BIOE 486

Spring 2022 Part of Term 1

Part of Term 1
Jan 18-May 4
Applied Deep Learning for Biomedical Imaging

Credit: 3 OR 4 hours.

Covers basic concepts, methodology and algorithms in deep learning and their applications to solve various biomedical imaging problems. Introduction to neural networks and their application to supervised and unsupervised learning problems formulated for biomedical imaging will be provided. Connections between general learning methodologies and specific challenges in the field of biomedical imaging, and design, implementation and evaluation of deep neural network-based solutions to imaging problems will be emphasized. Problems covered will include imaging system design and optimization, image recovery and reconstruction (built on the imaging physics and system course – BIOE 483), image processing (e.g., denoising, super-resolution and enhancement) and image analysis (e.g., same-contrast, multi-contrast and multimodal image registration, segmentation, classification and quality assessment). Biomedical application specific problems and solutions will be covered via hands-on problems and team-based projects.

3 undergraduate hours. 4 graduate hours. Prerequisite: MATH 241 or equivalent; BIOE 210, MATH 415 or equivalent; BIOE 310, ECE 310, STAT 410 or equivalent; BIOE 198, CS 101 or equivalent; BIOE 483; BIOE 485; or consent of the instructor.

BIOE 486 class schedule data for spring 2022
CRN Type Section Time Day Location Instructor Section Details
72055
Lecture
DL
12:30PM -1:50PM
TR
2101 Everitt Laboratory
Granstedt, J
Lam, F
Part of Term:
1
Date Range:
01/18/22-05/04/22
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