Certification Problem

Input (TPDB SRS_Standard/Waldmann_19/random-127)

The rewrite relation of the following TRS is considered.

a(a(a(a(x1))))	→	b(a(a(a(x1))))	(1)
a(b(b(b(x1))))	→	b(a(b(a(x1))))	(2)
b(b(a(a(x1))))	→	a(b(b(a(x1))))	(3)

Property / Task

Prove or disprove termination.

Answer / Result

Yes.

Proof (by AProVE @ termCOMP 2023)

1 Closure Under Flat Contexts

Using the flat contexts

{a(☐), b(☐)}

We obtain the transformed TRS

a(a(a(a(a(x1)))))	→	a(b(a(a(a(x1)))))	(4)
b(a(a(a(a(x1)))))	→	b(b(a(a(a(x1)))))	(5)
a(a(b(b(b(x1)))))	→	a(b(a(b(a(x1)))))	(6)
b(a(b(b(b(x1)))))	→	b(b(a(b(a(x1)))))	(7)
a(b(b(a(a(x1)))))	→	a(a(b(b(a(x1)))))	(8)
b(b(b(a(a(x1)))))	→	b(a(b(b(a(x1)))))	(9)

1.1 Semantic Labeling

Root-labeling is applied.

We obtain the labeled TRS

a_a(a_a(a_a(a_a(a_a(x1)))))	→	a_b(b_a(a_a(a_a(a_a(x1)))))	(10)
a_a(a_a(a_a(a_a(a_b(x1)))))	→	a_b(b_a(a_a(a_a(a_b(x1)))))	(11)
b_a(a_a(a_a(a_a(a_a(x1)))))	→	b_b(b_a(a_a(a_a(a_a(x1)))))	(12)
b_a(a_a(a_a(a_a(a_b(x1)))))	→	b_b(b_a(a_a(a_a(a_b(x1)))))	(13)
a_a(a_b(b_b(b_b(b_a(x1)))))	→	a_b(b_a(a_b(b_a(a_a(x1)))))	(14)
a_a(a_b(b_b(b_b(b_b(x1)))))	→	a_b(b_a(a_b(b_a(a_b(x1)))))	(15)
b_a(a_b(b_b(b_b(b_a(x1)))))	→	b_b(b_a(a_b(b_a(a_a(x1)))))	(16)
b_a(a_b(b_b(b_b(b_b(x1)))))	→	b_b(b_a(a_b(b_a(a_b(x1)))))	(17)
a_b(b_b(b_a(a_a(a_a(x1)))))	→	a_a(a_b(b_b(b_a(a_a(x1)))))	(18)
a_b(b_b(b_a(a_a(a_b(x1)))))	→	a_a(a_b(b_b(b_a(a_b(x1)))))	(19)
b_b(b_b(b_a(a_a(a_a(x1)))))	→	b_a(a_b(b_b(b_a(a_a(x1)))))	(20)
b_b(b_b(b_a(a_a(a_b(x1)))))	→	b_a(a_b(b_b(b_a(a_b(x1)))))	(21)

1.1.1 Rule Removal

Using the linear polynomial interpretation over the naturals

[a_a(x₁)]	=	1 · x₁ + 1
[a_b(x₁)]	=	1 · x₁ + 1
[b_a(x₁)]	=	1 · x₁
[b_b(x₁)]	=	1 · x₁ + 1

all of the following rules can be deleted.

a_a(a_a(a_a(a_a(a_a(x1)))))	→	a_b(b_a(a_a(a_a(a_a(x1)))))	(10)
a_a(a_a(a_a(a_a(a_b(x1)))))	→	a_b(b_a(a_a(a_a(a_b(x1)))))	(11)
a_a(a_b(b_b(b_b(b_a(x1)))))	→	a_b(b_a(a_b(b_a(a_a(x1)))))	(14)
a_a(a_b(b_b(b_b(b_b(x1)))))	→	a_b(b_a(a_b(b_a(a_b(x1)))))	(15)
b_a(a_b(b_b(b_b(b_b(x1)))))	→	b_b(b_a(a_b(b_a(a_b(x1)))))	(17)
b_b(b_b(b_a(a_a(a_a(x1)))))	→	b_a(a_b(b_b(b_a(a_a(x1)))))	(20)
b_b(b_b(b_a(a_a(a_b(x1)))))	→	b_a(a_b(b_b(b_a(a_b(x1)))))	(21)

1.1.1.1 Dependency Pair Transformation

The following set of initial dependency pairs has been identified.

b_a^#(a_a(a_a(a_a(a_a(x1)))))	→	b_a^#(a_a(a_a(a_a(x1))))	(22)
b_a^#(a_a(a_a(a_a(a_b(x1)))))	→	b_a^#(a_a(a_a(a_b(x1))))	(23)
b_a^#(a_b(b_b(b_b(b_a(x1)))))	→	b_a^#(a_b(b_a(a_a(x1))))	(24)
b_a^#(a_b(b_b(b_b(b_a(x1)))))	→	a_b^#(b_a(a_a(x1)))	(25)
b_a^#(a_b(b_b(b_b(b_a(x1)))))	→	b_a^#(a_a(x1))	(26)
a_b^#(b_b(b_a(a_a(a_a(x1)))))	→	a_b^#(b_b(b_a(a_a(x1))))	(27)
a_b^#(b_b(b_a(a_a(a_a(x1)))))	→	b_a^#(a_a(x1))	(28)
a_b^#(b_b(b_a(a_a(a_b(x1)))))	→	a_b^#(b_b(b_a(a_b(x1))))	(29)
a_b^#(b_b(b_a(a_a(a_b(x1)))))	→	b_a^#(a_b(x1))	(30)

1.1.1.1.1 Dependency Graph Processor

The dependency pairs are split into 2 components.

The 1^st component contains the pair

b_a^#(a_b(b_b(b_b(b_a(x1)))))	→	a_b^#(b_a(a_a(x1)))	(25)
a_b^#(b_b(b_a(a_a(a_a(x1)))))	→	a_b^#(b_b(b_a(a_a(x1))))	(27)
a_b^#(b_b(b_a(a_a(a_b(x1)))))	→	a_b^#(b_b(b_a(a_b(x1))))	(29)
a_b^#(b_b(b_a(a_a(a_b(x1)))))	→	b_a^#(a_b(x1))	(30)
b_a^#(a_b(b_b(b_b(b_a(x1)))))	→	b_a^#(a_b(b_a(a_a(x1))))	(24)

1.1.1.1.1.1 Reduction Pair Processor

Using the linear polynomial interpretation over the naturals

[b_a^#(x₁)]	=	1 · x₁
[a_b(x₁)]	=	1 + 1 · x₁
[b_b(x₁)]	=	1 · x₁
[b_a(x₁)]	=	1 · x₁
[a_b^#(x₁)]	=	1 · x₁
[a_a(x₁)]	=	1 · x₁

the pair

b_a^#(a_b(b_b(b_b(b_a(x1)))))

→

a_b^#(b_a(a_a(x1)))

(25)

could be deleted.

1.1.1.1.1.1.1 Dependency Graph Processor