I don't know what academic papers you've already read but it really isn't that difficult to understand how to implement a finite state machine. There are some interesting mathematics but to idea is actually very trivial to understand. The easiest way to understand an FSM is through input and output (actually, this comprises most of the formal definition, that I won't describe here). A "state" is essentially just describing a set of input and outputs that have occurred and can occur from a certain point.

Finite state machines are easiest to understand via diagrams. For example:

All this is saying is that if you begin in some state q0 (the one with the Start symbol next to it) you can go to other states. Each state is a circle. Each arrow represents an input or output (depending on how you look at it). Another way to think of an finite state machine is in terms of "valid" or "acceptable" input. There are certain output strings that are NOT possible certain finite state machines; this would allow you to "match" expressions.

Now suppose you start at q0. Now, if you input a 0 you will go to state q1. However, if you input a 1 you will go to state q2. You can see this by the symbols above the input/output arrows.

Let's say you start at q0 and get this input

0, 1, 0, 1, 1, 1

This means you have gone through states (no input for q0, you just start there):

q0 -> q1 -> q0 -> q1 -> q0 -> q2 -> q3 -> q3

Trace the picture with your finger if it doesn't make sense. Notice that q3 goes back to itself for both inputs 0 and 1.

Another way to say all this is "If you are in state q0 and you see a 0 go to q1 but if you see a 1 go to q2." If you make these conditions for each state you are nearly done defining your state machine. All you have to do is have a state variable and then a way to pump input in and that is basically what is there.

Ok, so why is this important regarding Joel's statement? Well, building the "ONE TRUE REGULAR EXPRESSION TO RULE THEM ALL" can be very difficult and also difficult to maintain modify or even for others to come back and understand. Also, in some cases it is more efficient.

Of course, state machines have many other uses. Hope this helps in some small way. Note, I didn't bother going into the theory but there are some interesting proofs regarding FSMs.