Proof of Nuprl Lemma : csm-cubical-id-is-equiv

Step * 1 1 of Lemma csm-cubical-id-is-equiv

.....assertion.....
1. G : CubicalSet{j}
2. K : CubicalSet{j}
3. tau : K j⟶ G
4. A : {G ⊢ _}
5. (cubical-id-fun(G))p = cubical-id-fun(G.A) ∈ {G.A ⊢ _:((A)p ⟶ (A)p)}
6. cubical-id-fun(G) ∈ {G ⊢ _:(A ⟶ A)}
7. G.A ⊢ Fiber((cubical-id-fun(G))p;q) = Σ (A)p (Path_((A)p)p (q)p q) ∈ {G.A ⊢ _}
8. (cubical-id-fun(G))p = cubical-id-fun(G.A) ∈ {G.A ⊢ _:((A)p ⟶ (A)p)}
9. ((λcontr-witness(G.A;id-fiber-center(G;A);id-fiber-contraction(G;A))))tau
= (λ(contr-witness(G.A;id-fiber-center(G;A);id-fiber-contraction(G;A)))tau+)
∈ {K ⊢ _:(ΠA Contractible(Fiber((cubical-id-fun(G))p;q)))tau}
10. (cubical-id-fun(K))p ∈ {K.(A)tau ⊢ _:(((A)tau)p ⟶ ((A)tau)p)}
⊢ {K ⊢ _:Π(A)tau Contractible(Fiber((cubical-id-fun(K))p;q))}
= {K ⊢ _:(ΠA Contractible(Fiber((cubical-id-fun(G))p;q)))tau}
∈ 𝕌{[i' | j']}
BY
{ (EqCDA THEN (RWO "csm-cubical-pi" 0 THENA Auto) THEN EqCDA) }

1
.....subterm..... T:t
3:n
1. G : CubicalSet{j}
2. K : CubicalSet{j}
3. tau : K j⟶ G
4. A : {G ⊢ _}
5. (cubical-id-fun(G))p = cubical-id-fun(G.A) ∈ {G.A ⊢ _:((A)p ⟶ (A)p)}
6. cubical-id-fun(G) ∈ {G ⊢ _:(A ⟶ A)}
7. G.A ⊢ Fiber((cubical-id-fun(G))p;q) = Σ (A)p (Path_((A)p)p (q)p q) ∈ {G.A ⊢ _}
8. (cubical-id-fun(G))p = cubical-id-fun(G.A) ∈ {G.A ⊢ _:((A)p ⟶ (A)p)}
9. ((λcontr-witness(G.A;id-fiber-center(G;A);id-fiber-contraction(G;A))))tau
= (λ(contr-witness(G.A;id-fiber-center(G;A);id-fiber-contraction(G;A)))tau+)
∈ {K ⊢ _:(ΠA Contractible(Fiber((cubical-id-fun(G))p;q)))tau}
10. (cubical-id-fun(K))p ∈ {K.(A)tau ⊢ _:(((A)tau)p ⟶ ((A)tau)p)}
⊢ K.(A)tau ⊢ Contractible(Fiber((cubical-id-fun(K))p;q))
= (Contractible(Fiber((cubical-id-fun(G))p;q)))(tau o p;q)
∈ cubical-type{[i' | j']:l}(K.(A)tau)

Latex:

Latex:
.....assertion..... 1. G : CubicalSet\{j\} 2. K : CubicalSet\{j\} 3. tau : K j{}\mrightarrow{} G 4. A : \{G \mvdash{} \_\} 5. (cubical-id-fun(G))p = cubical-id-fun(G.A) 6. cubical-id-fun(G) \mmember{} \{G \mvdash{} \_:(A {}\mrightarrow{} A)\} 7. G.A \mvdash{} Fiber((cubical-id-fun(G))p;q) = \mSigma{} (A)p (Path\_((A)p)p (q)p q) 8. (cubical-id-fun(G))p = cubical-id-fun(G.A) 9. ((\mlambda{}contr-witness(G.A;id-fiber-center(G;A);id-fiber-contraction(G;A))))tau = (\mlambda{}(contr-witness(G.A;id-fiber-center(G;A);id-fiber-contraction(G;A)))tau+) 10. (cubical-id-fun(K))p \mmember{} \{K.(A)tau \mvdash{} \_:(((A)tau)p {}\mrightarrow{} ((A)tau)p)\} \mvdash{} \{K \mvdash{} \_:\mPi{}(A)tau Contractible(Fiber((cubical-id-fun(K))p;q))\} = \{K \mvdash{} \_:(\mPi{}A Contractible(Fiber((cubical-id-fun(G))p;q)))tau\} By Latex: (EqCDA THEN (RWO "csm-cubical-pi" 0 THENA Auto) THEN EqCDA) Home Index