Civil Engineering (CVEG)
Courses
CVEG 20002. Introduction to Civil Engineering Plans and CADD. 2 Hours.
Development and preparation of design and construction plans; plan terminology and features; introduction to computer-aided drafting and design (CADD) software. Prerequisite: Civil Engineering major or departmental consent. (Typically offered: Fall, Spring and Summer)
CVEG 20103. Civil Engineering Mechanics I. 3 Hours.
CVEG 20103 provides the student with a foundation in the theory and principles of statics for use in subsequent civil engineering courses. The course applies mathematics and physics to solve practical problems of structural systems. Corequisite: MATH 26004. Prerequisite: MATH 25004 with a C or better and PHYS 20304 with a C or better. (Typically offered: Fall and Spring)
CVEG 20203. Civil Engineering Mechanics II. 3 Hours.
CVEG 20203 provides the student with a foundation in the theory and principles of mechanics of materials for use in subsequent civil engineering courses. This course applies mathematics and physics to solve problems in mechanics. Prerequisite: CVEG 20103 with a C or better or MEEG 20003 with a C or better. (Typically offered: Fall and Spring)
CVEG 20501. Surveying Systems Laboratory. 1 Hour.
Laboratory exercises demonstrating the principles and practices of surveying systems. Corequisite: CVEG 20503. (Typically offered: Fall)
CVEG 20503. Surveying Systems. 3 Hours.
Coordinate geometry, measurements, and total integrated surveying systems; total stations, electronic data collection, and reduction; error analysis; applications to civil engineering and surveying practice. Corequisite: CVEG 20501. Prerequisite: MATH 24004 with a C or better or MATH 24005 with a C or better. (Typically offered: Fall)
CVEG 21103. Structural Materials. 3 Hours.
Production, properties, behavior, and structural applications of concrete, steel, timber, masonry, and plastic. Statistical analysis methods for quality control are also covered. Lecture 2 hours, laboratory 3 hours per week. Corequisite: Lab component. Prerequisite: MEEG 20003 with a C or better or CVEG 20103 with a C or better. Pre- or Corequisite: MEEG 30103 or CVEG 20203. (Typically offered: Fall and Spring)
CVEG 28501. Engineering Professional Practice Issues. 1 Hour.
Study of various issues related to the professional practice of engineering including ethics, professionalism, professional licensure, project procurement, social and political issues, globalism, and other legal issues. (Typically offered: Fall and Spring)
CVEG 31301. Soil Mechanics Laboratory. 1 Hour.
Index, strength, and consolidation properties of soils; test methods and specifications for soil sampling and testing. Corequisite: CVEG 31302. (Typically offered: Fall and Spring)
CVEG 31302. Soil Mechanics. 2 Hours.
Introduction to geotechnical engineering. Properties of soils related to foundations, retaining walls, earth structures, and highways. Lecture 2 hours, laboratory 3 hours per week. Corequisite: CVEG 31301. Pre- or Corequisite: CVEG 32103 and MATH 25804. Prerequisite: ((MEEG 30103 or CVEG 20203) with a C or better), GEOL 11103 with a C or better, and CVEG 20002 with a C or better. (Typically offered: Fall and Spring)
CVEG 32103. Hydraulics. 3 Hours.
Study of incompressible fluids. Topics include fluid properties, fluid statics, continuity, energy and hydraulic gradients, fundamentals of flow in pipes and open channels, flow measurement devices, pump selection and analysis. Corequisite: Lab component. Prerequisite: CVEG 20103 with a C or better or MEEG 20003 with a C or better. (Typically offered: Fall and Spring)
CVEG 32203. Hydrology. 3 Hours.
Flood routing procedures in storage reservoirs and channels. Hydrologic planning including storage reservoir design, frequency duration analysis, and related techniques. Prerequisite: (CVEG 20503 or BENG 26403) with a C or better, and (CVEG 32103 or MEEG 35003 or CHEG 21303) with a C or better. (Typically offered: Fall and Spring)
CVEG 32403. Environmental Engineering. 3 Hours.
Introduction to theories and fundamentals of physical, chemical, and biological processes with emphasis on water supply and wastewater collection, transportation, and treatment. Lecture 2 hours, laboratory 3 hours per week. Corequisite: Lab component. Prerequisite: MATH 25804 with a C or better and CHEM 14103 with a C or better. (Typically offered: Fall and Spring)
CVEG 33003. Structural Analysis. 3 Hours.
Truss analysis, influence lines for beams and frames, and effects of moving loads. Deformation of beams, frames, and trusses. Analysis of indeterminate structures by moment area, slope deflection, and moment distribution methods; approximate methods of analysis. Lecture 3 hours, drill 3 hours per week. Corequisite: Drill component. Prerequisite: MEEG 30103 with a C or better or CVEG 20203 with a C or better. (Typically offered: Fall and Spring)
CVEG 34103. Transportation Systems Engineering. 3 Hours.
Transportation Systems Engineering: Introduction to transportation systems engineering and planning. Includes the following topics: transportation governance, financing, and the effect on the environment; traffic flow theory; safety; traffic operations and control; capacity; and travel demand modeling. Prerequisite: CVEG 20503 with a C or better and (INEG 23104 or INEG 33103) with a C or better. (Typically offered: Fall)
CVEG 41403. Foundation Engineering. 3 Hours.
Analysis and design of retaining walls, footings, sheet piles, and piles. Determination of foundation settlements in sand and clay. Prerequisite: CVEG 31302 with a C or better and INEG 24103 with a C or better. (Typically offered: Fall and Spring)
CVEG 42003. Environmental Regulations and Permits. 3 Hours.
Topics include federal and state environmental regulations, the permitting process, permit requirements and related issues. Prerequisite: CVEG 32403 with a C or better and senior standing. (Typically offered: Fall)
CVEG 42403. Environmental Engineering Design. 3 Hours.
Application of physical, biological, and chemical operations and processes to the design of water supply and wastewater treatment systems. Prerequisite: CVEG 32403 with a C or better and INEG 24103 with a C or better. (Typically offered: Spring)
CVEG 42603. Air Pollution Control. 3 Hours.
Fundamentals of air pollution causes, effects, and measurements; as well as, control methods with application to current industrial problems. Prerequisite: CVEG 32103 with a C or better or MEEG 35003 with a C or better. (Typically offered: Spring)
CVEG 42703. Open Channel Flow. 3 Hours.
Open Channel Flow includes advanced open channel hydraulics, flow measurement techniques, a hydrology review, culvert and storm drainage design, natural channel classification (fluvial geomorphology) and rehabilitation, computer methods and environmental issues. Prerequisite: CVEG 32103 and CVEG 32203. (Typically offered: Spring)
CVEG 43003. Reinforced Concrete Design I. 3 Hours.
Design of reinforced concrete elements with emphasis on ultimate strength design supplemented by working stress design for deflection and crack analysis. Prerequisite: CVEG 21103 with a C or better and CVEG 33003 with a C or better. (Typically offered: Fall and Spring)
CVEG 43103. Structural Steel Design I. 3 Hours.
Design of structural steel elements by elastic design the Load and Resistance Factor Design method. Intensive treatment of tension members, beams, columns, and connections. Pre- or Corequisite: CVEG 21103. Prerequisite: CVEG 33003 with a C or better. (Typically offered: Fall and Spring)
CVEG 43203. Structural Loadings. 3 Hours.
Theoretical background to and practical code requirements for various structural loadings. These include dead loads, occupancy loads, roof loads and ponding, snow loads, granular loads, vehicular loads, wind loading, and seismic loads. Prerequisite: CVEG 33003 with a C or better, INEG 24103 with a C or better, and ((CVEG 43003 or CVEG 43103) with a C or better). (Typically offered: Spring)
CVEG 43403. Reinforced Masonry Design. 3 Hours.
Properties of masonry materials and assemblages. Masonry workmanship and quality control. Design of reinforced masonry elements against gravity and lateral loads. Design of masonry connections and joints. Application to 1- and 2-story buildings. Prerequisite: CVEG 43003 with a C or better. (Typically offered: Irregular)
CVEG 43503. Timber Design. 3 Hours.
Selection of timber beams, columns, and beam-columns. Physical properties of wood, analysis and design of timber connections. Truss design, glulam members, timber bridge design, treatment for decay, and fire protection. Pre- or Corequisite: CVEG 21103. Prerequisite: CVEG 33003 with a C or better. (Typically offered: Irregular)
CVEG 44103. Pavement Evaluation and Rehabilitation. 3 Hours.
Introduction of concepts and procedures for pavement condition surveys; evaluation by nondestructive and destructive testing; maintenance strategies; rehabilitation of pavement systems for highway and airfields; pavement management systems. Prerequisite: CVEG 44303 with a C or better. (Typically offered: Irregular)
CVEG 44203. Transportation Infrastructure. 3 Hours.
Transportation infrastructure includes discussion on the geometric design of roadways, roadway drainage, roadway materials, roadway structural design, and an economic analysis of roadways. This includes the design of horizontal and vertical alignment, cross section, intersections, pavement materials, and structural capacity. Prerequisite: CVEG 34103 with a C or better and INEG 24103 with a C or better. (Typically offered: Fall and Spring)
CVEG 44303. Transportation Pavements and Materials. 3 Hours.
Study of the engineering properties and behavior of materials commonly used in transportation facilities as they relate to the design and performance of flexible and rigid pavement systems. Lecture 2 hours, laboratory 3 hours per week. Corequisite: Lab component. Prerequisite: CVEG 31302 with a C or better, CVEG 34103 with a C or better, and ((INEG 23104 or INEG 33103) with a C or better). (Typically offered: Irregular)
CVEG 45103. Construction Management. 3 Hours.
Introduction to methods and procedures for management of civil engineering construction projects including organization, plans and specs, cost estimating and bidding, project planning and finance, quality control/ assurance, construction safety, cost management, labor issues, change orders, and subcontractor issues. Prerequisite: Senior standing and Civil Engineering majors only. (Typically offered: Fall and Spring)
CVEG 48102. Environmental Design Project. 2 Hours.
Comprehensive engineering design project primarily related to environmental issues. Corequisite: CVEG 42403. (Typically offered: Spring)
CVEG 48202. Geotechnical Design Project. 2 Hours.
Comprehensive engineering design project primarily related to geotechnical issues. Corequisite: CVEG 41403. Prerequisite: CVEG 43003 with a C or better. (Typically offered: Fall)
CVEG 48302. Structural Design Project. 2 Hours.
Comprehensive engineering design project primarily related to structural issues. Corequisite: CVEG 43203. Prerequisite: CVEG 43003 with a C or better and CVEG 43103 with a C or better. (Typically offered: Spring)
CVEG 48402. Transportation Design Project. 2 Hours.
Comprehensive engineering design project primarily related to transportation issues. Corequisite: CVEG 44203. Prerequisite: CVEG 20002 with a C or better. (Typically offered: Fall)
CVEG 48603. Sustainability in Civil Engineering. 3 Hours.
Qualify and quantify the economic, environmental, societal, and engineering drivers behind sustainability in Civil Engineering. Justification of the feasibility and benefits of sustainability in environmental, geotechnical, structural, and transportation engineering through verbal and written communications. Prerequisite: Senior standing. (Typically offered: Irregular)
CVEG 4880V. Special Problems. 1-6 Hour.
Special problems. Prerequisite: Senior standing. (Typically offered: Irregular) May be repeated for up to 6 hours of degree credit.
CVEG 491HV. Honors Studies in Geotechnical Engineering. 1-6 Hour.
The study of advanced topics in the geotechnical engineering field. May include participation in geotechnical engineering courses normally available only to graduate students. Prerequisite: CVEG 31302 with a grade of C or better. (Typically offered: Irregular) May be repeated for up to 6 hours of degree credit.
CVEG 493HV. Honors Studies in Structural Engineering. 1-6 Hour.
The study of advanced topics in the structural engineering field. May include participation in structural engineering courses normally available only to graduate students. Prerequisite: CVEG 33003 with a grade of C or better. (Typically offered: Irregular) May be repeated for up to 6 hours of degree credit.
CVEG 494HV. Honors Studies in Transportation Engineering. 1-6 Hour.
The study of advanced topics in the transportation engineering field. May include participation in transportation engineering courses normally available only to graduate students. Prerequisite: CVEG 34103 with a grade of C or better. (Typically offered: Irregular) May be repeated for up to 6 hours of degree credit.
CVEG 498H3. Honors Undergraduate Thesis. 3 Hours.
Thesis research for civil engineering students enrolled in the honors college. Prerequisite: Honors College. (Typically offered: Irregular)
CVEG 50000. Graduate Seminar in Civil Engineering. 0 Hours.
A weekly seminar devoted to civil engineering research topics. Appropriate grade to be "S". (Typically offered: Fall and Spring)
CVEG 51003. Geosynthetic Applications in Civil Engineering. 3 Hours.
Geosynthetic Applications in Civil Engineering: The functional properties of various geosynthetic materials are defined as they relate to; reinforcement, separation, filtration, and drainage applications. Design procedures are developed for the use of geosynthetics in transportation, environmental and geotechnical applications. Prerequisite: CVEG 31302 and CVEG 31301 or equivalent. (Typically offered: Irregular)
CVEG 51103. Soil Dynamics. 3 Hours.
This course covers propagation of stress waves in elastic and inelastic materials, dynamic loading of soils, and stiffness and damping properties of soils. Use of field and laboratory techniques to determine shear wave velocity of soils. Also includes applications of dynamic soil properties in site stiffness characterization, geotechnical earthquake engineering, evaluation of ground improvement, and design of machine foundations. Prerequisite: CVEG 41403 or graduate standing. (Typically offered: Irregular)
CVEG 51203. Measurement of Soil Properties. 3 Hours.
Consideration of basic principles involved in measuring properties of soils. Detailed analysis of standard and specialized soil testing procedures and equipment. Lecture 2 hours, laboratory 3 hours per week. Corequisite: Lab component. Prerequisite: CVEG 41403 or graduate standing. (Typically offered: Irregular)
CVEG 51303. Geotechnical Site Characterization. 3 Hours.
One of primary tasks of geotechnical engineers is to perform in-situ site characterization for engineering design of foundations, retaining structures, roads, bridges and other infrastructure. This course will focus on in-situ investigations performed for the purpose of collecting detailed site characterization data for direct and/or indirect use in geotechnical design. Specifically, we will study various static (e.g., SPT, CPT, VST, DMT, PMT) and dynamic (e.g., CHT, DHT, SW, GPR) in-situ tests used to obtain estimates of stratigraphy, density, strength, stress history, modulus, and permeability of geotechnical materials. We will predominantly focus on site characterization of soil sites, but will mention rock testing and design methods when appropriate. Prerequisite: CVEG 41403 or the equivalent. (Typically offered: Irregular)
CVEG 51403. Transportation Soils Engineering. 3 Hours.
Advanced study of the properties of surficial soils; soil classification systems; pedology; soil occurrence and variability; subgrade evaluation procedures; repeated load behavior of soils; soil compaction and field control; soil stabilization; soil trafficability and subgrade stability for transportation facilities. Prerequisite: CVEG 31302. (Typically offered: Irregular)
CVEG 51503. Earth Retaining Structures. 3 Hours.
This course will focus on the analysis and design of earth retaining structures. Specifically, we will discuss soil and rock property design parameter selection, lateral earth pressures for wall system design, and load and resistance factor design (LRFD) for retaining walls. Wall types discussed include gravity and semi-gravity walls, modular gravity walls, MSE walls, nongravity cantilever walls and anchored walls, and in-situ reinforced walls. Information on wall system feasibility and selection, construction materials and methods, cost information, and design and performance information will be discussed. Prerequisite: CVEG 41403 or equivalent. (Typically offered: Irregular)
CVEG 51603. Seepage and Consolidation. 3 Hours.
Investigation of the flow of water through soils and the time rate of compression of soils. Characterization of the hydraulic conductivity of soils in the field, seepage through earth dams, excavation cut-off walls, and other seepage control systems. Analytical and experimental investigations of soil volume change under hydraulic and mechanical loading. Design of earth and rock dams, well pumping, and vertical and radial consolidation in embankments. Prerequisite: CVEG 41403 or graduate standing. (Typically offered: Irregular)
CVEG 51703. Advanced Foundations. 3 Hours.
Study of soil-supported structures. Topics include drilled piers, slope stability, pile groups, negative skin friction, foundation design from the standard penetration test and Dutch cone, and other specialized foundation design topics. Prerequisite: CVEG 41403 or graduate standing. (Typically offered: Irregular)
CVEG 51803. Geo-Environmental Engineering. 3 Hours.
Study of the geotechnical aspects of waste containment systems and contaminant remediation applications. Analysis and measurement of flow of water and contaminants through saturated and unsaturated soils, clay mineralogy and soil-chemical compatibility, and mechanical and hydraulic behavior of geomembranes, geotextiles, and geosynthetic clay liners. Design and construction aspects of compacted clay and composite landfill liners, drainage systems, and landfill covers. Prerequisite: CVEG 31302 or graduate standing. (Typically offered: Irregular)
CVEG 51903. Geotechnical Earthquake Engineering. 3 Hours.
This course covers stress wave propagation in soil and rock; influence of soil conditions on seismic ground motion characteristics; evaluation of site response using wave propagation techniques; liquefaction of soils; seismic response of earth structures and slopes. Prerequisite: CVEG 41403 or graduate standing. (Typically offered: Irregular)
CVEG 52003. Water Chemistry. 3 Hours.
This course provides a basis for applying principles of physical chemistry to understanding the composition of natural waters and to the engineering of water and wastewater treatment processes. Topics covered include chemical equilibrium (algebraic, graphical, and computer-aided solution techniques); acid-base equilibria and buffering; oxidation and reduction reactions; and solid precipitation and dissolution. Prerequisite: Graduate standing or CVEG 32403 and instructor approval. (Typically offered: Spring)
CVEG 52103. Advanced Water Treatment Design. 3 Hours.
Design of industrial and municipal water treatment plants. Discussion of raw and treated water requirements for several uses. Prerequisite: CVEG 32403. (Typically offered: Spring)
CVEG 52303. Microbiology for Environmental Engineers. 3 Hours.
Fundamental and applied aspects of microbiology and biochemistry relating to water quality control, wastewater treatment, and stream pollution. Prerequisite: CVEG 32403. (Typically offered: Irregular)
CVEG 52403. Groundwater Hydrology. 3 Hours.
Detailed analysis of groundwater movement, well hydraulics, groundwater pollution and artificial recharge. Surface and subsurface investigations of groundwater and groundwater management, saline intrusion and groundwater modeling will be addressed. Prerequisite: CVEG 32203. (Typically offered: Irregular)
CVEG 52503. Physical-Chemical Processes for Water and Wastewater Treatment. 3 Hours.
This course provides a fundamental understanding of physical and chemical processes used in the treatment of drinking water and wastewater. Principals of mass balance are applied to understand the impact of reactor hydraulics (ideal and non-ideal flow) and reaction kinetics on process performance and identify important process variables. Chemical processes covered include disinfection, gas transfer, adsorption, and ion exchange; physical processes covered include coagulation, flocculation, sedimentation, filtration, and membranes. Prerequisite: Graduate standing and instructor consent. (Typically offered: Fall Odd Years)
CVEG 52703. Open Channel Flow. 3 Hours.
Open Channel Flow includes advanced open channel hydraulics, flow measurement techniques, a hydrology review, culvert and storm drainage facility design, natural channel classification (fluvial geomorphology) and rehabilitation, computer methods and environmental issues. Prerequisite: CVEG 32103 and CVEG 32203. (Typically offered: Irregular)
CVEG 52903. Water Reuse. 3 Hours.
CVEG 52903 is a graduate-level course that discusses topics related to water reclamation and reuse. Topics include past and current practices of water reuse, health and environmental issues related to water reuse, water technologies and systems for water reuse, and water reuse applications. Prerequisite: CVEG 32403 or equivalent course. (Typically offered: Spring Even Years)
CVEG 53003. Theory of Stability. 3 Hours.
Study of structural members subjected to compression. Analysis of compression members considering support conditions and within frame configurations. Analysis of beams considering lateral torsional bucking. AISC Steel Manual strength equations related to columns and beams are derived and discussed. Prerequisite: Graduate standing. (Typically offered: Irregular)
CVEG 53103. Matrix Analysis of Structures. 3 Hours.
Energy and digital computer techniques of structural analysis as applied to conventional forms, space trusses, and frames. Prerequisite: CVEG 33003 or graduate standing. (Typically offered: Irregular)
CVEG 53203. Structural Dynamics. 3 Hours.
Dynamics response of single and multidegree of freedom systems. Modal analysis. Response spectra. Computer programs for dynamic analysis. Design considerations for structures subjected to time-varying forces including earthquake, wind, and blast loads. Prerequisite: CVEG 33003. (Typically offered: Irregular)
CVEG 53303. Concrete Materials. 3 Hours.
Topics include portland cement production, supplementary cementing materials, fresh and hardened concrete properties, mixture proportioning, chemical admixtures, curing, and specialty concretes. Corequisite: Lab component. Prerequisite: CVEG 43003. (Typically offered: Irregular)
CVEG 53403. Highway Bridges. 3 Hours.
Economics of spans, current design and construction specifications, comparative designs. Possible refinements in design techniques and improved utilization of materials. Prerequisite: CVEG 43103 and CVEG 43003. (Typically offered: Irregular)
CVEG 53503. Prestressed Concrete Design. 3 Hours.
Analysis and design of prestressed concrete beams. Topics include flexural analysis, prestress bond, draping and debonding, allowable stresses, shear analysis and design, camber prediction, and prestress losses. Prerequisite: CVEG 43003. (Typically offered: Irregular)
CVEG 53603. Advanced Topics in Reinforced Concrete. 3 Hours.
Analysis and design of reinforced concrete members. Topics include slender columns, one-way and two-way slab design, strut and tie design, and torsion. Prerequisite: CVEG 43003 or graduate standing. (Typically offered: Irregular)
CVEG 53703. Advanced Structural Steel Design. 3 Hours.
Design of structural steel components using the Load and Resistance Factor Design method. Intensive treatment of simple and eccentric connections, composite construction, plate girders, and plastic analysis and design. Prerequisite: CVEG 43103 or graduate standing. (Typically offered: Irregular)
CVEG 53803. Finite Element Methods in Civil Engineering. 3 Hours.
An understanding of the fundamentals of the finite element method and its application to structural configurations too complicated to be analyzed without computer applications. Application to other areas of civil engineering analysis and design such as soil mechanics, foundations, fluid flow, and flow through porous media. Prerequisite: Graduate standing. (Typically offered: Irregular)
CVEG 53903. Advanced Strength of Materials. 3 Hours.
The course will continue from the basic material addressed in the undergraduate course and investigate in more detail stress analysis as it pertains to civil engineering type problems. Topics addressed in the course will include stress analysis (two-dimensional), constitutive relationships, solutions for two-dimensional problems, flexure, torsion, beams on elastic foundations, and energy methods. Prerequisite: CVEG 20203 or MEEG 30103. (Typically offered: Irregular)
CVEG 54103. Transportation and Land Development. 3 Hours.
Study of interaction between land development and the transportation network. Application of planning, design, and operational techniques to manage land development impacts upon the transportation system, and to integrate land layout with transportation network layout. Prerequisite: Graduate standing. (Typically offered: Irregular)
CVEG 54203. Structural Design of Pavement Systems. 3 Hours.
An introduction to the structural design of pavement systems including: survey of current design procedures; study of rigid pavement jointing and reinforcement practices; examination of the behavioral characteristics of pavement materials and of rigid and flexible pavement systems; introduction to structural analysis theories and to pavement management concepts. Prerequisite: CVEG 44303. (Typically offered: Irregular)
CVEG 54303. Traffic Engineering. 3 Hours.
A study of both the underlying theory and the use of traffic control devices (signs, traffic signals, pavement markings), and relationships to improved traffic flow and safety, driver and vehicle characteristics, geometric design, and societal concerns. Also includes methods to collect, analyze, and use traffic data. Prerequisite: CVEG 34103 or graduate standing. (Typically offered: Irregular)
CVEG 54403. Data Analysis and Machine Learning. 3 Hours.
The purpose of this course is to provide students with a solid background in the application of common statistical/econometric analysis techniques and related statistical modeling. This course emphasizes the empirical application of statistical techniques, but underlying theories and their limitations will also be discussed and simple derivations will be performed in class. The class will focus on applications of modeling techniques through the use of technical computing software including Matlab and KNIME. Students from all areas of engineering and other broad disciplines are welcome. Prerequisite: Graduate Standing. (Typically offered: Spring)
CVEG 54503. Production and Construction of Pavement. 3 Hours.
The life cycle of a pavement can be seen in five stages: 1) material selection, 2) structural design, 3) production and construction, 4) the life of the pavement, and 5) the end of the pavement's life. This course will focus on the production and construction of pavement, but will provide a brief overview of the first, second, fourth, and fifth stages as well. Three different types of pavements will be explored: 1) unbound granular material, 2) flexible pavement (asphalt concrete), and 3) rigid pavement (Portland cement concrete). Prerequisite: Graduate Standing. (Typically offered: Irregular)
CVEG 54603. Transportation Modeling. 3 Hours.
The use of mathematical techniques and/or computer software to model significant transportation system attributes. May compare model results with actual measured traffic attributes, using existing data sources and/or collecting and analyzing field data. Pre- or Corequisite: Lab component. Prerequisite: Graduate standing. (Typically offered: Irregular)
CVEG 54703. Transportation System Characteristics. 3 Hours.
Introduction to the fundamentals of traffic engineering and transportation networks. In the first part, students will become familiar with traffic engineering studies, traffic flow theory, traffic control devices, traffic signals, capacity, and level of service analysis of freeways and urban streets. The second part of this course will introduce the basic concepts of transportation network analysis and explore some applications. Prerequisite: CVEG 34103 or graduate standing. (Typically offered: Irregular)
CVEG 54903. Pavement Maintenance and Rehabilitation. 3 Hours.
The life cycle of a pavement can be seen in five stages: 1) material selection, 2) structural design, 3) production and construction, 4) the life of the pavement, and 5) the end of the pavement's life. This course will focus on the life of roadway pavements and the end of the pavement's life, but will provide a brief overview of the first, second, and third stages as well. Three different types of pavements will be explored:1) unbound granular material, 2) flexible pavement (asphalt concrete), and 3) rigid pavement (Portland cement concrete). Prerequisite: Graduate Standing. (Typically offered: Irregular)
CVEG 55003. Construction Safety. 3 Hours.
Construction industry safety management systems, practices, and research to prevent injuries on work sites. Roles, responsibilities, and interaction of construction industry participants in safety management. OSHA organization, regulation framework, and resources. Safety program procedures and practices associated with positive safety performance outcomes. Total cost of injuries to include personal, direct/indirect costs, and workers compensation insurance. Prerequisite: Graduate Standing. (Typically offered: Fall, Spring and Summer)
CVEG 55103. Construction Scheduling. 3 Hours.
Develop an understanding of modern scheduling techniques used for the management of construction projects. Learn the underlying logical principles, calculation methods, and presentation formats for PDM, the most prevalent technique. Load schedules with resources and costs to enable leveling, smoothing, and earned value analysis. Learn to update schedules for actual progress, identify problems, and compress or crash activities. Prerequisite: Graduate Standing. (Typically offered: Fall, Spring and Summer)
CVEG 55203. Construction Productivity. 3 Hours.
This course introduces the student to construction industry productivity measurement, management practices, planning processes, and work methods to improve labor productivity on project sites. Factors that influence labor productivity such as resource supply chain, rework, changes, craft labor motivation, and the workface environment are included. Roles, responsibilities, and interaction of construction industry participants in productivity management will be examined. Participants will learn construction productivity improvement program tools associated with improved productivity performance including work sampling and activity analysis. Prerequisite: Graduate Standing. (Typically offered: Fall, Spring and Summer)
CVEG 55303. Legal Aspects of Construction. 3 Hours.
Students will identify legal issues in the course of a construction project and learn to determine when and where they or their employers or clients need legal advice. The course covers the most common legal considerations and disputes that arise in the construction and design industries from the perspectives of different industry participants, and it explores the most important contractual terms commonly used in construction industry agreements. The individual lessons address basic aspects of the legal system, liability for negligence and professional malpractice, and a full range of legal risk allocation and risk management strategies, relating to: bidding and proposal practices; project delivery systems; contracting practices; insurance; surety bonds; pricing, scheduling, and payment disputes; contract administration; legal remedies; and alternative dispute resolution methods. Prerequisite: Graduate Standing. (Typically offered: Fall, Spring and Summer)
CVEG 55403. Sustainability in Construction Management. 3 Hours.
Sustainability in Construction Management will explore traditional concepts of construction management through the lens of sustainability. Topics covered will include elements of sustainable design and construction, sustainable project requirements and management, choosing materials and production, sustainability design and construction economics, understanding specifications, community participation, waste management, regulatory agencies, and worker safety and roles. These topics will be viewed through the lens of the three pillars of sustainability: economics, environmental, and social. Prerequisite: Graduate Standing. (Typically offered: Fall, Spring and Summer)
CVEG 55503. Risk and Financial Management in Construction. 3 Hours.
This course prepares students to understand the differences between financial management in a construction company versus financial management in other industries. The course will also teach students how to account for a construction company's financial resources. The students will then learn how to quantitatively analyze financial decisions. Prerequisite: Graduate standing. (Typically offered: Fall, Spring and Summer)
CVEG 55603. Building Information Modeling (BIM) for Design and Construction. 3 Hours.
This course provides students with a comprehensive overview of building information modeling (BIM) within the context of multiple project delivery methods and from the different perspectives of owners, architects/engineers and contractors/subcontractors. The course includes "hands-on" experiences using BIM software (Autodesk Revit) and will provide students with a basic working knowledge of the software. The curriculum also covers a systems perspective of how BIM works in different contractual relationships and workflows. Finally, the course will provide students with an understanding of how to implement BIM for companies that have not already done so. The course culminates with a student-modeled project in BIM, in conjunction with a real-world example in how your company can implement BIM. Prerequisite: Graduate standing. (Typically offered: Fall, Spring and Summer)
CVEG 55703. Construction Project Management. 3 Hours.
Construction project management introduces students to the full life cycle of construction projects from feasibility through completion and commissioning. Students are given an overview of the diverse construction industry, general project management concepts, and the specific application of those principles to complete construction projects. Standard construction industry processes and procedures such as cash flow and payment scheduling, change orders, project acceleration, coordination and communication, record keeping are depicted. Prerequisite: Graduate Standing. (Typically offered: Spring)
CVEG 55803. Heavy Construction Equipment Management. 3 Hours.
The course covers estimating equipment ownership, operating cost, and how to determine economic life and replacement policy as well as how to schedule a production-driven, equipment-intensive project that achieves target production rates and meets target equipment-related unit costs and profits. The course will cover material selection based on productivity and OSHA safety regulations. While this class is in the heavy civil track within the department, both horizontal and vertical construction equipment will be discussed. Prerequisite: Graduate Standing. (Typically offered: Summer)
CVEG 55903. Cost Management: Ownership. 3 Hours.
Study of cost management procedures applicable to the building process from the conceptual phase through owner operations, including conceptual estimating, converting estimates to budgets, progress measurement, project cost analysis and control, value engineering, and life-cycle costing. Prerequisite: Graduate standing. (Typically offered: Fall and Spring)
CVEG 56003. Advanced Building Information Modeling (BIM) for Design and Construction. 3 Hours.
This course will cover the fundamental principles and practices of using building information models for model management, including quantification, scheduling, and coordination. The course will also present the use of advanced information systems in the construction context, such as parametric modeling, creating infrastructure models, and reality capture. The goal of this course is to develop the students' understanding of how cloud-connected tools, collaboration tools, and advanced construction technologies can transform and improve the construction management process to aid in project success. Prerequisite: Must be a student in the CSMG masters degree program. (Typically offered: Fall and Summer)
CVEG 5620V. Independent Study. 1-6 Hour.
Fundamental and applied research. Prerequisite: Graduate standing. (Typically offered: Fall, Spring and Summer)
CVEG 5630V. Special Problems. 1-6 Hour.
Special problems in CVEG. Prerequisite: Graduate standing. (Typically offered: Irregular) May be repeated for up to 6 hours of degree credit.
CVEG 57003. Environmental Regulations and Permits. 3 Hours.
The purpose of this course is to introduce students to selected environmental regulations, Federal and State Agencies and to present an overview of the Permitting Process. The course primarily addresses NPDES wastewater and storm water rules and requirements but will also touch on Air Quality, Environmental Impact and impact statements as well as OSHA regulations. This course covers compliance and how you attain compliance. Prerequisite: Graduate standing and Department consent. (Typically offered: Fall and Spring)
CVEG 57103. Low Impact Development. 3 Hours.
To understand the purposes and aspects of low impact design and to apply LID principles to storm water management and site development. Prerequisite: Graduate Standing. (Typically offered: Fall, Spring and Summer)
CVEG 58603. Fundamentals of Sustainability in Civil Engineering. 3 Hours.
Qualify and quantify the economic, environmental, societal and engineering drivers behind sustainability in Civil Engineering. Justification of the feasibility and benefits of sustainability in environmental, geotechnical, structural and transportation through verbal and written communications. Students cannot receive credit for both CVEG 48603 and CVEG 58603. Prerequisite: Graduate standing or instructor consent. (Typically offered: Irregular)
CVEG 59003. Seismic Steel Building Design. 3 Hours.
The aim of this course is to give students the ability to analyze and design steel systems and components for extreme lateral loads induced by earthquakes. Focus will be placed on: basic theory of dynamic response and application of seismic design provisions; understanding of lateral load paths in structural steel systems; and the analysis and design of common steel seismic systems and components. Prerequisite: Graduate standing and Department consent. (Typically offered: Irregular)
CVEG 59103. CFD for Wind Engineering. 3 Hours.
The goal of this course is to apply the Computational Fluid Dynamics (CFD) method to wind engineering problems. This is a unique class which needs an understanding of basic fluid mechanics, numerical techniques, wind engineering, turbulence, structural dynamics, fluid structure interaction (FSI) effect etc. Only an introduction to CFD is made using 1D, 2D and 3D problems. The course concludes with a brief discussion on advanced topics. Prerequisite: Graduate Standing. (Typically offered: Irregular)
CVEG 59503. Fundamentals of Fracture and Fatigue in Structures. 3 Hours.
The course will cover the concepts of linear-elastic, elastic-plastic and time-dependent Fracture Mechanics as applied to fracture in a variety of materials, structures, and operating conditions. The examples will include fracture in large components such as aircraft, bridges and pressure vessels and also in bones and in soft materials and human tissue. Prerequisite: Graduate standing in Civil, Mechanical or Biomedical Engineering or consent of the instructor. (Typically offered: Fall)
CVEG 6000V. Master's Thesis. 1-6 Hour.
Master's Thesis. Prerequisite: Graduate standing. (Typically offered: Fall, Spring and Summer) May be repeated for degree credit.
CVEG 7000V. Doctoral Dissertation. 1-18 Hour.
Doctoral Dissertation. Prerequisite: Candidacy. (Typically offered: Fall, Spring and Summer) May be repeated for degree credit.