2022-2023 Undergraduate and Graduate Bulletin (with addenda)
Course Descriptions
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A Brief Guide to Course Descriptions
Each program described in this catalog contains detailed descriptions of the courses offered within the program.
The first line gives the official course number for which students must register and the official course title. The letters indicate the discipline of the course and the first number of the official course numbers indicates the level of the course. The levels are as follows:
- 1XXX - Freshman Level
- 2XXX - Sophomore Level
- 3XXX - Junior Level
- 4XXX - Senior Level
- 5XXX to 9XXX - Graduate level
Typically the last number of the course number indicates the number of credits. The breakdown of periods of the course is also listed.
When selecting a course for registration, the section of the course may include the following notations:
- “LEC” - lecture section
- “RCT” or “RC” - recitation section
- “LAB” or “LB” - lab section
Additionally, any other letter or digit listed in the section will further identify the section and being liked to another section of the class with the same letter and/or digit combination. Further information on sections is available from academic advisers during registration periods.
The paragraph description briefly indicates the contents and coverage of the course. A detailed course syllabus may be available by request from the office of the offering department.
“Prerequisites” are courses (or their equivalents) that must be completed before registering for the described course. “Co-requisites” are courses taken concurrently with the described course.
The notation “Also listed…” indicates that the course is also given under the number shown. This means that two or more departments or programs sponsor the described course and that students may register under either number, usually the one representing the student’s major program. Classes are jointly delivered. |
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Science and Technology |
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STS-UY 4504 Advanced Seminar in Science and Technology 4 Credits
The Advanced Seminar is a writing- and research-intensive course that will explore in-depth a topic in Technology, Culture, and Society, requiring practice of both writing and research skills. Topics vary by section; see Albert for detailed topic descriptions.
Prerequisite(s): (EXPOS-UA 1, EXPOS-UA 4, EXPOS-UA 5, EXPOS-UA 9, ASPP-UT 2, WREX-UF 101 or WRCI-UF 102) and one TCS elective course.
Weekly Lecture Hours: 4
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TCS-UY 2122 Public Problem Solving 2 Credits
This transdisciplinary class offers a systematic introduction to the problem-solving skills you will need to take a mission driven project from idea to implementation. By combining the teaching of quantitative and qualitative methods with participatory and equitable approaches that include the communities we aim to help in the problem-solving process, this course will enable you to become a more powerful agent of change with the ability to realize as well as design innovative and measureable solutions to contemporary problems. Using real world examples, each week, we learn a new problem-solving method and the application of the method to real world challenges through a series of discussion with world leading change agents. This course is problem-led. Students will apply lessons learned to develop an original intervention designed to improve people’s lives to a problem in areas such as climate change, inequality, systemic racism and discrimination, unemployment, and pandemic response.
Weekly Lecture Hours: 2
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TCS-UY 4504 Advanced Seminar in Technology, Culture, and Society 4 Credits
The Advanced Seminar is a writing- and research-intensive course that will explore in-depth a topic in Technology, Culture, and Society, requiring practice of both writing and research skills. Topics vary by section; see Albert for detailed topic descriptions.
Prerequisite(s): (EXPOS-UA 1, EXPOS-UA 4, EXPOS-UA 5, EXPOS-UA 9, ASPP-UT 2, WREX-UF 101 or WRCI-UF 102) and one TCS elective course.
Weekly Lecture Hours: 4
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Society, Environment and Globlization |
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SEG-UY 2124W Public Policy Issues and the Internet: A Global Perspective 4 Credits
Following years of government-funded computer-research programs, successful communication between computers was accomplished in 1969, the start of the Internet era. The World Wide Web, created to facilitate the acquisition of information on the Internet, followed 20 years later. This course traces the history of the Internet, heralded as the free, open exchange of information among people all over the globe, and explores the maelstrom of complex issues that have arisen to thwart this idealistic dream of its planners: censorship, net neutrality, privacy and the social media, the role of the Internet as a political force, cybersecurity, copyright infringement, consumer tracking, street mapping. These and other controversial global issues are considered from the standpoint of the problems they pose and the policies of the various governments toward them.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4
Note: Satisfies a humanities and social sciences elective.
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SEG-UY 2184W Beyond Oil: Fueling Tomorrow’s Vehicles 4 Credits
This course explores the alternatives to oil that vehicle manufacturers are pursuing in their desire to wean away from oil and its mercurial price swings. Students will be required to choose two of these alternative approaches and prepare white papers on each, covering the technology, advantages, limitations or drawbacks, cost saving, environmental impact and likelihood of success in the market place. The focus will be on biofuels, hybrids, the fuel cell, natural gas, hydrogen, the electric car.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4
Note: Satisfies a humanities and social sciences elective.
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SEG-UY 2194W Writing About Nature and the Environment 4 Credits
In this course, students explore today’s major environmental and ecological issues and write a number of pieces that discuss causes and possible solutions. Each article is based on a literature search and on interviews with professionals. Class critiques of articles are an integral part of the learning process. Topics include global warming, renewable energy, health and the environment, environmental law and biodiversity. Authors of the best pieces are encouraged to submit them for publication.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4
Note: Satisfies a humanities and social sciences elective.
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SEG-UY 4504 Advanced Seminar in Society, Envirnmnt, & Globaliz 4 Credits
The Advanced Seminar is a writing- and research-intensive course that will explore in-depth a topic in Technology, Culture, and Society, requiring practice of both writing and research skills. Topics vary by section; see Albert for detailed topic descriptions.
Prerequisite(s): EXPOS-UA 1 and one TCS elective course
Weekly Lecture Hours: 4
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Transportation |
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TR-GY 900X Readings in Transportation Variable Credits
This is an individually guided effort involving research into a topic of interest, usually growing from a course the student has taken. Readings courses should not duplicate material available in a regularly scheduled course, but should involve additional research on a topic or topics of interest to the student that is related to a course or courses. A formal written report is required. The student must have a faculty adviser who agrees to work with them and an agreed-upon topic before registering. The student may register for 1 to 3 credits for a readings effort, in proportion to the effort and as approved by the supervising instructor.
Prerequisite(s): Permission of supervising instructor.
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TR-GY 997X M.S. Thesis in Transportation 3-6 Credits
Students electing to take a 6-credit MS Thesis commit to a significant individually guided research effort, resulting in a formally defended thesis report, bound in accordance with Institute requirements.
Prerequisite(s): M.S. degree status and permission of thesis advisor.
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TR-GY 999X PhD Dissertation in Transportation Planning and Engineering Variable (24 Total) Credits
The dissertation is an original investigation embodying the results of comprehensive research in a specific area of transportation worthy of publication in a recognized, formally refereed transportation journal. Students must defend formally their dissertations and submit a bound written document. Students must complete a minimum of 24 credits of dissertation registration before defending. Once the dissertation is started, the student must maintain a minimum of 3 credits of registration during each semester (not including summer) until the dissertation is complete. During the last semester of registration, the student may be permitted to register for .5 credit with the permission of the Graduate Office and dissertation adviser.
Prerequisite(s): Passing grade for RE-GY 9990 Ph.D. Qualifying Exam , graduate standing, and dissertation advisor approval
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TR-GY 6021 Quantitative Analysis in Transportation 1.5 Credits
An overview of basic concepts in statistics and analytical analysis that are commonly used in transportation engineering. Issues of sample size are addressed for both collection of field data and conducting various types of user surveys. Statistical interpretation of study results is also treated. Introductions, with transportation illustrations, to queuing theory, regression analysis, and ANOVA are included.
Prerequisite(s): Graduate standing or permission of instructor
Weekly Lecture Hours: 1.5 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6053 Transportation Economics and Finance Fundamentals 3 Credits
In this course, we will discuss the fundamentals of economic theory and their application to the modeling and analysis of transportation systems. We will approach transportation systems as markets and study the resulting supply-demand equilibrium in these markets. Starting from concepts of utility maximization, we will explore how individuals optimally choose between alternatives and how these choices give rise to the demand functions for different services. Then, we will investigate the supply side and study provision of the aforementioned services. Lastly, we will study strategic interactions between different actors in the transportation market and how these interactions affect market outcomes. This will allow us to confidently approach and apply equilibrium analysis to transportation systems to derive insights as to their performance, their design and their regulation. Examples will be primarily drawn from, among other things: ride-hailing markets, network planning and design, parking provision and location for connected and autonomous vehicles, land use and automation, congestion pricing.
Prerequisite(s): Knowledge of a programming language (e.g.: C++, Julia, Python…), of a scripting language (e.g.: MATLAB…) or of an algebraic modeling language (e.g.: GAMS…) is strongly recommended due to the nature of some of the assignments.
Weekly Lecture Hours: 3
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TR-GY 6113 Forecasting Urban Travel Demand 3 Credits
The purpose of this course is to study methods and models used in estimating and forecasting person travel in urban areas. The objective is to understand the fundamental relationships between land use, transportation level of service and travel demand, and to apply methods and state-of-the-practice models for predicting person travel on the transportation system.
Pre/Co-requisite: TR-GY 6013 or permission of instructor.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6211 Economic Analysis of Transportation Alternatives 1.5 Credits
This course introduces students to the basic principles of engineering economic analysis and their application to transportation project alternatives. Fundamental concepts such as present worth and annual cost are described and illustrated. Methodologies for comparison of transportation alternatives are introduced, including the Present Worth Method, the Annual Cost Method, the Benefit-Cost Ratio Method, and the Rate of Return Method. The nature of the costs and benefits of transportation alternatives is discussed
Prerequisite(s): Graduate standing or permission of instructor.
Weekly Lecture Hours: 1.5
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TR-GY 6223 Intelligent Transportation Systems and Their Applications 3 Credits
This course introduces the concepts and applications of Intelligent Transportation Systems (ITS) and its growing role in the management of transportation systems. The course stresses the role of ITS as national policy, as specified in major transportation funding legislation – ISTEA, TEA21 and SAFETY-LU. A systems engineering approach to overall development of ITS technologies is stressed. Major components of ITS are discussed, and examples of their application treated. Coordination and integration of ITS components are treated.
Prerequisite(s): TR-GY 6013 or permission of adviser.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6231 Transportation Planning Principles and Practice 1.5 Credits
This course discusses the principles guiding the planning, design and operation of urban transportation systems. The concepts of mobility and accessibility are explored through an analysis of the interactions of land use, transportation supply and travel demand. Examples of transportation planning practice include a review of the Urban Transportation Planning Process in metropolitan areas and presentations from guest speakers.
Prerequisite(s): Graduate standing or permission of instructor
Weekly Lecture Hours: 1.5 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6313 Traffic Control and Signalization I 3 Credits
Traffic controls are imposed to provide for safe, efficient and orderly movement of people and goods on our nation’s street and highway systems. Traffic control is examined in the urban context in which both vehicles and pedestrians be accommodated. Techniques for quantifying traffic stream behavior are described. Federal, state and local standards for designing and implementing control devices are presented. Selection of control measures, design and timing of traffic signals at individual intersections and in arterial networks is treated in detail. Use and application of current computer tools – HCS++ and Synchro – are illustrated.
Prerequisite(s): TR-GY 6013 or permission of instructor.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6323 Traffic Control and Signalization II 3 Credits
In furtherance of the material covered in TR-GY 6313 , emphasis is on the arterial as a facility and on systems concepts such as traffic calming, access management and roundabouts as a design element. Also covered are network problems induced by traffic congestion and remedies such as critical intersection control, network metering, oversaturated control policies and real time sensing, and traffic impacts from growth and development, including assessment and mitigation. The course employs the use of modern tools, including VISSIM, Synchro/SIMTraffic and HCS++, and two projects must be completed by students working in teams. This course should be taken in the student’s last or penultimate semester.
Prerequisite(s): TR-GY 6313 or equivalent and TR-GY 6113 or equivalent.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6333 Transportation & Traffic Concepts 3 Credits
The course covers basic concepts in transportation and traffic engineering, including: volume, demand, and capacity; traffic stream parameters and their meaning; transportation modes and modal characteristics. The impact of traveler and vehicle characteristics on traffic flow and on other modes is presented and discussed. The importance of data collection is emphasized with sample studies, such as volume, speed and travel time, and safety. Capacity and level of service analysis for uninterrupted flow facilities, including freeways, multilane highways and two-lane highways is demonstrated using methodologies of the 2010 Highway Capacity Manual.
Prerequisite(s): Graduate standing or permission of instructor
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 6343 Traffic Operations & Control 3 Credits
The course focuses heavily on signalization, with an introduction to simulation and signal timing tools. The course covers warrants, timing pretimed signals, understanding actuated controllers and their settings, as well as detector types placement.
Prerequisite(s): Graduate standing or departmental consent
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TR-GY 6403 Transportation and Traffic Project 3 Credits
This is a capstone course involving individual and/or group projects that include several different aspects of transportation planning and engineering. The project will be different each year, and focus on a problem of current interest and importance.
Prerequisite(s): , , or permission of instructor.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7013 Urban Transportation & Logistics Systems 3 Credits
This course provides graduate students with operations research methods to solve logistics problems faced by decision-makers for congested urban infrastructure. Optimization and evaluation methods covered include linear programming, network flow, integer programming, vehicle routing, facility location, functions of random variables, Markov processes, (point, spatial, and Jackson) queueing, and queue tolling. Students will design and analyze a toy system related to one of the following applications: public transport, shared mobility, ITS applications, freight deliveries, traffic operations.
Prerequisite(s): Graduate Standing or Department Permission
Weekly Lecture Hours: 3
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TR-GY 7033 Multimodal Transportation Safety 3 Credits
Technology, legislation and market forces have contributed to improved transportation safety for decades. But one must consider which metrics are most relevant for which modes, the role of demographics and traffic levels and other factors when analyzing and predicting safety trends. The course pays attention to a systems view, to metrics by mode and to both standard field and statistical analyses. Consistent with current priorities, the course addresses security as well as safety issues.
Prerequisite(s): TR-GY 6013 or permission of adviser.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7063 Stochastic models and methods for engineering systems 3 Credits
Basic theory of stochastic processes and random graphs with a variety of transportation applications. Random variables, events, laws of large numbers; Finite-state Markov chains, steady-state distribution, exponential convergence, Markov decision process; Poisson process, Little’s theorem, M/M/1 queues, queuing networks, hybercube model, fluid model; Branching process, Erdős-Rényi model, geometric random graph; Applications in connected/autonomous vehicles, intersections, highway traffic, transit, patrol, emergency services, air transportation, infrastructure maintenance, urban development
Prerequisite(s): Knowledge of Undergraduate course on calculus, probability, and linear algebra.
Weekly Lecture Hours: 3
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TR-GY 7073 Travel Behavioral Informatics 3 Credits
This course teaches students how to design information systems for operating transportation facilities and services. The information systems are built on information obtained from a diverse population of travelers, and hence behavioral modeling is a crucial component. An introduction is provided of intelligent transportation systems (ITS): systems engineering, ITS architecture, and current ITS trends associated with behavioral information systems: e.g. cyber-physical transport systems, Internet of Things, and information & communications technologies (ICTs). An introduction to decision theory with incomplete information is provided based on different models random utility maximization: multinomial logit, probit, nested logit, mixed logit. Students will design tools based on behavioral choice models (for users) in a dynamic setting and construct simulation tests to evaluate them. A route choice information system (new technology marketing strategy, route diversion system, or fare/toll revenue management system) will be used as a case study.
Prerequisite(s): Graduate Standing or Department Permission
Weekly Lecture Hours: 3
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TR-GY 7083 Analytics and Learning Methods for Smart Cities 3 Credits
Basics of analytics and learning methods, with applications in smart cities. Introduction of algorithms in their very basic forms. Implementation of common machine learning algorithms in coding languages. Smart city applications of machine learning algorithms. Topics include probability review, inference, linear regression, classification, neural networks, and introduction to reinforcement learning. Applications include autonomous vehicles, traffic control, public transit, ridesharing, urban emergency response, smart grid, and smart buildings. Intended for students interested in smart city applications.
Prerequisite(s): Knowledge of Statistics or Data Analysis or equivalent
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TR-GY 7123 Management of Urban Traffic Congestion 3 Credits
The purpose of this course is to (1) understand the causes of traffic congestion and to measure how congestion impacts transportation users and communities, (2) set forth a vision for managing congestion and (3) develop and evaluate strategies and policies that achieve the vision.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7133 Urban Public Transportation Systems 3 Credits
This course provides a thorough understanding of policy, planning, operational and technical issues that affect urban public transportation. It includes the historical development of cites and the rise of urban transport. Also covered are the characteristics of various urban transportation modes (their specific operating and infrastructure characteristics), as well as key elements that are critical to service provision, such as service planning, scheduling, fare collection, communication and signaling, station design and customer service. The course offers a broad perspective on regional planning, capital programming and policy matters. Special focus will be on emerging technologies and their practical applications.
Prerequisite(s): TR-GY 6013 or permission of adviser.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7223 Management of Transit Maintenance and Operations 3 Credits
This course provides a comprehensive understanding of modern public transportation systems, emphasizing their technology and operational practices. Planning and management aspects are also covered. Such operational management issues as maintenance practices, scheduling, procurement and labor relations are broadly outlined and discussed. Planning and capital programming issues are also treated.
Prerequisite(s): TR-GY 6013 or permission of adviser.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7233 Transportation Management 3 Credits
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TR-GY 7243 Intelligent Transportation Systems: Deployments and Technologies 3 Credits
Transportation infrastructure deploys a wide range of modern technology to provide service to travelers, the general public and private entities. This technology enables other systems to function effectively and serve societal needs. This course focuses on data communications and applications in intelligent transportation systems: communications alternatives and analyses, emerging technologies, geographic information systems (GIS) and global positioning systems (GPS).
Prerequisite(s): TR-GY 6223 or permission of instructor.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7323 Design of Parking and Terminal Facilities 3 Credits
This course covers design techniques and approaches to a variety of pedestrian and vehicular needs in conjunction with access to land functions. Parking serves as the primary access interface to many land facilities, from shopping centers and sports facilities, to medium- and high-density residential developments. The planning and design of parking facilities, and the planning of access and egress from these facilities, is critical to the economic success of a development. Terminals are inter-modal interface facilities involving the transfer of people and/or goods from one mode of transportation to another. This course covers essential elements of terminal planning and design, including transit stations and terminals, major goods terminals at ports and railheads and others. The design of pedestrian space and ways within terminal structures is also treated.
Prerequisite(s): TR-GY 6013 or permission of adviser.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7343 Urban Freeways and Intercity Highways 3 Credits
This course focuses on the design, analysis, control and management of urban freeways and intercity highways of all classes. The course covers geometric design standards and principals, the application of highway capacity and level of service analysis methodologies (including HCS++), marking and signing, speed control and modern freeway management systems and approaches.
Prerequisite(s): TR-GY 6013 , TR-GY 6313 , or equivalents, or permission of instructor.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 7353 Data-driven Mobility Modeling and Simulation 3 Credits
This course introduces software used in various transportation analyses, traffic simulation and signal optimization software. The course covers SYNCHRO, software for creating optimal signal timings and progression offsets, as well as performing a capacity and level of service analysis of signalized intersections in accordance with the Highway Capacity Manual. Also covered is the use of the AIMSUN simulation program to analyze a traffic network. The course will focus on the theory behind the programs, as well as on practical examples of how to optimally use each package. Applications will include analysis of adaptive control systems and implementations.
Prerequisite(s): and or equivalents; or permission of academic advisor.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 8011 Special Topics in Transportation A 1.5 Credits
Subject(s) of a highly focused nature on a topic of current interest. Subject will vary with each offering.
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TR-GY 8013 Selected Topics in Transportation I 3 Credits
These courses are given as needed to present material on current topical subjects that are not expected to be given on a regular basis. The topic(s) for each offering are indicated and are listed on the student’s transcript. These courses may be taken more than once if the listed topics are different.
Prerequisite(s): TR-GY 6013 Fundamental Concepts in Transportation and as approved for the topic(s); to be specified for each offering.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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TR-GY 8021 Special Topics in Transportation B 1.5 Credits
Subject(s) of a highly focused nature on a topic of current interest. Subject will vary with each offering.
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TR-GY 8023 Selected Topics in Transportation II 3 Credits
These courses are given as needed to present material on current topical subjects that are not expected to be given on a regular basis. The topic(s) for each offering are indicated and are listed on the student’s transcript. These courses may be taken more than once if the listed topics are different.
Prerequisite(s): TR-GY 6013 Fundamental Concepts in Transportation and as approved for the topic(s); to be specified for each offering.
Weekly Lecture Hours: 3 | Weekly Lab Hours: 0 | Weekly Recitation Hours: 0
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Urban Studies |
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URB-UY 391x Independent Study in SUE 1-4 Credits
Independent study in Sustainable Urban Environments. Topics to be decided by the instructor.
Prerequisite(s): Instructor’s Permission.
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URB-UY 401X SUE Global Experience 1-4 Credits
In the course, students will learn about urban sustainability issues in China. They will also plan the research project to be conducted in Shanghai during J term. The class is open only to students who plan to also participate in the Shanghai research project. MUST pay activity fee deposit prior to start of semester.
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URB-UY 2004 Global Perspectives on Urban Sustainability 4 Credits
This course will give students a grounding in urban sustainability issues as they apply locally and globally, with an emphasis on case studies of problems and attempts at solutions in many different urban sites. The course materials address the broad range of social, cultural, technical, historical, political and technical issues that are part of urban sustainability.
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URB-UY 2024 Design of Cities 4 Credits
This course helps students examine cities from different perspectives, and to understand the design principles that create effective city spaces and how the city is a dynamic force, always changing through the impact of individuals and organizations. The class focuses on the role of historical, physical and social context in making sense of cities and how city problems can be identified, presented to others and addressed in various ways (through psychological and sociological studies, literature, art, etc.). Students complete a team-based project that involves the study of an innovative development project within the city and how it relates to its physical and social context.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 2024W Design of Cities 4 Credits
This course helps students examine cities from different perspectives, and to understand the design principles that create effective city spaces and how the city is a dynamic force, always changing through the impact of individuals and organizations. The class focuses on the role of historical, physical and social context in making sense of cities and how city problems can be identified, presented to others and addressed in various ways (through psychological and sociological studies, literature, art, etc.). Students complete a team-based project that involves the study of an innovative development project within the city and how it relates to its physical and social context.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4
Note: Satisfies a humanities and social sciences elective.
Weekly Lecture Hours: 4
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URB-UY 2034 Humans in the Urban Environment 4 Credits
In an increasingly urban dominated world, the environmental and ecological underpinnings of the human species help us understand why and how permanent settlements and cities evolve. The course covers basic environmental and ecological relationships, including geological, climatological, biomes, population growth models and carrying capacity. Receiving special emphasis are those ecosystems most important to humans throughout prehistory and history. The development of agriculture, increased human resource productivity and the resulting increase in population density is discussed as an underlying basis for developing and maintaining urban population areas. Also included is a discussion of changes in human social organization and psychology necessary for urban living.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 2044 Methods for Studying Urban Environments 4 Credits
This course provides students with a foundation for understanding and using social science research methods to study urban environments. In this course, students will gain an understanding of quantitative and qualitative approaches to social science research. They will be introduced to a range of data collection methods that are used to study urban environments and also strategies for data analysis. The course will involve a group research project with a real world client, as well as lectures, discussions, a group presentation and paper, exams, readings and several assignments.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 2054 Introduction to Urban Policy 4 Credits
The purpose of this course is to introduce students to the process and some of the major substantive issues in urban policy and politics in the United States, with some transnational contrasts. These include some of the basic issues of any political system: how cities function as part of a global urban network; the structure of decision making, the allocation of resources and delivery of services.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: This course satisfies an HUSS requirement
Weekly Lecture Hours: 4
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URB-UY 2054W Introduction to Urban Policy 4 Credits
The purpose of this course is to introduce students to the process and some of the major substantive issues in urban policy and politics in the United States, with some transnational contrasts. These include some of the basic issues of any political system: how cities function as part of a global urban network; the structure of decision making, the allocation of resources and delivery of services.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 2064 Introduction to Urban Planning 4 Credits
Introduction to Urban Planning explores planning precedents (the “big ideas”) including the City Beautiful movement, Garden Cities, Modernism, and the New Urbanism; examines contemporary planning practices including zoning, transportation-oriented development, citizen participation, affordable housing, and land preservation; and explores “planning without planners” including suburban sprawl, self-built shanty towns/slums, and historic preservation. A case study approach will be used for all concepts (including field trips to iconic planned communities in New York City).
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 2114 Geographic Information Systems 4 Credits
Geographic Information Systems are computer systems for the storage, retrieval, analysis, and display of geographic data, that is data about features and phenomena on the surface of the earth. This course will introduce the students to GIS through hands-on computer exercises, as well as readings and lectures about cartography, tools, data, and the social impacts of GIS. GIS projects start with data and move through analysis to cartographic display. Pedagogically, we will be starting at the end moving backward to data and analysis.
Note: This course cannot be used to satisfy the Humanities/Social Science requirement.
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URB-UY 2224 Natural Environment of New York City 4 Credits
New York is one of the world’s great cities and, like others, rests on a foundation of the natural environment. The geology and geographic history of the greater New York area is discussed- from plate tectonic origins through the recent (and ongoing) Ice Age, including the formation of river systems and the port. Also considered in detail is the evolution of ecological relationships, including human, throughout this time. Other topics include the changing climate through past epochs as well as today and their impact on the modern city. Also covered are current environmental challenges, such as water supply and quality, air quality, waste disposal and global effects, including atmospheric and ocean warming.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 2234 Natural Environmental Catastrophes and Cities 4 Credits
Cities are extremely complex physical and human systems that can be severely disrupted by acute human-caused events such as war. However, the natural world can also have a severe impact on cities over brief intervals. This course concerns itself with four well-known phenomena that can and have influenced the development, sustainability and even the survival of cities. Meteorological catastrophes, such as hurricanes, cyclones and typhoons, are discussed in detail. Also covered are less violent but equally destructive flooding by river and ocean; earthquake damage and its relationship to population density and the permanence of towns and cities throughout history; and volcanic eruptions, which, though rare, have disrupted cities and determined their initial locations. Finally, biological catastrophes, both macro and micro, such as pestilence and infestations, are discussed.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Notes: Satisfies a humanities and social sciences elective.
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URB-UY 2334 Introduction to Environmental Sciences 4 Credits
This course addresses the basic processes, as studied by the physical, biological sciences, and behavioral that determine the nature of the physical environment and how it affects life on earth. Topics include the physical environment (Lithosphere, Hydrosphere, Atmosphere, climate); the biological environment (biological systems, biodiversity, population dynamics, ecology) and modern environmental problems, including resource shortages (such as water and energy), diseases, soil, water and air pollution, climate change and their relationship to political and economic issues.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: This course cannot be used to satisfy the Humanities/Social Science requirement.
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URB-UY 3014 Directed Study in SUE 4 Credits
Directed study supervised by a faculty adviser in Humanities and Social Sciences. Students, guided by a faculty adviser, are exposed to foundational research techniques. Library research, written and oral reports are required.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Does not satisfy a humanities and social sciences elective.
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URB-UY 3034 Evidence-Based Design 4 Credits
Designers-at the product, building, neighborhood or urban level-necessarily base their work on the perceived needs and desires of users and clients. Historically, these understandings have come from past practice, close interactions with clients or designer intuition. In recent years, however, design researchers have accumulated enough information to provide an empirical base upon which to base many design decisions. This class reviews the evidence for design, particularly as it relates to well-studied settings, such as health care, corrections and neighborhood design.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 3044 Green Cities 4 Credits
This course will provide students with an understanding of different types of green spaces that exist in urban areas, such as parks, urban forestry and agriculture, and sustainable streetscapes. It will explore how the greening of cities may incorporate various green infrastructure designs and techniques, and will examine the benefits that green places in cities provide to urban inhabitants as well as the city itself. Although some focus will be on New York City places and policies, the course will also explore greening techniques, designs and policies in other cities in the United States and internationally. Students will learn about public policies that impact the implementation of greening initiatives and how the physical environment affects the quality of life for individuals and communities.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
Weekly Lecture Hours: 4
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URB-UY 3044W Green Cities 4 Credits
This course will provide students with an understanding of different types of green spaces that exist in urban areas, such as parks, urban forestry and agriculture, and sustainable streetscapes. It will explore how the greening of cities may incorporate various green infrastructure designs and techniques, and will examine the benefits that green places in cities provide to urban inhabitants as well as the city itself. Although some focus will be on New York City places and policies, the course will also explore greening techniques, designs and policies in other cities in the United States and internationally. Students will learn about public policies that impact the implementation of greening initiatives and how the physical environment affects the quality of life for individuals and communities.
Note: Satisfies a humanities and social sciences elective.
Weekly Lecture Hours: 4
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URB-UY 3214 Cities in Developing Countries 4 Credits
This course will examine different facets of cities in developing countries. It will address common problems in developing urban regions, gaining an understanding of common settlement patterns and urban systems by region. It will also focus on specific issues in representative cities of the regions studied. Specific issues will include water and sanitation, health, transportation and infrastructure, historic preservation, disaster risk reduction and housing initiatives. Cases will include representative cities from Asia, Africa, the Middle East, Latin America and the Caribbean.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 3234 Planning for Healthy Cities 4 Credits
This course is designed to introduce students to the role of the built environment in promoting community health, focusing on the neighborhood scale. Although urban planning and public health are closely related in their history and their goals, these fields are typically taught and practiced independently. The course will examine health issues that can be influence by urban planning, and will explore the role of transportation, land use planning, urban design, community development, and environmental policy, to promote public health.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 3314 History and Design of Urban Parks 4 Credits
Today, urban parks have become an integral feature of most modern cities. This course describes the origins of urban parks-from private urban-palace gardens to the large, open “natural” public parks so critical to urban life today. The design of these parks, from formal Italian and French gardens to British Landscape gardens, is discussed. The course also examines the changing view of nature in Europe and America, from the Renaissance to the present, and how park design was influenced by this evolving view. The design was strongly influenced by the changing view of nature’s psychological, spiritual and even supposedly medical benefits, and by the need for “parks for the people” as an expression of the new democratic spirit in a changing world. This course also includes two of New York City’s most famous parks, Central Park in Manhattan and Prospect Park in Brooklyn.
Prerequisite(s): Completion of first year writing requirements and URB-UY 2034 or URB-UY 2024W .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 3354 Urban Impact Assessment 4 Credits
Impact assessment is an international, interdisciplinary field of knowledge and practice for anticipating the conditions of change and managing their consequences in order to enhance everyone’s quality of life. Two phrases can describe its essence: “comprehensive and integrated” and “proactive and creative.” Urban impact assessment applies that knowledge at the urban scale, ranging from local to global. Coupled with the recent innovation of “sustainability assessment,” it aims to advance the proposition of urban sustainability. This course also explores the dimensions and proportions of that prospect by applying urban impact assessment methodology to a variety of cases at hand.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 3832 Special Topics in Sustainable Urban Environments 4 Credits
Special topics in Sustainable Urban Environments at the 3000 level, to be decided by instructor.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4
Note: Satisfies a HuSS Elective.
Weekly Lecture Hours: 4
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URB-UY 3834 Special Topics in Sustainable Urban Environments 4 Credits
Special topics in Sustainable Urban Environments at the 3000 level, to be decided by instructor.
Prerequisite(s): Completion of EXPOS-UA 1 or EXPOS-UA 4 .
Note: Satisfies a humanities and social sciences elective.
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URB-UY 4012 Capstone Project I 2 Credits
The capstone is a project course that presents SUE students with an opportunity to translate previous coursework into an applied research project. This is a real-world based course in which students identify, research, and propose solutions to a multidisciplinary urban issue. The field research will be supported by library and on-line research and will culminate in a written report and an oral presentation.
Prerequisite(s): URB-UY 2044
Note: Cannot take if already taken URB-UY 4024.
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URB-UY 4014 Study Abroad 4 Credits
For SUE majors only. The study-abroad is a semester-long course at a foreign institution. Students must maintain a course-load equivalent of 12 credits during this semester.
Prerequisite(s): Prerequisites: Junior/Senior status and permission of SUE faculty adviser.
Note: Does not satisfy a humanities and social sciences elective.
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URB-UY 4022 Capstone Project II 2 Credits
The capstone is a project course that presents SUE students with an opportunity to translate previous coursework into an applied research project. This is a real-world based course in which students identify, research, and propose solutions to a multidisciplinary urban issue. The field research will be supported by library and on-line research and will culminate in a written report and an oral presentation.
Prerequisite(s): URB-UY 2044 and URB-UY 4012
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URB-UY 4024 Capstone Project 4 Credits
The capstone is a research project that presents SUE students with an opportunity to translate previous coursework into an applied research effort. This is a real-world based course in which students work in teams to identify, research, and propose solutions to a multidisciplinary urban issue, supervised by an SUE faculty member in weekly class discussions. The field research should be supported by library research and culminates in a written and oral report.
Prerequisite(s): Senior status, permission of SUE faculty advisor.
Note: Does not satisfy a humanities and social sciences elective.
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URB-UY 4034 Internship 4 Credits
Students may undertake an internship for academic credit with an appropriate private, public, or non-profit agency or firm. The internship is an opportunity to extend learning outside of the classroom into a real world setting, and to explore career options tied to the major. Students complete 140 hours at the internship site and attend occasional class meetings. The course involves completing a learning contract, regular reflections, assignments, and a final presentation.
Prerequisite(s): IDM/SUE/STS majors only. Permission of instructor required.
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URB-UY 4504 Advanced Seminar in Urban Studies 4 Credits
The Advanced Seminar is a writing- and research-intensive course that will explore in-depth a topic in Technology, Culture, and Society, requiring practice of both writing and research skills. Topics vary by section; see Albert for detailed topic descriptions.
Prerequisite(s): (EXPOS-UA 1, EXPOS-UA 4, EXPOS-UA 5, EXPOS-UA 9, ASPP-UT 2, WREX-UF 101 or WRCI-UF 102) and one TCS elective course.
Weekly Lecture Hours: 4
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Undergraduate Academics |
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UGA-UY 3000 GLASS Junior Seminar 0 Credits
The Global Leaders and Scholars in STEM course is a non-credit seminar course required for all students in the program. GLASS students are required to enroll in seminar courses throughout the three years of the program. The GLASS junior seminar course focuses on building project management and leadership skills in addition to professional development training.
Prerequisite(s): UGA-UY 2000 and Undergraduate Academics approval
Weekly Lecture Hours: 2
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UGA-UY 4000 Global Leaders and Scholars in STEM Senior Seminar 0 Credits
The Global Leaders and Scholars in STEM course is a non-credit seminar course required for all students in the program. GLASS students are required to enroll in cohort seminar courses throughout the three years of the program.
The GLASS senior seminar course focuses on reviewing and finalizing students’ end of program deliverables - presentation, portfolio, poster, and project. In addition, they will have final preparation for their upcoming job search and placement.
Prerequisite(s): UGA-UY 3000
Weekly Lecture Hours: 0
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