas on how to define a general/higher notion of local Kan extension in an n-category, that gives back the usual notion in a 2-category? I am talking of local kan extension Lan_F G, with F and G two morphisms, that is given by a 2-cell with F and G on the boundary that is universal among such 2-cells. I would define it using as in the nlab page, the corepresentation of the functor Hom(G,F^*_) but this does not make sense in a weak n-category. I don't want of a Lurie type kan extension given by adjoint to F^*. Want something weaker. One could also use simply truncation to a 2-category, but is there something finer than that? The applications i have in mind are related to higher doctrines and theories, derived algebras and their universal properties. Is there in the litterature something finer than that and useful?

   Do you have some ideas on how to define a general/higher notion of local Kan extension in an n-category, that gives back the usual notion in a 2-category? I am talking of local kan extension Lan_F G, with F and G two morphisms, that is given by a 2-cell with F and G on the boundary that is universal among such 2-cells.
   
   I would define it using as in the nlab page, the corepresentation of the functor Hom(G,F^*_) but this does not make sense in a weak n-category. I don't want of a Lurie type kan extension given by adjoint to F^*. Want something weaker.
   
   One could also use simply truncation to a 2-category, but is there something finer than that?
   
   The applications i have in mind are related to higher doctrines and theories, derived algebras and their universal properties.
   
   Is there in the litterature something finer than that and useful?
2. • CommentRowNumber2.
   • CommentAuthorMike Shulman
   • CommentTimeJul 13th 2011
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   Author: Mike Shulman
   Format: MarkdownItexI think the "obvious" extension to an n-category would be to ask for a 2-cell of the same shape which is universal in an appropriate n-categorical sense. That is, there is some functor between (n-2)-categories of 2-cells which we would ask to be an equivalence.

   I think the “obvious” extension to an n-category would be to ask for a 2-cell of the same shape which is universal in an appropriate n-categorical sense. That is, there is some functor between (n-2)-categories of 2-cells which we would ask to be an equivalence.

3. • CommentRowNumber3.
   • CommentAuthorfpaugam
   • CommentTimeSep 8th 2011
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   Author: fpaugam
   Format: TextThanks a lot Mike, this looks like the right thing for me! Can you be more specific? Could you add this to the nlab page on local kan extension (or make a new page)?

   Thanks a lot Mike, this looks like the right thing for me!
   
   Can you be more specific?
   
   Could you add this to the nlab page on local kan extension (or make a new page)?
4. • CommentRowNumber4.
   • CommentAuthorMike Shulman
   • CommentTimeSep 9th 2011
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   Author: Mike Shulman
   Format: MarkdownItex[Sure](http://nlab.mathforge.org/nlab/show/Kan+extension#InHigherCats).

   Sure.

5. • CommentRowNumber5.
   • CommentAuthorfpaugam
   • CommentTimeSep 20th 2011
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   Author: fpaugam
   Format: TextGreat! I am impressed by the apparent symplicity of this definition... :-)

   Great! I am impressed by the apparent symplicity of this definition... :-)