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Course Criteria
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3.00 Credits
The study of the theory and practice of modern lossless and lossy compression methods. Included will be an analysis of current international compression standards for speech, audio, and video, such as CELP, MP3, JPEG, and MPEG. This class has application in the area of communications, multimedia, and signal processing. Prerequisite: EE 3384, or equivalent, with a grade of "C" or better.
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3.00 Credits
Introduction to the key concepts, processes and process activities carried out by Systems Engineers. Fundamentals of architecting and engineering large and complex development projects. Software tools are covered with emphasis on architectural analysis and design, functional design alternatives, and key architectural attributes. Prerequisite: Instructor approval.
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3.00 Credits
Techniques and tools for Systems Engineering management. Topics include technical management, organizational environments and technical team structures, time and cost estimates and cost control, resource allocation and Resource Management. Students propose project studies, with the approval of the professor, to be developed in phases as the course progresses. Prerequisite: Instructor approval.
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3.00 Credits
Methodologies, approaches, and techniques associated with requirements analysis and definition; process for defining requirements including feasibility study, requirements elicitation, formal specification, modeling, validation, verification, and documentation.
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3.00 Credits
Integration, Verification and Validation (IV&V) process and the recommended activities at each of the different program phases. Includes verification planning, verification methods and validation methods during development, during launching and operations of the product/system; test bed requirements and unitary test, subsystem tests and integration test data collection analysis and systems requirement validation. Test reporting and modification or Change request processes that need to be initiated.
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3.00 Credits
Methodologies & processes applied to develop a project from Conceptual phase to Prototype definition under the supervision of at least two (2) faculty members from participating departments. Students are encouraged to work on real customer projects.
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3.00 Credits
EE 5351 Physiological Systems and Measurements (3-0)
A unified and systems-approach of the functions of the human body. Origin and processing of biomedical signals to extract clinical information. Prerequisite: EE 4385, with a 'C' or better, or instructor approval.
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3.00 Credits
EE 5352 Medical Diagnostic & Therapeutic Instrumentation (3-0)
Principles, applications and design of medical, diagnostic, therapeutic, clinical laboratory instrumentation and imaging systems used in modern hospitals and clinics. Integration of concepts and techniques from human physiology, electronics, digital signal processing, and systems engineering to analyze and design biomedical instruments. Electrical safety aspects in medical instrumentation and medical environment. Prerequisite: EE 4385, with a ?C? or better, or instructor approval.
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3.00 Credits
EE 5353 Biomedical Signal and Image Processing (3-0)
Principles, methods and algorithms for processing biomedical signals. Application of advanced DSP techniques to a number of problems in biomedical research and clinical medicine. Topics include biomedical data acquisition, filtering, feature extraction, modeling, and imaging, with examples from cardiology, neuro-physiology, muscular-physiology, and medical imaging. Prerequisite: EE 4383, with a ?C? or better, or instructor approval.
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3.00 Credits
EE 5354 Tomographic Imaging (3-0)
Study of physical and mathematical principles used in tomography. Topics include mathematical model for tomography with non-diffracting as well as diffracting sources, Radon transform, Fourier transform, Hilbert transform. Algorithms for image reconstruction from projections, filtered back-projection algorithm, algebraic reconstruction algorithms. Problems associated with data acquisition in computed tomography such as finite beam width, aliasing artifacts and noise. Prerequisite: EE4383, with a ?C? or better, or instructor approval.
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