Advances In Mathematical Economics Volume 7
by Vol 7 /
2005 / English / PDF
4.4 MB Download
A lot of economic problems can be formulated as constrained
optimizations and equilibration of their solutions. Various
mathematical theories have been supplying economists with
indispensable machineries for these problems arising in economic
theory. Conversely, mathematicians have been stimulated by various
mathematical difficulties raised by economic theories. The series
is designed to bring together those mathematicians who are
seriously interested in getting new challenging stimuli from
economic theories with those economists who are
seeking effective mathematical tools for their research. The
editorial board of this series comprises the following prominent
economists and mathematicians:
A lot of economic problems can be formulated as constrained
optimizations and equilibration of their solutions. Various
mathematical theories have been supplying economists with
indispensable machineries for these problems arising in economic
theory. Conversely, mathematicians have been stimulated by various
mathematical difficulties raised by economic theories. The series
is designed to bring together those mathematicians who are
seriously interested in getting new challenging stimuli from
economic theories with those economists who are
seeking effective mathematical tools for their research. The
editorial board of this series comprises the following prominent
economists and mathematicians:Managing Editors
Managing Editors: S. Kusuoka (Univ. Tokyo), T.
Maruyama (Keio Univ.).
: S. Kusuoka (Univ. Tokyo), T.
Maruyama (Keio Univ.).Editors
Editors: R. Anderson (U.C. Berkeley), C. Castaing
(Univ. Montpellier), F.H. Clarke (Univ. Lyon I), G. Debreu (U.C.
Berkeley), E. Dierker (Univ. Vienna), D. Duffie (Stanford Univ.),
L.C. Evans (U.C. Berkeley), T. Fujimoto (Okayama Univ.), J.-M.
Grandmont (CREST-CNRS), N. Hirano (Yokohama National Univ.), L.
Hurwicz (Univ. of Minnesota), T. Ichiishi (Ohio State Univ.), A.
Ioffe (Israel Institute of Technology), S. Iwamoto (Kyushu Univ.),
K. Kamiya (Univ. Tokyo), K. Kawamata (Keio Univ.), N. Kikuchi (Keio
Univ.), H. Matano (Univ. Tokyo), K. Nishimura (Kyoto Univ.), M.K.
Richter (Univ. Minnesota), Y. Takahashi (Kyoto Univ.), M. Valadier
(Univ. Montpellier II), A. Yamaguti (Kyoto Univ./Ryukoku Univ.), M.
Yano (Keio Univ.).
: R. Anderson (U.C. Berkeley), C. Castaing
(Univ. Montpellier), F.H. Clarke (Univ. Lyon I), G. Debreu (U.C.
Berkeley), E. Dierker (Univ. Vienna), D. Duffie (Stanford Univ.),
L.C. Evans (U.C. Berkeley), T. Fujimoto (Okayama Univ.), J.-M.
Grandmont (CREST-CNRS), N. Hirano (Yokohama National Univ.), L.
Hurwicz (Univ. of Minnesota), T. Ichiishi (Ohio State Univ.), A.
Ioffe (Israel Institute of Technology), S. Iwamoto (Kyushu Univ.),
K. Kamiya (Univ. Tokyo), K. Kawamata (Keio Univ.), N. Kikuchi (Keio
Univ.), H. Matano (Univ. Tokyo), K. Nishimura (Kyoto Univ.), M.K.
Richter (Univ. Minnesota), Y. Takahashi (Kyoto Univ.), M. Valadier
(Univ. Montpellier II), A. Yamaguti (Kyoto Univ./Ryukoku Univ.), M.
Yano (Keio Univ.).