MS Color Science Curriculum
Color science is broadly interdisciplinary, encompassing
physics, chemistry, physiology, statistics, computer
science and psychology. Graduates are in high demand
and have accepted industrial positions in electronic
imaging, color instrumentation, colorant formulation
and basic and applied research.
The color science major provides graduate-level study
in both theory and practical application. The program
gives students a broad exposure to the field of color
and affords them the unique opportunity of specializing
in an area appropriate for their background and interest.
The degree program in color science revolves around
the activities of the Munsell
Color Science Laboratory within the Center for Imaging
Science. The Munsell Laboratory is the preeminent academic
laboratory in the country devoted to color science.
Students must enroll in either the research-thesis or
graduate paper/project option at least one year before
completion of required course work. Candidates who wish
to enter the program but lack adequate preparation may
have to take bridge courses in mathematics, chemistry,
or physics before matriculating with graduate status.
Research Thesis Option - Students without research
experience are encouraged to select the research thesis
option. Topics are chosen that complement the candidate's
undergraduate education and career interests. The technical
advisory board of the Munsell Color Science Laboratory,
as well as the program coordinator, can aid in the selection
of a thesis topic.
Graduate Paper/Project Option - Students with
research experience may select the graduate project
option. The project has the same intellectual level
as a research thesis but is less lengthy. It might take
the form of an experiment, demonstration, research project
or critical review. The graduate project is normally
performed during the last quarter of study.
The M.S. in Color Science requires 45 total credits,
36 of which must be taken at RIT. For more information
on admission and graduation requirements please see
the Graduate Handbook.
Classes in curriculum:
| Core courses |
| Course Number |
Class Name |
Credit Hours |
| 1050-701 |
Vision & Psychophysics |
4 |
| 1050-702 |
Applied Colorimetry |
4 |
| 1050-721,722 |
Color Measurement Laboratory I & II |
4 |
| 1050-703 |
Color Appearance |
3 |
| 1050-813 |
Color Modeling |
4 |
| 1050-801 |
Color Science Seminar |
3 |
| Elective courses |
| Course Number |
Class Name |
Credit Hours |
| 1051-801,802 |
Design of Experiments I, II |
6 |
| 1051-830,831 |
Multivariate Analysis I, II |
6 |
| 1051-841,842 |
Regression Analysis I, II |
6 |
| 1051-761 |
Fundamentals of Computer Graphics |
4 |
| 1051-726 |
Programming for Scientists & Engineers |
4 |
| 1051-736 |
Geometrical Optics |
4 |
| 1051-737 |
Physical Optics |
4 |
| 1051-738 |
Optical Image Formation |
4 |
| 1051-749 |
Color Reproduction |
4 |
| 1051-738 |
Optical Image Formation |
4 |
| 1051-771 |
Silver Halide Science I, II, III |
12 |
| 1051-782 |
Intro to Digital Image Processing |
4 |
| 1051-816 |
Color Systems |
4 |
|
Any other course with advisor approval |
Click
here for the official RIT course descriptions for
the M.S. Color Science curriculum.
|
