There is currently^[when?] much work to determine what the coherence laws for weak n-categories should be. Weak n-categories have become the main object of study in higher category theory. There are basically two classes of theories: those in which the higher cells and higher compositions are realized algebraically (most remarkably Michael Batanin's theory of weak higher categories) and those in which more topological models are used (e.g. a higher category as a simplicial set satisfying some universality properties).

In a terminology due to John Baez and James Dolan, a (n, k)-category is a weak n-category, such that all h-cells for h > k are invertible. Some of the formalism for (n, k)-categories are much simpler than those for general n-categories. In particular, several technically accessible formalisms of (infinity, 1)-categories are now known. Now the most popular such formalism centers on a notion of quasi-category, other approaches include a properly understood theory of simplicially enriched categories and the approach via Segal categories; a class of examples of stable (infinity, 1)-categories can be modeled (in the case of characteristics zero) also via pretriangulated A-infinity categories of Maxim Kontsevich. Quillen model categories are viewed as a presentation of an (infinity, 1)-category; however not all (infinity, 1)-categories can be presented via model categories.

• Bicategory
• Tricategory
• Tetracategory
• Infinity category
• Opetope
• Stabilization hypothesis

• n-Categories – Sketch of a Definition by John Baez
• Lectures on n-Categories and Cohomology by John Baez
• Tom Leinster, Higher operads, higher categories, math.CT/0305049
• Simpson, Carlos (2012). Homotopy theory of higher categories. New Mathematical Monographs. Vol. 19. Cambridge: Cambridge University Press. arXiv:1001.4071. Bibcode:2010arXiv1001.4071S. ISBN 9781139502191. MR 2883823.
• Jacob Lurie, Higher topos theory, math.CT/0608040, published version: pdf