## Set-Valued Analysis"An elegantly written, introductory overview of the field, with a near perfect choice of what to include and what not, enlivened in places by historical tidbits and made eminently readable throughout by crisp language. It has succeeded in doing the near-impossible—it has made a subject which is generally inhospitable to nonspecialists because of its ‘family jargon’ appear nonintimidating even to a beginning graduate student." —The Journal of the Indian Institute of Science "The book under review gives a comprehensive treatment of basically everything in mathematics that can be named multivalued/set-valued analysis. It includes...results with many historical comments giving the reader a sound perspective to look at the subject...The book is highly recommended for mathematicians and graduate students who will find here a very comprehensive treatment of set-valued analysis." —Mathematical Reviews "I recommend this book as one to dig into with considerable pleasure when one already knows the subject...‘Set-Valued Analysis’ goes a long way toward providing a much needed basic resource on the subject." —Bulletin of the American Mathematical Society "This book provides a thorough introduction to multivalued or set-valued analysis...Examples in many branches of mathematics, given in the introduction, prevail [upon] the reader the indispensability [of dealing] with sequences of sets and set-valued maps...The style is lively and vigorous, the relevant historical comments and suggestive overviews increase the interest for this work...Graduate students and mathematicians of every persuasion will welcome this unparalleled guide to set-valued analysis." —Zentralblatt Math |

### From inside the book

Results 1-5 of 43

... we observe that Bx(K,r) = K + rBx The balls B(K,r) are

**neighborhoods**of K. When K is compact, each

**neighborhood**of K contains such a ball around K. Limits of sets have been introduced by Painleve3 in 1902, as it is reported by his ...

The upper limit is also equal to the subset of cluster points of "approximate" sequences satisfying: Ve>0, 3N(e) such that V n > N(e), xn € B(Kn,e) Remark — Replacing the balls of a metric space by

**neighborhoods**and the sequences of a ...

... for any

**neighborhood**U of K, 3 N such that V n > N, KncU Then Limsupn tooKn C K. Conversely, if X is compact, then the upper limit Limsup^^ifn enjoys the above property (and thus, is the smallest closed subset satisfying it.) ...

On the other hand, W:=WUV being a

**neighborhood**of M, we deduce from the assumption that there exists Ni such that Vn > JVi, Mn C WU V Therefore LnC\Mn <zU for all n > max(iVo, N\). □ Remark — If M is not compact, but just closed, ...

On the other hand, the compact set M" can be covered by n

**neighborhoods**N(yi) so that, by Theorem 1.1.4, there exists an integer No such that Vn>iV0, Mn C [J N(yi) i=l,...,n Set JV := maxj=o,...,n iVyi. Then, for all n > N and y € M„, ...

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