Computing Homology
Resource history | v1 (current) | created by janarez
Details
Computing Homology
see v1 | created by janarez | Add resource "Homology Theory — A Primer"
- Title
- Computing Homology
- Type
- Web
- Created
- 2013-04-10
- Description
- In our last post in this series on topology, we defined the homology group. Specifically, we built up a topological space as a simplicial complex (a mess of triangles glued together), we defined an algebraic way to represent collections of simplices called chains as vectors in a vector space, we defined the boundary homomorphism as a linear map on chains, and finally defined the homology groups as the quotient vector spaces. In this post we will be quite a bit more explicit. Because the chain groups are vector spaces and the boundary mappings are linear maps, they can be represented as matrices whose dimensions depend on our simplicial complex structure. Better yet, if we have explicit representations of our chains by way of a basis, then we can use row-reduction techniques to write the matrix in a standard form.
- Link
- https://jeremykun.com/2013/04/10/computing-homology/
- Identifier
- no value
authors
created by Jeremy Kun
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