168 4. PROOF OF THE COMPACTNESS THEOREMHence we have the following local property which is a key step to Proposition
4.33.PROPOSITION 4.34 (Local maps converge to the identity in a sense). If
a and f3 are such that Bk n B~ I- 0 for k sufficiently large, then the maps
Ffd,/3 : Ef3 -----+ EJ!3 converge to the identity (inclusion) map id13 as k, £-----+ oo.Now we proceed to average the local maps to construct a map on a large
ball. To apply Proposition 4.53 on averaging maps, we need to construct
a partition of unity subordinate to the covering {Bk} a:SA(r) of B (Ok, r) as
follows. For a:::; A (r) let 'l/J°' be a smooth function which is 1 on E°' CE°'
and 0 outside of E°' (E°' = (Hf:)-^1 Bk). We construct a partition of unity
on B (Ok, r) by letting{· 'ljJ°'o(Hk)-^1 (x). a
a. I _ 1 If X E Bk,'Pk (x) =;:: ~1'.SA(r) 'I/JI o (Hk) (x)
O if x ~Bk,
where a :::; A (r). By Lemma 4.18(4) the denominator is no less than 1
and by Lemma 4.18(5) the number of terms in the denominator which are
well defined is bounded by I (n, Co), independent of k. To ensure that the
basepoint is preserved, we need the partition of unity function ( <P1k below)indexed by a I- 0 to vanish in a neighborhood of Ok, so we introduce a C^00
function x : E^0 -----+ IR such that x = 0 in a neighborhood of the origin and
x = 1 outside (Hg)-^1 .Bg (note that this set is a Euclidean ball independent
of k). Define Xk : Mk -----+ IR by Xk (x) 4:: x o (Hg)-^1 (x) if x E B2 and
Xk ( x) 4:: 1 otherwise. Then we take</>1k : Mk -----+ IR
if x E Bk,if x ~Bk,
while for a = 0,The collection of functions { ¢1k} a:SA(r) is a partition of unity subordinateto the covering {Bk} a:SA(r) of B (Ok, r).