You are required to model with a simulation, to assess feasibility and efficiency, a car production final
assembly facility to be entirely staffed by autonomous robot agents.
The car bodies, chasses, engines and interiors are delivered to separate store rooms in the final
assembly facility at regular intervals. Carrier robots distribute the components to the relevant fitting
areas. Initially carrier robots collect a chassis from the chassis store and deliver it to engine fitting
robot agents, who fit the engine to the chassis. The engine/chassis is then transported to the body
fitting robot agents, by the carrier robot agents, who fit the car body to the engine/chassis. The carrier
agents then take the car body with the chassis and engine fitted to the interior fitting agent. The
completed car is then taken, by the carriers, to a storage area and from there loaded onto vans and
taken to another facility for further processing.
The engine, body and interior fitters are stationary and are maintained with power through a
continuous fixed connection. Robots, which transport, use 1 unit of energy when travelling unladen
and 2 units when transporting anything per simulation cycle. When their energy level becomes low
robots must return to a robot room to recharge. They recharge at a rate of 5 units per simulation
The engine fitters take 7 simulation cycles to fit the engine to the chassis, whilst the body fitters and
interiors fitters each take 5 simulation cycles.
You should fully specify each agent in the scenario and design a solution for this factory, which you
then go on to implement in a NetLogo simulation. Your simulation should allow for the most efficient
route through the factory, in time or quality, while minimizing the idleness of the agents. You can
design your factory in any way you think would be the most efficient.
You should include a report on your agent specifications and factory design as well as a description
of your factory simulation.
1. Design and describe your factory environment and agents
2. Describe how your agents gather knowledge and reason on that knowledge
3. Describe the rules your agents use to operate
4. Implement your solution in NetLogo
5. Evaluate the efficiency and utility of your factory
3 freelances font une offre moyenne de 212 £ pour ce travail
I am automotive engineer and simulation expert I can do Intelligent Factory Simulation of car manufacturing system Please send details of work
Interested. Intelligent factory stimulation. Hi i am an Senior 3D modelling Expert. As 9+ years experiences in these field. I can give good quality work. I have read the guidelines of your work.I believe that i can p Plus
- previous experience in such topics; - eager to discuss a lot in this chat stream; - degree stats / maths;