Since in the first unsigned int, you put -1, but from the unsigned int point of view it is 0xFFFFFFFF (this is how negative integers are stored into a computer); in the second case the bitwise not does not look at the "kind" at all and "transform" 0 into 1 and viceversa, so all zeros of 0 becomes 1 (looking at bits), so you obtain 0xFFFFFFFF.
The next question is, why comparing an unsigned integer with a signed integer does not distinguish them? (numerically 4294967295 is not equal to -1 of course, even though their representation in a computer is the same). Indeed it could, but clearly C does not mandate such a distinction, and it is "natural", since processor aren't able to do it of their own (I am not sure about this last sentence being always true, ... but it is for most processor): to take into account this distinction in asm, you have to add extra code.
From the C point of view, you have to decide if to cast int into unsigned int, or signed int into unsigned int. But a negative number can't be cast into a unsigned one, of course, and on the other hand, an unsigned number could cause overflow (e.g. for 4294967295 you need a 64bit register (or a 33bit regster!) to be able to have it and still be able to calculate its negative value)...
So likely the most natural thing is to avoid strange casting, and permit a "cpu like" comparison, which in this case lead to 0xFFFFFFFF (-1 on 32 bit) compared to 0xFFFFFFFF (~0 on 32bit), which are the same, and more in genereal one can be considered as MAXUINT (the maximum unsigned integer that can be hold) and the other as -1. (Take a look at your machine
limits.h include to check it)