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- Benefits of e-Science for the Physiome ProjectPeter J. Hunter. 1 [doi]
- Grid Enabling Data De-DuplicationJim Austin, Aaron Turner, Sujeewa Alwis. 2 [doi]
- Emerging Technologies and Applications for e-ScienceEdward Seidel. 3 [doi]
- Grid Based Flood Prediction Virtual OrganizationLadislav Hluchý, Ondrej Habala, Martin Maliska, Branislav Simo, Viet D. Tran, Ján Astalos, Marian Babik. 4 [doi]
- Complex Dynamics in the Plankton: Computational Science Applied to the World s OceansJ. Huisman, Ben P. Sommeijer, N. N. Pham Thi. 5 [doi]
- National Grid Initiatives: Lessons Learned and RecommendationsWolfgang Gentzsch. 6 [doi]
- Dynamic Infrastructure for Systems Level ScienceCarl Kesselman. 7 [doi]
- e-Infrastructures for e-ScienceF. Gagliardi. 8 [doi]
- From Bioinformatics towards e-BioscienceLouis O. Hertzberger. 9 [doi]
- Designing Workflow Components for e-ScienceFrank Terpstra, Pieter W. Adriaans. 10 [doi]
- VLE-WFBus: A Scientific Workflow Bus for Multi e-Science DomainsZhiming Zhao, Suresh Booms, Adam Belloum, Cees T. A. M. de Laat, Bob Hertzberger. 11 [doi]
- Semantic Composition of Scientific Workflows Based on the Petri Nets FormalismTomasz Gubala, Daniel Harezlak, Marian Bubak, Maciej Malawski. 12 [doi]
- Using High-Level Petri Nets for Hierarchical Grid WorkflowsMartin Alt, Sergei Gorlatch, Andreas Hoheisel, Hans Werner Pohl. 13 [doi]
- Managing Large-Scale Workflow Execution from Resource Provisioning to Provenance Tracking: The CyberShake ExampleEwa Deelman, Scott Callaghan, Edward Field, Hunter Francoeur, Robert Graves, Nitin Gupta, Vipin Gupta, Thomas Jordan, Carl Kesselman, Philip Maechling, John Mehringer, Gaurang Mehta, David Okaya, Karan Vahi, Li Zhao. 14 [doi]
- K-WfGrid Distributed Monitoring and Performance Analysis Services for Workflows in the GridHong Linh Truong, Peter Brunner, Thomas Fahringer, Francesco Nerieri, Robert Samborski, Bartosz Balis, Marian Bubak, Kuba Rozkwitalski. 15 [doi]
- Grid Organizational Memory: A Versatile Solution for Ontology Management in the GridBartosz Kryza, Jan Pieczykolan, Jacek Kitowski. 16 [doi]
- Workflow-Driven Ontologies: An Earth Sciences Case StudyLeonardo Salayandia, Paulo Pinheiro da Silva, Ann Q. Gates, Flor Salcedo. 17 [doi]
- Kalipy: A Tool for Online Performance Analysis of Grid Workflows through Event CorrelationFrancesco Nerieri, Radu Prodan, Thomas Fahringer. 18 [doi]
- Interactive Workflows in a Virtual Laboratory for e-Bioscience: The SigWin-Detector Tool for Gene Expression AnalysisMárcia A. Inda, Adam Belloum, Marco Roos, Dmitry Vasunin, Cees T. A. M. de Laat, Louis O. Hertzberger, Timo M. Breit. 19 [doi]
- Adapting and Evaluating Commercial Workflow Engines for e-ScienceSharanya Eswaran, David Del Vecchio, Glenn S. Wasson, Marty Humphrey. 20 [doi]
- Communication over a Secured Heterogeneous Grid with the GriddLeS Runtime EnvironmentJagan Kommineni, David Abramson, Jefferson Tan. 21 [doi]
- Supporting Decentralized, Security Focused Dynamic Virtual Organizations across the GridRichard O. Sinnott, David W. Chadwick, Jos Koetsier, O. Otenko, J. P. Watt, Tuan-Anh Nguyen. 22 [doi]
- CROWN-ST: A Security and Trustworthiness Architecture for CROWNQin Li, Jianxin Li, Jinpeng Huai, Xingang Liu, Chunming Hu. 23 [doi]
- Domain Based Access Control Model for Distributed Collaborative ApplicationsYuri Demchenko, Cees de Laat, Leon Gommans, René van Buuren. 24 [doi]
- A European Legal Approach to Grid ComputingNikolaos Volanis, Jos Dumortier. 25 [doi]
- TOWER: Practical Trust Negotiation Framework for GridsJianxin Li, Jinpeng Huai, Jie Xu, Yanmin Zhu, Wei Xue. 26 [doi]
- Job Failure Analysis and Its Implications in a Large-Scale Production GridHui Li, David L. Groep, Lex Wolters, Jeffrey Templon. 27 [doi]
- Introducing Risk Management into the GridKarim Djemame, Iain Gourlay, James Padgett, Georg Birkenheuer, Matthias Hovestadt, Odej Kao, Kerstin Voß. 28 [doi]
- Authorizing Remote Job Execution Based on Job PropertiesSang-Min Park, Glenn S. Wasson, Marty Humphrey. 29 [doi]
- Grid-Based Data Stream Processing in e-ScienceRichard Kuntschke, Tobias Scholl, Sebastian Huber, Alfons Kemper, Angelika Reiser, Hans-Martin Adorf, Gerard Lemson, Wolfgang Voges. 30 [doi]
- Integrating Data Grid and Web Services for E-Science Applications: A Case Study of Exploring Species DistributionsJianting Zhang, Ilkay Altintas, Jing Tao, Xianhua Liu, Deana Pennington, William Michener. 31 [doi]
- Automating Climate Science: Large Ensemble Simulations on the TeraGrid with the GriPhyN Virtual Data SystemVeronika Nefedova, Robert L. Jacob, Ian T. Foster, Zhengyu Liu, Yun Liu, Ewa Deelman, Gaurang Mehta, Mei-Hui Su, Karan Vahi. 32 [doi]
- How Open is e-Science?Paul A. David, Matthijs den Besten, Ralph Schroeder. 33 [doi]
- Presenting Scientific Legacy Programs as Grid Services via Program SynthesisJürgen Hofer, Thomas Fahringer. 34 [doi]
- Achievements and Experiences from a Grid-Based Earthquake Analysis and Modelling StudyJian-Guo Liu, Moustafa Ghanem, Vasa Curcin, Christian Haselwimmer, Yike Guo, Gareth Morgan, Kyran Mish. 35 [doi]
- A Unified Model of Batch and Interactive Scientific Workflow and Its Implementation Using Windows WorkflowAsbjørn Rygg, Jiro Sumitomo, Paul Roe. 36 [doi]
- Knowledge Evolution Supporting Automatic Workflow CompositionRenata Slota, Joanna Zieba, Bartosz Kryza, Jacek Kitowski. 37 [doi]
- The Role of Workflow in Next Generation Business Oriented Grids: Two Different Approaches Leading to a Unified VisionStefano Beco, Barbara Cantalupo, Annalisa Terracina. 38 [doi]
- GRISINO: Combining Semantic Web Services, Intelligent Content Objects and Grid ComputingIoan Toma, Tobias Bürger, M. Omair Shafiq, Daniel Dögl, Wernher Behrendt, Dieter Fensel. 39 [doi]
- Using Lambda Networks to Enhance Performance of Interactive Large SimulationsMatt J. Harvey, Shantenu Jha, Mary-Ann Thyveetil, Peter V. Coveney. 40 [doi]
- A Synchronous Multimedia Annotation System for Secure CollaboratoriesRonald Schroeter, Jane Hunter, Jonathon Guerin, Imran Khan, Michael Henderson. 41 [doi]
- The Design and Implementation of the Transatlantic Mission-Oriented Production and Experimental NetworksHarvey B. Newman, Dimitri Bourilkov, Julian J. Bunn, Richard Cavanaugh, Iosif Legrand, Steven H. Low, Shawn McKee, Dan Nae, Sylvain Ravot, Conrad Steenberg, Xun Su, Michael Thomas, Frank van Lingen, Yang Xia. 42 [doi]
- User Programmable Virtualized NetworksRobert J. Meijer, Rudolf J. Strijkers, Leon Gommans, Cees T. A. M. de Laat. 43 [doi]
- A Distributed Information Services Architecture to Support Biomarker Discovery in Early Detection of CancerDaniel J. Crichton, Sean C. Kelly, Chris Mattmann, Qing Xiao, J. Steven Hughes, Jane Oh, Mark Thornquist, Donald Johnsey, Sudhir Srivastava, Laura Essermann, William Bigbee. 44 [doi]
- GridBeans: Support e-Science and Grid ApplicationsRalf Ratering, Alexander Lukichev, Morris Riedel, Daniel Mallmann, A. Vanni, Claudio Cacciari, S. Lanzarini, Krzysztof Benedyczak, M. Borcz, R. Kluszcynski, Piotr Bala, Gert Ohme. 45 [doi]
- Grid-Based System for Product Design OptimizationTomasz Haupt, Anupama Voruganti, Anand Kalyanasundaram, Igor Zhuk. 46 [doi]
- A Flexible Grid Framework for Automatic Protein-Ligand DockingDavid Abramson, Céline Amoreira, Kim Baldridge, Laura Berstis, Chris Kondric, Tom Peachey. 47 [doi]
- Grid Support for HLA-Based Collaborative Environment for Vascular ReconstructionKatarzyna Rycerz, Marian Bubak, Maciej Malawski, Peter M. A. Sloot. 48 [doi]
- A Fault Tolerant and Multi-Paradigm Grid Architecture for Time Constrained Problems. Application to Option Pricing in FinanceSebastien Bezzine, Virginie Galtier, Stéphane Vialle, Françoise Baude, Mireille Bossy, Viet Dung Doan, Ludovic Henrio. 49 [doi]
- Facilitating User Access to the Grid: A Lightweight Application Hosting Environment for Grid Enabled Computational ScienceStefan J. Zasada, R. S. Saksena, Peter V. Coveney, M. McKeown, Stephen Pickles. 50 [doi]
- Worqbench: An Integrated Framework for e-Science Application DevelopmentDonny Kurniawan, David Abramson. 51 [doi]
- A Unified Data Grid Replication FrameworkTim Ho, David Abramson. 52 [doi]
- Virtual Lab for fMRI: Bridging the Usability GapSílvia Delgado Olabarriaga, Piter T. de Boer, Ketan C. Maheshwari, Adam Belloum, Jeroen G. Snel, Aart J. Nederveen, Maurice Bouwhuis. 53 [doi]
- Towards User-Defined Performance Monitoring of Distributed Java ApplicationsWlodzimierz Funika, Piotr Godowski, Piotr Pegiel, Marian Bubak. 54 [doi]
- X-SIGMA: XML Based Simple Data Integration System for Gathering, Managing, and Accessing Scientific Experimental Data in Grid EnvironmentsDongkwang Kim, Karpjoo Jeong, Suntae Hwang, Kum Won Cho. 55 [doi]
- Distributing the Sloan Digital Sky Survey Using UDT and SectorYunhong Gu, Robert L. Grossman, Alexander S. Szalay, Ani Thakar. 56 [doi]
- Practical Fault-Tolerant Framework for eScience InfrastructureHyuck Han, Jai Wug Kim, Jongpil Lee, Youngjin Yu, Kiyoung Kim, Heon Young Yeom. 57 [doi]
- Grid Approach to Embarrassingly Parallel CPU-Intensive Bioinformatics ProblemsHeinz Stockinger, Marco Pagni, Lorenzo Cerutti, Laurent Falquet. 58 [doi]
- Information Delivery in Computational Mineral Science: The eMinerals Data Handling SystemToby O. H. White, Martin T. Dove, Richard P. Bruin, Kat F. Austen, Andrew M. Walker, Emilio Artacho, Arnaud Marmier, Steve C. Parker, Peter Murray-Rust, Andrew D. Walkingshaw, Philip A. Couch, Rik P. Tyer, Ilian T. Todorov, Dan J. Wilson. 59 [doi]
- Including SMP in Grids as Execution Platform and Other Extensions in GRID SuperscalarJosep M. Pérez, Rosa M. Badia, Jesús Labarta. 60 [doi]
- Satin++: Divide-and-Share on the GridGosia Wrzesinska, Jason Maassen, Kees Verstoep, Henri E. Bal. 61 [doi]
- GriCoL: A Language for Scientific GridsNatalia Currle-Linde, Panagiotis A. Adamidis, Michael M. Resch, Fabian Bös, Jürgen Pleiss. 62 [doi]
- A Discovery Service for Very Large, Dynamic GridsJaka Mocnik, Marko Novak, Gregor Pipan, Piotr Karwaczynski. 63 [doi]
- RCT: A Self-Adaptive Overlay for Efficient Computational Resource Discovery in Grid SystemsHailong Sun, Jinpeng Huai, Gongwei Fu, Yunhao Liu. 64 [doi]
- Towards a Framework for Monitoring and Analyzing QoS Metrics of Grid ServicesHong Linh Truong, Robert Samborski, Thomas Fahringer. 65 [doi]
- ServOSims: A Service Oriented Framework for Composing and Executing Multidisciplinary SimulationsEvangelos Floros, Yiannis Cotronis. 66 [doi]
- Building Simple, Easy-to-Use Grids with Styx Grid Services and SSHJ. D. Blower, K. Haines. 67 [doi]
- Facilitating Collaboration and Application Sharing with MAST and the Access Grid Development InfrastructuresGareth J. Lewis, S. Mehmood Hasan, Vassil N. Alexandrov, Martin T. Dove. 68 [doi]
- Monitoring the Earth System Grid with MDS4Ann L. Chervenak, Jennifer M. Schopf, Laura Pearlman, Mei-Hui Su, Shishir Bharathi, Luca Cinquini, Mike D Arcy, Neill Miller, David E. Bernholdt. 69 [doi]
- Characterization of Computational Grid Resources Using Low-Level BenchmarksGeorge Tsouloupas, Marios D. Dikaiakos. 70 [doi]
- Soft Benchmarks-Based Application Performance Prediction Using a Minimum Training SetFarrukh Nadeem, Muhammad Murtaza Yousaf, Radu Prodan, Thomas Fahringer. 71 [doi]
- An Adaptive Algorithm for Information Dissemination in Self-Organizing GridsDeger Cenk Erdil, Michael J. Lewis, Nael B. Abu-Ghazaleh. 72 [doi]
- Using Checkpointing to Enhance Turnaround Time on Institutional Desktop GridsPatrício Domingues, Artur Andrzejak, Luís Moura Silva. 73 [doi]
- Resource Management Using Untrusted Auctioneers in a Grid EconomyKris Bubendorfer, Wayne Thomson. 74 [doi]
- ShibGrid: Shibboleth Access for the UK National Grid ServiceDavid Spence, Neil Geddes, Jens Jensen, Andrew Richards, Matthew Viljoen, Andrew Martin, Matthew J. Dovey, Mark Norman, Kang Tang, Anne E. Trefethen, David Wallom, Rob Allan, David Meredith. 75 [doi]
- A DHT-Based Infrastructure for Sharing Checkpoints in Desktop Grid ComputingPatrício Domingues, Filipe Araujo, Luís Moura Silva. 76 [doi]
- GridBuilder: A Tool for Creating Virtual Grid TestbedsStephen Childs, Brian A. Coghlan, Jason McCandless. 77 [doi]
- On Resource Volatility in Enterprise Desktop GridsDerrick Kondo, Gilles Fedak, Franck Cappello, Andrew A. Chien, Henri Casanova. 78 [doi]
- Communication-Aware Job Placement Policies for the KOALA Grid SchedulerOmer Ozan Sonmez, Hashim H. Mohamed, Dick H. J. Epema. 79 [doi]
- Market-Based Resource Allocation in GridsBehnaz Pourebrahimi, Koen Bertels, G. M. Kandru, Stamatis Vassiliadis. 80 [doi]
- Fine Grained Resource Reservation in Open Grid EconomiesKris Bubendorfer. 81 [doi]
- Applying Advance Reservation to Increase Predictability of Workflow Execution on the GridMarek Wieczorek, Mumtaz Siddiqui, Alex Villazón, Radu Prodan, Thomas Fahringer. 82 [doi]
- Application-Level Resource Provisioning on the GridGurmeet Singh, Carl Kesselman, Ewa Deelman. 83 [doi]
- Provisioning and Scheduling Resources for World-Wide Data-Sharing ServicesAlexandru Iosup, Pawel Garbacki, Dick H. J. Epema. 84 [doi]
- Extending a Resource Broker for Advance Reservation and ChargingMarco Fargetta, Donal Fellows, Dean Kuo. 85 [doi]
- Capacity Planning and Stochastic Scheduling in Large-Scale GridsAli Afzal, John Darlington, Andrew Stephen McGough. 86 [doi]
- Reusable Cost-Based Scheduling of Grid Workflows Operating on Higher-Order ComponentsCatalin Dumitrescu, Dick H. J. Epema, Jan Dünnweber, Sergei Gorlatch. 87 [doi]
- The Effectiveness of Threshold-Based Scheduling Policies in BOINC ProjectsTrilce Estrada, David A. Flores, Michela Taufer, Patricia J. Teller, Andre Kerstens, David P. Anderson. 88 [doi]
- DIANA Scheduling Hierarchies for Optimizing Bulk Job SchedulingAshiq Anjum, Richard McClatchey, Heinz Stockinger, Arshad Ali, Ian Willers, Michael Thomas, Muhammad Sagheer, Khawar Hasham, Omer Alvi. 89 [doi]
- Economy-Based Data Replication BrokerHenry Lin, Jemal H. Abawajy, Rajkumar Buyya. 90 [doi]
- DESHL--Standards Based Access to a Heterogeneous European Supercomputing InfrastructureTerence M. Sloan, Roger Menday, T. P. Seed, M. Illingworth, Arthur S. Trew. 91 [doi]
- An Extensible Service Development Toolkit to Support Earth Science GridsJason Cope, Henry M. Tufo, Matthew Woitaszek. 92 [doi]
- WISENT: e-Science for Energy MeteorologyWilhelm Hasselbring, Detlev Heinemann, Johannes Hurka, Thomas Scheidsteger, Ludger Bischofs, Christoph Mayer, Jan Ploski, Guido Scherp, Sina Lohmann, Carsten Hoyer-Klick, Thilo Erbertseder, Gerhard Gesell, Marion Schroedter-Homscheidt, Gerd Heilscher, Jochen Rehwinkel, Stefan Rensberg. 93 [doi]
- The National Grid Service of the UKNeil Geddes. 94 [doi]
- Computational Grids for Mid-Sized Collaborative Projects: The eMinerals ExperienceMartin T. Dove, Toby O. H. White, Andrew M. Walker, Richard P. Bruin, Kat F. Austen, Emilio Artacho, L. A. Sullivan, Mark Calleja, M. G. Tucker, Richard Tyer, Philip A. Couch, Kerstin Kleese van Dam, R. J. Allan, Ilian T. Todorov, Clovis Chapman, Wolfgang Emmerich, Arnaud Marmier, Steve Parker, M. O. Blanchard, C. Richard A. Catlow, Z. Du, Nora de Leeuw, Gareth J. Lewis, Vassil N. Alexandrov, M. Alfredsson, John Brodholt, Peter Murray-Rust. 95 [doi]
- Grid-Enabled Workflows for Industrial Product DesignMoustafa Ghanem, Nabeel Azam, Mike J. Boniface, Justin Ferris. 96 [doi]
- Jylab: A System for Portable Scientific Computing over Distributed PlatformsGiorgios Kollias, Efstratios Gallopoulos. 97 [doi]
- Mathematical Modeling Support in a Distributed Problem Solving Environment for Scientific ComputingShigeo Kawata, Takayuki Teramoto, Hideaki Sugiura, Yuichi Saitoh, Yoshikazu Hayase. 98 [doi]
- A Problem Solving Environment for Automatic Matlab 3D Finite Element Code Generation and Simplified Grid ComputingZhou Jun, Yukio Umetani. 99 [doi]
- Automatic Viewpoint Selection for a Visualization I/F in a PSEMachiko Nakagawa, Masami Takata, Kazuki Joe. 100 [doi]
- Computational Engineering on the Grid: Crafting a Distributed Virtual ReactorValeria V. Krzhizhanovskaya, Vladimir Korkhov, Alfredo Tirado-Ramos, D. J. Groen, I. V. Shoshmina, I. A. Valuev, Igor V. Morozov, N. V. Malyshkin, Yuri E. Gorbachev, Peter M. A. Sloot. 101 [doi]
- Design and Implementation of NAREGI Problem Solving Environment for Large-Scale Science GridHiroyuki Kanazawa, Yasuyoshi Itou, Motohiro Yamada, Yutaka Miyahara, Yoshikazu Hayase, Shigeo Kawata, Hitohide Usami. 102 [doi]
- LabGrid: Integrated Problem Solving Environment System for High Throughput ComputingYoung Jun Choi, Takashige Oroguchi, Yoshinori Kato, Makoto Takeda, Yoshio Tago. 103 [doi]
- Clayworks: A System for Collaborative Real-Time Modeling and High-Performance SimulationJens Müller, Martin Alt, Jan Dünnweber, Sergei Gorlatch. 104 [doi]
- A Middleware Framework for Maximum Likelihood Evaluation over Dynamic GridsWei-Jen Wang, Kaoutar El Maghraoui, John Cummings, Jim Napolitano, Boleslaw K. Szymanski, Carlos A. Varela. 105 [doi]
- Grid Enabled Problem Solving Environments for Text CategorizationJian Mei, Wu Zhang, Suge Wang. 106 [doi]
- The Datacrossing DSS: A Data-GRID Based Decision Support System for Groundwater ManagementSimone Manca, Pierluigi Cau, Ernesto Bonomi, Alessandro Mazzella. 107 [doi]
- Performance of Grid-Based PDE.MartXiaobin Zhang, Mo Mu, Guoyong Mao, Wu Zhang. 108 [doi]
- Scientific Simulation Execution Support on a Closed Distributed Computer EnvironmentHideaki Fuju, Shigeo Kawata, Hideaki Sugiura, Yuichi Saitoh, Yoshikazu Hayase, Hitohide Usami, Motohiro Yamada, Yutaka Miyahara, Hiroyuki Kanazawa, Takashi Kikuchi. 109 [doi]
- Grid Service Platform: Design and Implementation of Grid Middleware for Telecom CarriersSoichi Shigeta, Nobutaka Imamura, Haruyasu Ueda, Hiromichi Kobashi, Miho Murata, Taketoshi Yoshida, Atsushi Kubota, Akira Asato, Yoshimasa Kadooka. 110 [doi]
- Dynamic Problems and Nature Inspired Meta-HeuristicsTim Hendtlass, Irene Moser, Marcus Randall. 111 [doi]
- Using the Multi-Start and Island Models for Parallel Multi-Objective Optimization on the Computational GridMohand-Said Mezmaz, Nouredine Melab, El-Ghazali Talbi. 112 [doi]
- Robust Handling of Multiple Multi-Objective OptimisationsWolfgang Ponweiser, Markus Vincze. 113 [doi]
- An Extended Extremal Optimisation Model for Parallel ArchitecturesMarcus Randall, Andrew Lewis. 114 [doi]
- Niching for Population-Based Ant Colony OptimizationDaniel Angus. 115 [doi]
- Hybrid Particle Guide Selection Methods in Multi-Objective Particle Swarm OptimizationDavid Ireland, Andrew Lewis, Sanaz Mostaghim, Jun Wei Lu. 116 [doi]
- Multiobjective Tuning of Grid-Enabled Earth System Models Using a Non-dominated Sorting Genetic Algorithm (NSGA-II)Andrew R. Price, I. I. Voutchkov, Graeme E. Pound, N. R. Edwards, Timothy M. Lenton, Simon J. Cox. 117 [doi]
- Evaluation of Parallel EDAs to Create Chemical Calibration ModelsAlexander Mendiburu, José Miguel-Alonso, José Antonio Lozano. 118 [doi]
- A Differential Evolution Based Algorithm to Optimize the Radio Network Design ProblemSilvio Priem-Mendes, Juan Antonio Gómez Pulido, Miguel A. Vega-Rodríguez, Maria D. Jaraiz Simon, Juan Manuel Sánchez-Pérez. 119 [doi]
- Bio-Inspired Control Approach to Multiple Spacecraft Formation FlyingLiguo Weng, Wenchan Cai, Ran Zhang, Yongduan Song. 120 [doi]
- Evolutionary Optimization of Forging Anvils Using Grid Based on Alchemi FrameworkWaclaw Kus. 121 [doi]
- A Grid-Based Architecture for the Composition and the Execution of Remote Interactive MeasurementsAndrea Bagnasco, Arianna Poggi, Anna Marina Scapolla. 122 [doi]
- Remote Control of Web 2.0-Enabled Laboratories from Mobile DevicesDiego López-de-Ipiña, Javier García Zubía, Pablo Orduna. 123 [doi]
- Virtual Laboratory as a Remote and Interactive Access to the Scientific Instrumentation Embedded in Grid EnvironmentMarcin Okon, Damian Kaliszan, Marcin Lawenda, Dominik Stoklosa, Tomasz Rajtar, Norbert Meyer, Maciej Stroinski. 124 [doi]
- CIMA Based Remote Instrument and Data Access: An Extension into the Australian e-Science EnvironmentIan M. Atkinson, Douglas du Boulay, Clinton Chee, Kenneth Chiu, Tristan King, Donald F. McMullen, Romain Quilici, Nigel G. D. Sim, Peter Turner, Matthew Wyatt. 125 [doi]
- A Collaborative Virtual Computer Security LabJörg Keller, Ralf Naues. 126 [doi]
- Toward Standards for Integration of Instruments into Grid Computing EnvironmentsDonald F. McMullen, Ian M. Atkinson, Kenneth Chiu, Peter Turner, Kianosh Huffman, Romain Quilici, Matthew Wyatt. 127 [doi]
- Advanced Techniques for Scheduling, Reservation, and Access Management for Remote LaboratoriesPhilipp Wieder, Oliver Wäldrich, Wolfgang Ziegler. 128 [doi]
- Networked Instrumentation for Nanotechnologies Using WS-Resources and WS-NotificationJungwook Seo, Ernie W. Hill. 129 [doi]
- Enabling e-Research in Combustion Research CommunityTran Vu Pham, Peter M. Dew, Lydia M. S. Lau, Michael J. Pilling. 130 [doi]
- Towards a Linguist s Workbench Supporting eScience MethodsA. Dimitriadis, Marc Kemps-Snijders, P. Wittenburg, M. Everaert, S. Levinson. 131 [doi]
- A Grid of Language Resource RepositoriesDaan Broeder, Remco van Veenendaal, David Nathan, Sven Stromqvist. 132 [doi]
- TextGrid and eHumanitiesPeter Gietz, Andreas Aschenbrenner, Stefan Budenbender, Fotis Jannidis, Marc Wilhelm Küster, Christoph Ludwig, Wolfgang Pempe, Thorsten Vitt, Werner Wegstein, Andrea Zielinski. 133 [doi]
- GuangQunFangPu: e-Humanities Combining Textual and Botanic InformationShu-Kai Hsieh, Shu-Ming Chang, Chun-Han Chang, Yi-Shuan Zhou, Chu-Ren Huang, Feng-Ju Lo, Ru-Ying Chang. 134 [doi]
- Educating the Humanities for e-ScienceSven Stromqvist. 135 [doi]
- The Arts and Humanities e-Science Initiative in the UKTobias Blanke, Stuart Dunn. 136 [doi]
- ODIN: A Model for Adapting and Enriching Legacy InfrastructureWilliam D. Lewis. 137 [doi]
- eScience, Science Education and Technology Integration in the Classroom: Some Practical ConsiderationsDawn Woodgate, Danae Stanton Fraser. 138 [doi]
- Designing a Multipurpose Virtual Laboratory to Support Communities of Practice in PhysicsSilvia Gabrielli, Markus Hodapp, Roberto Ranon. 139 [doi]
- Identifying Tools to Support Schools Collaborative Teaching and LearningHilary Smith, Joshua Underwood, Geraldine Fitzpatrick, Rosemary Luckin, Danae Stanton Fraser. 140 [doi]
- Evolution of a Remote Access Facility for a PLL Measurement CourseM. J. Burbidge, I. Grout. 141 [doi]
- Data Access Service in a Computational Grid Platform Applied to the Monitoring and Control of Epidemics on Georeferenced Dynamic MapsVirgilio Cavicchioli Neto, Henrique Fabricio Gagliardi, Alexandre Rezende, Erick Sobreiro Goncalves, Eduardo Gallo, Fabrício Alves Barbosa da Silva, Ivan Torres Pisa, Domingos Alves. 142 [doi]
- Triana GenerationsIan Taylor. 143 [doi]
- Managing Large-Scale Scientific Workflows in Distributed Environments: Experiences and ChallengesEwa Deelman, Yolanda Gil. 144 [doi]
- Scientific Workflows: More e-Science Mileage from CyberinfrastructureBertram Ludäscher, Shawn Bowers, Timothy M. McPhillips, Norbert Podhorszki. 145 [doi]
- EMBRACE: Bioinformatics Data and Analysis Tool Services for e-SciencePeter M. Rice, Alan J. Bleasby, Syed A. Haider, Jon C. Ison, Shaun McGlinchey, Mahmut Uludag. 146 [doi]
- Production Storage Resource Broker Data GridsReagan Moore, Sheau-Yen Chen, Wayne Schroeder, Arcot Rajasekar, Michael Wan, Arun Jagatheesan. 147 [doi]
- The SwissBioGrid Project: Objectivse, Preliminary Results and Lessons LearnedMichael Podvinec, Sergio Maffioletti, Peter Z. Kunszt, Konstantin Arnold, Lorenzo Cerutti, Bruno Nyffeler, Ralph Schlapbach, Can Türker, Heinz Stockinger, Arthur J. Thomas, Manuel C. Peitsch, Torsten Schwede. 148 [doi]
- Agent-Based Negotiation Techniques for a Grid: The Prophet AgentsMassimo Orazio Spata, Giuseppe Pappalardo, Salvatore Rinaudo, Tonio Biondi. 149 [doi]
- A Novel Approach to Workload Allocation of QoS-Constrained Workflow-Based Jobs in a Utility GridYash Patel, John Darlington. 150 [doi]
- BABAR Experience of Large Scale Production on the GridC. A. J. Brew, F. F. Wilson, G. Castelli, T. Adye, E. Luppi, D. Andreotti. 151 [doi]
- RISE: A Grid-Based Self-Configuring and Self-Healing Remote System Image Management EnvironmentJonghyun Lee, Karpjoo Jeong, Hanku Lee, Inho Lee, Sangmoon Lee, Dosik Park, Changsung Lee, Woojin Yang. 152 [doi]
- Running a Production Grid Site at the London e-Science CentreDavid McBride, Marko Krznaric, Olivier van der Aa, Mona Aggarwal, John Darlington, Dave Colling. 153 [doi]
- Building a Distributed Software Environment for the Experiment CDF at UCL Utilising a Switched Light PathValeria Bartsch, Nicola Pezzi, Mark Lancaster. 154 [doi]
- Application of Virtualisation Techniques at a University Grid CenterVolker Büge, Yves Kemp, Marcel Kunze, Günter Quast. 155 [doi]
- Enabling HPC E-Science via Integrated Grid InfrastructurePhil Andrews, Martin Margo, Amit Chourasia, John Towns. 156 [doi]
- FAME: Adding Multi-Level Authentication to ShibbolethAleksandra Nenadic, Ning Zhang, Jay Chin, Carole A. Goble. 157 [doi]
- Complex Data-Intensive Systems and Semantic Grid: Applications in Satellite MissionsManuel Sánchez-Gestido, L. Blanco-Abruña, María S. Pérez-Hernández, Rafael González-Cabero, Asunción Gómez-Pérez, Óscar Corcho. 158 [doi]
- Grid Services Toolkit for Process Data ProcessingTim O. Müller, Thomas Jejkal, Rainer Stotzka, Michael Sutter, Volker Hartmann, Hartmut Gemmeke. 159 [doi]
- SGSIA-in-Network Data Preprocessing for Secure Grid-Sensor IntegrationZubair A. Baig, Mohamed Baqer, Asad I. Khan. 160 [doi]