Your examples only show digits, letters, and spaces. So for the moment I'll assume you ignore every other symbol (effectively treat them as spaces). You also seem to want to treat uppercase and lowercase letters as equivalent.
It also appears that you interpret runs of digits as a "term" and runs of letters as a "term", with any transition between a letter and a digit being equivalent to a space. A single space is considered equivalent to any number of spaces.
(Note: You are conspicuously missing an example of what to do in cases like:
"5a" vs "a11"
"a5" vs "11a"
So you have to work out what to do when you face a comparison of a numeric term with a string term. You also don't mention intrinsic equalities...such as should "5 a" == "5a" just because "5 a" < "5b"?)
One clear way of doing this would be turn the strings into
std::vector of "terms", and then compare these vectors (rather than trying to compare the strings directly). These terms would be either numeric or string. This might help get you started, especially the STL answer:
how to split a string value that contains characters and numbers
Trickier methods that worked on the strings themselves without making an intermediary will be faster in one-off comparisons. But they'll likely be harder to understand and modify, and perhaps slower if you are going to repeatedly compare the same structures.
A nice aspect of parsing into a structure is that you get an intrinsic "cleanup" of the data in the process. Getting the information into a canonical form is often a goal in programs that are tolerating such a variety of inputs.