1. Activity Scheduling and Control

2. Activity Scheduling & Control
• Input: MRP Manufacturing Orders (MO’s) Subject to Capacity Constraints, Not Purchase Orders (PO’s) • Plans Hit the Real World (the Shop Floor)

3. Activity Scheduling & Control
• Planning - Ensure Resources Available - Schedule Order Start & Completion Dates • Implementation - Gather Information Needed to Make Item - Dispatch (Release) Orders to Floor • Control (Feedback) - Rank Orders in Priority Sequence - Track Actual Performance vs. Plans - Monitor WIP, Queues, Lead Time, Etc. - Report Out – Input/Output Reports (p. 175)

4. Data Requirements - Planning
• Item Master File:
Part Numbers, Description, Lead Time, On Hand, On Order, Quantity Assigned to Work Center, Lot Sizes
• Product Structure or Bill of Materials File
• Routing File:
Series of Operations Along with Resources Needed, Set Up, Run Times, Lead Times
•Work Center Master File
Work Center Number, Capacity, Shifts, Machine and Labor Hours Available, Efficiency, Utilization, Queue Time, Alternate Centers

5. Data Requirements - Control
• Shop Order Master File (Each Order):
Shop Order Number, Order Quantity, Quantity Completed, Quantity Scrapped, Material Issued, Due Dates, Priority, Balance Due, Costs
• Shop Order Detail File (Each Operation):
Operation Number, Setup Hours, Run Hours, Quantity Completed, Quantity Scrapped, Due Date or Lead Time Remaining

6. Types of Manufacturing/Service Systems
• Intermittent (Job Shops)
- Traditional
- Work Cells
• Flow (Assembly Lines)
• Projects (SOM 466)

7. Job Shops • Design and Fabrication of Item Determines Job Shop Routing
• Different Items Can be Produced at the Same Job Center – Requires Worker and Machine Flexibility
• Design and Fabrication of Item Determines Job Shop Routing
• Capacity Required at Each Work Center Depends on Mix of Products. Hard to Predict
• Queues (Inventory) Results When Schedule Assigns too Many Jobs to Work Center – Throughput Times Generally Long

8. Job Shop Example

9. Work Cells
• Intermediate to Job Shops & Assembly Lines • Group of Machines to Make Set of Parts • Minimizes Distances, Related Handling Costs • Minimizes Inventories

10. Work Cell Example

11. Work Cell Example

12. Scheduling in Job Shops and Work Cells
• Forward Scheduling – Left to Right – Earliest Dates
• Backwards Scheduling – Right to Left – Latest Dates
• Infinite Loading – No Capacity Limits
• Finite Loading – Capacity Limits
• Operations Overlapping
• Operations Splitting

13. Scheduling in Job Shops and Work Cells: Shop Floor Control
Job Routing Red A(1), B (1), C (1) Green C (1), A (2) Purple B (1), A (1)
Work Center
1 PM
2 PM
3 PM
4 PM A B C R G G P
Gantt
Chart P R G R

14. Bottlenecks in Job Shops and Work Cells
• Establish Inventory Buffer Before Bottleneck
• Control Rate of Material Feed at Gateway Operation
• Try to Increase Capacity of Bottleneck
• Adjust Loads – Alternate Work Centers or Subcontract
• Last Resort – Change Schedule
• Use Goldratt’s “Theory of Constraints” (pp )

15. Sequencing Rules in Job Shops and Work Cells
• First – Come, First – Served (FCFS)
• Earliest Due Date (EDD)
• Earliest Operation Due Date (ODD)
• Shortest Process Time (SPT)
• Critical Ratio (CR) or Slack Rule
CR = (Due Date – Present Date) / Lead Time Remaining
Lowest CR Has Priority. CR < 1: Behind Schedule

16. Flow Manufacturing Assembly Lines
• Allows Mass Production • Repetitive Production of Standardized Products • Standard Flow Minimizes Inventories • Routings are Fixed. Work Centers Depend on Routing. • Capacity Fixed by the Assembly Line

17. Assembly Line Example

18. Scheduling Assembly Lines: Assembly Line Balance
Definitions:
Task or Operation – Smallest Definable Unit of Work (Circle)
Station – Work Area (Square)
Cycle Time – Time Allowed to Do a Cycle of Work 1/(Production Rate)

19. Assembly Line Balance: Assign Tasks to Stations

20. Example: Problem 3.6
Task Follows Time (Sec.) A B A 25 C A 20 D A 10 E B,C,D 15 F B,C,D 20 G E,F 10 Cycle Time = 35 Seconds

21. Assembly Line Balance
Theoretical Minimum Stations = Sum of Task Times / Cycle Time = 125 / 35 ≈ 4
Idle Time = (Stations X Cycle Time) - Sum of Task Times = (4 X 35) – 125 = 15

22. Assembly Line Balance: Assign Tasks to StationsD B C E F G
Idle: = 15

23. Assembly Line Balance Nightmare
Task Time(s)  Cycle Time
Solutions:
- Divide Task
- Decrease Task time
- Increase Cycle Time
- Parallel Stations