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Construct TM for accepting Even Palindrome

Mumbai University > Informatica Technology > Sem 4 > Automata Theory

Marks: 10

Year:May 16

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A Turing Machine (TM) is a mathematical model which consists of an infinite length tape divided into cells on which input is given.

It consists of a head which reads the input tape. A state register stores the state of the Turing machine.

After reading an input symbol, it is replaced with another symbol, its internal state is changed, and it moves from one cell to the right or left.

If the TM reaches the final state, the input string is accepted, otherwise rejected.

A TM can be formally described as a 7-tuple (Q, X, ∑, δ, q0, B, F) where −

• Q is a finite set of states

• X is the tape alphabet

• ∑ is the input alphabet

• δ is a transition function; δ : Q × X → Q × X × {Left_shift, Right_shift}.

• q0 is the initial state

• B is the blank symbol

• F is the set of final states

Comparison with the previous automaton

The following table shows a comparison of how a Turing machine differs from Finite Automaton and Pushdown Automaton.

enter image description here

Example of Turing machine

Turing machine M = (Q, X, ∑, δ, q0, B, F) with

• Q = {q0, q1, q2, qf}

• X = {a, b}

• ∑ = {1}

• q0 = {q0}

• B = blank symbol

• F = {qf }

δ is given by −

enter image description here

Here the transition 1Rq1 implies that the write symbol is 1, the tape moves right, and the next state is q1. Similarly, the transition 1Lq2 implies that the write symbol is 1, the tape moves left, and the next state is q2.

Even Palindrome

enter image description here

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