Arena modeling Conceptual model can be converted into Arena model. Arena model: connected building...
Embed Size (px)
Transcript of Arena modeling Conceptual model can be converted into Arena model. Arena model: connected building...
- Slide 1
Arena modeling Conceptual model can be converted into Arena model. Arena model: connected building blocks. Building blocks must be parameterized. Arena interface demo Slide 2 Basic blocks Create / Process / Dispose building blocks. Slide 3 Adding resources Slide 4 Splitting transitions Seize two resources, release one when finished. Not directly possible in Arena: Seize Delay: seize and keep all Seize Delay Release: seize and return all. Implementation: split! Slide 5 Ferry implementation (ARENA) Split marked transitions. Add "case" class for A2B and B2A. Create once, do not dispose. Resources cannot be added. Slide 6 Parameterization Arena building blocks are parameterized. Default parameters are set when installing blocks. Resource consumption/production parameters inferred from conceptual model. Parameters to be added: - arrival distribution for create blocks (often negexp with a certain intensity), - duration for process blocks (sometimes 0 for blocks that result from splitting. Slide 7 Testing After model construction, animated simulation is done. Press button and observe. Correct syntax errors. Unexpected results: adapt or explain. If found correct, choose Run Setup, then Replication parameters tab. Select a moderate replication length and then press , wait until completion and examine the report. Standard report: queue lengths for resources, processing times for entities. Slide 8 Decide block Alternative paths: Slide 9 Assign block Assignment: - attributes (per entity) - variables (global) "ordinary" programming Slide 10 Other blocks In some cases, the simulation should report on special data (e.g. expressions involving attributes and variables). This can be achieved by including the Report block. Separate block is used for duplication of entities. Batch block is used for grouping entities. For other Arena blocks, see the Arena book W.D. Kelton, R.P. Sadowski, and D. Sturrock. Simulation with Arena, 3rd ed. McGraw-Hill, New York, 2004. Slide 11 Classwork A factory fabricates two types of products, X and Y and has (multiple) machines of types A,B and C respectively. Orders for product X have to pass through A and then C. Orders for Y have to pass through B and then C. The machine types A and B are different configurations of the same machine. It is possible to reconfigure a machine from type A into type B and vice versa. If no cases are waiting for resource A and the queue length for cases waiting for resource B exceeds N, a machine of type A is reconfigured to type B. If no cases are waiting for resource B and the queue length for cases waiting for resource A exceeds M, a machine of type B is reconfigured to type A. Give conceptual model and Arena implementation. Slide 12 Parameters interarrival times X,Y : 1.0, resp. 0.85 minutes. machines A, B and C available: 2, 2, 4 (initially). Processing duration: 1.6 minutes per A/B step and 1.8 minutes for any C step. Reconfiguration: 4 minutes (both A2B and B2A). Find most effective N, M.