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DPT 787 - Integrated Rehabilitation Credits 2
Assessment and treatment of advanced orthopedics, advanced neurological, and spinal cord injured patients utilizing comprehensive techniques for spinal cord injury (SCI), orthopedics, and neurological treatment. Through dynamic patient case problems, students evaluate, plan, and implement course of treatment.
Prerequisites Graduate standing in Physical Therapy and and .
Corequisite
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DPT 787L - Integrated Rehabilitation Lab Credits 1
Hands on assessment and treatment of advanced orthopedics, advanced neurological, and spinal cord injured patients utilizing comprehensive techniques for spinal cord injury (SCI), orthopedics, and neurological treatment. Through dynamic patient case problems, students will be able to evaluate, plan, and implement a course of treatment.
Prerequisites Graduate standing in Physical Therapy and and .
Corequisite
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DPT 788 - Spine Examination and Treatment Credits 2
Spine examination including biomechanics, observation, range of motion, muscle strength, joint play and special tests. Inclusion of examination schema, clinical reasoning skills and differential diagnosis of commonly seen spine pathology. Emphasis on hands-on examination, assessment, and treatment including manual therapy, spinal mobilization and spinal manipulation skills.
Prerequisites Graduate standing in physical therapy.
Corequisite DPT 788L
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DPT 788L - Spine Examination and Intervention Lab Credits 1
Lab sessions focusing on hands-on examination, assessment, and treatment of spine dysfunction, including manual therapy, spinal mobilization and spinal manipulation skills.
Prerequisites Graduate standing in Physical Therapy or consent of instructor.
Corequisite DPT 788
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DPT 790 - Clinical Research in Physical Therapy Credits 3
Introduction to principles and concepts of clinical research in physical therapy. Covers development of the research question, measurement issues, statistical analysis, literature review, and writing of results.
Prerequisites Graduate standing in physical therapy.
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DPT 791 - Applied Research Statistics Credits 3
Review of foundations, concepts of measurement, and design in clinical research. Emphasis on hands-on data analysis of clinically relevant physical therapy research designs including descriptive statistics, statistical inference, analysis of differences, and analysis of relationships.
Prerequisites Graduate standing in physical therapy.
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DPT 793 - Seminar Credits 1
Preparation and presentation of seminars on topics of current interest in physical therapy and rehabilitation. Topic changes by semester and by course instructor; see class schedule for details.
Prerequisites Enrollment in professional DPT curriculum.
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DPT 795 - Independent Study Credits 1 – 6
Students pursue a topic related to physical therapy beyond that covered in the graduate curriculum. Satisfactory completion accomplished through individualized, self-directed study. Topics based on student preference and faculty approval. Faculty and student jointly determine goals, objective and evaluation methods.
Notes May be repeated to a maximum of six credits.
Prerequisites Graduate standing in physical therapy.
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DPT 798 - Directed Research Credits 1 – 6
Critical inquiry by participating in new or ongoing research with faculty who serve as project advisors. Students summarize research by a written report and present each project orally to the faculty and area clinicians.
Notes May be repeated to a maximum of six credits.
Prerequisites DPT 790
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EAB 700 - Research Methods for Public Health Credits 3
Provides a foundation in research methodology for public health professionals. Topics include basic sampling and experimental designs, quantitative and qualitative methods in research, mathematical and economic models in research, and multidisciplinary approaches to designing research programs.
Prerequisites EAB 703 or consent of instructor.
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EAB 703 - Biostatistical Methods for the Health Sciences Credits 3
Designed to provide a foundation in biostatistics for graduate students in the health sciences. Topics include probability, distributions, estimation, hypothesis testing, ANOVA, simple and multiple regression, vital statistics, and nonparametric methods.
Prerequisites Undergraduate mathematics through calculus, comparable graduate coursework, or consent of instructor.
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EAB 704 - Research Integrity & Ethics Credits 3
Designed to provide students with an understanding of how to conduct responsible research. Covers the concepts of scientific ethics and integrity broadly in order to provide a foundation for future research professionals. Topics include ethical principles, peer review, mentoring, IRB, collaborative research, and scientific record keeping.
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EAB 705 - Epidemiology and Public Health Explores principles related to the distribution and causality of disease. Focuses on etiology, prevention and control of communicable and chronic human disease. Participants trained in basic epidemiological methodology, featuring case-series, case-control, experimental and cohort study designs.
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EAB 709 - Scientific/Technical Writing for the Health and Life Sciences Credits 3
Technical writing skills are critical to success in publication of scientific journal articles, approval of research grant submissions, and acceptance of thesis/dissertation requirements. In this course students will study techniques and develop skills in technical writing useful to professionals in health care and life sciences.
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EAB 710 - Fundamentals of Public Health Credits 3
Introduces students to public health concepts and practice. Provides broad overview of the field of public health and focused look at core areas of health promotion and education, environmental health, epidemiology and bio statistics, and health care administration in the public health arena.
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EAB 715 - Chronic Disease Epidemiology Credits 3
Surveys the major chronic diseases with an emphasis on recent epidemiological research and findings, demographic and populations aspects of chronic illness, causation and risk factors, prevention, and control.
Prerequisites HED 725 or consent of instructor.
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EAB 716 - The Epidemiology of Obesity Credits 3
Describes the epidemiology and prevention of obesity and associated complications. Discusses methodological issues associated with evaluating epidemiologic studies that target obesity. Designed to cover the global epidemic of obesity, the environmental and behavioral risk factors, as well as interventions to reduce and prevent obesity.
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EAB 720 - Grant Writing for Epidemiology and Public Health Research Credits 3
Covers the process of designing competitive research grant proposals from conceptualization to grant management.
Prerequisites Core epidemiology class, research methods.
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EAB 725 - Epidemiology of Infectious Diseases Credits 3
Introduces the basic concepts in infectious disease epidemiology. Students develop a basic conceptual understanding and analytic skills in the investigation and control of infectious diseases in human populations. Students describe the most common infectious diseases, including their transmission, pathogenesis, treatment, prevention, and control. Prerequisites: Admission to the School of Community Health Sciences or consent of instructor.
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EAB 733 - Survey Sampling for the Health Sciences Credits 3
Introduces the basics of sampling theory and application in the health sciences. Several popular designs will be covered in depth. Other topics include sources of error in sampling, design of surveys, and population size determination.
Prerequisites EAB 703 or consent of instructor.
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EAB 735 - Outbreak Investigation Credits 3
Students will work through simulated outbreak situations, culminating in a lengthy simulation of an outbreak. Students will be responsible for all aspects of the investigation including report writing. Through partnership with community health agencies, students will have the opportunity to assist in actual outbreak investigations occurring during the semester.
Prerequisites HED 725/EAB 705 or equivalent
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EAB 743 - Experimental Design for the Health Sciences Credits 3
Provides thorough coverage of experimental design for student in the health sciences. Topics include single factor designs, factorial experiments, within-factor designs, nested designs, analysis of trend, and general linear models.
Prerequisites EAB 703 or consent of instructor.
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EAB 745 - Epidemiological Surveillance Credits 3
Students will explore systems currently in place, both in the United States and internationally, and will learn the methodology used to analyze surveillance data. Students will learn about effective surveillance systems through lecture and case studies of existing surveillance systems.
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EAB 753 - Nonparametric Statistics for Public Health Credits 3
Designed to provide a strong foundation in nonparametric statistical methods commonly used in public health. Topics explored in the course include ranked data, transformation of ranks, methods for paired and independent samples, nonparametric regression and correlation, categorical data analysis, and robust estimation.
Prerequisites Graduate level biostatistics.
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EAB 755 - Cancer Epidemiology Credits 3
This course is an introduction to cancer epidemiology. The objective is to make the student use, learn and consolidate basic analytic skills in developing research projects in cancer. It includes among others the following topics: trends, biology of cancer, issues in prostate, breast, colorectal, lung, and cervical cancer, cancer screening, GIS and spatial analysis in cancer, survival, and migrant studies.
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EAB 756 - Epidemiology and Research Credits 3
Topics in Epidemiology II include analytic reasoning in public health and in disease surveillance, descriptive epidemiology and causal inference with a special emphasis on study design. This course will largely make use of scientific articles to provide students with a solid basis to critically analyze and develop medical/public health research. May be repeated to a maximum of three credits.
Prerequisites and
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EAB 763 - Linear Statistical Models Credits 3
Explores the foundations and applications of linear statistical models. Applications include simple, multivariate, and logistic regression; time series analysis; single -/multiple-factor ANOVA; random and mixed effects models; and ANCOVA. Several experimental designs will also be explored.
Prerequisites Graduate level biostatistics.
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EAB 773 - Survival Analysis for Public Health Credits 3
Explores the broad area of survival analysis for analyzing data derived from laboratory, clinical, and epidemiological studies. Methods explored in this course include survival functions, data censoring, hazard models, regression models, and parametric/nonparametric methods for comparing survival models.
Prerequisites EAB 753 and EAB 763.
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EAB 783 - Multivariate Methods for the Health Sciences Credits 3
Provides an in- depth coverage of common multivariate methods. Topics include multivariate correlation and regression, multivariate ANOVA, logistic regression, factor analysis, time series analysis, and principle component analysis. Emphasis placed on application of techniques useful for students in the health sciences.
Prerequisites EAB 773 or consent of instructor.
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EAB 790 - Current Topics in Environmental Health and Epidemiology Credits 1-3
This is an advanced seminar course directed by members of the Department of Environmental and Occupational Health and the Epidemiology and Biostatistics Program. Seminars will be facilitated by faculty members based on their particular areas of research interest and expertise.
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EAB 793 - Internship in Epidemiology and Biostatistics Credits 1 – 3
Capstone experiences for the MPH degree and is intended to provide students with applied work experience in a local agency, organization, center or institute.
Notes May be repeated to a maximum of six credits.
Prerequisites Admission to the School of Community Health Sciences or consent of instructor.
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EAB 794 - Professional Paper in Epidemiology and Biostatistics Credits 3
Provides the opportunity for a graduate degree candidate to be involved in an in-depth project. A formal paper and presentation describing the project culminate this experience.
Notes May be repeated to a maximum of six credits.
Prerequisites Admission to the School of Community Health Sciences or consent of instructor.
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EAB 795 - Special Topics in Epidemiolog and Biostatistics Credits 1 – 3
Selected topic of current interest in epidemiology and biostatistics.
Notes May be repeated to a maximum of six credits.
Prerequisites Admission to the School of Community Health Sciences or consent of instructor.
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EAB 796 - Independent Study in Epidemiology and Biostatistics Credits 1 – 3
Independent study of a selected topic in Epidemiology or Biostatistics.
Prerequisites Admission to the School of Community Health Sciences or consent of instructor.
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EAB 798 - Thesis Research in Epidemiology and Biostatistics Credits 1 – 6
Notes May be repeated, but a maximum of six credits will apply towards the student’s degree program.
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ECE 706 - Planning Curriculum for Young Children Credits 3
Examination of basic principles underlying the development and planning of non-handicapped early childhood education curriculum.
Notes Review of components of selected curricular areas.
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ECE 707 - Programs in Early Childhood Education Credits 3
Overview of current models of early childhood education. Includes principles, research studies, and current trends as factors related to the education of young children.
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ECE 709 - Investigations in Early Childhood Education Credits 3
Current practices and methods in early childhood education investigated and evaluated in depth.
Prerequisites Consent of instructor.
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ECE 710 - Planning and Administering Early Childhood Programs Credits 3
Investigates the basic principles involved in establishing and operating centers for the young child; examines the historical background of the early childhood education movement; and reviews theories of child development as they relate to planning, operating, and evaluating centers.
Prerequisites Consent of instructor.
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ECE 711 - Science and Math for Young Children Credits 3
Preparation, by modeling, for presenting and structuring appropriate science activities/experiences for young children (PK-2) with emphasis on integrating process skills with life, earth, and physical science concepts.
Prerequisites Nine hours of content science, or consent of instructor.
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ECE 722 - Theoretical Bases for Early Childhood Education Credits 3
Examination of the underlying theories and perspectives supporting early childhood education. Emphasis on the theoretical foundations for early childhood education and the application of developmental theories across domains.
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ECE 726 - Early Education for Infants and Toddlers Credits 3
Theoretical and practical approaches to early education services for newborns, infants, toddlers, and their families. Development of infants and toddlers within the developmental domains and focuses on attachment, milestones, identification of developmental delays, and program development and evaluation.
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ECE 740 - Early Language and Learning Credits 3
Focuses on the theory, research and practice of language development from birth through age eight. Opportunities to implement your understanding of language development for typically developing children and children with special needs.
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ECE 781 - Early Childhood Education Field Experience Credits 3-8
Includes program planning, implementing lesson plans, guidance of students, and working with families. Candidates will be placed with young children birth to age eight.
Prerequisites Completion of all ECE licensure coursework or consent of instructor.
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ECEM 711 - Crisis and Emergency Management Credits 3
Focuses on the evolution of U.S. disaster policy and the practice of emergency management, with particular attention to the roles of local governments and nonprofit agencies in disaster management. The course examines the major policy issues, including the utility of モall-hazardヤ or comprehensive model of emergency management.
Prerequisites Admission into program.
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ECEM 712 - Science of Catastrophes Credits 3
Offers an understanding of the underlying scientific issues that arise from natural, intentional, and technical disasters. Presents information at a managerial level, providing students with a sufficient overview to recognize and understand the complexity of potential catastrophic events which they must plan for and manage.
Prerequisites Admission into the ECEM program.
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ECEM 713 - Evolution of Terrorism Credits 3
Focuses on the historical roots of terrorism and stresses importance of understanding the past to adequately prepare for the future. Through a historical perspective, provides basis for and discusses aspects that make contemporary terrorism of today different from traditional terrorism of the past.
Formerly (ECEM 742)
Prerequisites Admission into program.
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ECEM 714 - Intergovernmental Affairs Credits 3
Overview and analysis of intergovernmental issues facing public administrators involved in the administrative, regulatory, and political dimensions of emergency management. Provides information about the political system in which emergency managers must navigate and an overview of key governmental agencies and actors.
Prerequisites Admission into the ECEM program.
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ECEM 721 - Organizational Leadership Credits 3
Provides introduction to leadership and organizational theory in the context of emergency management. Examines theory and develops a range of skills in a number of interpersonal areas: conflict management, use of power, group dynamics, and leadership and influence.
Prerequisites Admission into program.
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ECEM 722 - Community Preparedness Credits 3
Provides an understanding of how communities prepare for disasters through social vulnerability analysis and community capacity analysis. It examines historical, geographical, social, and cultural factors and conditions that put people differentially at risk in the community and require integration and coordination among agencies and organizations.
Prerequisites Module 1
Corequisite Module 2 courses
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ECEM 723 - Human Considerations Credits 3
Explores the human side of emergencies, by analyzing the public response to a terrorist incident, the public health implications of a major incident, the psychological component, and the long-range environmental considerations that must be taken when responding to an incident.
Prerequisites Admission into program.
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ECEM 724 - Exercise Design and Reponse Plan Credits 3
Provides a synthesis of student learning by providing thorough instruction in the fundamentals of simulating disasters, planning and conducting table-top exercises, planning and conducting functional full-scale exercises, as well as drafting organizational response plans.
Prerequisites Module 1
Corequisite Module 2 courses
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ECEM 731 - Risk Assessment, Mitigation and Communication Credits 3
This course explores the use of “risk” in making individual and group decisions. We will explore qualitative and quantitative methods for evaluating risk and develop practices t use such information to improve decision making processes in the context of emergency management.
Corequisite Admission into Program
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ECEM 732 - Prevention and Planning Credits 3
This course analyzes the methods by which governmental organizations, private sector entities, and the general public can prevent and prepare for natural, intentional, and technical disasters. It will discuss topics such as vulnerability and threat assessments, resources and capabilities identification/integration, and training and exercise programs.
Corequisite/Prerequisite Admission into Program |
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ECEM 733 - Response and Recovery Credits 3
Studies crisis management responses pertaining to terrorist activities. Covers principles, characteristics, objectives, phases, organizational requirements, command and control issues, planning and coordination, incident site management, crime scene management, and responsibilities and capabilities of federal and state/local agencies for terrorist incidents.
Formerly (ECEM 740)
Prerequisites Admission to program.
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ECEM 734 - Research in the Implementation of Concepts in Crisis and Emergency Management Credits 3
This course provides a culminating experience for students to demonstrate proficiency in applying the fundamentals of disaster simulation, table-top exercise formulation and execution, functional full-scale exercise formulation and execution and organizational response plan creation. It will require mastery and integration of previously presented program topics.
Corequisite/Prerequisite Admission into Program |
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ECEM 741 - Regional Overview of Terrorism Credits 3
Studies the threat of terrorism pertaining to various regions and specific countries of the world. Focuses on nature of terrorism in contemporary society from an international perspective and provides an examination of the history, objectives, and favored tactics of major terrorist organizations on a regional basis.
Prerequisites Admission into the program.
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ECG 600 - Computer Communication Networks Credits 3
Computer network architecture; the OSI Model: network protocols; local area networks; fiber optics communication; ISDN; elements of Queueing Theory, with emphasis on hardware design issues.
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ECG 603 - Embedded Systems Design Credits 3
Embedded Systems Design.
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ECG 604 - Modern Processor Architecture Credits 3
Instruction level parallel processing. Processor performance evaluation and optimization. Scalar and superscalar pipelines. Instruction, register data and memory data flow techniques. Cache organization and performance analysis. Comparison of RESC, CISC and VLIW architecture. Survey of modern processors. Introduction to multithreading.
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ECG 605 - Data Compression Systems Credits 3
Source modeling. Foundations of lossy and lossless compression, code properties. Huffman and arithmetic coding, predictive coding, dictionary techniques, compression techniques and standards for facsimile, audio, video and still image coding. Hardware design specifics, coding and watermarking.
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ECG 607 - Biometrics Credits 3
Taxonomics of devices and applications, probability and statistical testing methods, one and tow dimensional transform techniques, finger printing, voice recognition., facial recognition, and iris scanning, large scale identification applications, multibiometrics, social, legal, and ethical concerns.
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ECG 608 - Digital Design Verification and Testing Credits 3
A study of complete digital design testing during all design flow stages - from writing code to testing chips after manufacturing, creating and implementing effective test scenarios and assertion techniques, designing self-testing devices. Students will get hands-on experience with various EDA tools for design testing, verification, logic and fault simulation.
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ECG 620 - Analog Integrated Circuit Design Credits 3
An introduction to the design, layout, and simulation of analog integrated circuits including current mirrors, voltage and current references, amplifiers, and op-amps.
Prerequisites EE 320 or equivalent.
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ECG 621 - Digital Integrated Circuit Design Credits 3
An introduction to the design, layout, and simulation of digital integrated circuits. MOSFET operation and parasitics. Digital design fundamentals including the design of digital logic blocks.
Prerequisites CpE 100 and EE 320 or equivalent.
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ECG 630 - Transmission Lines Credits 3
Telegraphist’s equations; transient response—steady state response; reflection diagrams; Smith chart; matching techniques and designs; narrow and broadband impedance matching techniques; scattering matrix; introduction to stripline and microstrip devices.
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ECG 631 - Engineering Optics Credits 3
Fundamentals of antennas and antenna design; linear wire, loop, and antenna arrays; antenna measurements.
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ECG 632 - Antenna Engineering Credits 3
Fundamentals of antennas and antenna design; linear wire, loop, and antenna arrays; antenna measurements.
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ECG 633 - Active and Passive Microwave Engineering Credits 3
This 600-level course has been approved by the Graduate College for possible inclusion in graduate programs. A full description of this course may be found in the Undergraduate Catalog under the corresponding 400 number.
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ECG 642 - Power Electronics Credits 3
Topics include: diode circuits and rectifiers, power semiconductor diodes and transistors, thyristors and static switches, controlled rectifiers, AC voltage controllers, DC choppers, inverters, AC and DC drives, power supplies and protection of devices and circuits.
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ECG 646 - Photovoltaic Devices and Systems Credits 3
This course covers solar resource characteristics, solar cell physics and technologies, cell electrical characteristics, PV module design, DC-AC inverters, battery energy storage and charge controllers, design of stand-alone and grid-connected PV systems, and economic considerations.
Prerequisites Enrollment in the Solar and Renewable Energy Graduate Certificate Program, or graduate standing for engineering students.
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ECG 650L - Solid State Characterization Laboratory Credits 1
Capacitance and voltage. Hall mobility and carrier concentration, oxidation and etching silicon dioxide processing of silicon.
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ECG 651 - Electronic and Magnetic Materials and Devices Credits 3
Semiconductors, dielectrics, ferroelectrics, antiferromagnetics, ferromagnetics, ferrimagnetics, crystal structure, structure-property relations, device applications.
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ECG 652 - Optoelectronics Credits 3
Topics include: modulation of light, display devices, lasers, photodetectors, fiber optics, engineering applications, and systems.
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ECG 653 - Introduction to Nanotechnology Credits 3
Overview of Nanotechnology. Physics of the Solid State, Properties of Individual Nanostructures. Bulk Nanostrutured materials, magnetic nanoparticles, Quantum Wells, Wires and Dots, Self-Assembly and Catalysis, nanoscale Biological materials.
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ECG 662 - Advanced Digital Communications Credits 3
Information theory and fundamental limits on performance, digital coding of waveforms, pulse shaping for baseband transmission, digital bandpass modulations, channel coding.
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ECG 672 - Digital Control Systems Credits 3
Introduction to discrete time of control. State space representation of linear systems; stability; the concepts of controllability and observability. Sample data control system design techniques, including pole placement, observer design.
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ECG 674 - Recent Topics in Control Credits 3
This 600-level course has been approved by the Graduate College for possible inclusion in graduate programs. A full description of this course may be found in the Undergraduate Catalog under the corresponding 400 number.
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ECG 680 - Discrete-Time Signal Processing Credits 3
Review of discrete linear system theory including the z-transformers, the Fourier transform, discrete and fast Fourier transform. Sampling, reconstruction multirate systems and quantization noise. IIR and FIR digital filter design including digital filter structures and finite word length effects.
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ECG 680L - Digital Signal Processing Laboratory Credits 1
Laboratory projects and exercises in digital signal processing including the design and implementation of FIR, IIR, and multirate systems.
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ECG 682 - Introduction to Biomedical Signals and Systems Credits 3
Introduction to biomedical signals, transduction devices, bioelectric potentials and sensors. Application of electrical signal and system principles to biosignals, such as cardiovascular electrical signals, neural electrical communication, and diagnostic ultrasound. Includes current biomedical engineering topics.
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ECG 695 - Special Topics Credits 1-4
Covers experimental and other topics which may be of current interest. Topics and credits to be announced.
Notes May be repeated once under a different topic. May have a laboratory.
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ECG 700 - Advanced Computer System Architecture Credits 3
High performance computer architecture including pipelining techniques, high speed memory systems, vector processors, parallel processing, and interconnection networks.
Prerequisites ECG 300 or consent of instructor.
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ECG 701 - Reliable Design of Digital Systems Credits 3
D-algorithm, Boolean difference, test generation for combinational and sequential circuits, self checking circuits, fault tolerant design, design for testability, and topics in reliability and maintainability.
Prerequisites ECG 300 or consent of instructor.
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ECG 702 - Interconnection Networks for Parallel Processing Applications Credits 3
Interconnection networks models, comparison of single-stage networks: PM2I, HYPERCUBE Illiac and suffle-exchange, partitioning single-state networks, multistage networks, survey and comparison of fault-tolerant multistage networks.
Prerequisites ECG 300 or consent of instructor.
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ECG 704 - Coding with Applications in Computers and Communication Media Credits 3
Error correcting codes, design and analysis of encoder/decoder circuitry, applications to reliable communication and fault tolerant computing, compression encoding schemes.
Prerequisites ECG 300 , MATH 453, or consent of instructor.
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ECG 706 - Analysis of Telecommunication and Data Networks Credits 3
Probability-based treatment of telecommunication and data networks. Delay, throughput, buffer management in layers of ISO Open Systems Interconnection Model. Performance analysis, flow and congestion control, routing function, polling and random access, CSMA/CD and Ethernet.
Prerequisites ECG 300 and MATH 462
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ECG 707 - Logic Synthesis Engineering Credits 3
Theory and application of Boolean Minimization, functional decomposition and logic synthesis for FPGAs, serial and parallel decomposition strategies, and design implementation using FPGAs. Design entry, introduction to VHDL, BDD, FSM, and BLIF. Placement and routing in Xilinx and Aleira.
Prerequisites Graduate standing in computer engineering or consent of instructor.
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ECG 709 - Synthesis and Optimization of Digital Systems Credits 3
Study of the high-level synthesis and optimization algorithms for designing SOCs and MPSOCs. Topics including algorithms for high-level synthesis, scheduling, resource binding, real-time systems, application specific instruction processors, embedded systems and hardware/software codesigns. Simulate and synthesize algorithms using HDL languages (Verilog and SystemC). Use of simulators and emulators.
Prerequisites CPE 300 and C/C++ knowledge or Instructor permission
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ECG 720 - Advanced Analog IC Design Credits 3
Advanced analog design considerations including: noise, common-mode feedback, high-speed design, and design for analog signal processing.
Prerequisites EE 420 or .
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ECG 721 - Memory Circuit Design Credits 3
A practical introduction to the transistor-level design of memory circuits. Memory technologies including DRAM, Flash, MRAM, Glass-based, and SRAM will be discussed.
Prerequisites EE 421 or .
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ECG 722 - Mixed-Signal Circuit Design Credits 3
Design of data converters using sigma-delta techniques. Operation and design of custom digital filters for decimating and interpolating in analog-to-digital interfaces.
Prerequisites EE 320 and EE 360 or equivalent.
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ECG 730 - Advanced Engineering Electromagnetics I Credits 3
Conformal transformation with application to static field problems in engineering; wave harmonics with engineering applications; theorems of waves and media; Special Theory of Relativity with engineering applications; wave propagation in various media; engineering application of scattering.
Prerequisites ECG 330 or consent of instructor.
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ECG 731 - Theoretical Techniques in Electromagnetics Credits 3
Review and introduce mathematical techniques basic to the study of engineering electromagnetics, including coupled mode theory; complex analysis; and Green’s function.
Prerequisites ECG 330 or consent of instructor.
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ECG 732 - Advanced Engineering Electromagnetics II Credits 3
Scattering; particle and beam radiation; selected topics in advanced antenna and microwave engineering.
Prerequisites ECG 330 or consent of instructor.
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ECG 733 - Plasma I Credits 3
Single particle motion; adiabatic invariants; plasmas as fluids; waves in plasmas; diffusion; resistivity; introduction to kinetic theory; Landau damping.
Prerequisites ECG 330
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ECG 740 - Computer Analysis Methods for Power Systems Credits 3
Power system matrices, programming considerations, conventional power flow studies, approximate and fast power flow studies, optimal dispatch, fault studies, power system stability, stochastic methods in power systems analysis.
Prerequisites ECG 440, ECG 440L or consent of instructor.
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ECG 741 - Electric Power Distribution System Engineering Credits 3
Electric load characteristics, distribution transformers, design of subtransmission lines and distribution substations, design of primary and secondary systems, voltage drop and power loss calculation, capacitor applications, voltage regulation, distribution system protection and reliability.
Prerequisites ECG 440, ECG 440L or consent of instructor.
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ECG 742 - Power System Stability and Control Credits 3
Power equipment dynamic characteristics and modeling, control of active and reactive power, small-signal stability, transient stability, voltage stability, sub-synchronous oscillations, mid- and long-term stability, methods of improving stability.
Prerequisites ECG 440, ECG 440L or consent of instructor.
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ECG 750 - Optical Electronics I Credits 3
Propagation of rays and beams, optical beams in fibers, resonators, laser oscillation, electro-optic, modulation, laser systems.
Prerequisites MATH 432, ECG 330, ECG 452 or consent of instructor.
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