Imaging science is a multidisciplinary field based on physics, mathematics, computer science, systems engineering, and chemistry. Students in imaging science study the theory behind the technologies used to create images, the integration of those technologies into imaging systems, and the application of those systems to solve scientific problems. The imaging science curriculum includes the study of, The physical observables associated with the subject of an image, such as reflected or emitted electromagnetic radiation.

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More About Imaging Science

Imaging science is a multidisciplinary field based on physics, mathematics, computer science, systems engineering, and chemistry. Students in imaging science study the theory behind the technologies used to create images, the integration of those technologies into imaging systems, and the application of those systems to solve scientific problems. The imaging science curriculum includes the study of:

• The physical observables associated with the subject of an image, such as reflected or emitted electromagnetic radiation;
• How those observables are captured by devices using optics and detectors such as satellites, digital cameras, and astronomical observatories;
• How the captured observables are processed using computers and specialized software;
• How processed signals are converted into images displayed on paper or electronic devices and perceived by humans; and
• How image quality is assessed and scientific information is extracted.

Concepts presented in the classroom are reinforced through laboratory experiments and a capstone research experience, which can examine a problem in any of several imaging applications such as remote sensing, astronomy, medical imaging, document restoration, image microstructure, optics, color science, image quality, or visual perception. Students may choose to pursue a minor to supplement their major field of study. Both theoretical studies and practical application of technologies are integral parts of the program.

Career opportunities are many and varied. Graduates are in demand by both industry and governmental agencies to work on the design, development, testing, or production of specialized imaging systems or technologies, or to use imaging systems to perform scientific research. The imaging science faculty members are deeply committed professionals who divide their time between teaching and the pursuit of scientific advances.
Faculty, staff, and students conduct research sponsored by both industry and the government. The research support ensures that students are exposed to the latest developments in a rapidly expanding field.