This output was downscaled to 1/16 ° spatial resolution and daily temporal resolution to drive the Variable Infiltration
Capacity hydrologic model (VIC).
Not exact matches
The Variable Infiltration
Capacity (VIC)
hydrologic model set - up for the Fraser River basin, British Columbia, Canada was used as a test - bed for the two systems.
Hydrologic simulation is performed by driving the Variable Infiltration
Capacity (VIC)
model over the Pacific Northwest region, for historical and future time periods.
Hence, this study evaluates the ability of a standard
hydrologic model set - up: Variable Infiltration
Capacity (VIC)
hydrologic model for two headwater sub-basins in the Fraser River (Salmon and Willow), British Columbia, Canada, with climate inputs derived from observations and statistically downscaled global climate
models (GCMs); to simulate six general water resource indicators (WRIs) and 32 ecologically relevant indicators of
hydrologic alterations (IHA).
Hydrologic modeling is performed by the variable infiltration
capacity (VIC)
model at a 1/8 ° resolution and the
model is driven by climate scenarios provided by the North American Regional Climate Change Assessment Program (NARCCAP) including nine regional climate
model (RCM) simulations.
The Variable Infiltration
Capacity model (VIC)
hydrologic model setup for the Fraser River basin, British Columbia, Canada, was used as a test bed for the two systems.
Additionally, simulated
hydrologic changes from the GCM — BCSD - driven Variable Infiltration
Capacity (VIC)
model were compared to the CRCM integrated Canadian Land Surface Scheme (CLASS) output.
The study uses an extensive suite of existing simulations with the Variable Infiltration
Capacity (VIC)
hydrologic model driven by Coupled Model Intercomparison Project Phase 3 (CMIP3) climate simulations to train and evaluate the nonlinear and nonstationary Generalized Extreme Value conditional density network (GEVcdn) model of Fraser River streamflow extremes, and subsequently applies the model to project changes in Fraser River extremes under CMIP5 based climate change scena
model driven by Coupled
Model Intercomparison Project Phase 3 (CMIP3) climate simulations to train and evaluate the nonlinear and nonstationary Generalized Extreme Value conditional density network (GEVcdn) model of Fraser River streamflow extremes, and subsequently applies the model to project changes in Fraser River extremes under CMIP5 based climate change scena
Model Intercomparison Project Phase 3 (CMIP3) climate simulations to train and evaluate the nonlinear and nonstationary Generalized Extreme Value conditional density network (GEVcdn)
model of Fraser River streamflow extremes, and subsequently applies the model to project changes in Fraser River extremes under CMIP5 based climate change scena
model of Fraser River streamflow extremes, and subsequently applies the
model to project changes in Fraser River extremes under CMIP5 based climate change scena
model to project changes in Fraser River extremes under CMIP5 based climate change scenarios.
Summary of Qualifications * Proven ability to provide sound and innovative engineering design services on schedule and at budget * Extensive experience in highway, municipal and land development design and permitting * Broad, in - depth knowledge of
hydrologic / hydraulic / stormwater
modeling analysis and design * Strong motivational
capacity, encouraging staff and satisfying clients» needs * Effectiveness in coordinating projec...