Institution
University of California, Irvine
Education•Irvine, California, United States•
About: University of California, Irvine is a education organization based out in Irvine, California, United States. It is known for research contribution in the topics: Population & Galaxy. The organization has 47031 authors who have published 113602 publications receiving 5521832 citations. The organization is also known as: UC Irvine & UCI.
Topics: Population, Galaxy, Poison control, Cancer, Gene
Papers published on a yearly basis
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TL;DR: This paper discusses all group key agreement operations and presents a concrete protocol suite, CLIQUES, which offers complete key agreement services and is based on multiparty extensions of the well-known Diffie-Hellman key exchange method.
Abstract: As a result of the increased popularity of group-oriented applications and protocols, group communication occurs in many different settings: from network multicasting to application layer tele- and videoconferencing. Regardless of the application environment, security services are necessary to provide communication privacy and integrity. This paper considers the problem of key agreement in dynamic peer groups. (Key agreement, especially in a group setting, is the stepping stone for all other security services.) Dynamic peer groups require not only initial key agreement (IKA) but also auxiliary key agreement (AKA) operations, such as member addition, member deletion, and group fusion. We discuss all group key agreement operations and present a concrete protocol suite, CLIQUES, which offers complete key agreement services. CLIQUES is based on multiparty extensions of the well-known Diffie-Hellman key exchange method. The protocols are efficient and provably secure against passive adversaries.
636 citations
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TL;DR: A laparoscopically naïve yet experienced open surgeon successfully transferred open surgical skills to a Laparoscopic environment in 8 to 12 cases using a robotic interface, comparable to the reported experience of skilled laparoscopic surgeons after more than 100 LRPs.
635 citations
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TL;DR: An aging process is relfected in the auditory evoked potential which is not the simple inverse of maturational processes.
635 citations
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California Institute of Technology1, Old Dominion University2, Virginia Institute of Marine Science3, Stanford University4, Tokyo University of Information Sciences5, Centre national de la recherche scientifique6, Duke University7, Oregon State University8, University of Hawaii9, Max Planck Society10, University of New Hampshire11, Sao Paulo State University12, University of Connecticut13, Geophysical Fluid Dynamics Laboratory14, Goddard Space Flight Center15, Plymouth Marine Laboratory16, Nagasaki University17, University of East Anglia18, Lamont–Doherty Earth Observatory19, University of California, Irvine20, Monterey Bay Aquarium Research Institute21, University of Rome Tor Vergata22, National Oceanic and Atmospheric Administration23
TL;DR: The third primary production algorithm round robin (PPARR3) as discussed by the authors compares output from 24 models that estimate depth-integrated primary production from satellite measurements of ocean color, as well as seven general circulation models (GCMs) coupled with ecosystem or biogeochemical models.
Abstract: The third primary production algorithm round robin (PPARR3) compares output from 24 models that estimate depth-integrated primary production from satellite measurements of ocean color, as well as seven general circulation models (GCMs) coupled with ecosystem or biogeochemical models. Here we compare the global primary production fields corresponding to eight months of 1998 and 1999 as estimated from common input fields of photosynthetically-available radiation (PAR), sea-surface temperature (SST), mixed-layer depth, and chlorophyll concentration. We also quantify the sensitivity of the ocean-color-based models to perturbations in their input variables. The pair-wise correlation between ocean-color models was used to cluster them into groups or related output, which reflect the regions and environmental conditions under which they respond differently. The groups do not follow model complexity with regards to wavelength or depth dependence, though they are related to the manner in which temperature is used to parameterize photosynthesis. Global average PP varies by a factor of two between models. The models diverged the most for the Southern Ocean, SST under 10 degrees C, and chlorophyll concentration exceeding 1 mg Chlm(-3). Based on the conditions under which the model results diverge most, we conclude that current ocean-color-based models are challenged by high-nutrient low-chlorophyll conditions, and extreme temperatures or chlorophyll concentrations. The GCM-based models predict comparable primary production to those based on ocean color: they estimate higher values in the Southern Ocean, at low SST, and in the equatorial band, while they estimate lower values in eutrophic regions (probably because the area of high chlorophyll concentrations is smaller in the GCMs). Further progress in primary production modeling requires improved understanding of the effect of temperature on photosynthesis and better parameterization of the maximum photosynthetic rate. (c) 2006 Elsevier Ltd. All rights reserved.
635 citations
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University of Massachusetts Amherst1, University of Toledo2, Miami University3, Food and Drug Administration4, Yale University5, University of Louisville6, University of Western Ontario7, Taipei Medical University8, University of Rochester9, University of South Florida10, Eli Lilly and Company11, United States Department of Agriculture12, University of Düsseldorf13, Harvard University14, College of the Holy Cross15, University of Colorado Boulder16, Michigan State University17, Indiana University18, Jilin University19, University of Texas Health Science Center at San Antonio20, University of Louisiana at Monroe21, McMaster University22, RTI International23, University of Florida24, Kansas State University25, University of California, Irvine26, University of Michigan27, Aarhus University28, North Carolina State University29, Stanford University30, Lovelace Respiratory Research Institute31, University of Wyoming32, University of Tasmania33, Binghamton University34, New York Medical College35, National Institutes of Health36
TL;DR: This article offers a set of recommendations that scientists believe can achieve greater conceptual harmony in dose-response terminology, as well as better understanding and communication across the broad spectrum of biological disciplines.
635 citations
Authors
Showing all 47751 results
Name | H-index | Papers | Citations |
---|---|---|---|
Daniel Levy | 212 | 933 | 194778 |
Rob Knight | 201 | 1061 | 253207 |
Lewis C. Cantley | 196 | 748 | 169037 |
Dennis W. Dickson | 191 | 1243 | 148488 |
Terrie E. Moffitt | 182 | 594 | 150609 |
Joseph Biederman | 179 | 1012 | 117440 |
John R. Yates | 177 | 1036 | 129029 |
John A. Rogers | 177 | 1341 | 127390 |
Avshalom Caspi | 170 | 524 | 113583 |
Yang Gao | 168 | 2047 | 146301 |
Carl W. Cotman | 165 | 809 | 105323 |
John H. Seinfeld | 165 | 921 | 114911 |
Gregg C. Fonarow | 161 | 1676 | 126516 |
Jerome I. Rotter | 156 | 1071 | 116296 |
David Cella | 156 | 1258 | 106402 |