Finite Automaton can be classified into two types −
- Deterministic Finite Automaton (DFA)
- Non-deterministic Finite Automaton (NDFA / NFA)
Deterministic Finite Automaton (DFA)
In DFA, for each input symbol, one can determine the state to which the machine will move. Hence, it is called Deterministic Automaton. As it has a finite number of states, the machine is called Deterministic Finite Machine or Deterministic Finite Automaton.
Formal Definition of a DFA
A DFA can be represented by a 5-tuple (Q, ∑, δ, q0, F) where −
-
Q is a finite set of states.
-
∑ is a finite set of symbols called the alphabet.
-
δ is the transition function where δ: Q × ∑ → Q
-
q0 is the initial state from where any input is processed (q0 ∈ Q).
-
F is a set of final state/states of Q (F ⊆ Q).
Graphical Representation of a DFA
A DFA is represented by digraphs called state diagram.
- The vertices represent the states.
- The arcs labeled with an input alphabet show the transitions.
- The initial state is denoted by an empty single incoming arc.
- The final state is indicated by double circles.
Example
Let a deterministic finite automaton be →
- Q = {a, b, c},
- ∑ = {0, 1},
- q0 = {a},
- F = {c}, and
Transition function δ as shown by the following table −
Present State | Next State for Input 0 | Next State for Input 1 |
---|---|---|
a | a | b |
b | c | a |
c | b | c |
Its graphical representation would be as follows −
Learning working make money