Gustavo Rohde headshot
GR

Gustavo Kunde Rohde

Professor
Unit: School of Engineering and Applied Science
Department: Department of Biomedical Engineering
Office location and address
MR5, Room 1115
415 Lane Rd
Charlottesville, Virginia 22903
Biography

Gustavo K. Rohde earned B.S. degrees in physics and mathematics in 1999, and the M.S. degree in Electrical Engineering in 2001 from Vanderbilt University. He received a doctorate in applied mathematics and scientific computation in 2005 from the University of Maryland. He is currently an associate professor of Biomedical Engineering, and Electrical and Computer Engineering at the University of Virginia.

Lagrangian computational modeling for biomedical data science
Source: U.S. NIH Institute of General Medical Science
March 01, 2019 – November 30, 2022
ABI: Innovation: Analyzing Neuroglial Cell Dynamics in their Natural Environment with Video Microscopy
Source: U.S. National Science Foundation (NSF)
August 01, 2018 – July 31, 2022
EN-BME-Image-Derived Spatiotemporal Models of Cellular Organization and Perturbation
Source: Carnegie Mellon University
August 01, 2016 – March 31, 2020
Target Detection and Identification in the Presence of Turbulence
Source: U.S. DOD - Navy - Office Of Naval Research (Onr)
November 01, 2017 – December 31, 2018
EN-BME CIF: SMALL: Transport and other Lagrangian Transforms for Signal Analysis and Discrimination
Source: U.S. NSF - Directorate Computer & Info. Sciences
August 01, 2016 – August 31, 2018
HDACs in Pancreatic Recovery after Injury
Source: University Of Pittsburgh
July 01, 2017 – June 30, 2018
EN-BME Utility of Effusion Cytology and Image Analysis in the Diagnosis of Mesothelioma
Source: U.S. NIH Cancer Institute
October 11, 2016 – June 30, 2017
BME 2315: Computational Biomedical Engineering
Credits: 3
Introduces techniques for constructing predictive or analytical engineering models for biological processes. Teaches modeling approaches using example problems in transport, mechanics, bioelectricity, molecular dynamics, tissue assembly & imaging. Problem sets include 1) linear systems and filtering 2) compartmental modeling 3) numerical techniques 4) finite element / finite difference models and 5) computational automata models. Prereq: CS 1110 or instructor permission.
ENGR 4595: Special Topics in Engineering
Credits: 1–3
Advance projects course to be taken in parallel with STS 4010, 4020, or can be used for an advanced undergraduate course on a topic not covered in the course offerings. Prerequisite: instructor permission.
BME 4995: Biomedical Engineering Advanced Projects
Credits: 1–3
A year-long research project in biomedical engineering conducted in consultation with a department faculty advisor; usually related to ongoing faculty research. Includes the design, execution, and analysis of experimental laboratory work and computational or theoretical computer analysis of a problem. Requires a comprehensive report of the results. Prerequisite: third- or fourth-year standing, and instructor permission.
ECE 6501: Topics in Electrical and Computer Engineering
Credits: 3
A first-level graduate course covering a topic not normally covered in the graduate course offerings. The topic will usually reflect new developments in the electrical and computer engineering field. Offering is based on student and faculty interests. Prerequisite: Instructor permission.
BME 6550: Special Topics in Biomedical Engineering
Credits: 1–3
Applies engineering science, design methods, and system analysis to developing areas and current problems in biomedical engineering. Topics vary by semester.
CPE 7993: Independent Study
Credits: 1–3
Detailed study of graduate course material on an independent basis under the guidance of a faculty member
BME 8995: M.E. Supervised Project Research (M.E. STUDENTS ONLY)
Credits: 1–6
FOR M.E. STUDENTS ONLY. A research project in biomedical engineering conducted in consultation with a faculty advisor. Includes the design, execution, and analysis of experimental laboratory work and computational or theoretical computer analysis of a problem. Fulfills the project requirement for the Biomedical Engineering Masters of Engineering degree. Prerequisites: Instructor Permission Required.
BME 8999: Master's Research
Credits: 1–12
Master's Research
ECE 8999: Thesis
Credits: 1–12
Formal record of student commitment to master's thesis research under the guidance of a faculty advisor. May be repeated as necessary.
ECE 9999: Dissertation
Credits: 1–12
Formal record of student commitment to doctoral research under the guidance of a faculty advisor. May be repeated as necessary.
BME 9999: Dissertation
Credits: 1–12
Formal record of student commitment to doctoral research under the guidance of a faculty advisor. May be repeated as necessary.