disruption management during supply chain disruptions
TRANSCRIPT
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Disruption Management during Supply Chain Disruptions
Cameron MacKenzie, Defense Resources Management
Institute, Naval Postgraduate School
Kash Barker, School of Industrial and Systems Engineering,
University of Oklahoma
Joost Santos, Department of Engineering Management and
Systems Engineering , The George Washington University
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Japanese earthquake and tsunami
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Outline
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1. Motivation
2. Research contribution
3. Model and simulation
4. Application
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Supply chain risk management
• Qualitative [1, 2]
• Quantitative
– Production and inventory models [3]
– Game theory [4]
[1] Y. Sheffi, 2005. The resilient enterprise: Overcoming vulnerability for competitive advantage. Cambridge: The MIT Press. [2] C. S. Tang, 2006. Robust strategies for mitigating supply chain disruptions. International Journal of Logistics Research and Applications 9 (1):33-45. [3] B. Tomlin, 2006. On the value of mitigation and contingency strategies for managing supply chain disruption risks. Management Science 52 (5): 639-657. [4] V. Babich, 2006. Vulnerable options in supply chains: Effects of supplier competition. Naval Research Logistics 53 (7):656-676.
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Disruption management [1]
• Disruptions cause operation plans to deviate
• Disruption management studies optimal way to react in the midst of disruptions
– What should be done once a disruption occurs?
– How to minimize the impacts and return to normal production?
[1] G. Yu and X. Qi, 2004. Disruption management: Framework, models and applications. River Edge, NJ: World Scientific Publishing.
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What is new with this research?
Mitigation Preparedness
Recovery Response
Supply chain risk
management
Decision and actions by suppliers and firms during
and after disruption
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Research questions
• How can we model the supply chain where
– Some facilities are inoperable?
– Other firms experience a supply shortage?
• What can firms do to mitigate the impacts of inoperable facilities and supply shortages?
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Outline
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1. Motivation
2. Research contribution
3. Model and simulation
4. Application
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Simulation
Supply shortage for
firms
Move production to
alternate facility?
Firms receive required supplies
Buy from alternate supplier?
No
Yes Supplier’s facility is
closed
Finished goods
inventory?
Demand not satisfied or
customers buy from other firms
Supplier’s facility
reopens?
No
No
Yes
Yes
No
Supply inventory?
No
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Produce at alternate facility?
Per-unit cost of producing at alternate facility
Fixed cost of moving production to alternate facility
Expected lost revenue of not producing
Per-unit cost of producing at primary facility
Probability primary facility opens next period
Probability supplier’s customers buy from other suppliers
Cost at alternate facility
Expected cost at primary facility
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Produce at alternate facility?
Per-unit cost of producing at alternate facility
Fixed cost of moving production to alternate facility
Expected lost revenue of not producing
Per-unit cost of producing at primary facility
Probability primary facility opens next period
Probability supplier’s customers buy from other suppliers
Cost at alternate facility
Expected cost at primary facility
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Threshold parameters for supplier
𝑝 =𝑟 − 𝑐+ 𝜃
𝑐+ − 𝑐 1 − 𝜃
If probability that primary facility will open next period is greater than 𝑝 , supplier will not produce at alternate facility
Per-unit cost of producing at
alternate facility
Per-unit cost of producing at primary
facility
Probability supplier’s customers buy from
other suppliers
Per-unit revenue
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Threshold parameters for supplier
𝐶 =𝑝𝑍 + 𝑧 𝑟 − 𝑐+ 𝜃 − 𝑝 𝑐+ − 𝑐 1 − 𝜃
𝑝 1 − 1 − 𝑝 1 − 𝜃
If fixed cost of moving production is greater than 𝐶 , supplier will not produce at alternate facility
𝑝 =𝑟 − 𝑐+ 𝜃
𝑐+ − 𝑐 1 − 𝜃
Cost of alternate
facility
Cost of primary facility
Probability of buying from
other suppliers Revenue
Probability primary facility opens next period
Per-period demand Backorders
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Threshold parameters for supplier
Probability of primary facility opening
𝑝 =𝑟 − 𝑐+ 𝜃
𝑐+ − 𝑐 1 − 𝜃
𝑝
Never produce at alternate
facility
𝐶
Fixe
d c
ost
of
mo
vin
g to
alt
ern
ate
faci
lity
𝐶 =𝑝𝑍 + 𝑧 𝑟 − 𝑐+ 𝜃 − 𝑝 𝑐+ − 𝑐 1 − 𝜃
𝑝 1 − 1 − 𝑝 1 − 𝜃
Produce at alternate facility but may wait some length of time
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Never produce at alternate
facility
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Firm’s influence diagram
How much to produce?
Maximize profit in
current period
Satisfy demand
Value
Time when suppliers’ facilities reopen Customer
loyalty
Inventory on hand
Selling price
Cost of alternate suppliers
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Modeling insights
• Incorporating business decisions in midst of supply chain disruptions
• Solving for optimal production decisions as function of model parameters
• Measuring impact of preparedness decisions on firm’s ability to respond during disruption
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Outline
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1. Motivation
2. Research contribution
3. Model and simulation
4. Application
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Supply chain disruption in auto sector
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Application inspired by auto sector
• Supplies required for production
• Several model parameters gleaned from news reports
• More precise information needed for cost and revenue parameters
Supplier 1
Supplier 2
Supplier 3
Supplier 4
Firm 2
Firm 3
Firm 1
Final consumers
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8
12
8
26
13
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Simulation results
Average production when suppliers do not move to alternate facility
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Simulation results
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Average production when suppliers do not move to alternate facility
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Simulation results
Average production when suppliers do not move to alternate facility
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Simulation results
Average production when suppliers move to alternate facility
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Sensitivity on parameters for Firm 2
Parameter Low Base High
Tradeoff between objectives
Maximizes profit Equally prefer
both objectives Satisfies demand
Final goods inventory 0 periods 6 periods 12 periods
Cost of alternate supplier Primary supplier
+ 6 Primary supplier
+ 3 Equal to primary
supplier
Selling price Equal to cost Cost + 1 Cost + 2
Primary supplier’s recovery (expected time)
36 periods 26 periods 3 periods
Supply inventory 0 period 2 periods 4 periods
Customer loyalty (probability firm’s customer does not buy from competitor)
0.01 0.61 0.99
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Sensitivity on parameters for Firm 2
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Application insights
• Illustrative example reflects actual situation
– Toyota and Honda’s share of production in North America fell from 10% to 7% each
– Nissan’s share of production in North America remained constant
– Detroit 3 automakers increased their share of production in North America by 4%
• Application provides insights into best strategies for response and recovery
– Buying from an alternate supplier may be a better long-term strategy than inventory
– Costs of different strategies should be incorporated
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This work was supported by
• The National Science Foundation, Division of Civil, Mechanical, and Manufacturing Innovation, under award 0927299
• The Center for International Business Education and Research (CIBER) at The George Washington University
Email: [email protected]
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