Nancy Kopell, Ph.D

Total Page:16

File Type:pdf, Size:1020Kb

Nancy Kopell, Ph.D Nancy Kopell Nancy Kopell Professor, Mathematics & Statistics, Boston University Director, Cognitive Rhythms Collaborative Co-Director, CompNet Department of Mathematics 111 Cummington Street Boston, MA 02215 (617)353-5210 [email protected] Bio Publications Cognitive Rhythms Collaborative (CRC) CompNet Neural Dynamics Group (NaK) Bio Kopell received her B.A. from Cornell University in 1963 and her Ph.D. from Berkeley in 1967. She is currently William Fairfield Warren Distinguished Professor at Boston University, and co-director of the Center for Computational Neuroscience and Neural Technology (CompNet). She organized and directs the Cognitive Rhythms Collaborative (CRC), a group of over two dozen labs, mostly in the Boston Area, working on brain dyanmics and their cognitive implications. Kopell's Ph.D. training was in pure mathematics, but she transitioned to applied mathematics shortly after receiving her degree. In the first part of her career, she worked on pattern formation in chemical systems, oscillating systems and problems involving the geometry of systems with multiple time scales. For the last two decades, she has worked on mathematical problems in neuroscience. Her current interests parallel the themes of the CRC: how does the brain produce its dynamics (physiological mechanisms), how do brain rhythms take part in cognition (sensory processing, attention, memory, motor control), and how can pathologies of brain dynamics help to understand symptoms of neurological diseases (Parkinson's disease, schizophrenia, epilepsy) as well as alternate states of consciousness (anesthesia). She collaborates widely with experimentalists and clinicians. Kopell is a member of the National Academy of Sciences and the American Academy of Arts and Sciences. She was recently selected to be an honorary member of the London Mathematical Society, a distinction given to one or two mathematicians per year worldwide. She has been awarded Sloan Guggenheim, and McArthur Fellowships, and has an honory Ph.D. from the New Jersey Institute of Technology. She has given the Weldon Memorial Prize Lecture (Oxford), the von Neumann Lecture (SIAM) and the Josiah Willard Gibbs Lecture (AMS, as well as multiple other named lectureships. Boston University / Mathematics Department / People / Faculty Cognitive Rhythms Collaborative file:///C|/Users/Lisa/Desktop/IDDRC/Seminar%20Series/2014%20Speakers/12-2-2014%20Nancy%20Kopell/Nancy%20Kopell.htm[12/18/2014 12:16:23 PM] Nancy Kopell file:///C|/Users/Lisa/Desktop/IDDRC/Seminar%20Series/2014%20Speakers/12-2-2014%20Nancy%20Kopell/Nancy%20Kopell.htm[12/18/2014 12:16:23 PM].
Recommended publications
  • A Complete Bibliography of Publications in SIAM Journal on Mathematical Analysis, 1970–1999
    A Complete Bibliography of Publications in SIAM Journal on Mathematical Analysis, 1970{1999 Nelson H. F. Beebe University of Utah Department of Mathematics, 110 LCB 155 S 1400 E RM 233 Salt Lake City, UT 84112-0090 USA Tel: +1 801 581 5254 FAX: +1 801 581 4148 E-mail: [email protected], [email protected], [email protected] (Internet) WWW URL: http://www.math.utah.edu/~beebe/ 13 March 2018 Version 3.14 ∗ Title word cross-reference aK(at);a! 0 [Log79b]. B [Rei79]. BC1 [Ask82]. β [HT87]. BV (Ω) [AK99]. C1 [Coh89]. C3 [McC97]. Cα [YL94]. Cα(Ω) [XA91]. Cp [Rea86b]. C [Yao95]. C (T ) #11889 [Spe79]. 0 0 [Wu90]. C` [Mil94]. A [FM99]. D [Har80]. D O(2) [ML93]. Dr u(x; t)=D u(x; t) (−1; 1) [LS93]. (−∞; 1)[Pas74]. n x t 0 0 [Kem82a]. (m(t)x (t)) + A(t)x(t)=0[Ede79]. k ∗ 0 0 0 D U(X1; ···;Xr)=DX U(X1; ···;Xr) (p(x)u (x)) + g(x)u (x)+qu(x)=f [Whi79]. X1 k [Kem85]. DA [Har80]. δ [Lan83b]. ∆2u = λu (φ(y0)) = qf(t; y; y0); 0 <t<1[O'R93]. [Cof82]. ∆ u(x)+F (x)u(x)=0[CG71]. (r(t) (x)x0)0 + a(t)f(x) = 0 [MR79a]. p+2 ∆ + K2 = 0 [Kal75]. 0 <p(x) 2 L1[a; b] [Whi79]. 0 ≤ x ≤ l − ∆u + K(jxj)jujp 1u = 0 [Yan96]. [CL73]. 2 [AJV94, CW99]. 2m + 1 [Sho70]. − − ∆u + jujp 1u −|ujq 1u = 0 [Tro90]. E3 2π [FR91]. 2π/m [FR91]. 3 [KoM98].
    [Show full text]
  • Writing the History of Dynamical Systems and Chaos
    Historia Mathematica 29 (2002), 273–339 doi:10.1006/hmat.2002.2351 Writing the History of Dynamical Systems and Chaos: View metadata, citation and similar papersLongue at core.ac.uk Dur´ee and Revolution, Disciplines and Cultures1 brought to you by CORE provided by Elsevier - Publisher Connector David Aubin Max-Planck Institut fur¨ Wissenschaftsgeschichte, Berlin, Germany E-mail: [email protected] and Amy Dahan Dalmedico Centre national de la recherche scientifique and Centre Alexandre-Koyre,´ Paris, France E-mail: [email protected] Between the late 1960s and the beginning of the 1980s, the wide recognition that simple dynamical laws could give rise to complex behaviors was sometimes hailed as a true scientific revolution impacting several disciplines, for which a striking label was coined—“chaos.” Mathematicians quickly pointed out that the purported revolution was relying on the abstract theory of dynamical systems founded in the late 19th century by Henri Poincar´e who had already reached a similar conclusion. In this paper, we flesh out the historiographical tensions arising from these confrontations: longue-duree´ history and revolution; abstract mathematics and the use of mathematical techniques in various other domains. After reviewing the historiography of dynamical systems theory from Poincar´e to the 1960s, we highlight the pioneering work of a few individuals (Steve Smale, Edward Lorenz, David Ruelle). We then go on to discuss the nature of the chaos phenomenon, which, we argue, was a conceptual reconfiguration as
    [Show full text]
  • Prizes and Awards Session
    PRIZES AND AWARDS SESSION Wednesday, July 12, 2021 9:00 AM EDT 2021 SIAM Annual Meeting July 19 – 23, 2021 Held in Virtual Format 1 Table of Contents AWM-SIAM Sonia Kovalevsky Lecture ................................................................................................... 3 George B. Dantzig Prize ............................................................................................................................. 5 George Pólya Prize for Mathematical Exposition .................................................................................... 7 George Pólya Prize in Applied Combinatorics ......................................................................................... 8 I.E. Block Community Lecture .................................................................................................................. 9 John von Neumann Prize ......................................................................................................................... 11 Lagrange Prize in Continuous Optimization .......................................................................................... 13 Ralph E. Kleinman Prize .......................................................................................................................... 15 SIAM Prize for Distinguished Service to the Profession ....................................................................... 17 SIAM Student Paper Prizes ....................................................................................................................
    [Show full text]
  • Society Reports USNC/TAM
    Appendix J 2008 Society Reports USNC/TAM Table of Contents J.1 AAM: Ravi-Chandar.............................................................................................. 1 J.2 AIAA: Chen............................................................................................................. 2 J.3 AIChE: Higdon ....................................................................................................... 3 J.4 AMS: Kinderlehrer................................................................................................. 5 J.5 APS: Foss................................................................................................................. 5 J.6 ASA: Norris............................................................................................................. 6 J.7 ASCE: Iwan............................................................................................................. 7 J.8 ASME: Kyriakides.................................................................................................. 8 J.9 ASTM: Chona ......................................................................................................... 9 J.10 SEM: Shukla ....................................................................................................... 11 J.11 SES: Jasiuk.......................................................................................................... 13 J.12 SIAM: Healey...................................................................................................... 14 J.13 SNAME: Karr....................................................................................................
    [Show full text]
  • Fourth SIAM Conference on Applications of Dynamical Systems
    Utah State University DigitalCommons@USU All U.S. Government Documents (Utah Regional U.S. Government Documents (Utah Regional Depository) Depository) 5-1997 Fourth SIAM Conference on Applications of Dynamical Systems SIAM Activity Group on Dynamical Systems Follow this and additional works at: https://digitalcommons.usu.edu/govdocs Part of the Physical Sciences and Mathematics Commons Recommended Citation Final program and abstracts, May 18-22, 1997 This Other is brought to you for free and open access by the U.S. Government Documents (Utah Regional Depository) at DigitalCommons@USU. It has been accepted for inclusion in All U.S. Government Documents (Utah Regional Depository) by an authorized administrator of DigitalCommons@USU. For more information, please contact [email protected]. tI...~ Confers ~'t' '"' \ 1I~c9 ~ 1'-" ~ J' .. c "'. to APPLICAliONS cJ May 18-22, 1997 Snowbird Ski and Summer Resort • Snowbird, Utah Sponsored by SIAM Activity Group on Dynamical Systems Conference Themes The themes of the 1997 conference will include the following topics. Principal Themes: • Dynamics in undergraduate education • Experimental studies of nonlinear phenomena • Hamiltonian systems and transport • Mathematical biology • Noise in dynamical systems • Patterns and spatio-temporal chaos Applications in • Synchronization • Aerospace engineering • Biology • Condensed matter physics • Control • Fluids • Manufacturing • Me;h~~~~nograPhY 19970915 120 • Lasers and o~ • Quantum UldU) • 51a m.@ Society for Industrial and Applied Mathematics http://www.siam.org/meetingslds97/ds97home.htm 2 " DYNAMICAL SYSTEMS Conference Prl Contents A Message from the Conference Chairs ... Get-Togethers 2 Dear Colleagues: Welcoming Message 2 Welcome to Snowbird for the Fourth SIAM Conference on Applications of Dynamica Systems. Organizing Committee 2 This highly interdisciplinary meeting brings together a diverse group of mathematicians Audiovisual Notice 2 scientists, and engineers, all working on dynamical systems and their applications.
    [Show full text]
  • Table of Contents
    TABLE OF CONTENTS Chapter 1 Introduction . 2 Chapter 2 Organization and Establishment . 3 Chapter 3 Early Years . 5 Chapter 4 Operation, Expansion and Emergence . 8 Chapter 5 Meetings, Conferences and Workshops . 13 Chapter 6 SIAM’s Journals Fulfill a Mission . 15 Chapter 7 The Book Publishing Program . 19 Chapter 8 Commitment to Education . 22 Chapter 9 Recognizing Excellence . 25 Chapter 10 Leadership . 29 2 CHAPTER 1 INTRODUCTION One of the most significant factors affecting the increasing demand for mathematicians during the early 1950s was the development of the electronic digital computer. The ENIAC was developed in Philadelphia in 1946. Origins A Need Arises Mathematicians In the years during and especially One of the most significant eventually began following the Second World War, the factors affecting this increas- working with engi- nation experienced a surge in industri- ing demand for mathemati- neers and scientists al and military research and the devel- cians during the early 1950s more frequently, in opment of related technology, thus was the development of the a wider variety of creating a need for improved mathe- electronic digital computer. areas, including matical and computational methods. One of the first, the ENIAC, software develop- To illustrate, in 1938, there were about was completed in 1946. As An ad that appeared in the ment, trajectory 850 mathematicians and statisticians early as 1933, scientists, engi- SIAM NEWSLETTER May, 1956 simulations, com- employed by the federal government. neers and mathematicians at puter design, vibra- By 1954, however, that number nearly the Moore School of Electrical tion studies, structural and mechanical quadrupled to 3200.
    [Show full text]
  • Notices of the American Mathematical Society
    Society c :s ~ CALENDAR OF AMS MEETINGS THIS CALENDAR lists all meetings which have been approved by the Council prior to the date this issue of the Notices was sent to press. The summer and annual meetings are joint meetings of the Mathematical Association of America and the American Mathematical Society. The meeting dates which fall rather far in the future are subject to change; this is particularly true of meetings to which no numbers have yet been assigned. Programs of the meet­ ings will appear in the issues indicated below. First and second announcements of the meetings will have appeared in earlier issues. ABSTRACTS OF PAPERS presented at a meeting of the Society are published in the journal Abstracts of papers presented to the American Mathematical Society in the issue corresponding to that of the Notices which contains the program of the meeting. Abstracts should be submitted on special forms which are available in many depart­ ments of mathematics and from the office of the Society in Providence. Abstracts of papers to be presented at the meeting must be received at the headquarters of the Society in Providence, Rhode Island, on or before the deadline given below for the meeting. Note that the deadline for abstracts submitted for consideration for presentation at special sessions is usually three weeks earlier than that specified below. For additional information consult the meet· ing announcement and the Jist of organizers of special sessions. MEETING ABSTRACT NUMBER DATE PLACE DEADLINE ISSUE 779 August 18-22, 1980 Ann Arbor,
    [Show full text]
  • EMISSARY Spring/Fall 2006
    Spring/Fall 2006 Emissary Mathematical Sciences Research Institute www.msri.org Notes from the Director Modern Mathematics Workshops David Eisenbud Bob Megginson Raquel Storti Last year’s Modern Math Workshop participants Getting to Know You, Getting to Know All About You. Building on the success of its four previous Modern Mathematics Workshops, The major event of the fall at MSRI is, as always, the MSRI held the fifth offering of this popular event on October 25-26, 2006, this start of our two major scientific programs. This fall one time jointly sponsored by the Society for the Advancement of Chicanos and is on Computational Applications of Algebraic Topol- Native Americans in Science (SACNAS) and held at the SACNAS National ogy and the other is on Geometric Evolutions Equa- Conference in Tampa, Florida. This annual workshop gives the organizers tions—the background of the solution of the Poincaré of upcoming MSRI semester- and year-long programs and summer graduate Conjecture. A flood of new faces at the Institute, bright programs an opportunity to give expository talks to a general mathematical and eager postdocs, graduate students hard at work at audience on the topics of their programs, and to recruit participants. These the Introductory workshops... these wonders, though workshops are open to all (and if you have never attended one, keep your eyes ever new and different, are also marvelously the same. (continued on page 4) But this fall it was clear that MSRI was subtly changed. The new decks and garden, the airy bright common room, the expanded atrium, and above all the two ex- Contents pansive lecture spaces and the very open library, which seems, Klein-bottle-like, to have the outside world Director’sNotes 1 Hearst Library 9 within it—these things make a significant difference in ModernMathWorkshops 1 Mural, Baker Boardroom 10 the lives of the mathematicians who have the pleasure of ConnectionsForWomen 3 StrauchOutlook 12 spending thoughtful time at MSRI.
    [Show full text]
  • Download for Is Student Available Described, Are Stars” RISE Projects Research Where “Tomorrow’S Rising on Section a Includes Which Lication, Pub- Illustrated World
    IAInstitSute for Advanced Study Report for the Academic Year 2010–2011 t is fundamental in our purpose, and our express I. desire, that in the appointments to the staff and faculty as well as in the admission of workers and students, no account shall be taken, directly or indirectly, of race, religion, or sex. We feel strongly that the spirit characteristic of America at its noblest, above all the pursuit of higher learning, cannot admit of any conditions as to personnel other than those designed to promote the objects for which this institution is established, and particularly with no regard whatever to accidents of race, creed, or sex. Extract from the letter addressed by the Institute’s Founders, Louis Bamberger and Caroline Bamberger Fuld, to the first Board of Trustees, dated June 4, 1930 Newark, New Jersey Cover: Freeman Dyson, Professor Emeritus in the School of Natural Sciences, Bloomberg Hall Photo: Andrea Kane G12-11681_Text.qxp:Layout 1 2/9/12 5:13 PM Page 1 The Institute for Advanced Study exists to encourage and support fundamental research in the sciences and humanities—the original, often speculative, thinking that produces advances in knowledge that change the way we understand the world. G12-11681_Text.qxp:Layout 1 2/9/12 5:13 PM Page 2 THE SCHOOL OF HISTORICAL STUDIES, established in 1949 with the merging of the School of Economics and Politics and the School of Humanistic Studies, is concerned principally with the history of Western European, Near Eastern, and East Asian civilizations. The School actively promotes interdisciplinary research and cross-fertilization of ideas.
    [Show full text]
  • Math 490 Project Presentations April 23 (Friday) Bifurcation Diagrams Of
    Math 490 Project presentations April 23 (Friday) Bifurcation diagrams of equilibrium solutions of nonlinear-diffusion models Young He Lee, Lena Sherbakov and Jacky Taber April 26 (Monday) Animal aggregation and nonlinear diffusion models Michael Deal, Brian Van Hise and David Pluim April 28 (Wednesday) Numerical computations of reaction-diffusion systems Zayd Khoury, Chris Leonetti and Andrew Todd April 30 (Friday) Two-patch diffusive fishery harvesting model Victoria Dyer, Eileen Tschetter and David Weissenberger 1 Modeling of Biological Systems A Workshop at the National Science Foundation March 14 and 15, 1996 http://www.nsf.gov/bio/pubs/mobs/mobs.htm Panel Members: Chair Peter Kollman, University of California, San Francisco, Co-Chair Simon Levin, Princeton University, Alberto Apostolico, University of Padova, Marjorie Asmussen, University of Georgia Bruce L. Bush, Merck Research Labs, Carlos Castillo-Chavez, Cornell University, Robert Eisenberg, Rush Medical College, Bard Ermentrout, University of Pittsburgh, Christopher Fields, Santa Fe Institute, 2 John Guckenheimer, Cornell University, Alan Hastings, University of California, Davis Michael Hines, Yale University, Barry Honig, Columbia University, Lynn Jelinski, Cornell University, Nancy Kopell, Boston University, Don Ludwig, University of British Columbia, Terry Lybrand, University of Washington, George Oster, University of California, Berkeley, Alan Perelson, Los Alamos National labs Charles Peskin, Courant Institute of Mathematical Sciences, Greg Petsko, Brandeis University, John Rinzel, National Institutes of Health, Robert Silver, Marine Biological Laboratory, Sylvia Spengler, Lawrence Berkeley Labs, DeWitt Sumners, Florida State University, Carla Wofsy, University of New Mexico The common theme of this report is the tremendous potential of mathematical and computational approaches in leading to fun- damental insights and important practical benefits in research on biological systems.
    [Show full text]
  • 2016 Class of the Fellows of the AMS
    2016 Class of the Fellows of the AMS Fifty mathematical scientists from around the world have been named Fellows of the American Mathematical So- ciety (AMS) for 2016. The Fellows of the American Mathematical Society program recognizes members who have made outstanding contributions to the creation, exposition, advancement, communication, and utilization of mathematics. Among the goals of the program are to create an enlarged class of mathematicians recognized by their peers as distinguished for their contributions to the profession and to honor excellence. The 2016 class of Fellows was honored at a dessert reception held during the Joint Mathematics Meetings in Seattle, Washington. Names of the individuals who are in this year’s class, their institutions, and citations appear below. The nomination period for Fellows is open each year from February 1 to March 31. For additional information about the Fellows program, as well as instructions for making nominations, visit the web page www.ams.org/ profession/ams-fellows. Vyjayanthi Chari, University of California, Riverside For contributions to the theory of quantum groups and affine Lie algebras, and for service to the mathematical community. J. Brian Conrey, American Institute of Mathematics For contributions to research and exposition in number theory, and for service to the profession. Steven Dale Cutkosky, University of Missouri-Columbia For contributions to algebraic and analytic geometry and to com- mutative algebra, and for exposition. Mihalis Dafermos, Princeton University For contributions to general relativity and partial differential equations. AMS President Robert Bryant greeting Professor William A. Massey, Princeton University and Professor Lisette de Pillis, Harvey Mudd College Terrance Pendleton, Iowa State University.
    [Show full text]
  • Gesellschaft Für Angewandte Mathematik Und Mechanik
    GAMM_0207_21.09_Endf 22.09.2007 10:51 Uhr Seite 1 RUNDBRIEF GESELLSCHAFT FÜR ANGEWANDTE MATHEMATIK UND MECHANIK Aus dem Inhalt: HERAUSGEBER REINT DE BOER: IM AUFTRAG DES VORSTANDES DER GAMM E.V.: “LEONHARD EULER – WEGBEREITER PROF. DR.-ING. JÖRG SCHRÖDER DER MECHANIK” UNIVERSITÄT DUISBURG-ESSEN PROF. DR. CARSTEN CARSTENSEN WOLFGANG EHLERS: HUMBOLDT-UNIVERSITÄT ZU BERLIN “WAS WAR, WAS IST UND WAS SEIN KANN” HEIKE FASSBENDER: “NUMERISCHE LINEARE ALGEBRA” BERICHTE VON DER JAHRESTAGUNG 2/2007 DER GAMM IN ZÜRICH www.gamm-ev.de GAMM_0207_21.09_Endf 22.09.2007 10:51 Uhr Seite 2 Impressum Inhalt Herausgeber: Prof. Dr.-Ing. Jörg Schröder Universität Duisburg-Essen Prof. Dr. Carsten Carstensen Editorial 3 Humbold-Universität zu Berlin Vorstand der GAMM 5 Schriftleitung: Prof. Dr.-Ing. Jörg Schröder Universität Duisburg-Essen Institut für Mechanik Universitätsstraße 15 45117 Essen Tel.: ++49 (0)201 / 183-2708 Fax: ++49 (0)201 / 183-2708 Richard-von-Mises-Preis 30 E-Mail: [email protected] 2007 Wahlen zum 35 Anzeigenverwaltung: Dekomech-Vorstand Martina Gründer Aufruf des Vorsitzenden Sekretariat der GAMM Paul Steinmann zur GAMM-Geschäftsstelle Vorstandswahl 2008 c/o Prof. Dr.-Ing. V. Ulbricht Institut für Festkörpermechanik Leonhard Euler 6 Technische Universität Dresden Wegbereiter der Mechanik 01062 Dresden von Reint de Boer Tel.: ++49 (0)351 / 463 33448 E-Mail: [email protected] Gestaltung: Dr. Hein Werbeagentur GmbH, Köln Druck: Heribert Bauer Numerische Lineare Algebra. 36 BAUER Satz & Druck Heute notwendiger denn je! Am Gewerbering 8 von Heike Fassbender 84069 Schierling Tel.: ++49 (0)9451 / 943021 / 943020 Mitteilungen 40 Fax: ++49 (0)9451 / 1837 E-Mail: [email protected] Was war, was ist 14 Tagungen 42 und was sein kann von Wolfgang Ehlers Alle Rechte bei den Autoren.
    [Show full text]