Certification Problem

Input (TPDB SRS_Standard/Secret_06_SRS/secr10)

The rewrite relation of the following TRS is considered.

a(a(x1))	→	c(b(a(b(a(x1)))))	(1)
b(a(b(x1)))	→	b(x1)	(2)
a(a(a(x1)))	→	c(c(a(x1)))	(3)
c(c(x1))	→	a(b(c(b(a(x1)))))	(4)
a(c(a(x1)))	→	c(c(a(x1)))	(5)
c(a(c(x1)))	→	a(a(c(x1)))	(6)

Property / Task

Prove or disprove termination.

Answer / Result

Yes.

Proof (by matchbox @ termCOMP 2023)

1 Split

We split R in the relative problem D/R-D and R-D, where the rules D

a(a(x1))	→	c(b(a(b(a(x1)))))	(1)
b(a(b(x1)))	→	b(x1)	(2)
c(c(x1))	→	a(b(c(b(a(x1)))))	(4)

are deleted.

1.1 Closure Under Flat Contexts

Using the flat contexts

{c(☐), b(☐), a(☐)}

We obtain the transformed TRS

c(a(a(x1)))	→	c(c(b(a(b(a(x1))))))	(7)
c(b(a(b(x1))))	→	c(b(x1))	(8)
c(c(c(x1)))	→	c(a(b(c(b(a(x1))))))	(9)
b(a(a(x1)))	→	b(c(b(a(b(a(x1))))))	(10)
b(b(a(b(x1))))	→	b(b(x1))	(11)
b(c(c(x1)))	→	b(a(b(c(b(a(x1))))))	(12)
a(a(a(x1)))	→	a(c(b(a(b(a(x1))))))	(13)
a(b(a(b(x1))))	→	a(b(x1))	(14)
a(c(c(x1)))	→	a(a(b(c(b(a(x1))))))	(15)
c(a(a(a(x1))))	→	c(c(c(a(x1))))	(16)
c(a(c(a(x1))))	→	c(c(c(a(x1))))	(17)
c(c(a(c(x1))))	→	c(a(a(c(x1))))	(18)
b(a(a(a(x1))))	→	b(c(c(a(x1))))	(19)
b(a(c(a(x1))))	→	b(c(c(a(x1))))	(20)
b(c(a(c(x1))))	→	b(a(a(c(x1))))	(21)
a(a(a(a(x1))))	→	a(c(c(a(x1))))	(22)
a(a(c(a(x1))))	→	a(c(c(a(x1))))	(23)
a(c(a(c(x1))))	→	a(a(a(c(x1))))	(24)

1.1.1 Semantic Labeling

The following interpretations form a model of the rules.

As carrier we take the set {0,1,2}. Symbols are labeled by the interpretation of their arguments using the interpretations (modulo 3):

[c(x₁)]	=	3x₁ + 0
[b(x₁)]	=	3x₁ + 1
[a(x₁)]	=	3x₁ + 2

We obtain the labeled TRS

a₂(a₂(a₂(x1)))	→	a₀(c₁(b₂(a₁(b₂(a₂(x1))))))	(25)
a₂(a₂(a₀(x1)))	→	a₀(c₁(b₂(a₁(b₂(a₀(x1))))))	(26)
a₂(a₂(a₁(x1)))	→	a₀(c₁(b₂(a₁(b₂(a₁(x1))))))	(27)
c₂(a₂(a₂(x1)))	→	c₀(c₁(b₂(a₁(b₂(a₂(x1))))))	(28)
c₂(a₂(a₀(x1)))	→	c₀(c₁(b₂(a₁(b₂(a₀(x1))))))	(29)
c₂(a₂(a₁(x1)))	→	c₀(c₁(b₂(a₁(b₂(a₁(x1))))))	(30)
b₂(a₂(a₂(x1)))	→	b₀(c₁(b₂(a₁(b₂(a₂(x1))))))	(31)
b₂(a₂(a₀(x1)))	→	b₀(c₁(b₂(a₁(b₂(a₀(x1))))))	(32)
b₂(a₂(a₁(x1)))	→	b₀(c₁(b₂(a₁(b₂(a₁(x1))))))	(33)
a₁(b₂(a₁(b₂(x1))))	→	a₁(b₂(x1))	(34)
a₁(b₂(a₁(b₀(x1))))	→	a₁(b₀(x1))	(35)
a₁(b₂(a₁(b₁(x1))))	→	a₁(b₁(x1))	(36)
c₁(b₂(a₁(b₂(x1))))	→	c₁(b₂(x1))	(37)
c₁(b₂(a₁(b₀(x1))))	→	c₁(b₀(x1))	(38)
c₁(b₂(a₁(b₁(x1))))	→	c₁(b₁(x1))	(39)
b₁(b₂(a₁(b₂(x1))))	→	b₁(b₂(x1))	(40)
b₁(b₂(a₁(b₀(x1))))	→	b₁(b₀(x1))	(41)
b₁(b₂(a₁(b₁(x1))))	→	b₁(b₁(x1))	(42)
a₀(c₀(c₂(x1)))	→	a₂(a₁(b₀(c₁(b₂(a₂(x1))))))	(43)
a₀(c₀(c₀(x1)))	→	a₂(a₁(b₀(c₁(b₂(a₀(x1))))))	(44)
a₀(c₀(c₁(x1)))	→	a₂(a₁(b₀(c₁(b₂(a₁(x1))))))	(45)
c₀(c₀(c₂(x1)))	→	c₂(a₁(b₀(c₁(b₂(a₂(x1))))))	(46)
c₀(c₀(c₀(x1)))	→	c₂(a₁(b₀(c₁(b₂(a₀(x1))))))	(47)
c₀(c₀(c₁(x1)))	→	c₂(a₁(b₀(c₁(b₂(a₁(x1))))))	(48)
b₀(c₀(c₂(x1)))	→	b₂(a₁(b₀(c₁(b₂(a₂(x1))))))	(49)
b₀(c₀(c₀(x1)))	→	b₂(a₁(b₀(c₁(b₂(a₀(x1))))))	(50)
b₀(c₀(c₁(x1)))	→	b₂(a₁(b₀(c₁(b₂(a₁(x1))))))	(51)
a₂(a₂(a₂(a₂(x1))))	→	a₀(c₀(c₂(a₂(x1))))	(52)
a₂(a₂(a₂(a₀(x1))))	→	a₀(c₀(c₂(a₀(x1))))	(53)
a₂(a₂(a₂(a₁(x1))))	→	a₀(c₀(c₂(a₁(x1))))	(54)
c₂(a₂(a₂(a₂(x1))))	→	c₀(c₀(c₂(a₂(x1))))	(55)
c₂(a₂(a₂(a₀(x1))))	→	c₀(c₀(c₂(a₀(x1))))	(56)
c₂(a₂(a₂(a₁(x1))))	→	c₀(c₀(c₂(a₁(x1))))	(57)
b₂(a₂(a₂(a₂(x1))))	→	b₀(c₀(c₂(a₂(x1))))	(58)
b₂(a₂(a₂(a₀(x1))))	→	b₀(c₀(c₂(a₀(x1))))	(59)
b₂(a₂(a₂(a₁(x1))))	→	b₀(c₀(c₂(a₁(x1))))	(60)
a₂(a₀(c₂(a₂(x1))))	→	a₀(c₀(c₂(a₂(x1))))	(61)
a₂(a₀(c₂(a₀(x1))))	→	a₀(c₀(c₂(a₀(x1))))	(62)
a₂(a₀(c₂(a₁(x1))))	→	a₀(c₀(c₂(a₁(x1))))	(63)
c₂(a₀(c₂(a₂(x1))))	→	c₀(c₀(c₂(a₂(x1))))	(64)
c₂(a₀(c₂(a₀(x1))))	→	c₀(c₀(c₂(a₀(x1))))	(65)
c₂(a₀(c₂(a₁(x1))))	→	c₀(c₀(c₂(a₁(x1))))	(66)
b₂(a₀(c₂(a₂(x1))))	→	b₀(c₀(c₂(a₂(x1))))	(67)
b₂(a₀(c₂(a₀(x1))))	→	b₀(c₀(c₂(a₀(x1))))	(68)
b₂(a₀(c₂(a₁(x1))))	→	b₀(c₀(c₂(a₁(x1))))	(69)
a₀(c₂(a₀(c₂(x1))))	→	a₂(a₂(a₀(c₂(x1))))	(70)
a₀(c₂(a₀(c₀(x1))))	→	a₂(a₂(a₀(c₀(x1))))	(71)
a₀(c₂(a₀(c₁(x1))))	→	a₂(a₂(a₀(c₁(x1))))	(72)
c₀(c₂(a₀(c₂(x1))))	→	c₂(a₂(a₀(c₂(x1))))	(73)
c₀(c₂(a₀(c₀(x1))))	→	c₂(a₂(a₀(c₀(x1))))	(74)
c₀(c₂(a₀(c₁(x1))))	→	c₂(a₂(a₀(c₁(x1))))	(75)
b₀(c₂(a₀(c₂(x1))))	→	b₂(a₂(a₀(c₂(x1))))	(76)
b₀(c₂(a₀(c₀(x1))))	→	b₂(a₂(a₀(c₀(x1))))	(77)
b₀(c₂(a₀(c₁(x1))))	→	b₂(a₂(a₀(c₁(x1))))	(78)

1.1.1.1 Rule Removal

Using the matrix interpretations of dimension 1 with strict dimension 1 over the rationals with delta = 1

[c₀(x₁)]

x₁ +

[c₁(x₁)]

x₁ +

[c₂(x₁)]

x₁ +

[b₀(x₁)]

x₁ +

[b₁(x₁)]

x₁ +

[b₂(x₁)]

x₁ +

[a₀(x₁)]

x₁ +

[a₁(x₁)]

x₁ +

[a₂(x₁)]

x₁ +

all of the following rules can be deleted.

a₂(a₂(a₂(x1)))	→	a₀(c₁(b₂(a₁(b₂(a₂(x1))))))	(25)
a₂(a₂(a₀(x1)))	→	a₀(c₁(b₂(a₁(b₂(a₀(x1))))))	(26)
a₂(a₂(a₁(x1)))	→	a₀(c₁(b₂(a₁(b₂(a₁(x1))))))	(27)
c₂(a₂(a₂(x1)))	→	c₀(c₁(b₂(a₁(b₂(a₂(x1))))))	(28)
c₂(a₂(a₀(x1)))	→	c₀(c₁(b₂(a₁(b₂(a₀(x1))))))	(29)
c₂(a₂(a₁(x1)))	→	c₀(c₁(b₂(a₁(b₂(a₁(x1))))))	(30)
b₂(a₂(a₂(x1)))	→	b₀(c₁(b₂(a₁(b₂(a₂(x1))))))	(31)
b₂(a₂(a₀(x1)))	→	b₀(c₁(b₂(a₁(b₂(a₀(x1))))))	(32)
b₂(a₂(a₁(x1)))	→	b₀(c₁(b₂(a₁(b₂(a₁(x1))))))	(33)
a₁(b₂(a₁(b₂(x1))))	→	a₁(b₂(x1))	(34)
a₁(b₂(a₁(b₀(x1))))	→	a₁(b₀(x1))	(35)
a₁(b₂(a₁(b₁(x1))))	→	a₁(b₁(x1))	(36)
c₁(b₂(a₁(b₂(x1))))	→	c₁(b₂(x1))	(37)
c₁(b₂(a₁(b₀(x1))))	→	c₁(b₀(x1))	(38)
c₁(b₂(a₁(b₁(x1))))	→	c₁(b₁(x1))	(39)
b₁(b₂(a₁(b₂(x1))))	→	b₁(b₂(x1))	(40)
b₁(b₂(a₁(b₀(x1))))	→	b₁(b₀(x1))	(41)
b₁(b₂(a₁(b₁(x1))))	→	b₁(b₁(x1))	(42)
a₀(c₀(c₂(x1)))	→	a₂(a₁(b₀(c₁(b₂(a₂(x1))))))	(43)
a₀(c₀(c₀(x1)))	→	a₂(a₁(b₀(c₁(b₂(a₀(x1))))))	(44)
a₀(c₀(c₁(x1)))	→	a₂(a₁(b₀(c₁(b₂(a₁(x1))))))	(45)
c₀(c₀(c₂(x1)))	→	c₂(a₁(b₀(c₁(b₂(a₂(x1))))))	(46)
c₀(c₀(c₀(x1)))	→	c₂(a₁(b₀(c₁(b₂(a₀(x1))))))	(47)
c₀(c₀(c₁(x1)))	→	c₂(a₁(b₀(c₁(b₂(a₁(x1))))))	(48)
b₀(c₀(c₂(x1)))	→	b₂(a₁(b₀(c₁(b₂(a₂(x1))))))	(49)
b₀(c₀(c₀(x1)))	→	b₂(a₁(b₀(c₁(b₂(a₀(x1))))))	(50)
b₀(c₀(c₁(x1)))	→	b₂(a₁(b₀(c₁(b₂(a₁(x1))))))	(51)

1.1.1.1.1 R is empty

There are no rules in the TRS. Hence, it is terminating.

1.2 Closure Under Flat Contexts

Using the flat contexts

{c(☐), a(☐)}

We obtain the transformed TRS

c(a(a(a(x1))))	→	c(c(c(a(x1))))	(16)
c(a(c(a(x1))))	→	c(c(c(a(x1))))	(17)
c(c(a(c(x1))))	→	c(a(a(c(x1))))	(18)
a(a(a(a(x1))))	→	a(c(c(a(x1))))	(22)
a(a(c(a(x1))))	→	a(c(c(a(x1))))	(23)
a(c(a(c(x1))))	→	a(a(a(c(x1))))	(24)

1.2.1 Closure Under Flat Contexts

Using the flat contexts

{c(☐), a(☐)}

We obtain the transformed TRS

c(c(a(a(a(x1)))))	→	c(c(c(c(a(x1)))))	(79)
c(c(a(c(a(x1)))))	→	c(c(c(c(a(x1)))))	(80)
c(c(c(a(c(x1)))))	→	c(c(a(a(c(x1)))))	(81)
c(a(a(a(a(x1)))))	→	c(a(c(c(a(x1)))))	(82)
c(a(a(c(a(x1)))))	→	c(a(c(c(a(x1)))))	(83)
c(a(c(a(c(x1)))))	→	c(a(a(a(c(x1)))))	(84)
a(c(a(a(a(x1)))))	→	a(c(c(c(a(x1)))))	(85)
a(c(a(c(a(x1)))))	→	a(c(c(c(a(x1)))))	(86)
a(c(c(a(c(x1)))))	→	a(c(a(a(c(x1)))))	(87)
a(a(a(a(a(x1)))))	→	a(a(c(c(a(x1)))))	(88)
a(a(a(c(a(x1)))))	→	a(a(c(c(a(x1)))))	(89)
a(a(c(a(c(x1)))))	→	a(a(a(a(c(x1)))))	(90)

1.2.1.1 Semantic Labeling

The following interpretations form a model of the rules.

As carrier we take the set {0,...,3}. Symbols are labeled by the interpretation of their arguments using the interpretations (modulo 4):

[c(x₁)]	=	2x₁ + 0
[a(x₁)]	=	2x₁ + 1

We obtain the labeled TRS

a₃(a₃(a₃(a₃(a₃(x1)))))	→	a₁(a₀(c₂(c₃(a₃(x1)))))	(91)
a₃(a₃(a₃(a₃(a₁(x1)))))	→	a₁(a₀(c₂(c₃(a₁(x1)))))	(92)
a₃(a₃(a₃(a₁(a₂(x1)))))	→	a₁(a₀(c₂(c₁(a₂(x1)))))	(93)
a₃(a₃(a₃(a₁(a₀(x1)))))	→	a₁(a₀(c₂(c₁(a₀(x1)))))	(94)
a₂(c₃(a₃(a₃(a₃(x1)))))	→	a₀(c₀(c₂(c₃(a₃(x1)))))	(95)
a₂(c₃(a₃(a₃(a₁(x1)))))	→	a₀(c₀(c₂(c₃(a₁(x1)))))	(96)
a₂(c₃(a₃(a₁(a₂(x1)))))	→	a₀(c₀(c₂(c₁(a₂(x1)))))	(97)
a₂(c₃(a₃(a₁(a₀(x1)))))	→	a₀(c₀(c₂(c₁(a₀(x1)))))	(98)
c₃(a₃(a₃(a₃(a₃(x1)))))	→	c₁(a₀(c₂(c₃(a₃(x1)))))	(99)
c₃(a₃(a₃(a₃(a₁(x1)))))	→	c₁(a₀(c₂(c₃(a₁(x1)))))	(100)
c₃(a₃(a₃(a₁(a₂(x1)))))	→	c₁(a₀(c₂(c₁(a₂(x1)))))	(101)
c₃(a₃(a₃(a₁(a₀(x1)))))	→	c₁(a₀(c₂(c₁(a₀(x1)))))	(102)
c₂(c₃(a₃(a₃(a₃(x1)))))	→	c₀(c₀(c₂(c₃(a₃(x1)))))	(103)
c₂(c₃(a₃(a₃(a₁(x1)))))	→	c₀(c₀(c₂(c₃(a₁(x1)))))	(104)
c₂(c₃(a₃(a₁(a₂(x1)))))	→	c₀(c₀(c₂(c₁(a₂(x1)))))	(105)
c₂(c₃(a₃(a₁(a₀(x1)))))	→	c₀(c₀(c₂(c₁(a₀(x1)))))	(106)
a₃(a₁(a₂(c₃(a₃(x1)))))	→	a₁(a₀(c₂(c₃(a₃(x1)))))	(107)
a₃(a₁(a₂(c₃(a₁(x1)))))	→	a₁(a₀(c₂(c₃(a₁(x1)))))	(108)
a₃(a₁(a₂(c₁(a₂(x1)))))	→	a₁(a₀(c₂(c₁(a₂(x1)))))	(109)
a₃(a₁(a₂(c₁(a₀(x1)))))	→	a₁(a₀(c₂(c₁(a₀(x1)))))	(110)
a₂(c₁(a₂(c₃(a₃(x1)))))	→	a₀(c₀(c₂(c₃(a₃(x1)))))	(111)
a₂(c₁(a₂(c₃(a₁(x1)))))	→	a₀(c₀(c₂(c₃(a₁(x1)))))	(112)
a₂(c₁(a₂(c₁(a₂(x1)))))	→	a₀(c₀(c₂(c₁(a₂(x1)))))	(113)
a₂(c₁(a₂(c₁(a₀(x1)))))	→	a₀(c₀(c₂(c₁(a₀(x1)))))	(114)
c₃(a₁(a₂(c₃(a₃(x1)))))	→	c₁(a₀(c₂(c₃(a₃(x1)))))	(115)
c₃(a₁(a₂(c₃(a₁(x1)))))	→	c₁(a₀(c₂(c₃(a₁(x1)))))	(116)
c₃(a₁(a₂(c₁(a₂(x1)))))	→	c₁(a₀(c₂(c₁(a₂(x1)))))	(117)
c₃(a₁(a₂(c₁(a₀(x1)))))	→	c₁(a₀(c₂(c₁(a₀(x1)))))	(118)
c₂(c₁(a₂(c₃(a₃(x1)))))	→	c₀(c₀(c₂(c₃(a₃(x1)))))	(119)
c₂(c₁(a₂(c₃(a₁(x1)))))	→	c₀(c₀(c₂(c₃(a₁(x1)))))	(120)
c₂(c₁(a₂(c₁(a₂(x1)))))	→	c₀(c₀(c₂(c₁(a₂(x1)))))	(121)
c₂(c₁(a₂(c₁(a₀(x1)))))	→	c₀(c₀(c₂(c₁(a₀(x1)))))	(122)
a₁(a₂(c₁(a₂(c₃(x1)))))	→	a₃(a₃(a₁(a₂(c₃(x1)))))	(123)
a₁(a₂(c₁(a₂(c₁(x1)))))	→	a₃(a₃(a₁(a₂(c₁(x1)))))	(124)
a₁(a₂(c₁(a₀(c₂(x1)))))	→	a₃(a₃(a₁(a₀(c₂(x1)))))	(125)
a₁(a₂(c₁(a₀(c₀(x1)))))	→	a₃(a₃(a₁(a₀(c₀(x1)))))	(126)
a₀(c₂(c₁(a₂(c₃(x1)))))	→	a₂(c₃(a₁(a₂(c₃(x1)))))	(127)
a₀(c₂(c₁(a₂(c₁(x1)))))	→	a₂(c₃(a₁(a₂(c₁(x1)))))	(128)
a₀(c₂(c₁(a₀(c₂(x1)))))	→	a₂(c₃(a₁(a₀(c₂(x1)))))	(129)
a₀(c₂(c₁(a₀(c₀(x1)))))	→	a₂(c₃(a₁(a₀(c₀(x1)))))	(130)
c₁(a₂(c₁(a₂(c₃(x1)))))	→	c₃(a₃(a₁(a₂(c₃(x1)))))	(131)
c₁(a₂(c₁(a₂(c₁(x1)))))	→	c₃(a₃(a₁(a₂(c₁(x1)))))	(132)
c₁(a₂(c₁(a₀(c₂(x1)))))	→	c₃(a₃(a₁(a₀(c₂(x1)))))	(133)
c₁(a₂(c₁(a₀(c₀(x1)))))	→	c₃(a₃(a₁(a₀(c₀(x1)))))	(134)
c₀(c₂(c₁(a₂(c₃(x1)))))	→	c₂(c₃(a₁(a₂(c₃(x1)))))	(135)
c₀(c₂(c₁(a₂(c₁(x1)))))	→	c₂(c₃(a₁(a₂(c₁(x1)))))	(136)
c₀(c₂(c₁(a₀(c₂(x1)))))	→	c₂(c₃(a₁(a₀(c₂(x1)))))	(137)
c₀(c₂(c₁(a₀(c₀(x1)))))	→	c₂(c₃(a₁(a₀(c₀(x1)))))	(138)

1.2.1.1.1 Rule Removal

Using the matrix interpretations of dimension 1 with strict dimension 1 over the rationals with delta = 1

[c₀(x₁)]

x₁ +

[c₂(x₁)]

x₁ +

[c₁(x₁)]

x₁ +

[c₃(x₁)]

x₁ +

[a₀(x₁)]

x₁ +

[a₂(x₁)]

x₁ +

[a₁(x₁)]

x₁ +

[a₃(x₁)]

x₁ +

all of the following rules can be deleted.

a₃(a₃(a₃(a₃(a₃(x1)))))	→	a₁(a₀(c₂(c₃(a₃(x1)))))	(91)
a₃(a₃(a₃(a₃(a₁(x1)))))	→	a₁(a₀(c₂(c₃(a₁(x1)))))	(92)
a₃(a₃(a₃(a₁(a₂(x1)))))	→	a₁(a₀(c₂(c₁(a₂(x1)))))	(93)
a₃(a₃(a₃(a₁(a₀(x1)))))	→	a₁(a₀(c₂(c₁(a₀(x1)))))	(94)
a₂(c₃(a₃(a₃(a₃(x1)))))	→	a₀(c₀(c₂(c₃(a₃(x1)))))	(95)
a₂(c₃(a₃(a₃(a₁(x1)))))	→	a₀(c₀(c₂(c₃(a₁(x1)))))	(96)
a₂(c₃(a₃(a₁(a₂(x1)))))	→	a₀(c₀(c₂(c₁(a₂(x1)))))	(97)
a₂(c₃(a₃(a₁(a₀(x1)))))	→	a₀(c₀(c₂(c₁(a₀(x1)))))	(98)
c₃(a₃(a₃(a₃(a₃(x1)))))	→	c₁(a₀(c₂(c₃(a₃(x1)))))	(99)
c₃(a₃(a₃(a₃(a₁(x1)))))	→	c₁(a₀(c₂(c₃(a₁(x1)))))	(100)
c₂(c₃(a₃(a₃(a₃(x1)))))	→	c₀(c₀(c₂(c₃(a₃(x1)))))	(103)
c₂(c₃(a₃(a₃(a₁(x1)))))	→	c₀(c₀(c₂(c₃(a₁(x1)))))	(104)
c₂(c₃(a₃(a₁(a₂(x1)))))	→	c₀(c₀(c₂(c₁(a₂(x1)))))	(105)
c₂(c₃(a₃(a₁(a₀(x1)))))	→	c₀(c₀(c₂(c₁(a₀(x1)))))	(106)
a₃(a₁(a₂(c₃(a₃(x1)))))	→	a₁(a₀(c₂(c₃(a₃(x1)))))	(107)
a₃(a₁(a₂(c₃(a₁(x1)))))	→	a₁(a₀(c₂(c₃(a₁(x1)))))	(108)
a₃(a₁(a₂(c₁(a₂(x1)))))	→	a₁(a₀(c₂(c₁(a₂(x1)))))	(109)
a₃(a₁(a₂(c₁(a₀(x1)))))	→	a₁(a₀(c₂(c₁(a₀(x1)))))	(110)
a₂(c₁(a₂(c₃(a₃(x1)))))	→	a₀(c₀(c₂(c₃(a₃(x1)))))	(111)
a₂(c₁(a₂(c₃(a₁(x1)))))	→	a₀(c₀(c₂(c₃(a₁(x1)))))	(112)
a₂(c₁(a₂(c₁(a₂(x1)))))	→	a₀(c₀(c₂(c₁(a₂(x1)))))	(113)
a₂(c₁(a₂(c₁(a₀(x1)))))	→	a₀(c₀(c₂(c₁(a₀(x1)))))	(114)
c₂(c₁(a₂(c₃(a₃(x1)))))	→	c₀(c₀(c₂(c₃(a₃(x1)))))	(119)
c₂(c₁(a₂(c₃(a₁(x1)))))	→	c₀(c₀(c₂(c₃(a₁(x1)))))	(120)
c₂(c₁(a₂(c₁(a₂(x1)))))	→	c₀(c₀(c₂(c₁(a₂(x1)))))	(121)
c₂(c₁(a₂(c₁(a₀(x1)))))	→	c₀(c₀(c₂(c₁(a₀(x1)))))	(122)
c₁(a₂(c₁(a₂(c₃(x1)))))	→	c₃(a₃(a₁(a₂(c₃(x1)))))	(131)
c₁(a₂(c₁(a₂(c₁(x1)))))	→	c₃(a₃(a₁(a₂(c₁(x1)))))	(132)
c₁(a₂(c₁(a₀(c₂(x1)))))	→	c₃(a₃(a₁(a₀(c₂(x1)))))	(133)
c₁(a₂(c₁(a₀(c₀(x1)))))	→	c₃(a₃(a₁(a₀(c₀(x1)))))	(134)
c₀(c₂(c₁(a₂(c₃(x1)))))	→	c₂(c₃(a₁(a₂(c₃(x1)))))	(135)
c₀(c₂(c₁(a₂(c₁(x1)))))	→	c₂(c₃(a₁(a₂(c₁(x1)))))	(136)
c₀(c₂(c₁(a₀(c₂(x1)))))	→	c₂(c₃(a₁(a₀(c₂(x1)))))	(137)
c₀(c₂(c₁(a₀(c₀(x1)))))	→	c₂(c₃(a₁(a₀(c₀(x1)))))	(138)

1.2.1.1.1.1 String Reversal

Since only unary symbols occur, one can reverse all terms and obtains the TRS

a₂(a₁(a₃(a₃(c₃(x1)))))	→	a₂(c₁(c₂(a₀(c₁(x1)))))	(139)
a₀(a₁(a₃(a₃(c₃(x1)))))	→	a₀(c₁(c₂(a₀(c₁(x1)))))	(140)
a₃(c₃(a₂(a₁(c₃(x1)))))	→	a₃(c₃(c₂(a₀(c₁(x1)))))	(141)
a₁(c₃(a₂(a₁(c₃(x1)))))	→	a₁(c₃(c₂(a₀(c₁(x1)))))	(142)
a₂(c₁(a₂(a₁(c₃(x1)))))	→	a₂(c₁(c₂(a₀(c₁(x1)))))	(143)
a₀(c₁(a₂(a₁(c₃(x1)))))	→	a₀(c₁(c₂(a₀(c₁(x1)))))	(144)
c₃(a₂(c₁(a₂(a₁(x1)))))	→	c₃(a₂(a₁(a₃(a₃(x1)))))	(145)
c₁(a₂(c₁(a₂(a₁(x1)))))	→	c₁(a₂(a₁(a₃(a₃(x1)))))	(146)
c₂(a₀(c₁(a₂(a₁(x1)))))	→	c₂(a₀(a₁(a₃(a₃(x1)))))	(147)
c₀(a₀(c₁(a₂(a₁(x1)))))	→	c₀(a₀(a₁(a₃(a₃(x1)))))	(148)
c₃(a₂(c₁(c₂(a₀(x1)))))	→	c₃(a₂(a₁(c₃(a₂(x1)))))	(149)
c₁(a₂(c₁(c₂(a₀(x1)))))	→	c₁(a₂(a₁(c₃(a₂(x1)))))	(150)
c₂(a₀(c₁(c₂(a₀(x1)))))	→	c₂(a₀(a₁(c₃(a₂(x1)))))	(151)
c₀(a₀(c₁(c₂(a₀(x1)))))	→	c₀(a₀(a₁(c₃(a₂(x1)))))	(152)

1.2.1.1.1.1.1 Rule Removal

Using the matrix interpretations of dimension 1 with strict dimension 1 over the naturals

[c₀(x₁)]

· x₁ +

[c₂(x₁)]

· x₁ +

[c₁(x₁)]

· x₁ +

[c₃(x₁)]

· x₁ +

[a₀(x₁)]

· x₁ +

[a₂(x₁)]

· x₁ +

[a₁(x₁)]

· x₁ +

[a₃(x₁)]

· x₁ +

all of the following rules can be deleted.

a₂(a₁(a₃(a₃(c₃(x1)))))	→	a₂(c₁(c₂(a₀(c₁(x1)))))	(139)
a₀(a₁(a₃(a₃(c₃(x1)))))	→	a₀(c₁(c₂(a₀(c₁(x1)))))	(140)
a₃(c₃(a₂(a₁(c₃(x1)))))	→	a₃(c₃(c₂(a₀(c₁(x1)))))	(141)
a₁(c₃(a₂(a₁(c₃(x1)))))	→	a₁(c₃(c₂(a₀(c₁(x1)))))	(142)
a₂(c₁(a₂(a₁(c₃(x1)))))	→	a₂(c₁(c₂(a₀(c₁(x1)))))	(143)
a₀(c₁(a₂(a₁(c₃(x1)))))	→	a₀(c₁(c₂(a₀(c₁(x1)))))	(144)
c₃(a₂(c₁(a₂(a₁(x1)))))	→	c₃(a₂(a₁(a₃(a₃(x1)))))	(145)
c₁(a₂(c₁(a₂(a₁(x1)))))	→	c₁(a₂(a₁(a₃(a₃(x1)))))	(146)
c₂(a₀(c₁(a₂(a₁(x1)))))	→	c₂(a₀(a₁(a₃(a₃(x1)))))	(147)
c₀(a₀(c₁(a₂(a₁(x1)))))	→	c₀(a₀(a₁(a₃(a₃(x1)))))	(148)
c₃(a₂(c₁(c₂(a₀(x1)))))	→	c₃(a₂(a₁(c₃(a₂(x1)))))	(149)
c₁(a₂(c₁(c₂(a₀(x1)))))	→	c₁(a₂(a₁(c₃(a₂(x1)))))	(150)
c₂(a₀(c₁(c₂(a₀(x1)))))	→	c₂(a₀(a₁(c₃(a₂(x1)))))	(151)
c₀(a₀(c₁(c₂(a₀(x1)))))	→	c₀(a₀(a₁(c₃(a₂(x1)))))	(152)

1.2.1.1.1.1.1.1 String Reversal

Since only unary symbols occur, one can reverse all terms and obtains the TRS

There are no rules.

1.2.1.1.1.1.1.1.1 R is empty

There are no rules in the TRS. Hence, it is terminating.