Title: Inventory Vehicle Routing
1Inventory Vehicle Routing
- Adapted from.
- Ann Campbell
- Lloyd Clarke
- Martin Savelsbergh
- Industrial Systems Engineering
- Georgia Institute of Technology
2Vehicle Routing Decisions
- Based on customers orders
- Which plant serves each customer
- Which vehicle makes the delivery
- What route the vehicle travels
?
3Vendor Managed Inventory
- Customers do not place orders
- Vendor monitors customers use of product
- Vendor controls customers inventory
- Determines when to deliver
- Determines how much to deliver
4Advantages
- For vendor
- more opportunities for savings
- however, problem becomes more difficult
- For customer
- one less worry if you trust your vendor
5Conventional Inventory Management -- Day 1
MICHIGAN
Detroit
LAKE ERIE
Cleveland
OHIO
6Conventional Inventory Management -- Day 2
MICHIGAN
Detroit
LAKE ERIE
Cleveland
OHIO
7Vendor Managed Inventory
- Customer
- trusts the vendor to manage the inventory
- Vendor
- monitors customers inventory
- customers call/fax/e-mail
- remote telemetry units
- set levels to trigger call-in
- controls inventory replenishment decides
- when to deliver
- how much to deliver
- how to deliver
8Vendor Managed Inventory -- Day 1
MICHIGAN
Detroit
LAKE ERIE
Cleveland
OHIO
9Vendor Managed Inventory -- Day 2
MICHIGAN
Detroit
LAKE ERIE
Cleveland
OHIO
10Inventory Routing
- Chemical Industry
- air products distribution
- Petrochemical industry
- gas stations
- Automotive Industry
- parts distribution
11Praxairs Business
- Not an airline!
- Air products
- harvest the sky
- produce nitrogen, oxygen, argon, hydrogen,
helium, etc.
Oxygen
Nitrogen
Argon
12Praxairs Business
- Plants worldwide
- 44 countries
- USA 70 plants
- South America 20 plants
- Product classes
- packaged products
- bulk products
- lease manufacturing equipment
- Distribution
- 1/3 of total cost attributed to distribution
13Praxairs BusinessBulk products
- Distribution
- 750 tanker trucks
- 100 rail cars
- 1,100 drivers
- drive 80 million miles per year
- Customers
- 45,000 deliveries/month to 10,000 customers
- Variation
- 4 deliveries/customer/day to
- 1 delivery/customer/2 months
- Routing varies from day to day
14VMI Implementation at Praxair
- Convince management and employees of new methods
of doing business - Convince customers to trust vendor to do
inventory management - Pressure on vendor to perform - Trust easily
shaken - Praxair currently manages 80 of bulk customers
inventories - Demonstrate benefits
15VMI Implementation at Praxair
- Praxair receives inventory level data via
- telephone calls 1,000 per day
- fax 500 per day
- remote telemetry units 5,000 per day
- Forecast customer demands based on
- historical data
- customer production schedules
- customer exceptional use events
- Logistics planners use decision support tools to
plan - whom to deliver to
- when to deliver
- how to combine deliveries into routes
- how to combine routes into driver schedules
16Benefits of VMI at Praxair
- Before VMI, 96 of stockouts due to customers
calling when tank was already empty or nearly
empty - VMI reduced customer stockouts
17Whats needed to make VMI work
- Information management is crucial to the success
of VMI - inventory level data
- historical usage data
- planned usage schedules
- planned and unplanned exceptional usage
- Forecast future demand
- Decision making need to decide on a regular
(daily) basis - whom to deliver to
- when to deliver
- how to combine deliveries into routes
- how to combine routes into driver schedules
18Separately stock each customer
- The every d-day policy
- p(j) probability a stock out first occurs on
day j - Does this make sense?
- p p(1) p(2) p(d-1) The probability of
stock out - S cost to serve in case of stock out (expedited
service) - c cost to serve otherwise
19How often to serve?
- Average daily cost of d-day policy
- pS (1-p)c
- p(1) 2p(2) dp(d)
- p(d) 1-p
20Average Cost per Day
21Example I
- Delivery vehicle capacity - 1200 m3
- Customer A
- capacity 1500 m3
- usage 12 m3/hr
- delivery every 100 hrs (4 days)
- Customer B
- capacity 800 m3
- usage 8 m3/hr
- delivery every 100 hrs (4 days)
22Example I
A
B
- 300 hour period
- Choices
- deliver customers separately
- deliver customers together
5 miles
10 miles
10 miles
depot
23Example I
- Combined customer
- usage 20 m3/hr
- delivery every 60 hr (2.5 days)
24Example I
A
B
- 300 hour period
- Customers separate
- 3 deliveries each customer
- 60 miles each customer
- 120 miles total
- Customers combined
- 5 deliveries total
- 25 miles each delivery
- 125 miles total
5 miles
10 miles
10 miles
depot
25Example I
A
B
- 300 hour period
- Choices
- deliver customers separately
- deliver customers together
2 miles
10 miles
10 miles
depot
26Long Term Objectives
- Avoid outages
- Minimize transportation costs
- Performance measures
- /mile
- /volume
- volume/mile
- outage/delivery
27Short Term Decisions
- Today, deliver to customers that need a delivery
- Tomorrow, may not have enough capacity
28Short Term Decisions
- Today, deliver to customers in need
- Also, deliver to anyone near by and top-off the
customers inventory space
29Using Customer Information
- Reactive Approach
- Customer inventory space
- Customer current inventory
- Proactive Approach
- Customer usage rate