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Course Criteria
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3.00 Credits
An introduction to the basics of subsurface sensing and imaging; properties of probes such as optical beams, x-rays, ultrasonic waves and electromagnetic waves. Physical interaction of probes with various media-transmission, reflection, attenuation, scattering, diffusion, fluorescence. Contrast agents and molecular sensing/imaging systems. Biomedical and security applications. Extracting information from subsurface signals using multi-view tomography (MVT), localized probing and mosaicing (LPM), and multi-spectral discrimination (MSD). Prerequisites/Corequisites: Prerequisites: ECSE 2410 and ECSE 2100. When Offered: Spring Credit Hours: 3
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1.00 - 4.00 Credits
When Offered: Each term. Credit Hours: 1 to 4
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1.00 - 4.00 Credits
When Offered: Each term. Credit Hours: 1 to 4
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3.00 Credits
An examination of biomaterial and biomechanical factors affecting events at tissue-implant interfaces, with emphasis on biomaterial surface properties as well as cell and molecular interactions. Prerequisites/Corequisites: Prerequisites: BIOL 4290 and BMED 4500 or permission of instructor. When Offered: Fall term annually. Credit Hours: 3
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3.00 Credits
Application of continuum mechanics in modeling the biomechanical behavior of nonmineralized tissues such as tendons, ligaments, skin, cartilage, blood vessels, etc. Topics include structure of collagen, elastin, proteoglycans, and other tissue components, nonlinear elastic models (including Fung's pseudoelasticity approach and strain energy functions), linear viscoelasticity, Fung's quasilinear viscoelasticity, hereditary integral formulation of constitutive equations, and introduction to mixture theory.When Offered: Fall term odd-numbered years. Credit Hours: 3
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3.00 Credits
Structure-property relationships for mineralized connective tissues of the human body. Discussion centers on various types of bone (e.g., lamellar, woven) with an emphasis on models for biomechanical behavior. Topics include elastic models for bone (isotropic and anisotropic), theories of yielding and fatigue, strength properties, composite and hierarchical models, and models of bone remodeling/modeling. When Offered: Fall term, even numbered years. Credit Hours: 3
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3.00 Credits
The principles of convective diffusion in liquids are discussed as applied to the vascular circulation. Topics include: convective and diffusion boundary layers in internal flows with reacting and/or permeable walls, Taylor dispersion, microhydrodynamics of macromolecules and particles, Brownian motion, mass transport to arterial walls and across cell membranes. This course is intended for first year graduate students in Biomedical Engineering and undergraduate seniors with permission of the instructor. When Offered: Spring term, even-numbered years. Credit Hours: 3
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3.00 Credits
This course discusses state-of-the-art techniques in patterning biomolecules, biosensors, machining three-dimensional microstructures and building microfluidic devices (Lab-on-a-Chip). Seminal and current literature will be used to discuss topics in BioMEMs ranging from device fabrication to applications in cell biology and medicine. Students cannot get credit for both BMED 4410 and BMED 6410. When Offered: Spring annually Credit Hours: 3
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4.00 Credits
Comprehensive examination of cellular interactions with the extracellular matrix (ECM), as well as analysis of the structure and function of the ECM in a variety of tissues. Topics to be covered include: EMC proteins, cell-matrix interactions, ECM signaling, mechanics of the ECM, ECM pathology and recent advances in ECM research. There are no formal prerequisites, but students should have a rudimentary knowledge of cell biology and protein structure (readings to provide this can be requested from the instructor). When Offered: Spring term of even-numbered years. Credit Hours: 4
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3.00 Credits
This course contains the fundamental theory required to design adaptive systems. Topics include parameter identification, ARMA modeling, model reference systems, model algorithmic control, self-tuning systems, and adaptive filtering. Applications to physical and physiological systems are introduced. (). Prerequisites/Corequisites: Prerequisite: ECSE 6400 or equivalent. When Offered: Spring term odd-numbered years. Cross Listed: Cross-listed as ECSE 6480. Credit Hours: 3
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