1. Chapter 14
Resource Planning

2. Enterprise Resource Planning (ERP)
Organizes and manages a company’s business processes by sharing information across functional areas
Connects with supply-chain and customer management applications
Largest ERP provider SAP

3. ERP’s Central Database
Finance & Accounting
Sales
& Marketing
Human Resources
Production & Materials Management
ERP Data Repository

4. ERP Implementation First step is to analyze business processes
Which processes have the biggest impact on customer relations?
Which process would benefit the most from integration?
Which processes should be standardized?

5. Customer Relationship Management (CRM)
Plans and executes business processes that involve customer interaction
Changes focus from managing products to managing customers
Point-of-sale data is analyzed for patterns used to predict future behavior

6. Supply Chain Management
Supply chain planning
Supply chain execution
Supplier relationships
Distinctions between ERP and SCM are becoming increasingly blurred

7. ERP and MRP
MRP (material requirements planning) was the precursor to ERP
Primarily a production planning and control system
MRP evolved to MRP II (manufacturing resource planning)
ERP and ERP II continue to extend the links through all business processes

8. Material Requirements Planning
Computerized inventory control & production planning system
Schedules component items when they are needed - no earlier and no later

9. When to Use MRP Dependent and discrete items Complex products
Job shop production
Assemble-to-order environments

10. Material Requirements Planning
Planned order releases
Work orders
Purchase orders
Rescheduling notices
Item
master
file
Product
structure
Master production schedule

11. Master Production Schedule
Drives MRP process with a schedule of finished products
Quantities represent production not demand
Quantities may consist of a combination of customer orders & demand forecasts
Quantities represent what needs to be produced, not what can be produced

12. Basic MRP Processes Exploding the bill of material
Netting out inventory
Lot sizing
Time-phasing requirements

13. MRP Outputs Planned orders
Work orders
Purchase orders
Changes to previous plans or existing schedules
Action notices
Rescheduling notices

14. Capacity Requirements Planning (CRP)
Computerized system that projects load from material plan
Creates load profile
Identifies underloads and overloads

15. Capacity Terms Load profile Capacity Utilization
Compares released and planned orders with work center capacity
Capacity
Productive capability; includes utilization and efficiency
Utilization
% of available working time spent working

16. More Capacity Terms
Efficiency – how well the machine or worker performs compared to a standard output
Load
The standard hours of work assigned to a facility
Load percent
The ratio of load to capacity Load % = (load/capacity)x100%

17. Capacity Requirements Planning
MRP planned
order
releases
Routing
file
Capacity
requirements
planning
Open
orders
Load profile for
each machine center

18. Initial Load Profile Hours of capacity Normal capacity Time (weeks)
Time (weeks)
Normal
capacity
120 –
110 –
100 –
90 –
80 –
70 –
60 –
50 –
40 –
30 –
20 –
10 –
0 –

19. Remedies for Underloads
Acquire more work
Pull work ahead that is scheduled for later time periods
Reduce normal capacity

20. Remedies for Overloads
Eliminate unnecessary requirements
Reroute jobs to alternative machines or work centers
Split lots between two or more machines
Increase normal capacity
Subcontract
Increase the efficiency of the operation
Push work back to later time periods
Revise master schedule

21. Adjusted Load Profile Hours of capacity Normal capacity Time (weeks)
Time (weeks)
Normal
capacity
120 –
110 –
100 –
90 –
80 –
70 –
60 –
50 –
40 –
30 –
20 –
10 –
0 –
Pull ahead
Push back
Overtime
Work an extra shift

22. Chapter 16
Scheduling

23. Scheduling
Specifies when labor, equipment, facilities are needed to produce a product or provide a service
Last stage of planning before production occurs

24. Scheduling by Process Type
Process Industry
Linear programming
EOQ with noninstantaneous replenishment
Mass Production
Assembly line balancing
Project
Project -scheduling techniques (PERT, CPM)

25. Objectives in Scheduling
Meet customer due dates
Minimize job lateness
Minimize response time
Minimize completion time
Minimize time in the system
Minimize overtime
Maximize machine or labor utilization
Minimize idle time
Minimize work-in-process inventory
Efficiency

26. Shop Floor Control
Scheduling and monitoring day to day production of a job
Loading - Check availability of material, machines & labor
Sequencing - Release work orders to shop & issue dispatch lists for individual machines
Monitoring - Maintain progress reports on each job until it is complete

27. Loading Allocate work to machines (resources)
Perform work on most efficient resources
Use assignment method of linear programming to determine allocation

28. Sequencing Prioritize jobs assigned to a resource
If no order specified use first-come first-served (FCFS)
Many other sequencing rules exist
Each attempts to achieve to an objective

29. Sequencing Rules FCFS - first-come, first-served
LCFS - last come, first served
DDATE - earliest due date
CUSTPR - highest customer priority
SETUP - similar required setups
SLACK - smallest slack
CR - critical ratio
SPT - shortest processing time
LPT - longest processing time

30. Critical Ratio Rule CR considers both time and work remaining CR = =
If CR > 1, job ahead of schedule
If CR < 1, job behind schedule
If CR = 1, job on schedule
time remaining due date - today’s date
work remaining remaining processing time
Ties scheduling to Gantt Chart or PERT/CPM
and project crashing

31. Sequencing Jobs Through Many Machines/Processes
Facility is dynamic, new jobs added
Develop global sequencing rules
First-in-system, first-served (FISFS)
Work-in-next-queue (WINQ)
Fewest # remaining operations (NOPN)
Slack per remaining operation (S/OPN)
Remaining work (RWK)
Study system via simulation

32. Monitoring Gantt Chart Input / Output Control
Shows both planned and completed activities against a time scale
Input / Output Control
Monitors the input and output from each work center

33. Advanced Planning and Scheduling Systems
Infinite - assumes infinite capacity
Loads without regard to capacity
Then levels the load and sequences jobs
Finite - assumes finite (limited) capacity
Sequences jobs as part of the loading decision
Resources are never loaded beyond capacity

34. Advanced Planning and Scheduling Systems
Advanced planning and scheduling (APS)
Add-ins to ERP systems
Constraint-based programming (CBP) identifies a solution space and evaluates alternatives
Genetic algorithms based on natural selection properties of genetics
Manufacturing execution system (MES) monitors status, usage, availability, quality

35. Theory of Constraints Not all resources are used evenly
Concentrate on the “bottleneck” resource
Synchronize flow through the bottleneck
Use process and transfer batch sizes to move product through facility

36. Theory of Constraints What to Change What to Change to
How to cause the change

37. Chapter 3 Quality Management Quality is a measure of goodness that is
inherent to a product or service.
Bottom line: perspective has to be from the
Customer – fitness for use

38. What Is Quality?
“The degree of excellence of a thing” (Webster’s Dictionary)
“The totality of features and characteristics that satisfy needs” (ASQ)
Fitness for use
Quality of design

39. Quality
Quality Management – not owned by any functional area – cross functional
Measure of goodness that is inherent to a product or service

40. FedEx and Quality
Digitally Assisted Dispatch System – communicate with 30K couriers
rule  1 – if caught and fixed as soon as it occurs, it costs a certain amount of time and money to fix  10 – if caught later in different department or location = as much as 10X cost  100 – if mistake is caught by the customer = as much as 100X to fix

41. Product Quality Dimensions
Product Based – found in the product attributes
User Based – if customer satisfied
Manufacturing Based – conform to specs
Value Based – perceived as providing good value for the price

42. Dimensions of Quality (Garvin)
Performance
Basic operating characteristics
Features
“Extra” items added to basic features
Reliability
Probability product will operate over time

43. Dimensions of Quality (Garvin)
Conformance
Meeting pre-established standards
Durability
Life span before replacement
Serviceability
Ease of getting repairs, speed & competence of repairs

44. Dimensions of Quality (Garvin)
Aesthetics
Look, feel, sound, smell or taste
Safety
Freedom from injury or harm
Other perceptions
Subjective perceptions based on brand name, advertising, etc

45. Service Quality Time & Timeliness Completeness Courtesy
Customer waiting time, completed on time
Completeness
Customer gets all they asked for
Courtesy
Treatment by employees

46. Service Quality Consistency Accessibility & Convenience Accuracy
Same level of service for all customers
Accessibility & Convenience
Ease of obtaining service
Accuracy
Performed right every time
Responsiveness
Reactions to unusual situations

47. Quality of Conformance
Ensuring product or service produced according to design
Depends on
Design of production process
Performance of machinery
Materials
Training

48. Quality Philosophers Walter Shewhart – Statistical Process Control
W. Edwards Deming
Joseph Juran – strategic and planning based
Armand Fiegenbaum – total quality control “entire business must be involved in quality improvement”

49. Deming’s 14 Points Create constancy of purpose
Adopt philosophy of prevention
Cease mass inspection
Select a few suppliers based on quality
Constantly improve system and workers
Institute worker training

50. Deming’s 14 Points Instill leadership among supervisors
Eliminate fear among employees
Eliminate barriers between departments
Eliminate slogans
Remove numerical quotas

51. Deming’s 14 Points Enhance worker pride
Institute vigorous training and education programs
Develop a commitment from top management to implement these 13 points

52. The Deming Wheel (or PDCA Cycle)
1. Plan
Identify the problem and develop the plan for improvement.
2. Do
Implement the plan on a test basis.
3. Study/Check
Assess the plan; is it working?
4. Act
Institutionalize improvement; continue the cycle.
Also known as the Shewart Cycle

53. Six Sigma
Quality management program that measures and improves the operational performance of a company by identifying and correcting defects in the company’s processes and products

54. Six Sigma Started By Motorola
Define
Measure
Analyze
Improve
Control
Made Famous by
General Electric
40% of GE executives’
bonuses tied to 6 sigma
implementation

55. Malcolm Baldrige National Quality Award
Category 3 – determine requirements, expectations, preferences of customers and markets
Category 4 – what is important to the customer and the company; how does company improve

56. Total Quality Management
Customer defined quality
Top management leadership
Quality as a strategic issue
All employees responsible for quality
Continuous improvement
Shared problem solving
Statistical quality control
Training & education for all employees

57. Strategic Implications of TQM
Quality is key to effective strategy
Clear strategic goal, vision, mission
High quality goals
Operational plans & policies
Feedback mechanism
Strong leadership

58. TQM in Service Companies
Inputs similar to manufacturing
Processes & outputs are different
Services tend to be labor intensive
Quality measurement is harder
Timeliness is important measure
TQM principles apply to services

59. Cost of Quality Cost of achieving good quality Prevention Appraisal
Planning, Product design, Process, Training, Information
Appraisal
Inspection and testing, Test equipment, Operator
Cost of achieving good quality
Prevention
quality planning, product design
process, training
information
Appraisal
inspection & testing
test equipment
operator
Cost of poor quality
Internal failure costs
scrap, rework
process failure & downtime
downgrading products
External failure costs
customer complaints
returns, warranty
product liability, lost sales 18

60. Cost of Quality Cost of poor quality Internal failure costs
Scrap, Rework, Process failure, Process downtime, Price-downgrading
External failure costs
Customer complaints, Product return, Warranty, Product liability, Lost sales
Cost of achieving good quality
Prevention
quality planning, product design
process, training
information
Appraisal
inspection & testing
test equipment
operator
Cost of poor quality
Internal failure costs
scrap, rework
process failure & downtime
downgrading products
External failure costs
customer complaints
returns, warranty
product liability, lost sales 18

61. Employees and Quality Improvement
Employee involvement
Quality circles
Process improvement teams
Employee suggestions

62. Cause-and-Effect Diagram
Quality
Problem
Out of adjustment
Tooling problems
Old / worn
Machines
Faulty
testing equipment
Incorrect specifications
Improper methods
Measurement
Poor supervision
Lack of concentration
Inadequate training
Human
Deficiencies
in product design
Ineffective quality
management
Poor process design
Process
Inaccurate
temperature
control
Dust and Dirt
Environment
Defective from vendor
Not to specifications
Material-
handling problems
Materials
Also known as Ishikawa Diagram or Fish Bone

63. Lots of Hoopla and no follow through
Hot House Quality
Lots of Hoopla and no follow through

64. ISO 9000:2000 Customer focus Leadership Involvement of the people
Process approach
Systems approach to management
Continual process improvement – GAO
Factual approach to decision making
Mutually beneficial supplier relationships

65. Implications Of ISO 9000 Truly international in scope
Certification required by many foreign firms
U.S. firms export more than $150 billion annually to Europe
Adopted by U.S. Navy, DuPont, 3M, AT&T, and others

66. ISO Accreditation European registration
3rd party registrar assesses quality program
European Conformity (CE) mark authorized
United States 3rd party registrars
American National Standards Institute (ANSI)
American Society for Quality (ASQ)
Registrar Accreditation Board (RAB)

67. Upcoming Events Final Exam in class in 2 weeks Presentations next week
Harley Papers by last week of class

68. Operations and Life
“I would rather attempt to do something great and fail than attempt to do nothing at all.”

69. In your next assignment remember the dead fish!
Zen and Operations Management
In your next assignment remember the dead fish!
Even a dead fish can swim down stream and give the illusion of progress!!!