EXAMPLE
EXAMPLE
Department of Bioengineering
Master of Science Degree Plan in Biomedical Engineering: Thesis-Substitute Option (2012)
This worksheet describes the category, number and title of the courses required for the completion of a Master of Science degree in Biomedical
Engineering at UTA/UTSW. Course descriptions are available in the Graduate Catalog at the UTA home page. (This worksheet is required by the BE department)
Name: _
John Doe_______________________ MyMav#:_1000XXXXX________________ Telephone #: (817) 272-1234_______ Email: john.doe@mavs.uta.edu
Track: _Name of Track You Are On______________ Track Advisor: __Name of your track advisor___________________ Date: ___Today’s Date______________
Category
Subject/Number
Course Title or Comments
1) BE 5101
2) BE 53XX
3) BE 53XX
1) BE 5101 Seminar in Bioengineering (Fall)
2)Name of Lab Course
3)Name of Lab Course
(at least four
from BE)
(15 hrs)
1)BE 53XX
2)BE 53XX
3) BE 53XX
4)BE 53XX
5) Course Number
Required Elective
(6 hrs)
1) BE 53XX
2) Course Number
1) Course Title Here
2) Course Title Here
3) Course Title Here
4) Course Title Here
5) Choose Approved Engineering course from
“Relevant Courses Sheet” (Pg 3 OR 4)
1) Course Title Here
2) Chose Approved Biostatistics course from
“Relevant Courses Sheet” (Pg 3 OR 4)
1) BE 5309 Human Physiology2) Life Science course approved by the
Graduate Advisor
Required BE
Courses
(7 hrs)
Engineering*
Required
Life Sciences
(6 hrs)
1) BE 5309
2) BIO 53XX (approved Graduate
Advisor Course #)
Grade
Professor
Sem/Year
List the Professor
who is teaching
each course.
What Sem/Year do
you plan on taking
the listed courses?
*Foundation courses on computer programming languages such as CSE5300, CSE5301 and CSE5302 cannot be used toward BME degree requirements.
** A list of accepted biostatistics courses is available from the Academic Advisor
**Get
Candidate’s Signature
Advisor Signature’s Prior to Turning In
Date
Track Advisor
Graduate Advisor
Date
Date
Academic Advisor
Committee on Graduate Studies
Date
Amended on If resubmission, Date amended on? This supersedes previously approved form dated What date was original submitted?
Date
Updated 9/30/14
*****Please Note: No course that has been applied to any degree, at any graduate or undergraduate institution, may be applied to any other degree, either directly or by substitution
except in approved dual degree or approved fast track programs.
Department of Bioengineering
Master of Science Degree Plan in Biomedical Engineering: Thesis-Substitute Option (2012)
This worksheet describes the category, number and title of the courses required for the completion of a Master of Science degree in Biomedical
Engineering at UTA/UTSW. Course descriptions are available in the Graduate Catalog at the UTA home page. (This worksheet is required by the BE department)
Name: ________ ____________________
MyMav#:_________________ Telephone #: _______________ Email: ___________________________
Track: _____________________________ Track Advisor: _____________________________________ Date: _____________________
Category
Required BE
Courses
(7 hrs)
Engineering*
(at least four
from BE)
(15 hrs)
Required Elective
(6 hrs)
Required
Life Sciences
(6 hrs)
Subject/Number
Course Title or Comments
1) BE 5101
2)
3)
1) BE 5101 Seminar in Bioengineering (Fall)
2)
3)
1)
2)
3)
4)
1)
2)
3)
4)
5)
1)
2)
5)
1)
2)
1) BE 5309
2)
1) BE 5309 Human Physiology2)
Grade
Professor
Sem/Year
*Foundation courses on computer programming languages such as CSE5300, CSE5301 and CSE5302 cannot be used toward BME degree requirements.
** A list of accepted biostatistics courses is available from the Academic Advisor
Candidate’s Signature _________________________________________
Date
Track Advisor ________________________________________
Graduate Advisor ___________________________________________________________________
Date
Date
Academic Advisor ____________________________________________
Committee on Graduate Studies ________________________________________________________________
Date
Date
Amended on ______________________
This supersedes previously approved form dated _________________________________
Updated 9/30/14
*****Please Note: No course that has been applied to any degree, at any graduate or undergraduate institution, may be applied to any other degree, either directly or by substitution
except in approved dual degree or approved fast track programs.
Relevant Courses
Applied toward PhD & MS Course Requirements
*Other courses may be permitted based on student's program of study. Please discuss these with your faculty track advisor.
Course #
Course Title
AE 5312
AE 5310 (F)
AE 5327 (F)
AE 5328
Continuum Mechanics
Finite Element Methods
Computational Aerodynamics I
Computational Aerodynamics II
BIOL 3301 (F,Sp)
BIOL 3312 (F,Sum)
BIOL 3315 (Sp, Sum,F)
BIOL 3317 (F)
BIOL 3319 (Sp)
Cell Physiology
Immunobiology
Genetics
Genomics
Human Genetics
BIOL 3344 (Sp, Sum)
General Microbiology
BIOL 3345 (Sp)
BIOL 3346 (F)
BIOL 4301/PSYC 4301
BIOL 4302 (F)
Human Physiology
Human Anatomy
Introduction to Neuroscience
Microbial Genetics
Genome Strcture and Dynamics
Neuropharmacology
Introduction to Virology
Molecular Genetics
General Endocrinology
Developmental Psychobiology
Behavioral Genetics
Tech in Microbial/Molecular Gen
Microbial Genetics
Molecular Genetics
Virology
Tech in Microbial/Molecular Genetics
Genome Structure and Dynamics
Immunology
Advanced Genetics
Biometry
Human Genetics
BIOL 4308
BIOL 4309/PSYC 4309 (Sp, Sum,F)
BIOL 4312
BIOL 4313 (Sp, Sum,F)
BIOL 4315 (Sp, Sum)
BIOL 4325/PSYC 4325
BIOL 4327/PSYC 4327
BIOL 4346
BIOL 5302 (F)
BIOL 5303
BIOL 5304 (Sp,Sum)
BIOL 5305
BIOL 5308
BIOL 5310
BIOL 5312
BIOL 5314 (Sp, Sum,F)
BIOL 5319
Eng
Life
Sci
Mth
Stats
X
X
X
X
BIOL 5330
BIOL 5333
BIOL 5335
BIOL 5336
BIOL 5341
BIOL 5361
BIOL 5362
BIOL 5420
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
(F)
(F)
(F)
(F)
(F)
CE 5310 or
CE 6356 Even years
CE 6352 (Sp-every
other)
CE 6358 (Sum 15,17)
X
X
Course #
Course Title
Eng
X
X
X
X
X
X
X
X
Developmental Biology
Biological Modeling
Essentials of Genomics
Molecular Evolution
Principles of Neurooscience
Advanced Biometry
Experimental Design
Genetics Methods Lab
Plastic Analysis & Design of Structures
Advanced Finite Element Method
Advanced Engineering Analysis
Life
Sci
X
X
x
X
X
X
CHEM 4311 (Sp,F,Sum I)
CHEM 4312 (Sp,F,Sum II)
CHEM 5304 (Sp,F)
Biochemistry I
Biochemistry II
Anal Mass Spectrometry/Spectrocopy
CSE 5301 (F)
CSE 5315 F (F)
Data Analysis & Modeling Techniques
Numerical Methods
X
X
EE 5301
EE 5307 (F)
EE 5323 (Sp)
EE 5326
EE 5327
EE 5353
EE 5357 (Sum)
EE 6327
Advanced Engineering Analysis
Linear Systems Engineering
Nonlinear Systems
Fuzzy Logic
System Identification and Estimation
Neural Networks
Statistical Pattern Recongnition
Kalman Filtering
X
X
X
X
X
X
X
X
Mth
Stats
X
Eng
IE 5303 (F)
IE 5319 (F)
IE 5332(Sum)
IE 6308 (Sp)
Quality Systems (IE 3301 Pre Req)
Adv Statistical Process Control and
Time Series Analysis
Nonlinear Programming
Design of Experiments
Life
Sci
Mth
Stats
X
Eng
PHYS 5309 (Sp)
X
PHYS 5391
Electromagnetic Theory I
Electromagnetic Theory
II
Statistical Mechanics I
Statistical Mechanics II
Mathematical Methods
in Physics I
Mathematical Methods
in Physics II
Mathematical Methods
in Physics III
Special Topics (Nano-Bio
Physics)
UTSW
UTSW 5306D
UTSW 5307D
Biostatistics
Biochemistry
Human Anatomy Lecture
UTSW 5309D
Human Physiology
PHYS 5313 (F)(Sp)
PHYS 5310 (Sp)
PHYS 5317
X
X
PHYS 5311 (F)
MATH 5305
(F)(Sp)
Statistical Methods
MATH 5314 (F)
Experimental Design
MATH 5355 (F)
MATH 5366
MATH 5392
Statistical Theory for Rsrch Workers
Intro to Neural & Coggnitive Model
Common Stat Meth in Clinical Studies
X
X
X
X
X
X
X
X
X
X
ME 3360 (Sp)
ME 5331 or AE
5331 (F)
ME 6310 (Sp)
Engineering Analysis
PSYC 3322
Brain and Behavior
PSYC 3431
BIOL 4301/PSYC
4301
BIOL 4309/PSYC
4309
BIOL 4325/PSYC
4325
BIOL 4327/PSYC
4327
PSYC 4332
Sensory and Perceptual Processing
PSYC 4333
Cognitive Science and Artificial Intell
PSYC 4334
PSYC 4338
Cognitive Process
Cognitive Neuroscience
PSYC 5301
Brain and Behavior
X
X
X
PSYC 5314
PSYC 5333
Cognitive Development
Behavioral Neuroscience
X
X
PSYC 6338
Neural and Cognitive Modeling
X
PSYC 6347
Environmental Psychology
X
Analytic Methods Engineering
Adv Finite Element Methods
Introduction to Neuroscience
Neuropharmacology
Developmental Psychobiology
Behavioral Genetics
Theories of Human Learning & Mem
X
X
PHYS 5312 (Sp)
PHYS 5319 (Sum)
X
X
X
Please note: The following courses do not count as life
X
science courses but can be counted as engineering courses.
X
UTSW Biostatistics
X
BIOL 5314 Biometry
X
UTA CSE Engineering Genetics
X
X
For course descriptions and additional information, please
refer to the appropriate UT Arlington course catalog.
Other courses may be permitted based on student's program
of study. Please discuss these with your faculty track advisor.
**Only one non BE course can be included
in the degree plan.
Life
Sci
Mth
Stats
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X
X