Kran's repositories
OneMore
A OneNote add-in with simple, yet powerful and useful features
StormDesk-Installer
Installer of StormDesk, a fully functional drainage modelling software based on EPASWMM, covers the whole process of 1D Hydrologic and Hydraulic modelling process. As a sister product of WaterDesk, StormDesk is FREE too!
Innovyze-ICM-Libraries
A number of open source libraries and documentation I've created for Ruby developers who are developing custom software for Innovyze's InfoWorks ICM and InfoNet
OverlandFlow
Application to simulate overland flow for the water industry
ICM_Tools
SQL and Ruby scripts to supplement modeling in InfoWorks ICM
infoworks-ruby-scripts
A collection of useful Ruby scripts for InfoWorks
MatSWMM
An open-source toolbox for designing real-time control of urban drainage systems
waterlab_mpc
A python project of a Model Predictive Controller (MPC) for Urban Drainage Networks (UDNs) to mitigate Combined Sewer Overflows (CSOs)
InfoWorks-ICM-Delft3D
InfoWorks ICM-Delft3D coupled model
RubyConsole
A ruby console using Google Chrome and Ruby
InfoLab
The first 3rd party open source plugin for InfoWorks/InfoNet which allows dynamic execution of Ruby scripts!
Hydrologic-Flow-Accumulation-Modeling-Using-Surface-Area
The terrain surface plays a critical role in modeling geomorphic, hydrologic, atmospheric, and ecological processes. Understanding the terrain surface can guide realistic characterization of these processes. Projection of terrain features into a planar surface leads to some distortion in the geometry of terrain elements. Generally, for a Digital Elevation Model (DEM), distance, perimeter and area are underestimated in comparison to actual measurements, due to within pixel variations in slope and curvature. This matter is ignored in most terrain-based GIS analysis. This research employs realistic surface geometries of terrain for a more accurate and precise mapping of streams from DEMs. The flow accumulation model, which employs planar area to delineate the upstream drainage area of each pixel, is the predominant approach for extracting streams from DEM. One key weakness of this approach is that the two-dimensional method used for calculating area does not account for the slope and curvature of the terrain and precious information is lost. This research presents one possible strategy for the incorporation of surface area into a flow accumulation matrix. This approach substitutes calculation of upstream surface area instead of planar area.
swmm_monte_carlo
Montecarlo simulation of swmm urban drainage/sewerage model.
suds-optimizer
Optimize the Sustainable urban Drainage System components in a Drainage network modelled in SWMM