-
Notifications
You must be signed in to change notification settings - Fork 1
Repast Symphony project for MAS
License
jimmyhlee94/ResourceGathering
Folders and files
Name | Name | Last commit message | Last commit date | |
---|---|---|---|---|
Repository files navigation
README - ResourceGathering Multi-Agent System Team Amirite? - Jimmy Lee - Brad Steiner - Sawyer Jager Framework: Repast Simphony Repast is an agent-based, open-source platform for modeling and simulating multi-agent systems. Source Files Included: Communicator.java Debugger.java Headquarter.java Message.jva ModelInitializer.groovy Resource.java ResourceGatheringBuilder.java ResourceSensor.java ResourceStyle.java Robot.java TestRobot.java Utility.java ModelInitializer.agent How to Run: Our project can be built and run using Repast Simphony version 2.2. To run, simply open the project in Eclipse and run the ResourceGathering Model. This will open the Repast Simphony GUI. From here, we have the option of changing global parameters, and running the simulation. To start, open the 'Run Options' tab and move the 'Schedule Tick Delay' to a value of 10 or more. This will slow the simulation down to observe the agents' behavior and prevent freezes. In the Parameters tab, you can adjust these parameters for different simulation outcomes. Next, press the 'Start' button to begin simulation of the system. Description of Simulation: The green ‘X’ in the middle represents the headquarters ship. The blue ‘+’s are the robot agents, and the red squares are the fuel resources. The robots search for fuel to bring back to the mothership. The fuel ranges in size small enough for one robot to carry or large enough that it needs all the robots to carry. The robots are able to sense fuel with sensors as well as communicate with limited range if they need help carrying a resource. Robots decide what action they will take based on a utility function. Robots also must return to HQ to refuel if their supply becomes low. This decreases the stored amount. Global Parameters: Communication Range - Integer How far the robots can broadcast out that they need help carrying a resource Default Random Seed Number used to generate random placement of resources Field Size - Integer How large the wraparound environment is Fuel Depletion Rate - Float How fast each robot’s fuel is consumed. Carrying uses the most fuel, followed by movements, followed by waiting. Full Tank Utility - Integer HQ Proximity Bonus - Integer Resource Proximity Bonus - Integer Resource Weight - Integer Resources - Integer How many resources are distributed across the map Robot Fuel Cap. The capacity of the robots fuel storage Robots How many starting robots there are Sensor Range How far away robots can detect resources Displays: The first display is a Task Allocation Graph. This shows how many robots are in each of the seven states. The seven states are: Assist Go help another robot with a resource Carry Carry a resource back to HQ Pursuit Go towards a resource detected with resource sensor Random Move in a random direction Refuel Go back to HQ to refuel Wait Stay by resource and broadcast out that help is needed Dead Fuel storage has run out. Can no longer function The second display shows the fuel levels. It displays the amount stored, the amount remaining in the environment, and the amount consumed.
About
Repast Symphony project for MAS
Resources
License
Stars
Watchers
Forks
Releases
No releases published
Packages 0
No packages published