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Results: 91 - 100 of 101 results for: BIOE
BIOE 390 Introduction to Bioengineering Research (MED 289)
Preference to medical and bioengineering graduate students with first preference given to Bioengineering Scholarly Concentration medical students. Bioengineering is an interdisciplinary field that leverages the disciplines of biology, medicine, and engineering to understand living systems, and engineer biological systems and improve engineering designs and human and environmental health. Students .... More Description for BIOE 390
Terms: 2017-2018 Autumn | Units: 1-2 | Repeatable for credit | Grading: Medical Satisfactory/No Credit
BIOE 391 Directed Study
May be used to prepare for research during a later quarter in 392. Faculty sponsor required. May be repeated for credit.
Terms: 2017-2018 Winter 2017-2018 Autumn 2017-2018 Spring 2017-2018 Summer | Units: 1-6 | Repeatable for credit | Grading: Satisfactory/No Credit
Instructors: Wu, J. (PI), Kovacs, G. (....More Instructors for BIOE 391
BIOE 392 Directed Investigation
For Bioengineering graduate students. Previous work in 391 may be required for background; faculty sponsor required. May be repeated for credit.
Terms: 2017-2018 Winter 2017-2018 Autumn 2017-2018 Spring 2017-2018 Summer | Units: 1-10 | Repeatable for credit | Grading: Satisfactory/No Credit
Instructors: Wang, S. (PI), Carter, D.....More Instructors for BIOE 392
BIOE 393 Bioengineering Departmental Research Colloquium
Bioengineering department labs at Stanford present recent research projects and results. Guest lecturers. Topics include applications of engineering to biology, medicine, biotechnology, and medical technology, including biodesign and devices, molecular and cellular engineering, regenerative medicine and tissue engineering, biomedical imaging, and biomedical computation. Aut, Win, Spr (Lin, Riedel.... More Description for BIOE 393
Terms: 2017-2018 Spring 2017-2018 Autumn 2017-2018 Winter | Units: 1 | Repeatable for credit | Grading: Satisfactory/No Credit
BIOE 450 Advances in Biotechnology (CHEMENG 450)
Overview of cutting edge advances in biotechnology with a focus on therapeutic and health-related topics. Academic and industrial speakers from fields including protein engineering, immuno-oncology, DNA sequencing, the microbiome, diagnostics, synthetic biology, and more. Biotechnology business topics such as entrepreneurship, venture capital, and intellectual property will also be covered. Course.... More Description for BIOE 450
BIOE 454 Synthetic Biology and Metabolic Engineering (CHEMENG 454)
Principles for the design and optimization of new biological systems. Development of new enzymes, metabolic pathways, other metabolic systems, and communication systems among organisms. Example applications include the production of central metabolites, amino acids, pharmaceutical proteins, and isoprenoids. Economic challenges and quantitative assessment of metabolic performance. Pre- or corequisi.... More Description for BIOE 454
Terms: 2017-2018 Spring | Units: 3 | Grading: Letter or Credit/No Credit
BIOE 459 Frontiers in Interdisciplinary Biosciences (BIO 459, BIOC 459, CHEM 459, CHEMENG 459, PSYCH 459)
Students register through their affiliated department; otherwise register for CHEMENG 459. For specialists and non-specialists. Sponsored by the Stanford BioX Program. Three seminars per quarter address scientific and technical themes related to interdisciplinary approaches in bioengineering, medicine, and the chemical, physical, and biological sciences. Leading investigators from Stanford and the.... More Description for BIOE 459
Terms: 2017-2018 Spring 2017-2018 Autumn 2017-2018 Winter | Units: 1 | Repeatable for credit | Grading: Medical Satisfactory/No Credit
Instructors: Robertson, C. (PI)
BIOE 484 Computational Methods in Cardiovascular Bioengineering (ME 484)
Lumped parameter, one-dimensional nonlinear and linear wave propagation, and three-dimensional modeling techniques applied to simulate blood flow in the cardiovascular system and evaluate the performance of cardiovascular devices. Construction of anatomic models and extraction of physiologic quantities from medical imaging data. Problems in blood flow within the context of disease research, devic.... More Description for BIOE 484
Instructors: Robertson, C. (PI)
BIOE 485 Modeling and Simulation of Human Movement (ME 485)
Direct experience with the computational tools used to create simulations of human movement. Lecture/labs on animation of movement; kinematic models of joints; forward dynamic simulation; computational models of muscles, tendons, and ligaments; creation of models from medical images; control of dynamic simulations; collision detection and contact models. Prerequisite: 281, 331A,B, or equivalent.
Terms: 2017-2018 Spring | Units: 3 | Grading: Letter or Credit/No Credit
Instructors: Delp, S. (PI)
BIOE 500 Thesis (Ph.D.)
(Staff)
Terms: 2017-2018 Winter 2017-2018 Autumn 2017-2018 Summer 2017-2018 Spring | Units: 1-15 | Repeatable for credit | Grading: Satisfactory/No Credit
Instructors: Riedel-Kruse, I. (PI), Sw....More Instructors for BIOE 500
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