The Management of Business Logistics Chapter 5

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Chapter 10 Transportation—Managing the Flow of
the Supply Chain
Learning Objectives
After reading this chapter, you should be able to do the following:

Explain the role transportation plays in the supply chain.

Discuss the service and cost characteristics of the primary
transportation modes.

Discuss the key activities involved in transportation planning and
execution.
Learning Objectives (cont.)
After reading this chapter, you should be able to do the following:

Explain current transportation management strategies used to
improve supply chain performance.

Use service and cost metrics to analyze transportation
performance.

Describe how information technology supports transportation
planning and execution.
Introduction
 Transportation
involves the physical movement of
goods between origin and destination points.
 The
transportation system links geographically
separated partners and facilities in a company’s
supply.
 Transportation
facilitates the creation of time and
place utility in the supply chain.
 Transportation
also has a major economic impact
on the financial performance of businesses.
Role of Transportation in Supply Chain Management

Transportation provides the critical links between these
organizations, permitting goods to flow between their facilities.

Transportation service availability is critical to demand fulfillment
in the supply chain.

Transportation efficiency promotes the competitiveness of a
supply chain
Challenges to Carrying out This Role

supply chain complexity

competing goals among supply chain partners

changing customer requirements

limited information availability

synchronizing transportation with other supply chain
activities
Challenges to Carrying out This Role

Transportation capacity constraints pose a challenge.

Rising transportation rates present another major concern
for organizations.

The transportation industry is impacted by governmental
requirements that affect cost structures and service
capabilities.

Regulation is growing in areas where the transportation
industry has the potential to impact the quality of life, the
safety of citizens, and the growth of commerce.
Modes of Transportation
 primary
modes of transportation
truck
 rail
 air
 water
 pipeline
 intermodal transportation

Modes of Transportation


moves approximately 19.5 billion tons valued at nearly $13
trillion
Modal breakdown:

Trucking 80.0 % $635 billion

Rail 06.7%

Air 04.7%

Water 04.6%

Pipeline 01.2%
Modes of Transportation

Motor Carriers

widely used mode of transportation in the domestic supply chain
 573,469 private, for hire, and other U.S. interstate motor carriers
 economic structure of the motor carrier industry contributes to the
vast number of carriers in the industry

comprised of for-hire and private fleet operations




Truckload carriers.
Less-than-truckload (LTL)
Small package carriers
Low fixed cost, high variable
Modes of Transportation
Modes of Transportation
Railroads
 7 Class I railroads revenues in excess of $290 million

Activity levels have been achieved despite a lack of direct
accessibility to all parts of the supply chain

Railroads are “natural monopolies”

Two carrier types:
 Linehaul
 Shortline carriers

High fixed, low variable
Modes of Transportation
Water
 Major facilitator of international trade
 81% international freight movement
 19% coastal, inland, and Great Lakes traffic
 High variable and low fixed cost
 Two primary carrier types



Liner
Charter
Options include





Container ships
Bulk carriers
Tankers
General cargo ships
Roll-on, roll-off (RO–RO) vessels
Modes of Transportation
Air Carriers

491 air cargo carriers
 Combination carriers
 Air cargo carriers
 Integrated carriers
 Nonintegrated carriers

Domestic market is dominated by 14 major carriers

High variable and low fixed cost
Modes of Transportation
Pipeline
 Unique mode of transportation as the equipment is fixed
in place and the product moves through it in high volume
 174 operators of hazardous liquid pipelines that primarily
carry crude oil and petroleum products
 Three primary types




Gathering lines
Trunk lines
Refined product pipelines
High fixed versus low variable
Modes of Transportation
Intermodal Transportation
 Use of two or more different modes in movement
 Greater accessibility
 Overall cost efficiency
 Facilitates global trade
 Development of standardized containers that are
compatible with multiple modes.
 Product-handling characteristics


Containerized freight
Transload freight
Modes of Transportation
Functional Control of Transportation

Which department will be responsible for transportation?

Logistics

Procurement

Marketing

Decision to Outsource Transportation

Firms choose between “make” or “buy”

Commercial carriers “buy”

Private fleets “make”


External experts move the freight and/or manage the
transportation process “buy”
Third-party logistics (3PL) “buy”
Modal Selection
 Accessibility


Accessibility advantage: Motor carriage
Accessibility disadvantage: Air, rail, and water
 Transit


Time
Transit time advantage: Air and motor carriage
Transit time disadvantage: Rail, water, and pipeline
 Reliability


Reliability advantage: Motor carriers and air carriers
Reliability disadvantage: Water carriers and rail carriers
Modal Selection
 Product
Safety
Safety advantage: Air transportation and motor
carriage
 Safety disadvantage: Rail and water

 Cost
Cost advantage: The cost of transportation
service varies greatly between and within the
modes
 Cost disadvantage: Motor carriage and air
transportation


Modal Selection

The nature of a product—size, durability, and value

Durability

Product value

Shipment characteristics—size, route, and required speed

Carrier Selection

selecting the individual transportation service providers within the
mode

major difference between modal and carrier selection is the number
of options

difference is the frequency of the decision

type of service provided within a mode impacts carrier selection

most carriers have the capabilities to provide a similar level of
service

Core carrier


limited number of carriers
leverage its purchasing dollars

Rate Negotiations

centralized freight rate negotiations

developing contracts with carriers for a tailored set of
transportation services at a specific price

leveraging volume with a small set of carriers
Shipment Preparation
 corporate
transportation routing guide
 last-minute,
cost-saving decisions

consolidate freight

coordinate shipment deliveries

take full advantage of container capacity

an accurate freight count should be taken

Freight Documentation
 bill
of lading

originates the shipment

provides all the information the carrier needs

stipulates the contract terms, including carrier’s liability for
loss and damage

acts as a receipt for the goods the shipper tenders to the
carrier

in some cases, shows certificate of title to the goods

Freight bill


carrier’s invoice for carrier charges
lists:






shipment
origin and destination
consignee
items
total weight
total charges
Freight claims form


Filed with the carrier to recoup monetary losses resulting if
carrier fails to protect the shipment.
Carriers are not liable for freight claims if the damage is
attributable to:





Natural disaster or some other “act of God”
Military attack or similar “act of public enemy”
Government seizure of freight or “act of public authority”
Failure to adequately package the freight or other negligent “act
of the shipper”
Extreme fragility, perishability, or similarly problematic “inherent
nature of the goods”
Maintain In-Transit Visibility

manage key events as product moves across the supply chain

technology facilitates the ability to monitor product

visibility tools must be linked to other capabilities and
processes to have an impact on supply chain event
management
Monitor Service Quality

analyze the outcome of all their transportation strategy,
planning, and decision-making

key requirement for service quality monitoring is information

Transportation Metrics
 key performance indicators (KPIs)

can be used to evaluate
 current performance versus historical results


internal goals
carrier commitments
challenge lies in narrowing down metrics
available to monitor performance to a
manageable number of KPIs
 primary categories of transportation KPIs include
service quality and efficiency


Transportation Management Systems (TMS)

Critical applications include the following:

Routing and scheduling


Load planning




proper planning of delivery routes has a major impact on customer
satisfaction, supply chain performance, and organizational success
effective preparation of safe, efficient deliveries
Load tendering
Status tracking
Appointment scheduling
Summary

Without question, transportation is a very dynamic activity and a critical
supply chain process. Not only is it the largest logistics cost component in
most supply chains, but it also directly impacts fulfillment speed and service
quality. By providing the physical links between key participants across
domestic and global supply chains, transportation facilitates the creation of
time and place utilities. Organizations with highly efficient and effective
transportation processes can differentiate their product in the marketplace
through lower landed costs and greater inventory availability.

Managing the transportation process for maximum supply chain impact
requires considerable knowledge of transportation options, planning, decision
making, analytical skills, and information sharing capabilities.

Transportation is a key supply chain process and must be included in supply
chain strategy development, network design, and total cost management.
 Numerous obstacles—global expansion of supply chains, rising costs, limited
capacity, and government regulation—must be overcome to synchronize
transportation with other supply chain processes.

Fulfillment of supply chain demand can be accomplished through five modal
options or the intermodal use of truck, rail, air, water, and pipeline
transportation.
Summary (cont.)

Multiple planning activities occur prior to carrier and mode selection: who will
be responsible for managing the transportation function within the
organization, what terms of sale and payment will be used, and how goods will
be transported must all be determined with a strategic supply chain focus.
 Mode selection is based on the relative strengths of each modal/intermodal
option in terms of accessibility, transit time, reliability, safety and security,
transportation cost, and the nature of the product being transported.
 Carrier selection focuses on the type of service required (direct or indirect),
geographic coverage, service levels, and carrier willingness to negotiate
reasonable rates.
 Most commercial freight moves under contractual rates that are negotiated
directly between freight buyers and transportation companies for specific
volumes of tailored services at mutually agreed-upon prices.
Summary (cont.)

Shipment routing guides help organizations ensure internal compliance with
service contracts and maintain centralized control over freight tendering
decisions.
 Freight documentation provides the details of each shipment, sharing critical
information that promotes uninterrupted flows of goods through the supply chain.
Domestic transportation documents include the bill of lading, freight bill, and
freight claims, while international freight requires additional paperwork such as a
commercial invoice, shipper’s letter of instructions, certificate of origin, and
insurance certificates.
 Organizations must continue to manage freight after it has been tendered to
carriers by maintaining in-transit visibility of shipments and monitoring carrier
performance.
 Numerous metrics are available to evaluate transportation service quality in
terms of carrier timeliness, freight protection, accuracy, and perfect deliveries.
Service efficiency measures focus on spending proficiency, asset utilization, and
labor productivity.
Summary (cont.)

Transportation management systems are widely used information
technologies that support the effective planning, execution, and analysis of
transportation processes. Emerging tools such as event management and
RFID have the potential to improve supply chain visibility and dynamic
response to potential challenges.
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