Samuel Labi is an assistant professor in the School of Civil Engineering at Purdue University.
Summary
The authors present applied principles and procedures for project evaluation and programming of transportation system development and improvement, including both highway and rail systems.
Table of Contents
Preface.
1. Introductory Concepts in Transportation Decision-Making.1.0 General Introduction.1.1 Overall Transportation
Program Development.1.1.1 Network-level Planning.1.1.2 Project Development.1.1.3 Programming.1.1.4 Budgeting.1.1.5
Financial planning.1.2 The Process of Transportation Project Development.1.2.1 TDP Steps.1.2.2 Federal Legislation
that affect the Transportation Development Process.1.3 Impacts of Transportation System Stimuli.1.3.1 Types of
Transportation Stimuli.1.3.2 Impact Categories and Types.1.3.3 Dimensions of the Evaluation.1.4 Other Ways of Categorizing
Transportation System Impacts.1.4.1 Categorization on the Basis of Resource Consumption.1.4.2 Categorization on
the Basis of Affected Party and Resource Type Consumed.1.4.3 Categorization on the Basis of Other Considerations.1.5
Models Associated with Transportation Impact Evaluation.1.6 Role of Evaluation In TDP and Basic Elements of Evaluation.1.6.1
Role of Evaluation in TDP.1.7.2 Why Carry out Evaluation?1.6.3 Goals, Criteria, Impact Types.1.7 Procedural Framework
for Transportation Systems Evaluation.1.7.1 Identification of Evaluation Subject.1.7.2 Concerns of Decision-makers
and Other Stakeholders.1.7.3 Identification of Goals and Objectives of the Transportation Improvement.1.7.4 Establishment
of Performance Measures for Assessing the Objectives.1.7.5 Establish Dimensions for the Analysis (Evaluation Scopes).1.7.6
Recognize Legal and Administrative Requirements.1.7.7 Identify Possible Courses of Action and Develop Feasible
Alternatives.1.7.8 Estimation of Agency and User Costs.1.7.9 Estimation of Other Benefits and Costs.1.7.10 The
Comparison Process.1.7.11 Good Practices in Evaluation.1.8 Continuing and Emerging Trends in Transportation.1.8.1
Operational Accountability of Highway Infrastructure.1.8.2 Integrated Transportation Asset Management.1.8.3 Increased
Need to Evaluate Investments on Basis of Risk and Vulnerability Performance.1.8.4Business-like Approach to Asset
Management.1.8.5 Transportation Deregulation.1.8.6 Just-in-Time (JIT) Inventory Systems.1.8.7 Increased Competition:.1.8.8
Globalization of Business:.1.9 Chapter Summary.Exercises.References.
2. Performance Measures in Transportation Evaluation.2.0 Introduction.2.1 Transportation System Goals, Objectives,
and Performance Measures.2.2 Performance Measures at Network and Project Levels.2.3 How to Select a Good Performance
Measure.2.4 Dimensions of Performance Measures.2.5 Performance Measures Associated With Each Dimension.2.5.1 Overall
Goals.2.5.2 System Objectives.2.5.3 Sector Concerns/Interests.2.5.4 Flow Entity.2.5.5 Modal Scope.2.5.6 Transportation
Mode.2.5.7 Affected Entity or Stakeholder.2.5.8 Spatial Scope.2.5.9 Agency Responsibility.2.5.10 Time Frame and
Level of Refinement.2.6 Linking Agency Goals to Performance Measures - State Of Practice.2.7 Benefits of Using
Performance Measures.2.8 Chapter Summary.Exercises.References.
3. Estimating Transportation Demand.3.0 Introduction.3.1 Transportation Demand.3.1.1 Basic Concepts in Transportation
Demand Estimation.3.1.2 Causes of Shifts in the Transportation Demand Curve.3.1.3 Categorization of Demand Estimation
Models.3.1.4 Aggregate Methods for Project-level Transportation Demand Estimation.(a) On the basis of Attributes
of the Entire Parent Network.(b) On the basis of Facility Attributes Only.(c) General Comments on Demand Estimation
Models.3.2 Transportation Supply.3.2.1 The Concept of Transportation Supply.3.2.2 Shifts in the Transportation
Supply Curve.3.3 Equilibration and Dynamics of Transportation Demand and Supply.3.3.1 Demand-Supply Equilibration.3.3.2
Simultaneous Equation Bias in Demand Supply Equilibration.3.3.3 Dynamics of Transportation Demand and Supply.3.4
Elasticities of Travel Demand And Supply.3.4.1 Classification of Elasticities by Method of Computation.3.4.2 Classification
of Elasticities by Source of Elasticity.3.4.3 Classification of Elasticity by Relative Direction of Response: Direct
and Cross Elasticities.3