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ORCIDComputing in Science and Engineering, Volume 9
Volume 9, Number 1, January-February 2007
- Norman Chonacky:
The Year that Was ... and Yet to Be. 3-5 - Pam Frost Gorder:
Grid Computing Yields Earthquake Forecast. 6-10 - Jim X. Chen, Tianyu Zhang:
Guest Editors' Introduction: Anatomic Rendering and Visualization. 11-12 - Tong-Yee Lee, Chung-Ren Yan, Ming-Te Chi
:
Stylized Rendering for Anatomic Visualization. 13-19 - Jinman Kim, Stefan Eberl, David Dagan Feng:
Visualizing Dual-Modality Rendered Volumes Using a Dual-Lookup Table Transfer Function. 20-25 - Tian-Yu Zhang, Pei-Dong Dai, Zheng-Min Wang, Keqiang Wang, Jim X. Chen, Le Xie:
A Contour Map of the Ear's Vestibular Apparatus Based on 3D Reconstruction. 26-31 - Qiang Wang, Zhigeng Pan, Chun Chen, Jianjun Bu:
Surface Rendering for Parallel Slices of Contours from Medical Imaging. 32-37 - Richard Sharp, Randall Ridgway, Kishore Mosaliganti, Pamela Wenzel, Tony Pan, Alain de Bruin, Raghu Machiraju, Kun Huang, Gustavo Leone, Joel H. Saltz:
Volume Rendering Phenotype Differences in Mouse Placenta Microscopy Data. 38-47 - David C. Banks, Kevin Beason:
Fast Global Illumination for Visualizing Isosurfaces with a 3D Illumination Grid. 48-54 - Dan Lubin, Robert Massom:
Remote Sensing of Earth's Polar Regions: Opportunities for Computational Science. 58-71 - Isabel Beichl, Dianne P. O'Leary, Francis Sullivan:
Monte Carlo Minimization and Counting: One, Two, ..., Too Many. 72-80 - Konstantin Läufer, George K. Thiruvathukal, Benjamin Gonzalez:
A Hike through a Post-EJB J2EE Web Application Architecture, Part III. 82-95 - Paul F. Dubois:
Djange Me. 96-97 - Martin Berzins, Bradley A. Shadwick, Denis Donnelly:
On the Role and Place of Computation in Science and Engineering. 98-103 - Charles Day:
The Death of Distance Has Been Exaggerated. 104
Volume 9, Number 2, March-April 2007
- Norman Chonacky:
The Neutrino Strikes Again. 2 - Pam Frost Gorder:
Multicore Processors for Science and Engineering. 3-7 - Daniel M. Tartakovsky, Dongbin Xiu:
Guest Editors' Introduction: Stochastic Modeling of Complex Systems. 8-9 - Leon M. Arriola, James Mac Hyman:
Being Sensitive to Uncertainty. 10-20 - Guang Lin, Xiaoliang Wan, Chau-Hsing Su, George E. Karniadakis:
Stochastic Computational Fluid Mechanics. 21-29 - Nicholas Zabaras, Sethuraman Sankaran:
An Information-Theoretic Approach to Stochastic Materials Modeling. 30-39 - Timothy R. Ginn, Frank J. Loge, Timothy D. Scheibe:
Explaining "Noise" as Environmental Variations in Population Dynamics. 40-49 - Zuo-Jun Max Shen:
Integrated Stochastic Supply-Chain Design Models. 50-59 - Uma S. Bhatt, Jing Zhang, Craig S. Lingle, Lisa M. Phillips, Wendell V. Tangborn:
Examining Glacier Mass Balances with a Hierarchical Modeling Approach. 60-67 - Paul F. Dubois:
The Future that Never Was. 68-69 - George K. Thiruvathukal:
Project Hosting: Expanding the Scientific Programmer's Toolbox. 70-75 - Hiroshi Akiba, Kwan-Liu Ma, Jacqueline H. Chen, Evatt R. Hawkes:
Visualizing Multivariate Volume Data from Turbulent Combustion Simulations. 76-83 - Ehsan Nedaaee Oskoee:
Computing Properties of Materials Based on the Ginzburg-Landau Equation. 84-95 - Dianne P. O'Leary:
Beetles, Cannibalism, and Chaos: Analyzing a Dynamical System Model. 96-103 - Charles Day:
Quantum Computing Is Exciting and Important--Really!. 104
Volume 9, Number 3, May-June 2007
- Norman Chonacky:
You're Recommending What?!. 2 - Michael Jay Schillaci:
Computationally Complete. 3-6 - Paul F. Dubois:
Guest Editor's Introduction: Python: Batteries Included. 7-9 - Travis E. Oliphant:
Python for Scientific Computing. 10-20 - Fernando Pérez, Brian E. Granger:
IPython: A System for Interactive Scientific Computing. 21-29 - Arnd Bäcker:
Computational Physics Education with Python. 30-33 - Christopher R. Myers, Ryan N. Gutenkunst, James P. Sethna:
Python Unleashed on Systems Biology. 34-37 - Perry Greenfield:
Reaching for the Stars with Python. 38-40 - Ryan W. Krauss, Wayne J. Book:
A Python Module for Modeling and Control Design of Flexible Robots. 41-45 - Peter Bienstman, Lieven Vanholme, Wim Bogaerts, Pieter Dumon, Peter Vandersteegen:
Python in Nanophotonics Research. 46-47 - Kent-André Mardal, Ola Skavhaug, Glenn Terje Lines, Gunnar Andreas Staff, Åsmund Ødegård:
Using Python to Solve Partial Differential Equations. 48-51 - K. Jarrod Millman, Matthew Brett:
Analysis of Functional Magnetic Resonance Imaging in Python. 52-55 - Xuan Shi:
Python for Internet GIS Applications. 56-59 - Arnd Bäcker:
Quantum Chaos in Billiards. 60-64 - L. Bruno Tremblay, Marika M. Holland, Irina V. Gorodetskaya, Gavin A. Schmidt:
An Ice-Free Arctic? Opportunities for Computational Science. 65-74 - Christopher R. Myers, James P. Sethna:
Python for Education: Computational Methods for Nonlinear Systems. 75-79 - Dianne P. O'Leary:
A Partial Solution to Last Issue's Homework Assignment: Beetles, Cannibalism, and Chaos--Analyzing a Dynamical System Model. 80-83 - Julian V. Noble:
Making the Complex Simple. 84-89 - John D. Hunter:
Matplotlib: A 2D Graphics Environment. 90-95 - Francis Sullivan:
Wrong Again!. 96
Volume 9, Number 4, July-August 2007
- Norman Chonacky:
The Past, Present, and Future. 2-3 - Letters to the Editor. 4-6
- Pam Frost Gorder:
Building Better Search Engines. 7-11 - Howard E. Epstein, Jed O. Kaplan, Heike Lischke, Qin Yu:
Simulating Future Changes in Arctic and Subarctic Vegetation. 12-23 - Mario Belloni, Wolfgang Christian, Douglas Brown:
Open Source Physics Curricular Material for Quantum Mechanics. 24-31 - Zhigeng Pan, Jianfeng Lu:
A Bayes-Based Region-Growing Algorithm for Medical Image Segmentation. 32-38 - Michael M. Fuller, Dali Wang, Louis J. Gross, Michael W. Berry:
Computational Science for Natural Resource Management. 40-48 - Trevor M. Cickovski, Kedar Aras, Maciej Swat, Roeland Merks, Tilmann Glimm, H. George E. Hentschel, Mark S. Alber, James A. Glazier, Stuart A. Newman, Jesús A. Izaguirre:
From Genes to Organisms Via the Cell: A Problem-Solving Environment for Multicellular Development. 50-60 - James L. Cornette:
Gauss-Vaníček and Fourier Transform Spectral Analyses of Marine Diversity. 61-63 - Sudarshan Raghunathan:
Parallel Computing Algorithms and Applications. 64-65 - Paul F. Dubois:
Customer Service Says the Darnedest Things. 66-67 - Viktor K. Decyk, Charles D. Norton, Henry J. Gardner:
Why Fortran?. 68-71 - William R. Dieter, Henry G. Dietz:
Designing a Cluster for Your Application. 72-79 - Krzysztof Kulakowski:
Some Recent Attempts to Simulate the Heider Balance Problem. 80-85 - Zhanping Liu, Robert J. Moorhead II:
Robust Loop Detection for Interactively Placing Evenly Spaced Streamlines. 86-91 - Rebecca Lippmann Kung, Cedric Linder:
Improving Students' Self-Assessment of Numerical Analysis Projects. 92-95 - Charles Day:
When Bits Bite. 96
Volume 9, Number 5, September-October 2007
- Norman Chonacky:
Musings on a Metaphysics of Modeling. 2-3 - Maik Flanagin, Aurélien Grenotton, Jay J. Ratcliff, Kevin Shaw, John Sample, Mahdi Abdelguerfi:
Hydraulic Splines: A Hybrid Approach to Modeling River Channel Geometries. 4-15 - Giovanni Danese, Francesco Leporati, Marco Bera, Mauro Giachero, Nelson Nazzicari, Alvaro Spelgatti:
An Accelerator for Physics Simulations. 16-25 - William Franklin:
Algorithmic Design of a Fuzzy-Neural Method. 26-31 - Ian J. Grimstead, David W. Walker, Nick J. Avis, Frederic Kleinermann, John McClure:
3D Anatomical Model Visualization within a Grid-Enabled Environment. 32-38 - Xiaosong Yang, Jian Chang, Jian J. Zhang:
Animating the Human Muscle Structure. 39-45 - Simon Kos, Marina Hruska, Scott A. Crooker, Avadh Saxena, Darryl L. Smith:
Modeling Spin-Polarized Electron Transport in Semiconductors for Spintronics Applications. 46-52 - Dirk Lummerzheim:
Modeling and Forecasting Aurora. 53-61 - Dimitri Kusnezov:
How Big Can You Think? Challenges at the Frontier. 62-67 - Paul F. Dubois:
Into the Future. 68-69 - Volodymyr V. Kindratenko, Craig P. Steffen, Robert J. Brunner:
Accelerating Scientific Applications with Reconfigurable Computing: Getting Started. 70-77 - Chenglie Hu:
Integrating Modern Research into Numerical Computation Education. 78-81 - Cláudio T. Silva, Juliana Freire, Steven P. Callahan:
Provenance for Visualizations: Reproducibility and Beyond. 82-89 - Kourosh Malek:
Transport in Protein Crystals, Part I: Insights from Molecular Simulations. 90-95 - Francis Sullivan:
Is This the Party to Whom I Am Speaking? 96
Volume 9, Number 6, November-December 2007
- Norman Chonacky:
The Web: For Sharing or Snaring? 3-4 - Pam Frost Gorder:
Physics Experiment Could Spawn Permanent Computing Grid. 5-9 - Douglass E. Post:
Guest Editor's Introduction: Computational Science and Engineering for the US Department of Defense. 10-11 - Steven E. Gorrell, Allan van de Wall, Fu-Lin Tsung:
Understanding Unsteady Flow Features in Transonic Compressors. 12-17 - Timothy P. Fleming, Peter J. Mardahl, Lester Bowers, Keith L. Cartwright, Matthew T. Bettencourt, Michael D. Haworth:
Virtual Prototyping of Novel Cathode Designs for the Relativistic Magnetron. 18-28 - Wieslaw Maslowski, Jaclyn Clement Kinney, Jaromir Jakacki:
Toward Prediction of Environmental Arctic Change. 29-34 - Larry P. Davis, Roy L. Campbell Jr., William A. Ward Jr., Cray J. Henry:
High-Performance Computing Acquisitions Based on the Factors that Matter. 35-44 - David E. Newman, Paul W. Terry, Andrew S. Ware:
Shear Flows and Turbulence in Nature. 45-52 - Paul F. Dubois:
Career Contradictions. 53-54 - Thomas C. Luu, Ron Soltz, Pavlos Vranas, Christopher M. Frenz, Francis Sullivan:
Petaflop Essay Contest. 55-59 - Eric Ayars:
A Versatile Text for the Introductory Computational Physics Course. 60-61 - Michael A. Gray:
Discrete Event Simulation: A Review of SimEvents. 62-66 - Michael Dennin, Steven F. Barrett:
Turning Over a New Leaf. 67-69 - Kourosh Malek:
Transport in Protein Crystals, Part II: Diffusion Simulation and Chiral Recognition. 70-75 - Joel E. Tohline:
Scientific Visualization: A Necessary Chore. 76-81 - Konrad Hinsen:
Parallel Scripting with Python. 82-89 - Mohankumar Nandagopal, Natarajan Arunajadai:
On the Evaluation of Finite Hilbert Transforms. 90-95 - Charles Day:
The Computation of Poetry. 96
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