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knowledge-based system for conceptual design
3. Aspen Process Economic Analyzer: economic evaluation
of process alternatives, sensitivity analysis, optimization.
4. Aspen Batch: batch process design and scheduling.
5. Aspen Custom Modeler: object-oriented environment for
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6. Aspen Process Optimization: steady state optimization
and dynamic optimization of processes.
7. Aspen PIMS: plant information management system.
8. Aspen Petroleum Supply Chain: supply chain modeling.
9. Aspen One: plant-wide real-time optimization.
10. Aspen InfoPlus.21: plant information management.
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FEATool Multiphysics is a fully integrated and easy to use Matlab Multiphysics PDE and FEM Finite Element Analysis simulation toolbox, featuring built-in support for heat transfer, computational fluid dynamics CFD, chemical and reaction engineering, and structural mechanics modeling and simulation.
Visit https://www.featool.com for more information.
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Computer aided process design and simulation (Cheg.pptxPaulosMekuria
knowledge-based system for conceptual design
3. Aspen Process Economic Analyzer: economic evaluation
of process alternatives, sensitivity analysis, optimization.
4. Aspen Batch: batch process design and scheduling.
5. Aspen Custom Modeler: object-oriented environment for
rigorous modeling of non-standard unit operations.
6. Aspen Process Optimization: steady state optimization
and dynamic optimization of processes.
7. Aspen PIMS: plant information management system.
8. Aspen Petroleum Supply Chain: supply chain modeling.
9. Aspen One: plant-wide real-time optimization.
10. Aspen InfoPlus.21: plant information management.
This document discusses computer architecture performance, including metrics like execution time, throughput, and instructions per cycle (IPC). It provides examples of calculating the cycles per instruction (CPI) for different instruction types and evaluating potential design changes based on their impact on CPI and overall performance. The principles of locality and Amdahl's Law, which states that speedups from parallelism are limited by the serial fraction of a program, are also covered.
This document discusses the process of planning and designing cellular manufacturing. It begins by explaining the three flows in manufacturing: information, material, and work. It then defines cellular manufacturing and lists some of its benefits. The document outlines several steps to plan cellular manufacturing, including understanding customer demand, identifying product families, balancing the line, establishing synchronized one-piece production, and designing the cell layout. It provides guidelines for effective cell layout, machine selection, material management, and operator line balancing. The goal is continuous flow and meeting takt time. The document analyzes an example production line and identifies opportunities to better utilize operators' time.
This document provides information on cellular manufacturing and designing cells. It discusses the three flows in manufacturing: information, material, and work flow. It defines cellular manufacturing and lists its benefits. The document outlines the problem with conventional layouts and provides guidelines for identifying product families and determining takt time. It presents the steps to plan cellular manufacturing, including process analysis and razing. Finally, it provides guidelines for cellular layout and questions to consider when designing cells to ensure optimized one-piece flow and continuous improvement.
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This document discusses facility layout and various layout types and planning techniques. It defines facility layout as determining the placement of departments, workgroups, workstations, machines, and stockholding points within a facility based on objectives, demand estimates, space requirements, and available space. The key types of layouts discussed are process layout, product layout, and group technology/cellular layout. Process layout groups machines by skills and departments, while product layout groups them by product flow. The document also covers layout planning techniques like CRAFT analysis, line balancing, and determining workstation assignments and cycle times.
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This document provides an overview of industrial engineering topics including line balancing, assembly lines, and progress control. It discusses types of assembly lines like single model, mixed model, and multi model lines. Line balancing aims to distribute work evenly across stations to minimize idle time. Methods like heuristic assignment are used. Progress control monitors production schedules and addresses delays to ensure schedules are met.
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For more information, visit GSES.com, email info@gses.com, and follow us on Twitter @GSESystems and Facebook.com/GSESystems. Thanks for viewing!
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This document outlines the schedule and content for an industrial engineering and supply chain management workshop. The workshop covers topics like production strategy, digital twins, product analysis, lean production, robotics, and includes presentations by student teams. The schedule includes sessions on workshop introduction, production strategy, recycling technology, product analysis, team implementation, robotics, and oral presentations. Students are instructed to bring laptops and present deliverables at the end of the workshop, including a commercial video, presentation, and defense of their project.
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Excel Lesson 5
Overview
Watch the Excel Lesson 5 Video
Using the L5_Titan_Inventory_Summary Excel file, complete the worksheet using the instructions
below saving it as “firstName_lastName_L5_Titan_Inventory_Summary”.
Complete the Lesson 5 Quiz using the completed worksheet.
Upload the competed “firstName_LastName_L5_Titan_Inventory_Summary” to the “Lesson 5 Excel
Submission Link”.
Objectives
1. Duplicate spreadsheets.
2. Consolidate data using 3-D referencing.
3. Highlight data using conditional formatting.
Lesson Instructions
Background: You will be completing a Summary Inventory worksheet for the Titan Off-Campus Shops based
on focused product inventories of individual stores. You will also be highlighting inventory values that fall
below acceptable amounts. The workbook you will use is the L5_Titan_Inventory_Summary file. This
workbook contains inventory worksheets for individual stores (which are complete and you will leave alone),
and a Focused Products Inventory sheet for one of the stores (which you will use). Open the file and
complete the following instructions. (Note: when no specific cell reference is given, you are to use your best
judgment based upon how the worksheet is set up for you to decide what cells are involved or where a result
should be placed.)
1. Re-save the file to either your desktop or other storage device using the name
“firstName_lastName_L5_Titan_Inventory_Summary”. (Note firstName and LastName are your own
first and last names).
2. Create three additional “Focused Products” worksheets, one for the Placentia Store , one for the
Harbor Store, and one to be used as a summary, by making copies of the “Focused Products –
Chapman” worksheet.
3. Correct the new worksheets subtitles by replacing the words “Chapman Store”, to “Placentia Store”,
“Harbor Store”, and “Summary” respectively. Also, re-name the worksheet tabs to “Focused Products
– Placentia”, and “Focused Products – Harbor”, and “Focused Products-Summary”.
4. Re-order the four “Focused Products” worksheets so that the Summary is first, followed by Chapman,
then Harbor, and finally Placentia.
5. Replace the inventory quantities on the Focused Products – Harbor, and Focused Products – Placentia
sheets to the values below.
Lesson 5, P a g e | 2
Harbor Placentia
Sweatshirts - Standard 38 16
Sweatshirts - Premium 3 2
Baseball Hats 14 19
T-Shirts Standard 20 2
T-shirts Premium 31 29
Sweatpants 21 23
Shorts 2 3
Mugs 18 13
6. On the Focused Products – Summary sheet, replace the quantity for Sweatshirts-Standard (cell C4),
with a 3-D reference function which adds up the quantities of the three “Focused Products” sheets.
On the Summary sheet, copy this formula down for ...
How to use TAU for Performance Analysis on Summit SupercomputerGeorge Markomanolis
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Computer Fundamentals & Intro to C Programming module iAjit Nayak
Introduction to Computers
Evolution of Computers
Computer Generations
Basic Computer Organization
Memory Hierarchy
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Computer Software
Planning Computer Program
Introduction to C programming
Structure of C Programming
Datatype
Constant
Variable
Expression
Conditional Expression
Precede
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The document provides information on liquid-based rapid prototyping systems, specifically Stereolithography Apparatus (SLA). It describes the SLA process which involves using a UV laser to cure liquid photopolymer resin layer-by-layer to produce a 3D object. Key aspects covered include the working principle, use of photopolymers and laser scanning, applications such as models and prototypes, and advantages like good accuracy and surface finish. Disadvantages mentioned are the need for support structures.
The document discusses customer journey maps, personas, and empathy maps. A customer journey map traces a customer's interactions, decisions, and emotions throughout the product acquisition process. It is completed for representative personas within each market segment. An empathy map follows the thoughts, feelings, pains, and gains of potential customers to help select product features and identify emotional connections to the product. The empathy map has four quadrants addressing what customers think/feel, hear, see, and say/do, with examples provided.
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Excel Lesson 5
Overview
Watch the Excel Lesson 5 Video
Using the L5_Titan_Inventory_Summary Excel file, complete the worksheet using the instructions
below saving it as “firstName_lastName_L5_Titan_Inventory_Summary”.
Complete the Lesson 5 Quiz using the completed worksheet.
Upload the competed “firstName_LastName_L5_Titan_Inventory_Summary” to the “Lesson 5 Excel
Submission Link”.
Objectives
1. Duplicate spreadsheets.
2. Consolidate data using 3-D referencing.
3. Highlight data using conditional formatting.
Lesson Instructions
Background: You will be completing a Summary Inventory worksheet for the Titan Off-Campus Shops based
on focused product inventories of individual stores. You will also be highlighting inventory values that fall
below acceptable amounts. The workbook you will use is the L5_Titan_Inventory_Summary file. This
workbook contains inventory worksheets for individual stores (which are complete and you will leave alone),
and a Focused Products Inventory sheet for one of the stores (which you will use). Open the file and
complete the following instructions. (Note: when no specific cell reference is given, you are to use your best
judgment based upon how the worksheet is set up for you to decide what cells are involved or where a result
should be placed.)
1. Re-save the file to either your desktop or other storage device using the name
“firstName_lastName_L5_Titan_Inventory_Summary”. (Note firstName and LastName are your own
first and last names).
2. Create three additional “Focused Products” worksheets, one for the Placentia Store , one for the
Harbor Store, and one to be used as a summary, by making copies of the “Focused Products –
Chapman” worksheet.
3. Correct the new worksheets subtitles by replacing the words “Chapman Store”, to “Placentia Store”,
“Harbor Store”, and “Summary” respectively. Also, re-name the worksheet tabs to “Focused Products
– Placentia”, and “Focused Products – Harbor”, and “Focused Products-Summary”.
4. Re-order the four “Focused Products” worksheets so that the Summary is first, followed by Chapman,
then Harbor, and finally Placentia.
5. Replace the inventory quantities on the Focused Products – Harbor, and Focused Products – Placentia
sheets to the values below.
Lesson 5, P a g e | 2
Harbor Placentia
Sweatshirts - Standard 38 16
Sweatshirts - Premium 3 2
Baseball Hats 14 19
T-Shirts Standard 20 2
T-shirts Premium 31 29
Sweatpants 21 23
Shorts 2 3
Mugs 18 13
6. On the Focused Products – Summary sheet, replace the quantity for Sweatshirts-Standard (cell C4),
with a 3-D reference function which adds up the quantities of the three “Focused Products” sheets.
On the Summary sheet, copy this formula down for ...
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TAU is a performance analysis toolkit for profiling and tracing parallel applications. It instruments applications through compiler wrappers or dynamic instrumentation to collect timing and hardware counter metrics. TAU's Paraprof tool visualizes profiling data in call graphs, bar charts, and 3D views to identify hotspots and load imbalances. This document provides steps for compiling, executing, and analyzing a miniWeather MPI application using TAU and Paraprof.
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Evolution of Computers
Computer Generations
Basic Computer Organization
Memory Hierarchy
I/O devices
Computer Software
Planning Computer Program
Introduction to C programming
Structure of C Programming
Datatype
Constant
Variable
Expression
Conditional Expression
Precede
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Our services include:
Crane Rental: Whether you need a crawler crane for heavy lifting or a hydraulic crane for versatile operations, we have a diverse fleet of well-maintained cranes available for rent. Our rental options are flexible and can be customized to suit your project requirements.
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EV Charging at MFH Properties by Whitaker JamiesonForth
Whitaker Jamieson, Senior Specialist at Forth, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Charging Fueling & Infrastructure (CFI) Program Resources by Cat PleinForth
Cat Plein, Development & Communications Director of Forth, gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
Dahua provides a comprehensive guide on how to install their security camera systems. Learn about the different types of cameras and system components, as well as the installation process.
Understanding Catalytic Converter Theft:
What is a Catalytic Converter?: Learn about the function of catalytic converters in vehicles and why they are targeted by thieves.
Why are They Stolen?: Discover the valuable metals inside catalytic converters (such as platinum, palladium, and rhodium) that make them attractive to criminals.
Steps to Prevent Catalytic Converter Theft:
Parking Strategies: Tips on where and how to park your vehicle to reduce the risk of theft, such as parking in well-lit areas or secure garages.
Protective Devices: Overview of various anti-theft devices available, including catalytic converter locks, shields, and alarms.
Etching and Marking: The benefits of etching your vehicle’s VIN on the catalytic converter or using a catalytic converter marking kit to make it traceable and less appealing to thieves.
Surveillance and Monitoring: Recommendations for using security cameras and motion-sensor lights to deter thieves.
Statistics and Insights:
Theft Rates by Borough: Analysis of data to determine which borough in NYC experiences the highest rate of catalytic converter thefts.
Recent Trends: Current trends and patterns in catalytic converter thefts to help you stay aware of emerging hotspots and tactics used by thieves.
Benefits of This Presentation:
Awareness: Increase your awareness about catalytic converter theft and its impact on vehicle owners.
Practical Tips: Gain actionable insights and tips to effectively prevent catalytic converter theft.
Local Insights: Understand the specific risks in different NYC boroughs, helping you take targeted preventive measures.
This presentation aims to equip you with the knowledge and tools needed to protect your vehicle from catalytic converter theft, ensuring you are prepared and proactive in safeguarding your property.
Expanding Access to Affordable At-Home EV Charging by Vanessa WarheitForth
Vanessa Warheit, Co-Founder of EV Charging for All, gave this presentation at the Forth Addressing The Challenges of Charging at Multi-Family Housing webinar on June 11, 2024.
Charging and Fueling Infrastructure Grant: Round 2 by Brandt HertensteinForth
Brandt Hertenstein, Program Manager of the Electrification Coalition gave this presentation at the Forth and Electrification Coalition CFI Grant Program - Overview and Technical Assistance webinar on June 12, 2024.
3. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Training plan
4
Modeling libraries
Download link for appendices to training:
https://drive.google.com/file/d/1s0ZmfRLh6kj4
Aj6MPTKfztHcKk4dcWwz/view?usp=sharing
4.1
Fixed resources
4.2
Mobile resources
4.3
Trajectories of movement
4.4
Conveyors
4.5
Warehouse modeling
Outside the school, you
can download the demo
Flexsim Express:
https://drive.google.com/fil
e/d/1-
LObRDUcY6lVgqk102WB
2_Wi-
g5c7fhZ/view?usp=sharing
5. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Need help?
• On an object
» right click on the object then
• On the properties of an object
» hover the mouse over a parameter field
» in the properties, click on the button
• direct access to the user manual on the relevant section
• On a function
» click on the function and press F1
6. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Source
• Product creation
» box, pallet, crate... but also man/woman, truck...
• Parameterization of the arrivals with the choice:
» an inter-arrival time (Inter-Arrival Time)
» a planning of the arrivals (Arrival Schedule)
» a sequence of arrivals (Arrival Sequence)
7. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Product storage
» maximum capacity
• Product placement
» within the zone
» stack vertically
» horizontal line
• Optional
» LIFO = Last In First Out
» batching (Perform Batching)
Queue
8. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Processor
• Maximum product capacity
• Animation
» the products advance on the machine during the
operating time
• Deadlines
» set-up time (Setup Time)
• use an operator
» operating time (Process Time)
• use an operator
10. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Creation of a straight conveyor
• By drag and drop in the 3D view
• Or quick creation mode
» 1 left click on Conveyor
» in the 3D view the cursor has a new appearance:
• 1 left click to define the beginning of the conveyor
• 1 left click to define the end of the conveyor
• and so on to create several conveyors
» to exit the quick creation mode, right click in the view or key
• Same method to create a curved conveyor
Echap
11. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Visual rendering of conveyors
• By default
» 3D rendering mode with feet, rollers...
• Simplified rendering
» select a conveyor, right click on the button
• tab General, uncheck Draw Render Mode
» more convenient to see the direction of conveyance.
13. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Length & direction
» click on one end and drag in the chosen direction
» button for reversing the conveying direction OR
• Slope
» click on one end then up/down with the wheel
Resizing a conveyor
Flexsim 2020 version
Flexsim 2021 version
14. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Changing the radius with the mouse
» click on the arrow and drag in the chosen direction
• Properties
» radius
» starting angle
» angle of curvature
Radius & angle of a curved conveyor
15. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• To create a turn between 2 conveyors
» 1 left click on Join Conveyors
» click on the 1st conveyor, then the 2nd
» To exit the join mode, right click or key
• Modification of the radius
» automatically adapts the length of the connected conveyors to the turn
Join Conveyors
Echap
16. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• 4 types of transfers
• Creation
» lateral & inline transfer
• simply by bringing 2 conveyors together
» transfer in/out
• with the key from/to a fixed resource
Transfers
A
entrée sortie
latéral
en ligne
17. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Model 2
• Description
» the pieces arrive at intervals of about 30 s (exponential law)
» 4 types of pieces arrive in the following proportions: 20% type 1, 30% type 2, 40% type 3, 10% type 4
» there are 4 machines, one for each type of part
» after machining, the parts are put on hold to be controlled. The duration of the inspection is constant: 10
seconds. If the quality of the part is good, it leaves this workshop. Defective parts (10%) are sent back to
production to be rectified.
» The machining times are identical for all machines: uniform (100, 120). For a defective part to be ground,
the machining time is longer: uniform (120, 130).
» defective parts have priority over other parts
• Question
» Where is the bottleneck? How can it be solved?
19. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Triggers
• Triggers are events
» examples of triggers on a machine
• at the end of the setting (On Setup Finish)
• at the end of the process (On Process Finish)
• at the entrance of a product (On Entry)
• to the output of a product (On Exit) ...
• Goal
» customize the logic when the selected event is triggered
• example: colorize a product when the process is finished
23. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Variables current and item
• current
» the variable current is a reference to the resource on which the event is triggered
• item
» the variable item is a reference to the product that triggers the event
• Examples
» trigger On Process Finish » Loading On Load
current
item
item
current
24. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Syntax: objet.label_name
» example: item.Type
• returns the value of the Type label on the part (item)
Read a label
item
item.Type
returns 1 in this example
item
item.Type
returns 4 in this example
25. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
FlexSim color code
• Methode Color.fromPalette
» returns a single color based on a numeric value
» for values above 16, a unique color is generated based on an algorithm
1 2 3 4
5 6 7 8
9 10 11 12
13 14 15 16
27. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Which output port to send the product through?
» parameter Send to Port
• Default flow rule
• First available port (First available)
• Other available options
» To the shortest queue (Shortest Queue)
» Randomly (Random) by percentage (By Percentage)
» etc.
Downstream flow
?
28. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Routing according to part type
• Choose an output port
» according to the type of product (Port By Case)
• type 1 on machine 1
• type 2 on machine 2
• etc.
» check that the output ports are in the right
order!
29. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Defective parts
• Reminder statement
» 10% of the parts are defective and sent back to production to be
rectified
» choose and set the right option in the flow out of the control
station
• How to mark the defective parts?
» in the rest of the model, the defective parts have specific
properties (priority, longer machining time), so it is necessary to
store the defect information on these parts
» the answer: use a label !
31. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Create a label on the parts
• Initialization of labels
» open the product list (FlowItem Bin)
» add labels on the entity Box
• Modification of the label value on the
defective stock (stock 3)
» after the control, change this label to 1
• 0 = not defective, 1 = defective
• Bonus: change the shape into a cylinder
33. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
» select all the machines with the key
» edit the process time
» the new process time is applied to all selected machines
Machining time
• Longer for defective parts
if item.defective is equal to 1
if item.defective is equal to 0
Ctrl
35. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Model 2 - Answers
• Where is the bottleneck?
» saturation of the use of machines 2 and 3
» consequence: accumulation of type 2 and 3 parts in stock
• How can it be reduced?
» improve the quality of the parts? Not enough
» increase the capacity of the bottleneck stations
42. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Model 3
• Objective
» learn how to use an operator to perform a transport
• Description
» inter-arrival and default process time (10 s)
» the operator transports the products from the stock to the machine
» ask the operator to return to the stock when it is available
• Layout
43. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Configure the Source
» Modify the inter-arrival time of the source
(10 sec)
Set the parameters for the arrival of products and the process time on the
machine
• Configure the Processor
» Modify the process time of the
processor (machine) (10 sec)
44. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Method
» create a central connection between the stock and the operator
» select the stock and check Use Transport
• by default, the resource used for transport is the object connected to the central port n°1 of the stock,
designated by the expression current.centerObjects[1]
Transport by a mobile resource
S
45. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Method
» when the operator is available = trigger On Resource Available
• ask the operator to go "home": Travel to a Home Location
• by default the "home" is the object connected to the central port n°1 of the operator, in this case the
stock
Back to stock
46. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Conveyor exit
• Addition of a 2nd operator
» to evacuate the products from the conveyor
• Method
» create a central connection between the
conveyor output transfer and the operator
» edit the properties of the output transfer
» check Use Transport
S
output transfer
edit properties
Flexsim 2020 version
Flexsim 2021 version
47. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Dispatcher
• Receives missions (transport, adjustment...) and delegates them to mobile
resources
» to whom to hand over the mission? (Pass To)
• to the 1st available resource (First Available)
• to the closest resource (Shortest Distance)
• Round Robin...
» mission queue strategy (Queue Strategy)
• order by priority level (Sort by TaskSequence Priority)
• no scheduling: FIFO (First In First Out)...
48. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Connect a dispatcher
• Method
» create a central connection between the stock
and the dispatcher
» create a connection from the dispatcher to the
operators with
S
A
A
S
A
attention to the way
• Role of the connections
» the stock sends a transport request to the dispatcher
» then the dispatcher sends this request to one of the 2 operators
49. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Model 4
• Objective
» learn to use a team of operators
• Description
» save a copy of the previous template (menu File > Save As...)
» add 2 stations
» inter-arrival 5 s (exponential law), default process time 10 s
» one operator is not enough to supply all the stations, so we add an operator
• Layout
50. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
TaskExecuter
• Similar to an AGV (Automated Guided Vehicle)
» driverless vehicle with automatic guidance
• Properties similar to the operator
» transport capacity
» loading time
» unloading time
» displacement
• vitesse maximale
• accélération
• décélération
51. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Transporter
• Forklift truck
• Properties similar to the operator
» transport capacity
» loading time
» unloading time
» displacement
• maximum speed
• acceleration
• deceleration
• Specific parameter
» speed of ascent of the forks
53. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Robot
• 6-axis robot
» travel time (Move Time)
• duration of movement from the pick-up location to the drop-off
location, and the same duration for the return
» transport capacity
» loading time
» unloading time
54. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Crane
• Bridge crane
» movement sequence
• hoist raising
• moving the gantry and the trolley
• lowering of the hoist
» max speed, acceleration/deceleration
• Gantry
• Trolley
• Hoist gantry
trolley
hoist
56. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Objective
» practice with the use of mobile resources for transportation
• Description
» import the provided dwg drawing
» flow chart
» leave all settings at default (speed, etc)
Model 5
z = 1m z = 3m
central port of the output transfer, not the conveyor
A
S
57. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Background
» add via the toolbar
• Compatible formats
» plan AutoCAD: dwg or dxf
» image: png, jpg ou bmp
• Tip
» put yourself in top view and deactivate the
perspective to work on the plan
Import a background
60. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Follow an object
• Method
» in the 3D view properties, section Follow Object, take the dropper and click on the object
to follow
• Stop the follow-up
» click on to stop following the object
61. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
• Video Recorder
• If message Unable to record
» adjust the Windows display settings to
100% and restart FlexSim
Video recording
frames per second →
resolution →
sequence →
start →
end →
speed →
view to capture →
flypath →
62. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Combiner
• Role
» grouping of products
• Example: putting packages on a pallet
» pay attention to the order of the connections:
• input port n°1: pallet
• input port n°2: packages
» quantities to be grouped
• input port n°1: by default 1 pallet
• input port n°2: defined in the component list (Components
List)
1
2
63. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Separator
• Role
» separate products
• Example: depalletize
» all content (Entire Contents) of the pallet is
unloaded
» default routing (Default Separator Option):
• output port n°1: the pallet (Container)
• output port n°2: packages (Contents)
64. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
Model 6
• Description
» the products arrive at intervals of about 10 s (exponential law)
» there are always 4 pallets available in the warehouse
» an operator takes a pallet to the combiner and loads 4 products on the pallet
» a forklift operator transports the full pallets to a depalletizing station (Separator)
» an operator unloads the 4 products from the pallet onto a conveyor, and then transports the empty pallet to
an exit
68. EENG-PPT/T-SPEISCM-34
Implementation: Tutorial
End of the training... and after?
• Ways to continue to progress
» in autonomy
• tutorials: menu Help > User Manual
• forum: answers.flexsim.com
» in accompaniment
• technical support: support@flexsim.fr, +33 (0)9 70 406 405
● Tutoriel 21.0: https://tutoriels.flexsim.fr/21.0/
● Tutoriel 21.1: https://tutoriels.flexsim.fr/21.1/