| 3pg1 |
Joe Landsberg’s 3PG physiologically-based model of forest production |
| ageclass4 |
Age-class model of population dynamics, one compartment per age class |
| ageclass5 |
Age-class model of population dynamics, using multiple-instance submodel |
| ageclass6 |
Age-class model of population dynamics, using a multiple-instance submodel and an association submod |
| animal1 |
Individual-based model of population dynamics with movement of individual animals |
| AntsWorld |
Animal movement and interaction with their environment |
| assoc_from_data1 |
Defining an association using a data file |
| ballberry1 |
Iterative solution to Ball-Berry stomatal conductance simultaneous equations (Simile V3+) |
| BallBerry4a |
Iterative solution to Ball-Berry stomatal conductance simultaneous equations (Simile V4+) |
| besn1 |
Simple teaching model of forest nitrogen dynamics |
| biome1 |
Biome model |
| biomewater1 |
Water submodel for the biome model (1) |
| biomewater2 |
Water submodel for the biome model (2) |
| branching1 |
3D tree branching model |
| broomgrass1 |
Broomgrass model, Zimbabwe |
| budworm1 |
Budworm population dynamics |
| century_gc_daily |
Century model (from Cadisch/Rowe): |
| century_gc_weekly |
Century model (weekly) (from Cadisch/Rowe) |
| chaos |
Population dynamics: single species: chaotic |
| cheeseman1 |
Physiologically-based model of plant resource dynamics |
| chemical1 |
Modelling chemical reactions: CO2 + H2O → Sugar and O2 |
| cogrowth1 |
S-shaped (logistic) growth of a company |
| cohort1 |
Skeleton cohort model |
| competition1 |
Lotka-Volterra two-species competition model |
| country_links1 |
Representing links between a number of countries, using an association submodel |
| daisyworld1 |
Daisy world |
| data_specified_assoc1 |
Data-specified association between two different submodels |
| data_specified_assoc2 |
Data-specified association between instances of the same submodel |
| dave1 |
Banker/broker/consumer multi-agent model |
| DegreeDays1 |
Simple degree-days model of temperature influence on development of plants and invertebrates |
| diffusion |
Individual particle based diffusion model |
| drainage1 |
Drainage pattern |
| edinburgh1 |
Urban model (trivial example) |
| embryo1 |
Embryo morphogenesis |
| feeding1 |
Food-web modelling: two trophic layers |
| flowers1 |
Area covered in “flowers” |
| flowers2 |
Area covered in “flowers” compared with logistic growth model |
| grace1 |
Multi-species competition model |
| gridspread1 |
Spatial diffsion over a grid: using an array to handle interactions between cells |
| hexagon |
Spatial diffsion over a hexagonal grid |
| hex_levels |
A hierarchy of hexagonal tilings |
| homeostasis1 |
Model of homeostatic regulation of body temperature |
| hunter1 |
Simple model of animal movement |
| indivpop1 |
Individual-based model of population dynamics |
| JarvisStomatalConductance |
Stomatal conductance by law of limiting functions after Jarvis |
| johad |
Johad model |
| labour_by_priority1 |
Allocating labour by task priority |
| lagrangian1 |
Lagrangian particle movement |
| lamos1 |
LAMOS: a Landscape Modelling Shell |
| landuse1 |
Land-use dynamics - demonstration model |
| Life |
Conway's Game of Life |
| marinecarbon1 |
Marine carbon dynamics |
| markov1 |
Elementary two-state Markov model of land-use dynamics |
| markov2 |
Spatial n-state Markov model of vegetation dynamics or land-use change |
| modmed1 |
ModMED n-species vegetation biomass dynamics |
| mono1 |
Mono Lake, California: 1st model |
| mono2 |
Mono Lake, California: 2nd model |
| mono3 |
Mono Lake, California: 3rd model |
| move1 |
Basic animal/particle movement model |
| Muller1-1a |
One-compartment mixing process |
| Muller1-1b |
Two-compartment mixing process |
| nprey_npred |
Predation rates in a multiple prey species/multiple predator species system |
| npv1 |
Project evaluation in cyclical markets |
| popdyn1 |
Population dynamics: single species: exponential: version 1 |
| popdyn2 |
Population dynamics: single species: age class: separate compartments |
| predator_prey32 |
Lotka-Volterra predator-prey model (Seppelt and Richter, 2005) |
| Primes |
Generating prime numbers: graphical programming with Simile |
| ranking1 |
Assigning rank order to the instances of a population submodel |
| respirationQ10 |
Model of plant dark respiration as an exponential function of temperature parameterised by Q10 |
| SolarRadiationDNDC |
Solar radiation incident at the earth's surface |
| SpatialOrg |
Multi-agent model for the quantitative study of Spatial Organization |
| super_x |
Population dynamics: single species: sexual reproduction |
| Thornthwaite |
Thornthwaite equation to estimate potential evaporation (PET) |
| vegproportions1 |
Dynamic changes in the proportion of vegetation in different states |
