Differences
This shows you the differences between two versions of the page.
Both sides previous revision Previous revision Next revision | Previous revision Next revision Both sides next revision | ||
start [2020/04/09 17:59] britaldo |
start [2020/11/18 18:25] hermann |
||
---|---|---|---|
Line 27: | Line 27: | ||
* [[tutorial:heuristic_calibration_of_models_by_using_genetic_algorithm|Genetic Algorithm for model calibration]] | * [[tutorial:heuristic_calibration_of_models_by_using_genetic_algorithm|Genetic Algorithm for model calibration]] | ||
- | * [[parallelism_on_dinamica|High performance, including 64-bit native version, full parallelism using multiprocessor computing architecture, smart handling of large raster datasets]] | + | * [[parallelism_on_dinamica|High performance, including 64-bit native version, full parallelism using multiprocessor computing architecture, smart handling of large raster datasets]] |
+ | |||
+ | * [[biodinamica|BioDinamica plug-in for analyses of biodiversity, biogeography and macroecology]] | ||
The software environment, written in C++ and Java, holds a series of algorithms called functors. Each functor performs an operation. We have implemented the most common spatial analysis algorithms available in commercial GIS (Geographic Information System), plus a series of algorithms especially designed for spatial simulations, including transition functions and calibration and validation methods. | The software environment, written in C++ and Java, holds a series of algorithms called functors. Each functor performs an operation. We have implemented the most common spatial analysis algorithms available in commercial GIS (Geographic Information System), plus a series of algorithms especially designed for spatial simulations, including transition functions and calibration and validation methods. |