(1) QTRSRRRProof (EQUIVALENT transformation)

Used ordering:
Recursive path order with status [RPO].
Quasi-Precedence:

[₂, n₂] > U21₂ > U22₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U21₂ > isList₁ > U11₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U21₂ > isList₁ > isNeList₁ > activate₁ > e > n_e > [tt, isQid₁] > U72₁
[₂, n₂] > U21₂ > isList₁ > isNeList₁ > U31₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U41₂ > U42₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U41₂ > isNeList₁ > activate₁ > e > n_e > [tt, isQid₁] > U72₁
[₂, n₂] > U41₂ > isNeList₁ > U31₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U51₂ > isList₁ > U11₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U51₂ > isList₁ > isNeList₁ > activate₁ > e > n_e > [tt, isQid₁] > U72₁
[₂, n₂] > U51₂ > isList₁ > isNeList₁ > U31₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U51₂ > U52₁ > [tt, isQid₁] > U72₁
[₂, n₂] > U71₂ > isPal₁ > U81₁ > U72₁
[₂, n₂] > U71₂ > isPal₁ > isNePal₁ > activate₁ > e > n_e > [tt, isQid₁] > U72₁
[₂, n₂] > U71₂ > isPal₁ > isNePal₁ > U61₁ > [tt, isQid₁] > U72₁
[nil, n_nil] > [tt, isQid₁] > U72₁
[n_a, a] > [tt, isQid₁] > U72₁
[n_i, i] > [tt, isQid₁] > U72₁
[n_o, o] > [tt, isQid₁] > U72₁
[n_u, u] > [tt, isQid₁] > U72₁

Status:

i: multiset
_₂: [1,2]
n_u: multiset
U81₁: multiset
n_i: multiset
activate₁: [1]
n_nil: multiset
U21₂: multiset
U51₂: [1,2]
U71₂: [2,1]
n_a: multiset
tt: multiset
U52₁: multiset
U72₁: multiset
U11₁: multiset
nil: multiset
a: multiset
isList₁: multiset
U61₁: multiset
e: multiset
n_e: multiset
isNePal₁: multiset
n₂: [1,2]
o: multiset
isQid₁: [1]
isPal₁: multiset
U22₁: multiset
n_o: multiset
U31₁: multiset
U41₂: [1,2]
u: multiset
U42₁: multiset
isNeList₁: multiset

With this ordering the following rules can be removed by the rule removal processor [LPAR04] because they are oriented strictly:

__(__(X, Y), Z) → __(X, __(Y, Z))
__(X, nil) → X
__(nil, X) → X
U11(tt) → tt
U21(tt, V2) → U22(isList(activate(V2)))
U22(tt) → tt
U31(tt) → tt
U41(tt, V2) → U42(isNeList(activate(V2)))
U42(tt) → tt
U51(tt, V2) → U52(isList(activate(V2)))
U52(tt) → tt
U61(tt) → tt
U71(tt, P) → U72(isPal(activate(P)))
U72(tt) → tt
U81(tt) → tt
isList(V) → U11(isNeList(activate(V)))
isList(n__nil) → tt
isList(n____(V1, V2)) → U21(isList(activate(V1)), activate(V2))
isNeList(V) → U31(isQid(activate(V)))
isNeList(n____(V1, V2)) → U41(isList(activate(V1)), activate(V2))
isNeList(n____(V1, V2)) → U51(isNeList(activate(V1)), activate(V2))
isNePal(V) → U61(isQid(activate(V)))
isNePal(n____(I, __(P, I))) → U71(isQid(activate(I)), activate(P))
isPal(V) → U81(isNePal(activate(V)))
isPal(n__nil) → tt
isQid(n__a) → tt
isQid(n__e) → tt
isQid(n__i) → tt
isQid(n__o) → tt
isQid(n__u) → tt
e → n__e
activate(n__nil) → nil
activate(n____(X1, X2)) → __(X1, X2)
activate(n__a) → a
activate(n__e) → e
activate(n__i) → i
activate(n__o) → o
activate(n__u) → u
activate(X) → X

(3) QTRSRRRProof (EQUIVALENT transformation)

Used ordering:
Recursive path order with status [RPO].
Quasi-Precedence:

nil > n_nil
_₂ > n₂
a > n_a
i > n_i
o > n_o
u > n_u

Status:

i: multiset
a: multiset
_₂: multiset
n_u: multiset
n_i: multiset
n_nil: multiset
n₂: multiset
o: multiset
n_a: multiset
n_o: multiset
u: multiset
nil: multiset

With this ordering the following rules can be removed by the rule removal processor [LPAR04] because they are oriented strictly:

nil → n__nil
__(X1, X2) → n____(X1, X2)
a → n__a
i → n__i
o → n__o
u → n__u

(5) RisEmptyProof (EQUIVALENT transformation)

The TRS R is empty. Hence, termination is trivially proven.