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2024 Faculty Courses School of Environment and Society Undergraduate major in Civil and Environmental Engineering

Infrastructure Planning

Academic unit or major
Undergraduate major in Civil and Environmental Engineering
Instructor(s)
Hitomu Kotani / Yuki Takayama
Class Format
Lecture (Face-to-face)
Media-enhanced courses
-
Day of week/Period
(Classrooms)
1-2 Tue / 1-2 Fri
Class
-
Course Code
CVE.D201
Number of credits
200
Course offered
2024
Offered quarter
1Q
Syllabus updated
Mar 17, 2025
Language
Japanese

Syllabus

Course overview and goals

The infrastructure planning deals with the impact analysis of civil works (investigation/survey, forecasting and evaluations), procedural analysis (consensus building) and infrastructure management for the purpose of making a better society through the infrastructure construction and their management. This course teaches the fundamentals of infrastructure planning, particularly about the mathematical and social foundations of planning.

Course description and aims

To understand the foundations of:
- Mathematical oriented planning theory about planning process, survey, forecasting and evaluation,
and
- Social oriented planning theory considering that the infrastructure planning deals with human being and their society.

Keywords

Infrastructure planning, optimization, systems analysis, social theory

Competencies

  • Specialist skills
  • Intercultural skills
  • Communication skills
  • Critical thinking skills
  • Practical and/or problem-solving skills

Class flow

While teaching theoretical foundations of infrastructure planning, small quiz will also be conducted. Further, the final exam will also be carried out.

Course schedule/Objectives

Course schedule Objectives
Class 1

Civil works, civil engineering and infrastructure planning

- Plan and planning in Civil Works
- Technology oriented planning and comprehensive planning
Class 2

Fundamentals of mathematical optimization: (1) Unconstrained case

- Fundamental thought of optimization
- Univariate optimization without constraints
- Multivariate optimization without constraints
Class 3

Fundamentals of mathematical optimization: (2) Linear programming

- Examples of linear programming
- Graphical solution method
- Gauss-Jordan method
Class 4

Fundamentals of mathematical optimization: (3) Basics of nonlinear programming

- Lagrangian method
- Karush-Kuhn-Tucher condition
Class 5

Fundamentals of mathematical optimization: (4) Advances of nonlinear programming

- Maximum transport problem
- Traffic assignment problem
Class 6

Fundamentals of mathematical optimization: (5) Algorithms for solving nonlinear programming

- Gradient based method
- Convex planning method
Class 7

Demand forecasting methods

- Fundamentals of statistical models
- Travel demand forecasting
Class 8

Foundations of Cost Benefit Analysis

- Principles of cost benefit analysis
- Project life and social discount rate
- Computing benefits
Class 9

Mathematics of project management

- PERT
- CPM
Class 10

Mathematics of consensus building: (1) Fundamentals of Game Theory

- Strategic situations in infrastructure planning
- Description of games
- Typical game structures
- Best response and Nash equilibria
- Mixed strategy
Class 11

Mathematics of consensus building: (2) Applications of Game Theory

- Cooperative/Negotiation Games
- Externality
- Prisoners' dilemma
- Environmental problem and economic problem
Class 12

Theory of social decision making

- Social choice theory
Class 13

Attitude/behavior modification oriented planning theory

- Psychology and infrastructure planning
- Attitude theory
- Mobility management
Class 14

Sociology oriented planning theory

- Theory of social organism

Study advice (preparation and review)

To enhance effective learning, students are encouraged to spend approximately 100 minutes preparing for class and another 100 minutes reviewing class content afterwards (including assignments) for each class.
They should do so by referring to textbooks and other course material.

Textbook(s)

Satoshi Fujii "(Revised) Infrastructure Planning", Gakugei Shuppansha, 2018. (Handouts will also be distributed).

Reference books, course materials, etc.

Introduced at the class.

Evaluation methods and criteria

Assignments (30%), final exam (70%)

Related courses

  • CVE.D210 : Planning Theory for Civil and Environmental Engineering
  • CVE.D230 : Urban and Transportation Planning Project
  • CVE.D301 : Traffic and Transportation Systems
  • CVE.D402 : Transportation Network Analysis
  • CVE.D403 : Transportation Economics
  • CVE.D401 : Mathematical Modeling of Individual Choice Behavior
  • CVE.D311 : Public Economics
  • CVE.D211 : Introduction to National Land Use and City Planning
  • CVE.D406 : Urban Economic Analysis
  • CVE.D317 : Climate Change Impacts, Adaptation and Mitigation

Prerequisites

Particularly not.

Contact information (e-mail and phone) Notice : Please replace from ”[at]” to ”@”(half-width character).

Email: takayama.y.af[at]m.titech.ac.jp

Office hours

Not particular schedule assigned for office hour. Please contact by email for the appointment.