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Course Criteria
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3.00 Credits
Study of advanced topics in reinforced concrete design, including design of slender columns, deflections, torsion in reinforced concrete, design of continuous frames, and two-way floor systems. Introduction to design of tall structures in reinforced concrete, and design of shear walls.
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3.00 Credits
Fundamental concepts of the finite element method; modeling and discretization; one dimensional problems; element characteristics; interpolation functions; plane stress and plane strain problems; isoparametric mappings and numerical quadrature; axisymmetry; three dimensional elasticity. Prerequisites: CE 4340, CE 4820 or equivalent.
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3.00 Credits
Studies the fundamental concepts of structural reliability; definitions of performance and safety, uncertainty in loadings, materials and modeling. Analysis of loadings and resistance. Evaluation of existing design codes. Development of member design criteria, including stability, fatigue and fracture criteria; and the reliability of structural systems.
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3.00 Credits
Analyzes the theories and techniques for the determination of static and dynamic stresses, strains, and deformations. Studies include photoelastic, electrical, mechanical, and optical methods and instruments. Both models and full-scale specimens will be used in experimental testing.
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3.00 Credits
Covers the methods for evaluating the impact on the quality of traffic operations due to the interaction of the three main components of the highway mode: the driver, the vehicles, and the road. Includes the collection and analysis of traffic operations data, fundamentals of traffic flow theory, analysis of capacity and level of service and accident analysis.
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3.00 Credits
Introduces the legal requirements, framework, and principles of urban and statewide planning. Focuses on describing and applying the methodology of the forecasting system of the transportatoin planning process, including inventory, forecasts of population and economic activity, network analysis, and travel demand analysis.
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3.00 Credits
Study of the application of transportation systems and technologies in an urban context. Focuses on the management and operation of public transit systems, and comparative costs and capabilities of transit modes.
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3.00 Credits
Studies the structure of domestic freight and passenger transportation in the United States. Focuses on the integration of modes, economic impacts, national transportation policy and advanced technology. Case studies of contemporary examples of intermodal integration are explored.
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3.00 Credits
Intelligent transportation systems (ITS) can best be defined as the application of information technology to the surface transportation system. This technology, which includes communications, sensors, and computer hardware and software, supports both travelers and transportation providers in making effective decisions. This course provides an introduction to the concepts of intelligent transportation systems (ITS), explores the technology that serves as the foundation for ITS, and includes case-studies to allow students to explore ITS analysis and design.
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3.00 Credits
A study of different transportation systems management strategies with specific emphasis on their impact on safety, including methods of obtaining and analyzing crash data. Emphasis is also placed on the interaction of human and vehiclecharacteristics and the road environment on safety.
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