The CRANE Framework for Simulation Model Workflows

[1]  N. Kouwen,et al.  Towards closing the vertical water balance in Canadian atmospheric models: Coupling of the land surface scheme class with the distributed hydrological model watflood , 2000 .

[2]  John W. Pomeroy,et al.  Simulation of snow accumulation and melt in needleleaf forest environments , 2010 .

[3]  Erwin Zehe,et al.  A review of regionalisation for continuous streamflow simulation , 2011 .

[4]  L. Shawn Matott,et al.  Evaluating uncertainty in integrated environmental models: A review of concepts and tools , 2009 .

[5]  M. Khaliq,et al.  Projected Changes to Streamflow Characteristics over Western Canada as Simulated by the Canadian RCM , 2011 .

[6]  Jianting Zhang,et al.  Data Integration and Workflow Solutions for Ecology , 2005, DILS.

[7]  Diana Verseghy,et al.  THE CANADIAN LAND SURFACE SCHEME Technical Documentation - Version 3.4 , 2008 .

[8]  Olaf David,et al.  Rethinking Modeling Framework Design: Object Modeling System 3.0 , 2010 .

[9]  Robert M. Argent,et al.  An overview of model integration for environmental applications--components, frameworks and semantics , 2004, Environ. Model. Softw..

[10]  Alain Pietroniro,et al.  Development of the MESH modelling system for hydrological ensemble forecasting of the Laurentian Great Lakes at the regional scale , 2006 .

[11]  Frank Leymann,et al.  Conventional Workflow Technology for Scientific Simulation , 2011, Guide to e-Science.

[12]  Bryan A. Tolson,et al.  Dynamically dimensioned search algorithm for computationally efficient watershed model calibration , 2007 .

[13]  Yogesh Simmhan,et al.  Building the Trident Scientific Workflow Workbench for Data Management in the Cloud , 2009, 2009 Third International Conference on Advanced Engineering Computing and Applications in Sciences.

[14]  L. Matott,et al.  Calibrating Environmental Models using ParaMESH , 2010 .

[15]  J. Refsgaard Parameterisation, calibration and validation of distributed hydrological models , 1997 .

[16]  R. Granger,et al.  Snowmelt infiltration to frozen Prairie soils , 1984 .

[17]  P. Krause,et al.  COMPARISON OF DIFFERENT EFFICIENCY CRITERIA FOR HYDROLOGICAL MODEL ASSESSMENT , 2005 .

[18]  Anthony M. Castronova,et al.  Integrated modeling within a Hydrologic Information System: An OpenMI based approach , 2013, Environ. Model. Softw..

[19]  D. I. Verrelli,et al.  It ’ s TIME for a New Environmental Modelling Framework , 2003 .

[20]  Karl J. Castleton,et al.  Investigating uncertainty and sensitivity in integrated, multimedia environmental models: tools for FRAMES-3MRA , 2005, Environ. Model. Softw..

[21]  Eileen Poeter,et al.  Building model analysis applications with the Joint Universal Parameter IdenTification and Evaluation of Reliability (JUPITER) API , 2008, Comput. Geosci..

[22]  Jing Tao,et al.  Incorporating Semantics in Scientific Workflow Authoring , 2005, SSDBM.

[23]  J. Pomeroy,et al.  Estimating areal snowmelt infiltration into frozen soils , 2001 .

[24]  Bertram Ludäscher,et al.  Scientific workflow design for mere mortals , 2009, Future Gener. Comput. Syst..

[25]  Keith Beven,et al.  The future of distributed models: model calibration and uncertainty prediction. , 1992 .

[26]  Philip Marsh,et al.  Characterizing snowmelt variability in a land‐surface‐hydrologic model , 2006 .

[27]  Edward A. Lee,et al.  CONCURRENCY AND COMPUTATION: PRACTICE AND EXPERIENCE Concurrency Computat.: Pract. Exper. 2000; 00:1–7 Prepared using cpeauth.cls [Version: 2002/09/19 v2.02] Taverna: Lessons in creating , 2022 .

[28]  Patrick M. Reed,et al.  An open-source model platform for water management that links models to a generic user-interface and data-manager , 2010 .

[29]  S. L. Markstrom,et al.  The modular modeling system (MMS) — The physical process modeling component of a database-centered decision support system for water and power management , 1996 .

[30]  Donald H. Burn,et al.  Identification and quantification of streamflow trends on the Canadian Prairies , 2008 .

[31]  A. W. Harbaugh MODFLOW-2005 : the U.S. Geological Survey modular ground-water model--the ground-water flow process , 2005 .

[32]  D. McLaughlin,et al.  A Reassessment of the Groundwater Inverse Problem , 1996 .

[33]  J. Dehotin,et al.  Which spatial discretization for distributed hydrological models? Proposition of a methodology and illustration for medium to large-scale catchments , 2008 .

[34]  A FRAMEWORK FOR HYDROLOGICAL MODELLING IN MAGS , 2005 .

[35]  J. Pomeroy,et al.  Comparison of Algorithms and Parameterisations for Infiltration into Organic-Covered Permafrost Soils , 2009 .

[36]  Mary C. Hill,et al.  JUPITER: Joint Universal Parameter Identification and Evaluation of Reliability ? An Application Programming Interface (API) for Model Analysis , 2014 .

[37]  Jeffery S. Horsburgh,et al.  HydroDesktop: Web services-based software for hydrologic data discovery, download, visualization, and analysis , 2012, Environ. Model. Softw..

[38]  C. Perrin,et al.  Improvement of a parsimonious model for streamflow simulation , 2003 .

[39]  J. B. Gregersen,et al.  OpenMI: Open modelling interface , 2007 .

[40]  Steven L. Markstrom,et al.  User's Manual for the Object User Interface (OUI): An Environmental Resource Modeling Framework , 2008 .

[41]  E. Poeter,et al.  Documentation of UCODE; a computer code for universal inverse modeling , 1998 .

[42]  Sven Kralisch,et al.  Using the object modeling system for hydrological model development and application , 2005 .

[43]  Edward A. Lee,et al.  Heterogeneous Concurrent Modeling and Design in Java (Volume 1: Introduction to Ptolemy II) , 2008 .

[44]  Andrea Emilio Rizzoli,et al.  Modelling with knowledge: A review of emerging semantic approaches to environmental modelling , 2009, Environ. Model. Softw..

[45]  Box Paul Hydrologists workbench: A governance model for scientific workflow environments , 2010 .

[46]  Pierre Viallet,et al.  Towards multi-scale integrated hydrological models using the LIQUID® framework. Overview of the concepts and first application examples , 2010, Environ. Model. Softw..

[47]  J. Nash,et al.  River flow forecasting through conceptual models part I — A discussion of principles☆ , 1970 .

[48]  William L. Quinton,et al.  The cold regions hydrological model: a platform for basing process representation and model structure on physical evidence , 2007 .

[49]  Taha B. M. J. Ouarda,et al.  A Canadian viewpoint on data, information and uncertainty in the context of prediction in ungauged basins , 2013 .

[50]  Matthew R. Pocock,et al.  Taverna: a tool for the composition and enactment of bioinformatics workflows , 2004, Bioinform..

[51]  D. Verseghy,et al.  The Canadian land surface scheme (CLASS): Its history and future , 2000 .

[52]  Alexey A. Voinov,et al.  Model integration and the role of data , 2010, Environ. Model. Softw..

[53]  J. Hinkel,et al.  DIVA: an iterative method for building modular integrated models , 2005 .

[54]  Y. Dibike,et al.  Modelling of climate-induced hydrologic changes in the Lake Winnipeg watershed , 2012 .

[55]  Peter Fitch,et al.  Hydrologists Workbench – a hydrological domain workflow toolkit , 2010 .

[56]  Bertram Ludäscher,et al.  Kepler: an extensible system for design and execution of scientific workflows , 2004, Proceedings. 16th International Conference on Scientific and Statistical Database Management, 2004..

[57]  D. H. Gray,et al.  Estimating snowmelt infiltration into frozen soils , 1999 .

[58]  N. Kouwen,et al.  WATFLOOD: a Micro-Computer Based Flood Forecasting System Based on Real-Time Weather Radar , 1988 .

[59]  Frits K. van Evert,et al.  The ModCom modular simulation system , 2003 .

[60]  Xulin Guo,et al.  Prediction of snowmelt derived streamflow in a wetland dominated prairie basin , 2010 .