Yes, it would have made sense for array parameters declared with
 to be adjusted to const-qualified pointers. However,
const did not exist when this behavior was established.
When the C language was being developed, it made sense to pass an array by passing its address, or, more specifically, the address of the first element. You certainly did not want to copy the entire array to pass it. Passing the address was an easy way to make the array known to the called function. (The semantics for the reference types we see in C++ had not been invented yet.) To make that easy for programmers, so that they could write
foo(ArrayA, ArrayB) instead of
foo(&Array, &ArrayB), the mechanism of converting an array to a pointer to its first element was invented. (Per M.M. and The Development of the C Language by Dennis M. Ritchie, this notation for parameters already existed in C’s predecessor language, B.)
That is fine, you have hidden the conversion. But that is only where the function is called. In the called routine, the programmer who is thinking about passing an array is going to write
void foo(int ArrayA, int ArrayB). But since we are actually passing pointers, not arrays, these need to be changed to
int *ArrayA and
int *ArrayB. So the notion that parameters declared as arrays are automatically adjusted to pointers was created.
As you observe, this leaves the programmer able to assign values to the parameters, which changes the apparent base address of the array. It would have made sense for a parameter declared as
int ArrayA to be adjusted to
int * const ArrayA, so that the value of the parameter
ArrayA could not be changed. Then it would act more like an array, whose address also cannot be changed, so this better fits the goal of pretending to pass arrays even though we are passing addresses.
However, at the time,
const did not exist, so this was not possible, and nobody thought of inventing
const at that time (or at least did work on it enough to get it adopted into the language).
Now there is a large amount of source code in the world that works with the non-const adjustment. Changing the specification of the C language now would cause problems with the existing code.