Certification Problem

Input (COPS 950)

We consider the TRS containing the following rules:

0(0(1(0(x))))	→	0(2(0(0(3(1(x))))))	(1)
0(0(1(0(x))))	→	0(2(0(4(1(0(x))))))	(2)
0(0(1(0(x))))	→	2(0(0(0(2(1(x))))))	(3)
3(0(1(0(x))))	→	0(2(3(1(0(x)))))	(4)
3(0(1(0(x))))	→	3(1(0(0(2(x)))))	(5)
3(0(1(0(x))))	→	3(1(1(0(0(x)))))	(6)
3(0(1(0(x))))	→	3(1(2(0(0(x)))))	(7)
3(0(1(0(x))))	→	3(1(5(0(0(x)))))	(8)
3(0(1(0(x))))	→	3(5(1(0(0(x)))))	(9)
3(0(1(0(x))))	→	5(0(3(1(0(x)))))	(10)
3(0(1(0(x))))	→	2(0(2(3(1(0(x))))))	(11)
3(0(1(0(x))))	→	2(2(0(3(1(0(x))))))	(12)
3(0(1(0(x))))	→	3(1(5(0(0(0(x))))))	(13)
3(0(1(0(x))))	→	3(1(5(0(2(0(x))))))	(14)
3(0(1(0(x))))	→	3(1(5(1(0(0(x))))))	(15)
3(0(1(0(x))))	→	3(1(5(2(0(0(x))))))	(16)
3(0(1(0(x))))	→	3(1(5(5(0(0(x))))))	(17)
3(0(1(0(x))))	→	3(2(2(1(0(0(x))))))	(18)
3(0(1(0(x))))	→	3(5(1(0(0(2(x))))))	(19)
3(0(1(0(x))))	→	3(5(1(5(0(0(x))))))	(20)
3(0(1(0(x))))	→	5(1(1(3(0(0(x))))))	(21)
3(4(1(0(x))))	→	3(1(2(4(0(x)))))	(22)
3(4(1(0(x))))	→	3(1(4(0(2(x)))))	(23)
3(4(1(0(x))))	→	3(1(5(4(0(x)))))	(24)
3(4(1(0(x))))	→	3(4(2(1(0(x)))))	(25)
3(4(1(0(x))))	→	3(1(1(5(4(0(x))))))	(26)
3(4(1(0(x))))	→	3(1(2(1(4(0(x))))))	(27)
3(4(1(0(x))))	→	3(1(2(5(4(0(x))))))	(28)
3(4(1(0(x))))	→	3(1(4(2(0(2(x))))))	(29)
3(4(1(0(x))))	→	3(1(5(4(0(2(x))))))	(30)
3(4(1(0(x))))	→	3(1(5(5(4(0(x))))))	(31)
3(4(1(0(x))))	→	3(4(2(1(1(0(x))))))	(32)
3(4(1(0(x))))	→	3(4(5(1(2(0(x))))))	(33)
0(1(4(1(0(x)))))	→	0(1(1(4(0(2(x))))))	(34)
0(2(0(1(0(x)))))	→	0(2(0(0(3(1(x))))))	(35)
0(2(0(1(0(x)))))	→	2(0(0(0(3(1(x))))))	(36)
0(3(0(1(0(x)))))	→	0(0(3(1(3(0(x))))))	(37)
0(3(0(1(0(x)))))	→	0(0(3(3(1(0(x))))))	(38)
0(3(0(1(0(x)))))	→	0(0(3(5(1(0(x))))))	(39)
0(3(0(1(0(x)))))	→	2(0(0(3(1(0(x))))))	(40)
0(3(4(1(0(x)))))	→	0(2(0(4(3(1(x))))))	(41)
0(5(0(1(0(x)))))	→	0(0(0(1(5(2(x))))))	(42)
0(5(0(1(0(x)))))	→	0(0(1(5(1(0(x))))))	(43)
0(5(0(1(0(x)))))	→	0(2(0(0(1(5(x))))))	(44)
3(0(1(0(0(x)))))	→	3(1(3(0(0(0(x))))))	(45)
3(0(1(1(0(x)))))	→	3(1(0(1(2(0(x))))))	(46)
3(0(2(1(0(x)))))	→	2(0(3(1(1(0(x))))))	(47)
3(0(2(1(0(x)))))	→	2(3(1(5(0(0(x))))))	(48)
3(0(2(1(0(x)))))	→	3(1(2(0(1(0(x))))))	(49)
3(0(2(1(0(x)))))	→	3(1(2(0(5(0(x))))))	(50)
3(0(5(1(0(x)))))	→	3(1(5(2(0(0(x))))))	(51)
3(1(0(1(0(x)))))	→	2(0(3(1(1(0(x))))))	(52)
3(1(0(1(0(x)))))	→	3(1(1(1(0(0(x))))))	(53)
3(1(0(1(0(x)))))	→	3(1(2(1(0(0(x))))))	(54)
3(1(4(1(0(x)))))	→	3(1(2(1(4(0(x))))))	(55)
3(1(4(1(0(x)))))	→	3(1(5(1(4(0(x))))))	(56)
3(2(0(1(0(x)))))	→	0(2(3(1(5(0(x))))))	(57)
3(2(0(1(0(x)))))	→	2(0(3(1(1(0(x))))))	(58)
3(3(0(1(0(x)))))	→	3(1(2(0(3(0(x))))))	(59)
3(3(0(1(0(x)))))	→	3(1(2(3(0(0(x))))))	(60)
3(3(4(1(0(x)))))	→	3(1(2(4(3(0(x))))))	(61)
3(3(4(1(0(x)))))	→	3(1(3(4(0(2(x))))))	(62)
3(3(4(1(0(x)))))	→	3(1(4(3(1(0(x))))))	(63)
3(4(0(1(0(x)))))	→	0(2(4(1(3(0(x))))))	(64)
3(4(0(1(0(x)))))	→	3(1(4(0(0(2(x))))))	(65)
3(4(0(1(0(x)))))	→	3(2(0(4(1(0(x))))))	(66)
3(4(4(1(0(x)))))	→	3(1(1(4(4(0(x))))))	(67)

The underlying signature is as follows:

{0/1, 1/1, 2/1, 3/1, 4/1, 5/1}

Property / Task

Prove or disprove confluence.

Answer / Result

No.

Proof (by csi @ CoCo 2020)

1 Non-Joinable Fork

The system is not confluent due to the following forking derivations.

t₀	=	0(0(1(0(x))))
	→	0(2(0(0(3(1(x))))))
	=	t₁

t₀	=	0(0(1(0(x))))
	→	0(2(0(4(1(0(x))))))
	=	t₁

The two resulting terms cannot be joined for the following reason:

When applying the cap-function on both terms (where variables may be treated like constants) then the resulting terms do not unify.