Lectures
Supervision
Year
2024-present
2024-present
2023-present
2023-present
2023-present
2023-present
2023-present
2020-2022
2020
2020
2020-2021
2020-2021
2020-2021
2019-2020
Course
PhD
Master
BSc - Master
BSc - Master
BSc - Master
BSc - Master
Master - PhD
PhD
Master
Master
Honours
Honours
Honours
Honours
Name
Soyeon Lee
Sol Choi
Yerin Lee
Seulbin Hong
Hyukju Nam
Jiwon Park
Dohyeon Kim
Grigorev Artur
Clara Jeanne Broudin
Tamer El Aqqad
Emanuel Kindaro
Sukhmun Deep Pooni
Alexander Vuletich
Dong Hwi Kim
Topic
Pedestrian dynamics and equity
Self-driving wheelchair
Crowd behaviour
Emergency vehicle preemptions
Calibrating traffic behavioural models
Estimating trajectories through CAVs
Q-GLOSA with ATCS
Modelling impact of traffic disruptions using AI
Multimodal network under COVID-19 restrictions
Reliability, Vulnerability, Resilience during COVID-19
Autonomous vehicles
Optimum dwell time in Sydney Metro
The effects of the Covid-19 Pandemic on Networks
PT priority on group-based optimisation methods
Lecture
Year
2024 - present
2023 - present
2023 - present
2022
2022 - present
2019
2018
2018
2018
2017
2017
2017
2011
2010
2009
2009
Code
46065
46053
46021
41884
41509
ENCN412
ENTR608
ENTR617
ENCN412
ENTR617
ENTR615
ENCN412
TRN310
TRN460
TRN313
TRN311
Course
AI Mobility
Connected and autonomous tranportation tech
Optimization techniques for TE
Transportation facility engineering
Transportation programming
Traffic engineering
Special topic in transport engineering
Traffic network modelling and optimisation
Traffic engineering
Traffic engineering and design
Transport network modelling
Traffic engineering
Travel demand forecasting
Traffic information and GIS for transportation
Comprehensive plan for transportation
Travel demand forecasting practice
University
University of Seoul
University of Seoul
University of Seoul
University of Seoul
University of Seoul
University of Canterbury
University of Canterbury
University of Canterbury
University of Canterbury
University of Canterbury
University of Canterbury
University of Canterbury
Ajou University
Ajou University
Ajou University
Ajou University
Hour
39
39
39
39
39
10
4
4
4
2
8
2
40
40
40
40
Lecture description
2019 Traffic Engineering – Lecturer
Course code: ENCN412 (Level 4, undergraduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, a basic principle of microscopic simulation was provided with an introduction to AIMSUN. In addition, I led 8 hours-lectures and tutorials to teach how to design civil infrastructure for traffic network analysis.
2018 Special Topic in Transport Engineering – Lecturer
Course code: ENTR608 (graduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, network analysis and operations are provided in AIMSUN and TRANSYT software.
2018 Traffic Network Modelling and Optimisation – Lecturer
Course code: ENTR617 (graduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, linear and non-linear mathematical programming approach for designing signal plans are provided.
2018 Traffic Engineering – Lecturer
Course code: ENCN412 (Level 4, undergraduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, a basic principle of microscopic simulation was provided with an introduction to AIMSUN. In addition, I led 4 hours-lectures and tutorials to teach how to design civil infrastructure for traffic network analysis.
2017 Traffic Engineering and Design – Lecturer
Course code: ENTR617 (graduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, basic principles of fluid approximation and shock wave analysis were introduced.
For students’ term project, I have instructed a use of CTMSIM program based on MATLAB.
2017 Transport Network Modelling – Lecturer
Course code: ENTR615 (graduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, advanced methods for traffic signal design was introduced.
2017 Traffic Engineering – Lecturer
Course code: ENCN412 (Level 4, undergraduate)
Department of Civil and Natural Resources Engineering, University of Canterbury
In part of this course, basic principle of traffic signal design was introduced.
2011 Travel-Demand Forecasting – Lecturer
Course code: TRN310 (Level 3, undergraduate)
Department of Transportation System Engineering, Ajou University
In this course, traditional four steps travel demand forecasting method, including trip generation, trip distribution, modal split, and trip assignment, and the latest transportation planning strategies were introduced.
2010 Traffic Information and GIS for Transportation – Lecturer
Course code: TRN460 (Level 4, undergraduate)
Department of Transportation System Engineering, Ajou University
In this course, the basic principle of GIS and traffic information facilities are introduced.
Working-level instruction in the use of ArcView GIS computer software was provided.
2009 Comprehensive Plan for Transportation – Lecturer
Course code: TRN313 (Level 3, undergraduate)
Department of Transportation System Engineering, Ajou University
In this course, working-level instruction in the use of TransCAD 5.0 computer software was provided to follow a guidance of a preliminary feasibility study in South Korea.
I have guided undergraduate students’ team projects.
2009 Travel Demand Forecasting Practice – Instructor
Course code: TRN311 (Level 3, undergraduate)
Department of Transportation System Engineering, Ajou University
In this course, basic uses of TransCAD 5.0 computer software was introduced to understand a practical use of traditional four steps travel demand forecasting method.
Tutorial description
2012 – 2016 Capstone Design Project / Engineering Design and Communication – Tutor
Course code: CIVL4101 / CIVL 2001 (Level 4 / 2, undergraduate)
Department of Civil Engineering, The University of Hong Kong
In part of this course, my primary goals as a tutor were as follows: 1) to provide an appropriate variety of international manuals and guidelines related to traffic-impact assessment (TIA) to aid the students’ projects; 2) to train them in teams in the use of computer applications for TIA, such as VISSIM and OSCADY Pro) to invigilate, mark, and provide feedback on their individual reports and mathematical assignments every week; and 4) to advise the students on minor problems arising during their projects.
2009 Travel-Demand Forecasting – Tutor
Course code: TRN310 (Level 3, undergraduate)
Department of Transportation System Engineering, Ajou University
In this course, I prepared all of the class materials for the 16-weeks course; drafted questions for a mid-term examination, a final examination, and regular quizzes; and counseled individual attendees to aid their understanding of the materials covered.
Lecture list
Area traffic control part I and part II, 2019, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
TRANSYT 15 tutorial part I and part II, 2019, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
AIMSUN tutorial part I and part II, 2019, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Traffic simulation – AIMSUN, 2019, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Network analysis in AIMSUN, 2018, ENTR608 – Traffic Network Modelling and Optimization (graduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Optimization process in TRANSYT, 2018, ENTR608 – Traffic Network Modelling and Optimization (graduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Optimization of signal timings for area traffic control, 2018, ENTR608 – Traffic Network Modelling and Optimization (graduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Traffic control devices part II: traffic signal design, 2018, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Traffic control devices part I: traffic signs and markings, 2018, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
AIMSUN - Tutorial, 2018, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Introduction to AIMSUN, 2018, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Shock wave analysis, 2017, ENTR617 – Traffic Engineering and Design (graduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
CTMSIM with MATLAB - Tutorial, 2017, ENTR617 – Traffic Engineering and Design (graduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Traffic signal design part I and part II, 2017, ENTR617 – Traffic Engineering and Design (graduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Traffic control devices part I and part II, 2017, ENCN412 – Traffic Engineering (Level 4, undergraduate), Department of Civil and Natural Resources Engineering, University of Canterbury.
Activity-based model & TDF summary, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Introduction to trip assignment I and II, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Introduction to modal split I, II, III, and IV, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
LIMDEP exercise, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Introduction to trip distribution I, II, and III, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Linear regression I, II, III, and IV 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Introduction to trip generation, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Common knowledge for TDF I and II, 2011, TRN310 – Travel-Demand Forecasting (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University.
Archived data management system and data user service, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Traffic guidance signs, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Data fusion, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Traffic data process, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Traffic data collection I and II, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
GIS software – ESRI ArcView I, II, III, IV, V, VI, VII, and VIII, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
GIS – transportation, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Map and GIS, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Map, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Introduction to GIS – Transportation, 2010, TRN460 – Traffic Information and GIS for Transportation (Level 4, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
TransCAD 5.0 I, II, III, IV, and V, 2009, TRN313 – Comprehensive Plan for Transportation (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Trip assignment I, II, and III, 2009, TRN313 – Comprehensive Plan for Transportation (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
OD matrix and network I and II, 2009, TRN313 – Comprehensive Plan for Transportation (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Korea traffic database for transportation projects, 2009, TRN313 – Comprehensive Plan for Transportation (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Introduction to a preliminary feasibility study, 2009, TRN313 – Comprehensive Plan for Transportation (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Prediction of future OD matrix and network I and II, 2009, TRN311 – Travel Demand Forecasting Practice (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Calibration I and II in trip assignment, 2009, TRN311 – Travel Demand Forecasting Practice (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
VDF and toll pricing, 2009, TRN311 – Travel Demand Forecasting Practice (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
OD separation and calibration, 2009, TRN311 – Travel Demand Forecasting Practice (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Temporal and spatial research area, 2009, TRN311 – Travel Demand Forecasting Practice (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)
Introduction to TransCAD 5.0 I and II, 2009, TRN311 – Travel Demand Forecasting Practice (Level 3, undergraduate), Department of Transportation System Engineering, Ajou University. (in Korean)