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This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

User:Hxscuiuc + (3D hydrodynamics numerical model developing)

User:Dstark + (A farame work coupoling ofr Topoflow and the WRF model.)
User:Bvanmaren + (A quantitative understanding of marine systems from the continental shelf to the supratidal zone, with a focus on estuarine morphodynamics)
User:Pedro + (ADCIRC)
User:Mbasme1 + (Active tectonics, topographic evolution)
User:Arodveg + (After my professional experience (17 years … After my professional experience (17 years) as a university professor of a wide spectrum of disciplines (e.g., Ecology, General Microbiology, Human Anatomy and Physiology, Cell Biology, Classical Genetics and Evolutionary Biology), I became aware of the necessity of developing an interdisciplinary understanding of ecosystem functioning based on physics. Therefore, my current research activity is addressed to develop a general model of ecosystem functioning based on plausible theoretical links between principles of ecosystem ecology, thermodynamics, thermostatistics and quantum mechanics. The main part of the results from this effort are included in several articles published in the journal Ecological Modelling. The main advantage of the above-mentioned set of models is its validity for almost any kind of ecosystem following a fractal structure. From my research experience in economics, it seems to be that this model, with certain modifications, could be also useful to understand macroeconomics performance as well as economic development processes, in a sort of TOE which would interconnect Physics, Biology and Social Sciences.nect Physics, Biology and Social Sciences.)
User:Tahsir + (Agent Based Modelling)
User:KenISET + (Agent-based modeling of complex systems and applications toward sustainable development, co-generation of knowledge, and decision making.)
User:JackCarlson + (Agricultural/Environmental Modeling)
User:Andyshriver + (Aid in advancing/refining landscape evolution & hydrology models as a result of their outputs when applied to my geomorphic research.)
User:Idier + (All models providing results on coastal : wave, current, water level, morphodynamics, shoreline evolution. From small to large scales.)
User:Brakenridge + (Am very interested in hydrological modeling and surface runoff at the global scale.)
User:StratifiedLake + (An internal bore is a type of large-scale … An internal bore is a type of large-scale geophysical flow where a shock-like height discontinuity propagates along an interface between two fluids of different densities. Internal bores are responsible for many complex and interesting atmospheric and oceanographic phenomena. The most visually striking and well-known example of an internal bore is the Morning Glory cloud formation off the northern coast of Australia (pictured at left), which is formed by the interaction of a sea-breeze with a temperature inversion layer. Internal bores can also be formed in the atmosphere by cold outflows from thunderstorms. In marine environments, internal bores can arise from several mechanisms such as the interaction of the tides with ocean floor topography, or by gravity current flows past submarine obstacles.</br> </br>For the last 60 years, people have been developing and refining analytical models to describe the propagation of internal bores. If the densities of the two fluids are very different, as is the case for a tidal bore, which propagates along an interface between water and air, a very accurate model describing a bore's propagation as a function of its size can be obtained by conserving mass and momentum across a control volume encompassing the more dense layer of fluid. However, if the densities are very similar, the upper fluid cannot be neglected. In this case, there is not enough information to come up with a closed form model from a control volume analysis unless we make some assumption about the energy loss across the bore.</br> </br>That's where we come in. To gain insight into how energy evolves and dissipates within an internal bore, we simulate them using two and three-dimensional direct numerical simulations. An example of one of our two-dimensional simulations is shown below. These simulations allow us to directly measure the energy and how it evolves as the bore propagates. Based on our results, we are able to propose a new analytical model for internal bores which takes into account mixing at the interface between the two layers. Our new model accurately predicts internal bore's propagation velocities, and can also predict the amount of energy lost to mixing. These results will soon be published in the Journal of Fluid Mechanics. We are now working on extending our model and simulations to non-Boussinesq internal bores so we can bridge the gap between Boussinesq and single-layer bores.between Boussinesq and single-layer bores.)
User:Tnaher + (Anthropogenic activities on tidal range variations in the Delaware River)
User:Gdiachille + (Application of Sedflux and Hydrotrend for the modeling of martian ancient fluvial reaches and formation of river deltas)
User:Undave + (Application of hydrodynamic numerical models)
User:EdFordham + (Application of open-source modeling to fluvial geomorphology)
User:Jonharvey + (Applications of modeling to erosion processes, geodesy, and active tectonics.)
User:Mauricioucv + (Apply S2S in Venezuela through research papers (thesis))
User:Mrbungle + (Apply to my research)
User:Ginamwade + (Arctic related research)
User:MerrilyGolden + (Art, Music,Sports and Computers.)
User:Mkallungal + (As a beginner in ocean Modelling, I would like to setup and study the ocean modelling)
User:Gyurayhatip + (As a general interest, colloboration and k … As a general interest, colloboration and knowledge-transfer in this group sems extremely atractive to me.As more specific interest, I have seen the necessity of interdisciplinary approach on environmental issues. Solely picking one phase; such as saturated zone groundwater modeling, almost never results in a sustainable management choice. I want to first learn the modeling very well, then contribute to the more comprehensive studies on modeling/simulation in especially hydrological related cases, both water/sediment and solute transport. both water/sediment and solute transport.)
User:Mgdevos + (At the Netherlands eSciencecenter we are working on an e-infrastructure for hydrological models, together with Delft University of Technology. We are interested in CSDMS as it offers similar functionality. Maybe there are opportunities for collaboration.)
User:Mriedel + (BING)
User:Elsafori + (Basin simulation)
User:Jaffaateret + (Be ready to race with updated world)
User:Twinchell + (Beach)
User:Gruessink + (Beach-dune interaction, coastal morphodynamics, wave-driven processes, aeolian sand transport, natural and human-impacted coastal dynamics, bio-physical processes, nature restoration)
User:Mchill + (Better modeling)
User:Cschwarz + (Bio-geomorphology, wetlands, coastal dunes)
User:Chenyr7 + (Biogeochemical Ocean Modeling, HABs Modeling.)
User:Andressavmansur + (Broad interests are the impacts on coastal … Broad interests are the impacts on coastal environments, environmental changes in coastal zones, socio-economic and ecological vulnerability of deltas, urban vulnerability, coastal management and sustainable management of coastal and tropical environments. More specific research topics are related with vulnerability of the cities within the Amazon Delta and Estuary, urban infrastructure, socio-economic indicators and flood risk assessment.omic indicators and flood risk assessment.)
User:Ggarcia + (CSDMS 2022 Annual Meeting, "Environmental … CSDMS 2022 Annual Meeting, "Environmental Extremes and Earthscape Evolution (E4) is a great opportunity to learn about environmental hazards from the top scientist in the world. It is a unique opportunity for networking and finding out new discoveries in this field.finding out new discoveries in this field.)
User:Mamc9359 + (CSDMS Executive Assistant)
User:Oceanka + (CSDMS is a useful learning environment for my marine dynamics research where I am joined the groups that I love.)
User:Amabdallah + (CSDMS standard names)
User:Cenglert + (CSDMS tools are going to be a great resour … CSDMS tools are going to be a great resource for me as I work to complete my masters project. We have mapped an artificial reef site on the inner continental shelf with five repeat Multibeam and sidescan surveys from ship and AUV platforms. There is clear evidence of scour around the 900+ reef objects, especially post Hurricane Sandy and multiple Nor'easters. I have a good and growing background in Matlab and Python and some C++, yet I have found I still struggle with understanding some concepts in computer science such as model compiling and optimization (especially for a multi-processor cluster or supercomputer). Colleagues at the Center for Coastal and Ocean Mapping have been developing great visualization tools, which I have starting working on for my masters. We have run some simple models in COAWST, yet I realize we need to move into more advanced modeling. By removing the concern, time, and effort to couple models and with high-power computing resources, CSDMS tools will greatly advance our goals of taking coupled modeled results into our developing visualization products. I also expect the growing collaboration in CSDMS community will again find me using these resources in my future career - in whatever surface dynamics projects I become involved. It was a great surprise to come across this resource at a key time in my developing career.rce at a key time in my developing career.)
User:Changks + (Carbon Cycle, phenology, air pollution)
User:Ebgraham + (Carbon cycle)
User:Blakeclark umces + (Carbon cycling in the terrestrial marine interface. Global scale biogeochemical cycling)
User:Yjl342500 + (Carbonate models)
User:Ps33 + (Carbonate sedimentology and Stratigraphy)