Academic Qualifications Qualifications Details: IGS — Shri M. Seismic slope stability analysis — submitted by Miss Bijaya Saha, ii.
EGN with minimum grade of "C" or permission of instructor Introduction to transportation engineering, including planning, permitting, and environmental considerations; design calculations; capacity analysis and simulation; presentation skills necessary for the proper development of transportation improvements.
TTE C Fundamental concepts for multimodal transportation engineering, planning, and systems analysis. Topics include transportation demand and supply system simulations, impact estimation, linear and integer programming, and the evaluation of competing transportation alternatives.
TTE C or URP or permission of instructor Provides multimodal solutions that relieve congestion, optimize infrastructure investments, promote travel options and reduce greenhouse gas emissions.
Modeling of complex interactions and causal relationships among current issues. Topics include transportation modes and technologies, vehicle dynamics, basic facility design, capacity analysis, transportation planning, evaluation and choice, network analysis, logistics and ITS.
Additional topics include transportation risk assessment and computation, evacuation modeling, reliability analysis, infrastructure interdependency analysis and network impact assessment. TTE C with minimum grade of "C" Course covers planning, design and operation of highway geometric design, modern methods for traffic control, traffic flow capacity, highway location and design, highway engineering economics, traffic measurement devices and technologies; signal systems, corridor control, automatic driver information; incident detection; and autonomous vehicle operation.
Civil Engineering Graduate Courses Civil Engineering Project Management CCE 3 credits This is a course in which planning, design, document preparation, bidding, big tabulation, construction management, cost estimation, conflict resolution and scheduling for civil engineering projects are covered.
Terrestrial Laser Scanning CEG C 3 credits This course gives an introduction to applications of terrestrial laser scanning systems in geosciences, engineering, urban planning, forestry, architecture, emergency planning and forensics. CEG C Fundamentals of soil behavior including dynamic soil properties; subsurface explorations and sampling; elastic and probabilistic analyses for stresses in soil masses; wave propagation in soil media; foundation vibrations; liquefaction; critical state model for soil behavior.
CEG Rigid and flexible earth retaining structures; shallow and deep foundations; laterally loaded piles; sheet-pile walls, braced excavations, cellular cofferdams, and buried culverts; consolidation settlement, stress distribution, elastic settlement, load bearing capacity; seepage and dewatering of foundation excavations.
CEG C Forms of waste; index properties; clay minerals; compressibility and settlement; shear strength; hydraulic properties; site investigation; site selection; ground modification and compaction; liners; leachate generation and collection caps; foundation and slope stability; gas management, computer modeling for landfill design.
CEG C, CGN C Soil chemistry, mineralogy, and properties; techniques of soil reinforcement, soil improvement, and soil treatment; chemical stabilization; mechanical stabilization; designing with geosynthetics; foundations and pavement applications.
Numerical Methods in Geotechnical Engineering CEG 3 credits Dynamic and static analysis of shallow and deep foundations, flow-through porous media, excavations, embankments, one- two- and three-dimensional consolidation and earthquake response analysis.
Groundwater Contamination CEG 3 credits Sources and types of groundwater contamination; hydrogeologic site investigations; contaminant transport mechanisms; contaminant fate processes; modeling of groundwater contamination; non-aqueous phase liquids; groundwater remediation methods. Advanced Structural Analysis CES 3 credits Review of matrix-force and displacement methods and their applications to civil structures.
CEG Stress and strain tensors, failure criteria, variational principles, torsion of thin wall members, unsymmetrical bending, theories of plates, shells, elastic foundations, and plastic analysis of structures.
CEG Variational principles, weighted residual methods, convergence criteria, shape functions for one- two- and three-dimensional elements, isoparametric elements, and applications to structural and geotechnical engineering systems. Discussion of bridge types and factors affecting the selection of type: CGN C Cementitious and pozzolanic material-modified concretes.
Modification with fly ash and high volume fly ash; silica fume; ground granulated blast furnace slag; rice husk ash; municipal ash; polymeric waste. Response of continuous systems.
Introduction to earthquake engineering: Wind effects on structures and hurricane-resistant design. Advanced Steel Structures CES 3 credits Review of basic steel design; beam columns; interaction formulas; first-order and second-order moments; eccentric bolted and welded connections; moment resisting connections; composite construction; effective flange width; shear connectors; composite beams with formed steel deck; plate girder proportions; AISC requirements; flexure-shear interaction.
Advanced Reinforced Concrete CES 3 credits Analysis and design of two-way slabs, floor systems, deep beams, shear walls and footings. Limit state, yield line and deflection analysis.
Continuity, tall buildings, seismic, and hurricane-resistant design. Prestressed Concrete CES 3 credits Behavior, analysis and design of pretensioned and post-tensioned concrete structures. Flexural, shear, bond and anchorage zone design. Partial prestressing strength, serviceability and structural efficiency of beams, slabs, tension and compression members.
It outlines the basic principles of solar electricity, solar water heating, wind power, micro-hydro, biomass and heat pumps and their application in urban and rural environments. Basic course in statistics or permission of instructor Course covers development of hypothesis and thesis-driven data analysis via applications of the basic principles of experimental design to analysis of engineering data, computational algorithms for sample size optimization, analysis of variance for experiments with a single factor, multi-variate analysis.
Permission of instructor Study relating to specialized topics associated with civil engineering. Infrastructure Maintenance and Management CGN 3 credits The course involves evaluating infrastructure systems water, sewer, stormwater, roads, bridges, rail, power to identify concepts on repair, replacement and maintenance, including dollars to spend on same.
Permission of instructor Study of topics in civil engineering relating to the special needs and interests of individual students. The course provides an in-depth review of fundamentals of hydrology along with spatial analysis tools required for effective stormwater modeling and management.
Water Resource System Engineering CWR 3 credits Nature of water resource systems; Systems analysis, Objective functions; Optimal policy analysis; Linear programming; Dynamic programming; Political and economic objectives; Water resource subsystems; Deterministic and stochastic parameters; Large-scale, multi-objective projects; Water allocation; Supply and demand; Hierarchical modeling of water resource systems.
Modeling Methods in Water Resources and Environmental Engineering EES 3 credits Classification of PDEs; fundamentals of numerical analysis; numerical stability, consistency, and convergence; method of characteristics; variational principles; finite differences; finite elements; integral-boundary element method; applications to water resource and environmental engineering problems.DEVELOPMENT OF PERVIOUS CONCRETE by Yukari Aoki, B.E.
M.E. A thesis submitted to fulfilment of the requirements for the degree of Master of Engineering.
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