Presentation is loading. Please wait.

Presentation is loading. Please wait.

World-Views of Simulation

Similar presentations


Presentation on theme: "World-Views of Simulation"— Presentation transcript:

1 World-Views of Simulation
Chapter 2 World-Views of Simulation

2 Chapter objectives Understand discrete event simulation
Be familiar with the theory behind the simulation process Understand the effective mechanism of discrete event simulation Explain the characteristics of simulation software tools

3 Chapter Content Chapter Overview System Modeling with DES
Elements of DES DES Functionality DES and Animation Mechanism Monte Carlo Simulation Continuous Simulation WITNESS world-views of simulation Chapter Summary

4 Computer Simulation A computer program to imitate the operation of a real-world system as it evolves over time Process simulation, which is used to model production and business processes, is referred to as Discrete Event Simulation (DES). Discrete event systems are dynamic and potentially complex systems that evolve in time by the occurrence of events at random time intervals in a stochastic manner

5 System Modeling with DES
By utilizing computer capabilities in logical programming, random number generation, fast computations, and animation, DES provides numerous powerful capabilities that facilitate realistic system representation and accurate performance estimation. DES models the structure, layout, data, logic, and statistics of the real-world system

6 Elements of System Modeling with DES

7 System Structure System “elements” which model relevant physical components such as resources, materials, flow lines, and infrastructure: Elements of a manufacturing system may include machines, labor, work pieces, conveyors, etc. Elements of a business system may include staff, customers, information flow, and operations The level of details put into model elements is dependent mainly on system nature and modeling objective: Basic and advanced graphical representations of model elements are used for animation purposes.

8 Examples of structural elements in a plant DES
Modeled structural element Impacted model performance Conveyor length Conveyor capacity Unit load dimensions Number of stacked units Buffer size Buffer capacity Length of aisles and walkways Walking distance and time Size of AGV Number of AGV carriers Length of monorail Carrier traveling time Dog spacing of power and free Power and free throughput Dimensions of storage units AS/RS storage and retrieval time

9 System Layout A system layout is simply the configuration of system structural elements. The system layout imported from a CAD file shows the modeler where to locate pieces of equipment, operators, pathways, repair units, storage units, loading/unloading docks, and so on. Interdepartmental distances and flow rates are of particular importance in simulating material handling systems such as forklifts, AGVs, and Conveyors.

10 System Data DES models of real-world systems are data-driven and pertinent system data is collected and imported into the model to mimic the operation of real-world systems. Developing a DES model requires the simulation analyst to precisely define what data elements are needed, the method of collecting such data, and how it will be represented and used in the DES model. Data collection systems (manual or automatic) are typically used to collect data, monitor and control operations, and generate management reports.

11 Data Collected at Various DES Elements
Modeled element Pertinent simulation data Machine Load, cycle, unload times, downtime data Conveyor Speed, capacity, type of accumulation Operator Walk speed, work sequence, walk path Buffer Capacity, discipline, input/output rules AGV Speed, acceleration/deceleration, route Power & free system Speed, dog spacing, chain length Part/load Attributes of size, color, route, mix

12 System Logic System logic is the set of rules, procedures, and controls that govern the model behavior and determine the flow of entities and the interaction of model elements. Designing model logic is, however, a relatively difficult and challenging task. Developing model logic is highly dependent on the programming capability of the used simulation language and the complexity of the underlying system

13 Examples of model logic
System Activity Model Logic Parts arriving to loading dock Sorting and inspecting scheme Requesting components Model mix rules Producing an order Machine scheduling rules Material handling Carrier routing rules SPC (statistical process control) Accept/reject/rework rules Machining a part Sequence of operation Forklift floor operation Driver dispatching rules AS/RS storage system AS/RS vehicle movement rules

14 System Statistics System statistics are means of collecting run time data from the model, aggregating collected values, and summarizing results at the end of simulation. At simulation end, these statistics are accumulated and generated as simulation outputs to provide a summary of model performance. Some of these statistics are automatically generated from simulation elements such as resources, buffers, and entities. Others can be user-defined using variables, tallies, and counters.

15 Examples of model Statistics
Measured Value Jobs produced per hour System throughput Percent of machine busy time Machine utilization Number of units in system Work-In-Progress level Time units spent in system Manufacturing lead time Number of defectives Process quality Number of machine failures Maintenance plan Number of units on a conveyor Conveyor utilization Number of units in a buffer Buffer utilization

16 System Resources A system resource represents the tool or the means by which model activities are carried out. Resources consume capital and should be utilized wisely. The utilization, which measures the percentage of resource usage, is optimized through better scheduling and resource allocation. Key factors that impact the performance of resources include capacity (limit), speed (productivity), and reliability (availability)

17 Examples of system resources
Manufacturing resources Service resources Machines and Machine Centers Doctors Operators and general labor Bank tellers Inspectors and quality controllers ATM machines Repairmen and maintenance crew Drivers Assembly stations and tools Operating rooms

18 DES system elements

19 DES Functionality

20 Example: Execution of a car arrival event


Download ppt "World-Views of Simulation"

Similar presentations


Ads by Google