1 Introduction

It is well known that geometric properties of Banach space have close relationship with abstract approximation problems.A typical example is that convexity in depicting the existence and uniqueness for the best approximation point in Banach spaces plays an important role;see[1–3,9,11–13]and references therein.In 1984,Megginson[7]proved that a Banach space X is midpoint locally uniformly rotund if and only if every closed ball in X is an approximatively compact Chebyshev set.It is a perfect conclusion about the relationship between approximatively compact Chebyshev sets and midpoint locally uniform rotundity in Banach spaces.In 1997,he[4]introduced midpoint locally k-uniformly rotund(MLk-UR,for short)Banach space,which is a generalization of midpoint locally uniform rotundity(MLUR,for short).Furthermore,in 2004,Xian and Li[10]introduced weak midpoint locally k-uniformly rotund(WMLk-UR,for short)Banach space,which is a generalization of weak midpoint locally uniform rotundity(WMLUR,for short).On the basis of the generalized concepts of MLUR,in this article we try to consider the relationship between MLk-UR(resp.WMLk-UR)and approximatively compact(resp.weakly compact)k-Chebyshev sets.It is obtained that a Banach space X is MLk-UR(resp.WMLk-UR)if and only if every closed ball in X is an approximatively compact(resp.weakly compact)k-Chebyshev set,which is the extension of the conclusion in[7].

We follow the standard notations in[11].For a real Banach space X,let X∗be its dual.Let S(X)and B(X)be the unit sphere and closed unit ball of X,respectively.For a subset C of X and x ∈ X,let PC(x):={y∈ C;‖x−y‖=dist(x,C)},where dist(x,C)=inf{‖x−y‖:y∈ C}.

A non-empty subset C of X is said to be approximatively(weakly)compact if for every x ∈ X and every sequencein C such that ‖x−xn‖ → dist(x,C)(such a sequence is called a minimizing sequence for x in C),thenhas a subsequence converging(weakly)to an element in C.

A set C is said to be proximinal if,for every x∈X,the set PC(x)is non-empty.The set C is said to be k-Chebyshev(resp.k-semi-Chebyshev)if dimPC(x)＜k and PC(x)/=Ø(resp.dimPC(x)＜k)for every x∈X,where dimPC(x)is denoted as the dimension of the linear subspace of X spanned by PC(x)−y for any y in PC(x).

A Banach space X is called k-strictly rotund if any k+1 elements x1,x2,···,xk+1of X,with

are linearly dependent.

A Banach space X is said to be MLUR(resp.WMLUR)if whenever x0is in S(X)andandare sequences in S(X)such that‖xn+yn−2x0‖→ 0,then ‖xn−yn‖→ 0(resp.xn−yn w−→0).

We then recall the concept of MLk-UR(resp.WMLk-UR).To this end,we need some preliminaries.LetDenote

Definition 1.1([4,10]) Let k≥1 be an integer.A Banach space X is said to be MLk-UR(resp.WMLk-UR),if whenever x is in X and,i=1,···,k+1 are sequences in X such that ‖x‖ =1, → 1,i=1,···,k+1,and→ 0,then

Inspired by[5,Theorem 2.10.7],we have the following Lemma 2.3.

2 The Main Results

To prove our main results,we need several lemmas.

Lemma 2.1 Let X be a WMLk-UR space.Then,X is k-strictly rotund.

Proof We prove this conclusion by contradiction.Suppose that X is not k-strictly rotund.Then,there exist x1,x2,···,xk+1 ∈ S(X)with ‖x1+x2+ ···+xk+1‖ =k+1 such that x1,x2,···,xk+1are linearly independent.We take f1,···,fk ∈ S(X∗)such that fi(xi+1)=ai ＞ 0,and fi(xj)=0,i=1,2,···,k,j=1,···,i.Therefore,we havea1 ···ak ＞ 0.Let x=(x1+x2+···+xk+1)/(k+1),=xi,i=1,···,k+1.Then,x ∈ S(X),andBecause X is WMLk-UR,→0,which leads to a contradiction.

Lemma 2.2([8]) Let X be a Banach space,be a bounded sequence in X,and∈be a positive real number.Ifhas no finite ∈-net,then for any positive integers n0,k,and any x ∈ X,there exist n1(n0),···,nk(n0)＞ n0such that dist(xn1(n0),span{x})＞ ∈/2 and

for i=1,2,···,k − 1.

Remark 1.2 Obviously,ML1-UR(resp.WML1-UR)space and MLUR(resp.WMLUR)space are equivalent.

Lemma 2.3 A Banach space X is k-strictly rotund if and only if every convex set in X is a k-semi-Chebyshev set.

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Proof Necessity.Let C⊂X be a convex set,and x∈XC.Without loss of generality,assume that PC(x)/= Ø.Let y1,y2,···,yk+1 ∈ PC(x).Then,

Because X is k-strictly rotund,x−y1,x−y2,···,x−yk+1are linearly dependent.Without loss of generality,assume thatwhere α1,···,αkare real numbers.Take f∈S(X∗)such that

Noting thatis relatively weakly compact if and only ifis relatively weakly compact,we need only to prove thatis relatively weakly compact.Ifis not relatively weakly compact,then,we proceed like that in the proof of Case 1,there exist∈＞0,such that

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Sufficiency.If X is not k-strictly rotund,then there exists a convex set C⊂S(X),dimC≥k.Noting that PC(0)=C,we have dimPC(0)≥k,which contradicts with the condition that dimPC(0)＜k.Thus,the proof is completed.

In the following,the main result is presented.

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Theorem 2.4 Let X be a Banach space.Then,the following statements are equivalent.

(1)X is WMLk-UR.

(2)The closed unit ball B(X)is an approximatively weakly compact k-Chebyshev set.

However,for any m∈N,we have

(3)Every closed ball B[x0,r]={x∈X:‖x−x0‖≤r}⊂X is an approximatively weakly compact k-Chebyshev set.

Proof (1)⇒(2).As X is WMLk-UR,X is k-strictly rotund by Lemma 2.1.Thus,B(X)is k-Chebyshev set by Lemma 2.3.Now,we will prove that B(X)is approximatively weakly compact.Assume that x is a point in XB(X),and{xn}∞n=1 ⊆ B(X)is a minimizing sequence for x.The immediate goal is to prove that{xn}∞n=1is weakly compact.

Noting that

we get

Let y=Now,we divide our remain proof in two cases.

Case 1 ‖x‖≤ 1+

Ifis not relatively weakly compact(of course,it is also not relatively compact),then there is a ∈＞ 0 such that{has no finite ∈-net.By Lemma 2.2,there exist sequences ofwith ni(m) → ∞ as m → ∞ (i=1,2,···,k),such that

Take fn1(m),···,fnk(m)∈ S(X∗)such that

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and

i=1,2,···,k − 1.Then,it yields that

Let

then,

Because

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and from the WMLk-UR of X,it follows that

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which leads to a contradiction.

Case 2 ‖x‖＞1+

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Set

Then,

and

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Obviously,f(x−yi)= ‖x−yi‖ =dist(x,C),i=1,···,k+1.Fromand dist(x,C)＞0,we haveConsequently,which shows that dimPM(x)＜k.

LetIt is obvious that≥ 1 for m large enough.As

we have

On one hand,because X is WMLk-UR,

On the other hand,

This shows that each sequenceis a minimizing sequence for(k+1)x.Then,there is a subsequence of,which converges to some xi ∈ PB(X)((k+1)x)weakly.Because B(X)is a k-Chebyshev set,x1,···,xk+1are linearly dependent.Without loss of generality,we assume that

Corollary 2.5 Let X be a Banach space.Then,the following statements are equivalent:

(2)⇒ (1).Assume that X is not WMLk-UR.Then,there exist x ∈ S(X)and{xni}∞n=1⊂S(X),i=1,2,···,k+1 such that

but

for some positive realnumber∈0and some

It is easy to see that dist(k+1)x,B(X)=k.For each i(1≤i≤k+1),

and

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where α1,α2,···,αkare constants.We will show thatIn fact,by the Separation Theorem,there exists f∈S(X∗)such that

Noting that xi∈ B[(k+1)x,k],we obtain 1 ≤ f(xi)≤ ‖xi‖ =1.Consequently,f(xi)=1,1≤i≤k+1.It follows that

Letting n→∞,we have

which contradicts with Inequality(2.1).

(2)⇔(3).It is obvious.

From Theorem 2.4,we obtain the following Corollary 2.5 immediately.

This is a contradiction.

(1)X is WMLUR;

作者简介：黄琳惠，女，汉族，福建南靖人，厦门市海沧区天心岛小学，教师，中小学一级教师，本科学历，研究方向：小学语文教育。

(2)The closed unit ball B(X)is an approximatively weakly compact Chebyshev set;

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(3)Every closed ball in X is an approximatively weakly compact Chebyshev set.

Similar to the proof of Theorem 2.4,we can obtain the following Theorem 2.6.

Theorem 2.6 Let X be a Banach space.Then,the following statements are equivalent:

(1)X is MLk-UR;

(2)The closed unit ball B(X)is an approximatively compact k-Chebyshev set;(3)Every closed ball in X is an approximatively compact k-Chebyshev set.

From Theorem 2.6,we obtain the following Corollary 2.7.

Corollary 2.7(Megginson) Suppose that X is a Banach space.Then,every closed ball in X is an approximatively compact Chebyshev set if and only if X is MLUR.

Remark 2.8 By Theorem 2.4(resp.Theorem 2.6),we know that WMLk-UR(resp.MLk-UR)implies WML(k+1)-UR(resp.ML(k+1)-UR).However,the following Example 2.9 shows that the converse is not true.

Example 2.9 For each k≥2,there exists a MLk-UR Banach space,which is not WML(k−1)-UR.

Proof Let k ≥ 2 be an integer and let i1 ＜ i2 ＜ ···＜ ik.For each x=(a1,a2,···)in l2,define

Lin and Yu[6]proved that(l2,‖ ·‖i1,···,ik)is k-UR.By[10],we know that(l2,‖ ·‖i1,···,ik)is MLk-UR.However,Lin and Yu[6]showed that it is not(k−1)-strictly rotund.By Lemma 2.1,(l2,‖ ·‖i1,···,ik)is not WML(k − 1)-UR. □

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