2019-2020 2020-2021 2021-2022 2022-2023 2023-2024
Browse
by subject... 		    Schedule
view... 		 

11 - 19 of 19 results for: RAD

print preview printer friendly page

RAD 228: Magnetic Resonance Imaging Programming Topics

Primarily for students working on research projects involving MRI pulse sequence programming. Introductory and student-initiated topics in seminars and hands-on labs. Image contrast mechanisms achieved by pulse sequences that control radiofrequency and gradient magnetic fields in real time, while acquiring data in an organized manner for image reconstruction. Prerequisites: EE 369B and consent of instructor.
Terms: Spr | Units: 3 | Repeatable for credit
Instructors: Hargreaves, B. (PI)

RAD 229: MRI Sequences and Signals

Magnetic Resonance Imaging (MRI) uses sequences of radiofrequency excitation and magnetic field gradients to generate a signal and form images. Numerous common and advanced sequences will be studied, including analysis techniques to predict signal and contrast levels, and to measure and reduce unwanted image artifacts. Prerequisite: EE 369B.
Terms: Aut | Units: 3
Instructors: Hargreaves, B. (PI)

RAD 260: Computational Methods for Biomedical Image Analysis and Interpretation (BIOMEDIN 260)

The latest biological and medical imaging modalities and their applications in research and medicine. Focus is on computational analytic and interpretive approaches to optimize extraction and use of biological and clinical imaging data for diagnostic and therapeutic translational medical applications. Topics include major image databases, fundamental methods in image processing and quantitative extraction of image features, structured recording of image information including semantic features and ontologies, indexing, search and content-based image retrieval. Case studies include linking image data to genomic, phenotypic and clinical data, developing representations of image phenotypes for use in medical decision support and research applications and the role that biomedical imaging informatics plays in new questions in biomedical science. Includes a project. Enrollment for 3 units with reduced project requirements requires instructor consent. Prerequisites: programming ability at the level of CS 106A, familiarity with statistics, basic biology. Knowledge of Matlab highly recommended.
Terms: Spr | Units: 3-4
Instructors: Paik, D. (PI) ; Rubin, D. (PI) ; Calderon, D. (TA) ; Poole, S. (TA)

RAD 280: Early Clinical Experience in Radiology

Provides an observational experience as determined by the instructor and student. Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-2 | Repeatable for credit

RAD 299: Directed Reading in Radiology

Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit

RAD 370: Medical Scholars Research

Provides an opportunity for student and faculty interaction, as well as academic credit and financial support, to medical students who undertake original research. Enrollment is limited to students with approved projects.
Terms: Aut, Win, Spr, Sum | Units: 4-18 | Repeatable for credit
Instructors: Atlas, S. (PI) ; Bammer, R. (PI) ; Barnes, P. (PI) ; Barth, R. (PI) ; Bazalova, M. (PI) ; Beaulieu, C. (PI) ; Biswal, S. (PI) ; Blankenberg, F. (PI) ; Chan, F. (PI) ; Chen, X. (PI) ; Cheng, Z. (PI) ; Daldrup-Link, H. (PI) ; Daniel, B. (PI) ; Desser, T. (PI) ; Do, H. (PI) ; Fahrig, R. (PI) ; Federle, M. (PI) ; Fischbein, N. (PI) ; Fleischmann, D. (PI) ; Gambhir, S. (PI) ; Gayer, G. (PI) ; Ghanouni, P. (PI) ; Glover, G. (PI) ; Gold, G. (PI) ; Goris, M. (PI) ; Guccione, S. (PI) ; Hargreaves, B. (PI) ; Herfkens, R. (PI) ; Hofmann, L. (PI) ; Hovsepian, D. (PI) ; Hwang, G. (PI) ; Iagaru, A. (PI) ; Ikeda, D. (PI) ; Jackman, R. (PI) ; Jeffrey, R. (PI) ; KUO, W. (PI) ; Kamaya, A. (PI) ; Kane, P. (PI) ; Kothary, N. (PI) ; Leung, A. (PI) ; Levin, C. (PI) ; Lipson, J. (PI) ; Lutz, A. (PI) ; MacKenzie, J. (PI) ; Mallick, P. (PI) ; Marks, M. (PI) ; Mittra, E. (PI) ; Moseley, M. (PI) ; Moskowitz, P. (PI) ; Napel, S. (PI) ; Newman, B. (PI) ; Nino-Murcia, M. (PI) ; Olcott, E. (PI) ; Paik, D. (PI) ; Paulmurugan, R. (PI) ; Pauly, K. (PI) ; Pelc, N. (PI) ; Pitteri, S. (PI) ; Plevritis, S. (PI) ; Quon, A. (PI) ; Rao, J. (PI) ; Roos, J. (PI) ; Rubin, D. (PI) ; Rubin, G. (PI) ; Rutt, B. (PI) ; Segall, G. (PI) ; Shin, L. (PI) ; Sommer, F. (PI) ; Spielman, D. (PI) ; Stevens, K. (PI) ; Sze, D. (PI) ; Van Dalsem, V. (PI) ; Vasanawala, S. (PI) ; Willmann, J. (PI) ; Wu, J. (PI) ; Yeom, K. (PI) ; Zaharchuk, G. (PI) ; Zeineh, M. (PI) ; Gambhir, S. (SI)

RAD 399: Graduate Research

Students undertake investigations sponsored by individual faculty members. Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit

RAD 221: Physics and Engineering of Radionuclide Imaging (BIOE 221)

Physics, instrumentation, and algorithms for positron emission tomography (PET) and single photon emission computed tomography (SPECT). Topics include basic physics of photon emission and detection, electronics, system design, strategies for tomographic image reconstruction, data correction algorithms, methods of image quantification, and image quality assessment, and current developments in the field. Prerequisites: Completion of university level mathematics and physics.

RAD 223: Physics and Engineering of X-Ray Computed Tomography (BIOE 223)

CT scanning geometries, production of x-rays, interactions of x-rays with matter, 2D and 3D CT reconstruction, image presentation, image quality performance parameters, system components, image artirfacts, radiation dose. Prerequisites: differential and integral calculus. Knowledge of Fourier transforms ( EE261) recommended.
Filter Results:
term offered
updating results...
teaching presence
updating results...
number of units
updating results...
time offered
updating results...
days
updating results...
UG Requirements (GERs)
updating results...
component
updating results...
career
updating results...
© Stanford University | Terms of Use | Copyright Complaints