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Graduate Courses:

•&²Ô²ú²õ±è;: Basic economics of transportation, economic analysis tools, and policy impacts on transportation activities and firms.

•&²Ô²ú²õ±è; (Required for ME degree only): Analytical methods, including differential equations, linear algebra, probability, and optimization, applied to various civil engineering fields.

•&²Ô²ú²õ±è;: Traffic flow theory, data analysis, capacity assessment, network models, and the use of advanced technology in traffic management and control.

•&²Ô²ú²õ±è;: Quantitative methods for transportation analysis, including network analysis, decision theory, data analysis, and statistical inference.

•&²Ô²ú²õ±è;: Transportation planning processes in the U.S., including travel behavior, mobility, land use, and impact analysis in urban environments.

•&²Ô²ú²õ±è;[CE 19700] Report: Engineering design or project analysis, including exploration, examination, and reporting of its development and impact.

•&²Ô²ú²õ±è;[CE 19800] Project: A student-driven analytical or experimental project under faculty supervision, with a final written proposal and report.

•&²Ô²ú²õ±è;[CE 19900] Thesis: Completion of a master’s thesis, involving extensive research and analysis on a transportation-related topic.

•&²Ô²ú²õ±è;: Design of traffic facilities, intersections, and interchanges using computer-aided design methods and procedures.

•&²Ô²ú²õ±è;: Design of rail systems for passenger and freight operations, track structure, and alternative technologies for construction and maintenance.

•&²Ô²ú²õ±è;: Highway design, including alignment, route location, pavement types, earthwork, drainage, and maintenance.

•&²Ô²ú²õ±è;: Construction planning and operations for highways and airports, including cost estimating, scheduling, and environmental impact analysis.

•&²Ô²ú²õ±è;[CE G2700] Multimodal Transportation Technologies: The use of various transportation technologies, including multimodal solutions for more efficient transportation systems.

•&²Ô²ú²õ±è;[CE G3100] For-Hire Transportation: Analysis of for-hire transportation systems, including legal, economic, and operational aspects.

•&²Ô²ú²õ±è;[CE G3500] Transportation Safety: Addressing safety challenges in transportation, including crash analysis, risk assessment, and safety improvement strategies.

•&²Ô²ú²õ±è;: Transportation network optimization, including mathematical modeling and simulation to find equilibrium traffic flows and improve system performance.

•&²Ô²ú²õ±è;: Development of urban transportation systems, addressing infrastructure, regulations, user behavior, and sustainability in urban settings.

•&²Ô²ú²õ±è;: Challenges and solutions in urban freight and logistics, including distribution methods, externalities, data collection, and policy implications.

•&²Ô²ú²õ±è;: Planning and Operations: Techniques in route planning, scheduling, and service improvements for fixed-route bus and rail systems, including integration with paratransit.

•&²Ô²ú²õ±è;: Travel demand theory, including functions, models, and forecasting methods applied to various transportation modes.

•&²Ô²ú²õ±è;: Management of transportation assets, including valuation, lifecycle costs, and preservation strategies for infrastructure and resources.

•&²Ô²ú²õ±è;: Role of transportation policy, legislation, and regulatory frameworks in shaping transportation systems, performance, and land use.

•&²Ô²ú²õ±è;: Traffic laws, control devices, system management, and optimization techniques for efficient transportation operations.

•&²Ô²ú²õ±è;[SUS 7100B] Sustainable Transportation: Sustainability in transportation, including policy, design, and technological solutions to reduce environmental impacts and improve transportation systems.