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Planning%20Demand%20and%20Supply%20in%20a%20Supply%20Chain

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Title: Supply Chain Coordination Author: Comtech_NB Last modified by: NTU Created Date: 5/31/2001 12:17:55 PM Document presentation format: A4 (210x297 ) – PowerPoint PPT presentation

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Title: Planning%20Demand%20and%20Supply%20in%20a%20Supply%20Chain


1
Planning Demand and Supply in a Supply Chain
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Chain
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1
2
Outline
  • Part I Aggregate planning
  • Part II Managing predictable variability

2
3
Aggregate Planning
  • A process by which a company determines levels of
    capacity, production, subcontracting, inventory,
    stockouts, and pricing to maximize the firms
    profit over the planning horizon (3-18 months)
    given the demand forecast for each period.
  • Focus on aggregate decisions rather than SKU
    level decisions.
  • Identify operational parameters
  • Production rate
  • Workforce
  • Overtime
  • Machine capacity level
  • Subcontracting
  • Backlog
  • Inventory on hand

3
4
Information Required for Aggregate Planning
  • Demand forecast for each period in the planning
    horizon
  • Production costs
  • Labor/machine hours required per unit
  • Inventory holding cost
  • Stockout or backlog cost
  • Constraints limits on overtime, layoffs,
    capital, stockouts/backlogs
  • Labor costs regular time and overtime costs
  • Subcontracting cost
  • Cost of changing capacity hiring/laying off
    labor, machine capacity change

4
5
Aggregate Planning
Determinations
  • Production quantity from regular time, overtime,
    and subcontracted time
  • Inventory held
  • Backlog/stockout quantity
  • Workforce hired/laid off
  • Machine capacity increase/decrease

Tradeoffs
  • Capacity (regular time, overtime, subcontracted)
  • Inventory
  • Backlog/lost sales

5
6
Basic Strategy
Chase Strategy
  • Use capacity as the lever
  • Production rate synchronized with demand rate by
    varying capacity of employee and machine
  • Result in low inventory and high level of change
    in capacity and workforce
  • Used when the cost of carrying inventory is very
    expensive and cost to change levels of capacity
    and workforce are low

6
7
Basic Strategy
Time Flexibility from Workforce or Capacity
Strategy
  • Use utilization as the lever
  • Workforce is kept stable but the number of hours
    worked is varied over time
  • Result in low inventory and lower average
    utilization
  • Used when inventory carrying cost are high and
    capacity is inexpensive

7
8
Basic Strategy
Level Strategy
  • Use inventory as the lever
  • Stable machine capacity and workforce are
    maintained with a constant output rate
  • Result in large inventory and backlogs
  • Used when inventory carrying costs and backlog
    costs are low

8
9
Scenario 1 Aggregate Planning at Red Tomato Tools
Month Demand Forecast
January 1,600
February 3,000
March 3,200
April 3,800
May 2,200
June 2,200
Microsoft Office 2010?????
9
10
Costs for Red Tomato
Item Cost
Material cost 10/unit
Inventory holding cost 2/unit/month
Marginal cost of stockout/backlog 5/unit/month
Hiring and training costs 300/worker
Layoff cost 500/worker
Labor hours required 4/unit
Regular time cost 4/hour
Overtime cost 6/hour
Cost of subcontracting 30/unit
10
11
Red Tomato
  • Sell gardening tool which is highly seasonal
  • Peak in spring
  • Main capacity is size of workforce
  • Sell each tool at 40
  • Starting inventory in January is 1000 tools
  • Starting employees in January is 80 persons
  • The plant has a total of 20 working days/month
    and 8 regular hours/day
  • Ending inventory is 500
  • All demand must be satisfied no stock out in the
    last period

11
12
Costs for Red Tomato
Item Cost
Material cost 10/unit
Inventory holding cost 2/unit/month
Marginal cost of stockout/backlog 5/unit/month
Hiring and training costs 300/worker
Layoff cost 500/worker
Labor hours required 4/unit
Regular time cost 4/hour
Overtime cost 6/hour
Cost of subcontracting 30/unit
12
13
Aggregate Planning Model
Define Decision Variables
Wt Workforce size for month t, t 1, ...,6 Ht
Number of employees hired at the beginning of
month t, t 1, ...,6 Lt Number of employees
laid off at the beginning of month t, t 1,
...,6 Pt Production in month t, t 1, ...,6 It
Inventory at the end of month t, t 1,
...,6 St Number of units stocked out/backlogged
at the end of month t, t 1, ...,6 Ct Number
of units subcontracted for month t, t 1,
...,6 Ot Number of overtime hours worked in
month t, t 1, ...,6
13
14
Define Objective Function
Since all demands is met, revenue is
fixed maximizing profit minimizing cost
14
15
Define Constraints
  • Workforce size for each month is based on hiring
    and layoffs
  • Production for each month cannot exceed capacity
  • Inventory balance for each month
  • Overtime limit for each month

15
16
Define Constraints
  • Workforce size for each month is based on hiring
    and layoffs
  • Production for each month cannot exceed capacity
  • Inventory balance for each month
  • Overtime limit for each month

16
17
Define Constraints
  • Workforce size for each month is based on hiring
    and layoffs
  • Production for each month cannot exceed capacity
  • Inventory balance for each month
  • Overtime limit for each month

17
18
Define Constraints
  • Workforce size for each month is based on hiring
    and layoffs
  • Production for each month cannot exceed capacity
  • Inventory balance for each month
  • Overtime limit for each month

18
19
Aggregate Planning Model
Define Decision Variables
Wt Workforce size for month t, t 1, ...,6 Ht
Number of employees hired at the beginning of
month t, t 1, ...,6 Lt Number of employees
laid off at the beginning of month t, t 1,
...,6 Pt Production in month t, t 1, ...,6 It
Inventory at the end of month t, t 1,
...,6 St Number of units stocked out/backlogged
at the end of month t, t 1, ...,6 Ct Number
of units subcontracted for month t, t 1,
...,6 Ot Number of overtime hours worked in
month t, t 1, ...,6
19
20
Defining Constraints
208160 hrs
160
4 hours/unit
4
Net supply in current period
Net supply in previous period
Supply
Demand
20
21
Evaluation of Performance
  • Average inventory
  • Average flow time

Littles law average flow time average
inventory / throughput
21
22
Evaluation of Performance
  • Average inventory
  • Average flow time

Littles law average flow time average
inventory / throughput
22
23
EXCEL-DEMO
Wt Workforce size for month t, t 1, ...,6 Ht
Number of employees hired at the beginning of
month t, t 1, ...,6 Lt Number of employees
laid off at the beginning of month t, t 1,
...,6 Pt Production in month t, t 1, ...,6 It
Inventory at the end of month t, t 1,
...,6 St Number of units stocked out/backlogged
at the end of month t, t 1, ...,6 Ct Number
of units subcontracted for month t, t 1,
...,6 Ot Number of overtime hours worked in
month t, t 1, ...,6
23
24
EXCEL-DEMO
24
25
EXCEL-DEMO2
25
26
EXCEL-DEMO3
26
27
EXCEL-DEMO4
27
28
EXCEL-DEMO5
28
29
EXCEL-DEMO6
29
30
Define Constraints
  • Workforce size for each month is based on hiring
    and layoffs
  • Production for each month cannot exceed capacity
  • Inventory balance for each month
  • Overtime limit for each month

30
31
EXCEL-DEMO7
31
32
Optimal Aggregate Plan for Scenario 1
  • Total cost over planning horizon 422,275
  • Revenue over planning horizon 40 ? 16,000
    640,000
  • Average seasonal inventory 895
  • Average flow time 895 / 2,667 0.34 months

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 15 65 0 1,983 0 0 2,583
2 0 0 65 0 1,567 0 0 2,583
3 0 0 65 0 950 0 0 2,583
4 0 0 65 0 0 267 0 2,583
5 0 0 65 0 117 0 0 2,583
6 0 0 65 0 500 0 0 2,583
32
33
33
34
Define Constraints
  • Workforce size for each month is based on hiring
    and layoffs
  • Production for each month cannot exceed capacity
  • Inventory balance for each month
  • Overtime limit for each month

34
35
Optimal Aggregate Plan for Scenario 1
  • Total cost over planning horizon 422,275
  • Revenue over planning horizon 40 ? 16,000
    640,000
  • Average seasonal inventory 895
  • Average flow time 895 / 2,667 0.34 months

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 15 65 0 1,983 0 0 2,583
2 0 0 65 0 1,567 0 0 2,583
3 0 0 65 0 950 0 0 2,583
4 0 0 65 0 0 267 0 2,583
5 0 0 65 0 117 0 0 2,583
6 0 0 65 0 500 0 0 2,583
35
36
Scenario 2 Increased Demand Fluctuation
The same overall demand (16,000 units) as
scenario 1
Month Demand Forecast
January 1,000
February 3,000
March 3,800
April 4,800
May 2,000
June 1,400
Microsoft Office 2010?????
36
37
Optimal Aggregate Plan for Scenario 2
  • Total cost over planning horizon is higher
    432,858
  • Average seasonal inventory 1,075
  • Average flow time 1,075 / 2,667 0.40 months
  • Inventories and stockouts go up compared with the
    plan for scenario 1

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 15 65 0 2,583 0 0 2,583
2 0 0 65 0 2,167 0 0 2,583
3 0 0 65 0 950 0 0 2,583
4 0 0 65 0 0 1,267 0 2,583
5 0 0 65 0 0 683 0 2,583
6 0 0 65 0 500 0 0 2,583
37
38
Optimal Aggregate Plan for Scenario 3
  • Suppose holding cost is increased from 2 to 6
    compared to scenario 1
  • Total cost over planning horizon is higher
    441,200
  • Average seasonal inventory 558
  • Average flow time 558 / 2,667 0.21 months
  • Inventories carried is reduced while
    subcontracted amount is increased compared with
    the plan for scenario 1

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 23 57 0 1,667 0 0 2,267
2 0 0 57 0 933 0 0 2,267
3 0 0 57 0 0 0 0 2,267
4 0 0 57 0 0 67 1,467 2,267
5 0 0 57 0 0 0 0 2,267
6 0 0 57 0 500 0 433 2,267
38
39
Handle Forecast Error in Aggregate Plans
  • Use safety stock or safety capacity
  • Use overtime (safety capacity)
  • Carry extra workforce (safety capacity)
  • Use subcontractors (safety capacity)
  • Build and carry extra inventory (safety
    inventory)
  • Purchase capacity or product from open market
    (safety capacity)

39
40
Outline
  • Part I Aggregate planning
  • Part II Managing predictable variability

40
41
Managing Predictable Variability- Managing
Supply -
  • Managing capacity
  • Time flexibility from workforce
  • Use of seasonal workforce
  • Use of subcontracting
  • Use of dual facilities dedicated and flexible
  • Designing product flexibility into the production
    processes
  • Managing inventory
  • Using common components across multiple products
  • Building inventory of high demand or predictable
    demand products

41
42
Managing Predictable Variability- Managing
Demand -
  • Demand can be influenced using pricing and other
    forms of promotions.
  • Four key factors influence the timing of a trade
    promotion
  • Demand increase from promotion results from three
    factors
  • Market growth
  • Stealing market share
  • Forward buying
  • Impact of the promotion on demand
  • Product margins
  • Cost of holding inventory
  • Cost of changing capacity

42
43
Scenario 4 Aggregate Planning and Promotion at
Red Tomato
  • Discounting a unit from 40 to 39 results in the
    period demands increasing by 10 percent because
    of increased consumption or substitution.
    Further, 20 percent of each of the two following
    months demand is moved forward.
  • Consider the discount offering in off-peak month
    of January.
  • The demand forecast is shown below

Month Demand Forecast
January 3,000
February 2,400
March 2,560
April 3,800
May 2,200
June 2,200
43
44
Optimal Aggregate Plan for Scenario 4
  • Total cost over planning horizon 421,915
  • Revenue over planning horizon 643,400
  • Profit over planning horizon 221,485

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 15 65 0 610 0 0 2,610
2 0 0 65 0 820 0 0 2,610
3 0 0 65 0 870 0 0 2,610
4 0 0 65 0 0 320 0 2,610
5 0 0 65 0 90 0 0 2,610
6 0 0 65 0 500 0 0 2,610
44
45
Scenario 5 Aggregate Planning and Promotion at
Red Tomato
  • Discounting a unit from 40 to 39 results in the
    period demands increasing by 10 percent because
    of increased consumption or substitution.
    Further, 20 percent of each of the two following
    months demand is moved forward.
  • Consider the discount offering in peak month of
    April.
  • The demand forecast is shown below

Month Demand Forecast
January 1,600
February 3,000
March 3,200
April 5,060
May 1,760
June 1,760
Demand fluctuation has increased relative to the
profile in scenario 1.
45
46
Optimal Aggregate Plan for Scenario 5
  • Total cost over planning horizon 438,857
  • Revenue over planning horizon 650,140
  • Profit over planning horizon 211,283

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 14 66 0 2,047 0 0 2,647
2 0 0 66 0 1,693 0 0 2,647
3 0 0 66 0 1,140 0 0 2,647
4 0 0 66 0 0 1,273 0 2,647
5 0 0 66 0 0 387 0 2,647
6 0 0 66 0 500 0 0 2,647
46
47
Conclusions based on Scenarios 1, 4 5
  • A price promotion in January (scenario 4) results
    in a higher profit than no promotion (scenario
    1). A promotion in April (scenario 5) results in
    a lower profit than no promotion (scenario 1).
  • Even though revenues are higher when promotions
    is offered in April, the increase in operating
    costs makes it a less profitable option.
  • Red Tomato should offer the discount in the
    off-peak month of January.
  • The above conclusions could be different if Red
    Tomato were in a situation in which most of the
    demand increase comes from market growth or
    stealing market share rather than forward buying
    (see scenarios 6 7)
  • It is not appropriate for a firm to leave pricing
    decisions solely in the domain of marketing and
    aggregate planning solely in the domain of
    operations. It is crucial that forecasts,
    pricing, and aggregate planning be coordinated in
    the supply chain.

47
48
Scenario 6 Aggregate Planning and Promotion at
Red Tomato
  • Discounting a unit from 40 to 39 results in the
    period demands increasing by 100 percent because
    of increased consumption or substitution.
    Further, 20 percent of each of the two following
    months demand is moved forward.
  • Consider the discount offering in off-peak month
    of January.
  • The demand forecast is shown below

Month Demand Forecast
January 4,440
February 2,400
March 2,560
April 3,800
May 2,200
June 2,200
48
49
Optimal Aggregate Plan for Scenario 6
  • Total cost over planning horizon 456,750
  • Revenue over planning horizon 699,560
  • Profit over planning horizon 242,810

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 0 80 0 0 240 0 3,200
2 0 11 69 0 140 0 0 2,780
3 0 0 69 0 360 0 0 2,780
4 0 0 69 0 0 660 0 2,780
5 0 0 69 0 0 80 0 2,780
6 0 0 69 0 500 0 0 2,780
49
50
Scenario 7 Aggregate Planning and Promotion at
Red Tomato
  • Discounting a unit from 40 to 39 results in the
    period demands increasing by 100 percent because
    of increased consumption or substitution.
    Further, 20 percent of each of the two following
    months demand is moved forward.
  • Consider the discount offering in peak month of
    April.
  • The demand forecast is shown below

Month Demand Forecast
January 1,600
February 3,000
March 3,200
April 8,480
May 1,760
June 1,760
Demand fluctuation has increased relative to the
profile in scenario 1.
50
51
Optimal Aggregate Plan for Scenario 7
  • Total cost over planning horizon 536,200
  • Revenue over planning horizon 783,520
  • Profit over planning horizon 247,320
  • When forward buying is a small part of the
    increase in demand from discounting, Red Tomato
    should offer the discount in the peak demand
    month of April.

Period t No. Hired Ht No. Laid Off Lt Workforce Size Wt Overtime Ot Inventory It Stockout St Subcontract Ct Total Production Pt
0 0 0 80 0 1,000 0 0
1 0 0 80 0 2,600 0 0 3,200
2 0 0 80 0 2,800 0 0 3,200
3 0 0 80 0 2,800 0 0 3,200
4 0 0 80 0 0 2,380 100 3,200
5 0 0 80 0 0 940 0 3,200
6 0 0 80 0 500 0 0 3,200
51
52
Performance Under Different Scenarios
Regular Price Promotion Price Promotion Period Percent Increase in Demand Percent Forward Buy Profit Average Inventory
40 40 NA NA NA 217,725 895
40 39 January 20 20 221,485 523
40 39 April 20 20 211,283 938
40 39 January 100 20 242,810 208
40 39 April 100 20 247,320 1,492
31 31 NA NA NA 73,725 895
31 30 January 100 20 84,410 208
31 30 April 100 20 69,120 1,492
52
53
Conclusions Regarding Promotions
  • Pricing and aggregate planning must be done
    jointly.
  • Average inventory increases if a promotion is run
    during the peak period and decreases if run
    during off-peak period.
  • Promotion during the peak period may decrease
    overall profitability if a significant fraction
    of the demand increase results from a forward
    buy.
  • Promotion during the peak period may increase
    overall profitability if forward buying becomes a
    smaller fraction of the demand increase.
  • As product margin declines, promotion during the
    peak period becomes less profitable.

53
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Summary of Impact on Promotion Timing
Factor Favored timing
High forward buying Low demand period
High stealing market share High demand period
High growth of market High demand period
High margin High demand period
Low margin Low demand period
High holding costs Low demand period
High cost of changing capacity Low demand period
54
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55
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