Suppose $X$ is a topological space and I want to talk about its “homology”.
There is this notion of singular homology obtained from singular chain complex. This is not very easy to compute.
Suppose we assume that there is an extra structure on the topological space $X$, namely the structure of a CW complex, then, we can talk about the notion of cellular chain complex and from there the notion of cellular homology. This is easier than computing singular homology.
Suppose further that this topological space $X$ (that we assumed to have CW structure) has an extra structure of a simplicial complex, then, we can talk about the notion of simplicial chain complex and then the notion of simplicial homology. This is easier to compute than cellular homology.
Then it is standard result that any two homology groups coming from different approaches coincide when both of them makes sense.
Question : Is there an extra structure (non trivial) I can add on a space having simplicial structure that makes it easier to compute homology in terms of chain complex simpler than simplicial chain complex?
Same is the situation with cohomology. Suppose I have a topological space $X$, I can talk about its singular cochain complex and the corresponding singular cohomology.
Suppose that this topological space $X$ has structure of a manifold, then, we can talk about the cochain complex of differential forms and use it to compute the cohomology of the topological space $X$. It is a standard result that, with correct coefficients, singular cohomology is same as deRham cohomology (deRham’s theorem).
Question : Is there an extra structure that I can add on a manifold that gives a simpler cochain complex than cochain complex of differential forms that gives an easier way to compute cohomology of the manifold? For example, suppose I fix a connection on the tangent bundle $TM\rightarrow M$ of the manifold $M$, can I produce a simpler cochain complex using the connection that computes cohomology easily?
Suppose I ask that the manifold $M$ has an extra structure of a Lie group then there is a simpler cochain complex that computes the cohomology of the manifold easier than deRham cohomology. This is too much to ask, I am looking for results that comes in between deRham cohomology of manifold and strictly lesser structure than the notion of Lie groups.
Any references are welcome.