There are 5 repositories under cell-devs topic.
Urban growth simulates the development of land uses. Watch simulation video on YouTube: https://www.youtube.com/watch?v=0fdFDZ_4FDU&ab_channel=ARSLab
The model has to simulate the 3-D corrosion growth on metal.
Simulates a 3D model of the process of using chemical reaction between some special liquid and wafer to remove the part uncovered by the photoresist (wet etching).
The model simulates the emergency exit of passengers aboard an aircraft (a part of the Airbus A380) and is used to asses the impact of passenger delay at the exit.
Cell-DEVS models of the spread of Avian flu.
Used to model the adoption and diffusion of new products and technologies which then are used for market analysis and demand forecasting of new technologies.
To model and simulate the behaviors of pedestrians walking north and south from a room to a hall through a doorway.
To model and simulate the behaviors of pedestrians walking north and south in an area while avoiding obstacles and each other.
Cell-DEVS of the relationship between colonel growth and genet survival under spatially localized disturbances.
A model for market dynamic analysis, describing the dynamics of two types of markets consisting of consumers choosing among competing information products.
Simulates the effect of planetary life on the planet's climate. Together, black and white daisies come to a dynamic equilibrium that keeps the planet's temperature within a moderate range. Download model and sample simulations.
Transmission of signals at nerve cell terminals requires a complex sequence of interactions. One result is the docking of vesicles containing neurotransmitter at a specialized region of the cell membrane called the active zone. In a simple 2D Cell-DEVS, a fundamental sequence has been modeled which includes (i) opening of calcium ion channels, (ii) activation of calmodulin by calcium ions, (iii) activation of calcium-calmodulin-dependent protein kinase II by activated calmodulin, (iv) phosphorylation of synapsin by activated kinase and (v) release of synaptic vesicles held in a cluster by synapsin.
A ball bouncing in a pool table. Simulates diagonal motion on a square grid. For instance, a top left motion would result in a ball moving either up or to the left, with a bias towards which ever the angle of motion was closer to.
The Prisoner’s Dilemma CA model shows why two purely “rational” individuals might choose not to cooperate, even if it appears that it is in their best interests to do so.
A UAV’s target location probability modeled as a gradient terrain which has a diffusion function modeling increasing uncertainty. The UAV uses a hill climb algorithm to search this terrain.
Implementation of pandemics spread model defined Hoya 2002
Computes the parity bit using the value of its neighbors.
A Cell-DEVS for simulating HBV. The model has six compartments for representing each cell: Susceptible R cell (SR), Susceptible S cell (SS), Infected R cell (IR), Infected S cell (IS), Defectively infected cell (DI), and Dead cell (D).
A model representing the behavior of crowds in a metro station (documentation in Spanish).
The model involves the mapping of a 10×10 minefield using four robots. The individual robots are constrained to move about the minefield in order to scan the ground to detect the presence or absence of mines. It was assumed that the robots were in contact and were updating a common map of the minefield.
A 2-dimensional model, capable of deriving the incremental velocity of a mass under the influence of a spring and viscous damper model of a programmable microwave oven system, with buttons, alarm, etc.
Models of fixed and mobile Ad-hoc networks (networks without an infrastructure: there are no routers, switches, etc. Instead, each ad-hoc node can act as a router and forward data from one node to another).
The model simulates a cellular network and identifies the network coverage for each mobile user equipment at each position.
to find out the number of BSs which cover a mobile user in different location of an area have been considered.
Method of lines (MOL) is the method to solve the problem of Differential Equations Ordinary (ODEs) and partial differential equations (PDEs). This model is to sove ODEs system (as result of applying a MOL PDE) using the CD++ simulator.
A sample 4D model. Three 3D models interconnected. In one of them, the temperature is stored (as the average of its neighbourhood). Using the temperature value of a cell, the atmospheric pressure in the corresponding 3D plane is computed. There are also mosquitoes fly in the third 3D model (a mosquito dies if the cell's temperature is below 16ºC).
Simulates the behavior of a group of people following a leader (hide-and-seek game). People are hidden, and when found by the leader, they follow the leader and form a line behind them.
A simple radar system used to control air traffic in airports.
Model for tracking targets moving across a radar's area of interest.
A cellular automata for generating high quality random numbers.
A model of reaction and diffusion models in 3D.
A set of reconfigurable robots moving in the plane.
A model used to simulate the regulatory behaviour of skeletal muscle thin filaments. The model implemented simulates the interactions between the actin sites and a troponin sites.
A set of robots scanning a field, looking for damaged areas, and fixing the damage.