Chapter 19 Business Dynamics by John D. Sterman - PowerPoint PPT Presentation

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Chapter 19 Business Dynamics by John D. Sterman

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We now apply the stock management structure to represent labor. Hiring rate- delay ... Vacancy Creation Rate =Desired Hiring Rate adjustment for Vacancies ..19 ... – PowerPoint PPT presentation

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Title: Chapter 19 Business Dynamics by John D. Sterman


1
Chapter 19Business Dynamics by John D. Sterman
  • Labor Supply Chains and the Origin of Business
    Cycles

2
Chapter outline
  • The Labor Supply Chain
  • Interactions of Labor and Inventory Management
  • Inventory-Workforce Interactions and the Business
    Cycle
  • Summary

3
Labor supply chain (LSC)
  • The human resource supply chain
  • Omission of labor and capital in production
    model- not realistic
  • We now apply the stock management structure to
    represent labor
  • Hiring rate- delay
  • Quit rate (Attrition rate)-delay

4
Structure of Labor and Hiring
  • Referring to figure 19-1 on page 758
  • LaborINTEGRAL (Hiring rate- Attrition rate,
    Laborto) ..19-1
  • Attrition Rate Labor/Avg Duration of
    Employment ..19-2
  • Hiring RateVacancies/Time to fill
    vacancies ..19-3
  • VacanciesINTEGRAL (Vacancy Creation Rate-Vacancy
    Closure Rate, vacanciesto).. 19-4
  • Vacancy Closure Rate Hiring Rate ..19-5
  • Why isnt there a direct flow from vacancies to
    labor?
  • What can you say about the source of hiring?

5
(No Transcript)
6
More equations of key rates
  • Vacancy Creation Rate MAX(0, Desired Vacancy
    Creation rate) ..19-6
  • Desired Vacancy Creation Rate Desired Hiring
    Rate adjustment for Vacancies ..19-7
  • Adjustment for Vacancies (Desired
    Vacancies-Vacancies)/Time to Adjust
    Vacancies .. 19-8
  • Desired Vacancies MAX(0, Exp Time to fill
    vacanciesDesired Hiring Rate) .. 19-9
  • Exp time to fill Vacancies average time to fill
    Vacancies .. 19-10
  • Desired Hiring rate Expected Attrition rate
    Adjustment for Labor ..19-11
  • Expected Attrition rateAttrition rate ..19-12
  • Adjustment for Labor(Desired Labor-Labor)/Time
    to Adjust Labor ..19-13

7
Behavior of LSC (Labor Supply chain)
  • Desired labor is exogenous
  • Hire time depends on several factors
  • Model parameters
  • Avg employment time 100 weeks(2 yrs)
  • Time to fill vacancies 8 weeks
  • Initial1000 workers Quit rate 10/week
  • 80 vacancies (in supply line)
  • Vacancies adj time 4 weeks
  • Labor adj time 13 weeks
  • Test run with 50 step at week 5

8
Behavior of LSC contd
  • Behavior is similar to stock management structure
    on simulation
  • 50 step sends desired vacancy creation rate from
    10/week to 125/week
  • Think about need to down size?
  • We need lay off rate and vacancy cancellation
    rate
  • Both these processes have time delays
  • Vacancy Cancellation rateMIN (Desired vacancy
    cancellation rate, Maximum vacancy cancellation
    rate) ..19-14
  • Maximum Vacancy cancellation rate
    vacancies/Vacancy cancellation time ..19-15
  • Desired Vacancy Cancellation rate MAX(0,
    -Desired Vacancy Creation Rate) ..19-16
  • Similar logic is applied for formulation of
    19-17, 19-18 and 19-19 (refer page 764) in
    respect of Layoff Rate
  • Willingness to lay off0 no layoff policy 1
    layoff ok

9
Interactions of Labor and Inventory Management
  • Extending the model to include production
    structure from Chapter 18
  • Give a 20 step increase in Customer orders
  • Production starts adjust to desired starts with
    delay- labor hiring etc- so Inventory takes
    longer to adjust
  • System oscillates vigorously
  • Production Start rate Labor workweek Labor
    productivity ..19-20
  • Desired Labor Desired Production
    Starts/(Standard workweekExpected
    Productivity) ..19-21

10
Source of Oscillation
  • Refer the phase plot on page 772
  • Orders jump ?production same? inventory falls.
    Firms demand goes up? desired production rises
    ?but now labor needs to rise before WIP can rise
  • With delays labor finally rises? desired start
    rate customer orders. However, Inventory keeps
    falling due to delay in Production process
  • Corrective forces acting on the system to adjust
    it to the shock produce the oscillation, before
    the system finally reaches new equilibrium at 20
    above the initial start point (10,000
    widgets/week)

11
Adding Over time
  • Work week Standard Work week Effect of
    Schedule Pressure on workweek
  • Effect of Schedule pressure on work week
    ƒ(Schedule Pressure)
  • Schedule Pressure Desired Production
    Starts/Standard Production Starts
  • Standard Production Starts labor Standard
    WorkweekExpected Productivity
  • Schedule Pressurelt1 gt Surplus labor
  • Schedule Pressuregt1 gt Shortage of labor

12
Schedule Pressure-Workweek
  • Refer to the plot on page 775
  • Reference line workweek1
  • 45 line workweek adjusted per schedule pressure
    (overtime policy that adjusts to work pressure)
  • Workweek typically lies between the two reference
    lines- not reasonable to adjust workweek to
    expect workweek to be 80 hours under pressure- or
    to let workweek fall below 30 hours under no
    pressure
  • Management would like to continue production for
    stocking purpose when pressure lt1 (to keep
    workers busy, skills intact etc)

13
Flexible workweek
  • Refer the new phase plot on page 778
  • Flexible workweek makes it possible to reach new
    equilibrium with less oscillation than under
    fixed work week scenario
  • System recovers from shock without generating
    cycles seen under constant workweek case
  • Obviously the workweek can not increase
    indefinitely and stretching the work week for
    sustained periods of time may lead to undesirable
    results- Since labor is simultaneously adjusting
    to the desired level defined by current demand-
    Schedule Pressure will ease

14
Cost of instability
  • There is no account by name cost of instability
  • However, its well known that instability and
    oscillation are costly
  • To properly assess the impact of policies one
    needs to identify costs of instability and
    include them in the model
  • Conversely, define the profit function in short
    and long run and try to optimize such profit
    function variable in the model

15
More improvements/variations
  • Training and Experience
  • Separation of rookies and experts
  • policy of lay offs- quit rates etc
  • On the job training delays and costs
  • Think of industries where trained staff are not
    readily available/training time is too long
    (aerospace, machine tools)

16
Business Cycles
  • Business Cycles are caused by the fundamental
    structure of the industrial economy rather than
    other factors
  • IT has helped in several ways to reduce the
    instability by providing instantaneous
    information (delay reduction)
  • Lean manufacturing, JIT etc also help reduce the
    instability
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