期刊名称:DISCRETE AND CONTINUOUS DYNAMICAL SYSTEMS-SERIES B
 期刊简介(About the journal)
投稿须知(Instructions to Authors)
编辑部信息(Editorial Board)
About the journal
DCDS-B is a journal of multidisciplinarity focusing on the interdisciplinary interactions between mathematical modeling, analysis and scientific computations. The mission of the Journal is to bridge mathematics and sciences by publishing research papers that augment the fundamental ways we interpret, model, and predict scientific phenomena. The Journal covers a broad range of areas including chemical, engineering, physical, and life sciences. A more detailed indication is given by the subject interests of the members of the Editorial Board. All submitted papers must be relevant to scientific applications in which mathematical analysis plays an essential role.
Instructions to Authors
Paper Qualifications
To be considered by the Journal, a paper should be in one (or a combination) of the three categories. (a): papers developing and (mathematically) analyzing scientific models; (b): papers devoted to mathematical theory and methods with a clear scientific motivation and the results must lead to an improved understanding of the underlying scientific problem; and (c): papers using numerical simulations and/or experiments, to reveal or explain some new scientific phenomena, where mathematical analysis plays a major role in the analysis and process.
To be acceptable by the Journal, a paper must contain a comprehensive introductory section. The scientific importance of the paper and its conclusions should be made clear. Furthermore, the paper must be presented in a way that the main results and methods, together with their applicability, can be comprehended by people from a wide range of scientific fields. Manuscripts applying standard techniques to slightly new problems or providing mathematical analysis in the absence of significant scientific motivation will not be considered. On the other hand, papers oriented toward experimentation or numerical simulation must not simply report results without a serious theoretical explanation.
Discrete and Continuous Dynamical Systems¨CSeries B (ISSN 1531¨C3492) will publish four issues in 2003, February, May, August and November.
All articles must meet the requirements stipulated below before submission.
Additional Information: PDF or PS
Backlog information of AIMS journals can be found at Notices of AMS, September (2002), p. 963, or at http://www.ams.org/notices/200208/noti-backlog-02.pdf
Instructions for Authors
Series B of Discrete and Continuous Dynamical Systems is a rapid publication of applied research that meets the conditions stated in Paper Qualifications (see Aims and Scope). The Journal especially welcomes papers that explain, by a mathematical construct, experimental observations which would otherwise not be understood. All contributions must be original research papers or invited surveys of expository nature, of very high quality.
Review Procedures All papers will undergo a thorough peer review unless the subject matter of the paper does not fit the Journal; in this case, it will be returned promptly to the author. Every effort will be made to secure a quick decision, and a rapid publication if accepted, of a paper.
Manuscripts should be in English and must meet common standards of usage and grammar. To submit a paper, send a file in PDF format or PS format (file size should be less than $2M$), Or three hard copies, to an associate editor who is familiar with the topic of the paper. Then send an e-mail message informing the Managing Editor of your action. If file size is larger than $2M$, first get the associate editor's permission to submit electronically. E-mail addresses should be included in all communications.
Submission of a manuscript is a representation that the work has not been previously published, has not been copyrighted, is not being submitted for publication elsewhere, and that its submission has been approved by all of the authors and by the institution where the work was carried out; furthermore, that any person cited as a source of personal communications has approved such citation, and that the authors have agreed that the copyright in the article shall be assigned exclusively to the Publisher upon acceptance of the article. The manuscript will not be returned.
Manuscripts should be typed on one side of 8.5 X 11 in (21.5 X 28 cm) white paper, double-spaced, with wide margins. Number each page. Page 1 should contain the title, authors names and complete affiliations. Place any footnotes to the title at the bottom of Page 1. Each paper requires an abstract not exceeding 200 words summarizing the techniques, methods and main conclusions. AMS subject classifications must accompany all articles, placed at the bottom of Page 1 before any other footnotes. Electronic mail addresses, if available, can be placed at the very end of the paper. Each paper requires a separate page containing a proposed running head (abbreviated form of the title) of no more than 40 characters, and the name and mailing address of the author to whom proofs should be sent.
Equations should be centered with the number placed in parentheses at the right margin.
Figures must be drafted in high resolution and high contrast on separate pieces of white paper, in a form suitable for photographic reproduction and reduction.
References should be listed alphabetically, typed and punctuated according to the following examples:
- [1]
- S.N. Chow and J.K. Hale, "Methods of Bifurcation Theory," Springer-Verlag, New York, 1982.
- [2]
- J. Serrin, Gradient estimates for solutions of nonlinear elliptic and parabolic equations, in "Contributions to Nonlinear Functional Analysis" (ed. E.H. Zarantonello), Academic Press (1971).
- [3]
- S. Smale, Stable manifolds for differential equations and diffeomorphisms, Ann. Scuola Norm. Sup. Pisa Cl. Sci. (4) 18 (1963), 97--116.
For journal abbreviations used in bibliographies, consult the list of serials in the latest Mathematical Reviews annual index.
Manuscripts typeset using AmSTeX (amsppt) or AmS-LaTeX (amsart) can move much more quickly through the production process, hence these two TeX forms are strongly recommended to authors for preparing their manuscripts.
Editorial Board
Managing Editor: Dr. Shouchuan Hu
Department of Mathematics
Southwest Missouri State University
Springfield, MO 65804, USA
Email: shh209f@smsu.edu
Phone: (417) 836-5377
Fax: (417) 886-0559
| Name |
E-mail | Field |
| Gregoire Allaire |
gregoire.allaire@polytechnique.fr
Homogenization, optimal design, two-phase flows |
| Linda Allen |
lallen@koch.math.ttu.edu
Mathematical biology and epidemiology, and their stochastic models. |
| Serge Aubry |
aubry@llb.saclay.cea.fr
Nonlinear dynamics in Hamiltonian discrete networks |
| Guillaume Bal |
gb2030@columbia.edu
Applied PDE, wave and particle propagation in heterogeneous media, inverse problems in medical imaging |
| H.T. Banks |
htbanks@math.ncsu.edu
Modeling of science problems, inverse problems, control theory |
| Jerry Bona |
bona@math.uic.edu
Fluid mechanics, waves, oceanography, coastal engineering |
| Leonid Bunimovich |
bunimovh@math.gatech.edu
Statistical mechanics, operations research, neuroscience |
| Roberto Camassa |
camassa@amath.unc.edu
Nonlinear waves, dynamical systems, applied mathematics |
| Zhi-ming Chen |
zmchen@lsec.cc.ac.cn
Computational mathematics |
| Hi Jun Choe |
choe@yonsei.ac.kr
Applied PDE |
| Bernard Dacorogna |
Bernard.Dacorogna@epfl.ch
Calculus of variations, applications to nonlinear elasticity |
| Michael Dellnitz |
dellnitz@uni-paderborn.de
Numerical treatment of dynamical systems |
| D. Yang Gao |
gao@gao.narnia.math.vt.edu
Nonlinear mechanics, nonconvex/nonsmooth dynamical systems |
| Antonio Giorgilli |
antonio@matapp.unimib.it
Dynamical systems, Hamiltonian systems, perturbation theory |
| Celso Grebogi |
grebogi@if.usp.br
Communicatin with chaos |
| Maoan Han |
mahan@mail.sjtu.edu.cn
Ode, dynamical systems, bifurcations. |
| Josef Hofbauer |
Josef.Hofbauer@univie.ac.at
Population dynamics, evolutionary game theory |
| Angel Jorba |
angel@maia.ub.es
Celestial mechanics, analysis and design of spacecraft missions |
| David Kinderlehrer |
davidk@andrew.cmu.edu
Nonlinear analysis and materials science |
| P.E. Kloeden |
kloeden@math.uni-frankfurt.de
Numerical, stochastic and nonautonomous dynamics |
| Yang Kuang |
kuang@asu.edu
Mathematical ecology, population dynamics, delay differential equations |
| Yoshiki Kuramoto |
kuramoto@ton.scphys.kyoto-u.ac.jp
Coupled limit-cycle oscillators |
| Urszula Ledzewicz |
uledzew@siue.edu
Optimal control, automatic control, modeling, and of biomedical systems. |
| Suzanne Lenhart |
lenhart@math.utk.edu
Biological and environmental models, optimal control of ODEs and PDEs |
| Yanping Lin |
ylin@math.ualberta.ca
Applied PDE numerical analysis and inverse problems |
| Philip Maini |
maini@maths.ox.ac.uk
Deterministic models for pattern formation in biology and medicine |
| Olli Martio |
Olli.Martio@Helsinki.Fi
Quasiconformal mappings, non-linear partial differential equations |
| Alexander Mikhailov |
Mikhailov@FHI-Berlin.mpg.de
Reaction-diffusion models of chemical systems |
| Hans Othmer |
othmer@math.umn.edu
Physiology, dvelopmental biology, pattern formation |
| Benoit Perthame |
Benoit.Perthame@ens.fr
Applied PDE and numerical analysis |
| Benedetto Piccoli |
b.piccoli@iac.rm.cnr.it
control theory & applications, hybperbolic systems, financial math |
| Mary Pugh |
mpugh@math.toronto.edu
applied analysis, mathematical fluid dynamics, mathematical biology |
| Jean-Michel Roquejoffre |
roque@mip.ups-tlse.fr
Combustion, reaction-diffusion systems, free boundary problems |
| Shigui Ruan |
ruan@math.miami.edu
Bifurcation theory, dynamical systems, mathematical biology |
| Bjorn Sandstede |
sandsted@math.ohio-state.edu
Nonlinear waves, optics, dynamical systems, excitable media |
| Jie Shen |
shen@math.purdue.edu
Numerical analysis, computational fluid dynamics |
| Hal Smith |
halsmith@asu.edu
Mathematical biology, differential equations, dynamical systems |
| Jaroslav Stark |
j.stark@ic.ac.uk
Applications of nonlinear dynamics to biology and to time series analysis |
| Sebastian van Strien |
strien@maths.warwick.ac.uk
Low dimensional dynamics |
| Roger Temam |
temam@indiana.edu
Solid mechanics, fluid mechanics and turbulence |
| Kok Lay Teo |
mateokl@polyu.edu.hk
Numerical optimal control, control of chaotic systems |
| Roberto Triggiani |
rt7u@virginia.edu
Control theory for partial differential equation |
| Ka-Kit Tung |
tung@amath.washington.edu
Atmospheric Dynamics, 2D and QG Turbulence |
| Shouhong Wang |
showang@indiana.edu
Fluid dynamics, geophysical fluid dynamics and dynamical dystems |
| Glenn Webb |
webbgf00@ctrvax.Vanderbilt.Edu
Mathematical biology, population dynamics, epidemic models |
| Zhimin Zhang |
zzhang@math.wayne.edu
Numerical PDEs, Computational Solid Mechanics |
Editor in Chief:
Shouchuan Hu shh209f@smsu.edu
Department of Mathematics
Southwest Missouri State University
Springfield, MO 65804, USA
Phone: (417) 836-5377
Fax: (417) 886-0559
|
