 |
|
 |
|
| |
|
| |
 |
| |
 |
| |
It's not too late! Your support of the SIIM Research & Education Fund through the 4th Annual "Ride to SIIM" will help fund the SIIM Grant Program and the Samuel J. Dwyer, III, PhD, FSIIM, Memorial Lecture.
Make a per-mile contribution to the SIIM Research & Education Fund today!
|
|
| |
|
| |
|
|
 |
|
| Track 3: Image Acquisition & Management |
| |
| Applied Learning Sessions |
| |
| Thursday, June 4, 2009 |
| 10:15 am – 11:45 am |
| Ballroom CD |
| |
| Developing Policies for Image Storage Roundtable |
| |
| Small round table groups will be given the assignment to develop policies for storage of images from new technologies where perhaps not every image will be stored (raw data vs. thick slabs, etc.). The groups will come together to present their ideas, receiving valuable feedback from faculty and colleagues. |
| |
Faculty:
Janice Honeyman-Buck, PhD, FSIIM; University of Florida
J. Anthony Seibert, PhD; University of California, Davis |
| |
Objectives:
1. Configure acquisition protocols to optimize CAD and advanced image processing.
2. Design a policy for their department on storage/retention of images/series/CAD results for each modality. |
| |
| Thursday, June 4, 2009 |
Friday, June 5, 2009 |
| 1:15 pm – 2:45 pm |
1:15 pm – 2:45 pm |
| Meeting Room 211 & 212 (both days) |
| |
Introduction to Color Calibration and Image Quality Control of Color Displays Educational Demonstration |
| |
| *Advance sign-up required |
| |
| This educational demonstration on color displays has two major sections: 1) Introduction to Color Displays, and 2) Image Quality Control of Color Displays. Learn about tri-chromatic theory, how to measure color coordinates, the three primaries and the color gamut, and effect of color on the outcome of the diagnosis. Discuss how to perform color calibration based on gamut mapping, assess color display performance, and evaluate the role of color in medical image perception. |
| |
Faculty:
Michael J. Flynn, PhD; Henry Ford Health System
Hans Roehrig, PhD; University of Arizona
|
| |
Objectives:
1. Review the science of color and color measurements.
2. Describe the tri-chromatic theory of the human visual system.
3. Identify the computational tools for color calibration and color reproduction.
4. Visualize the thresholds and the effect of color on the correct diagnosis.
5. Assess the display performance for medical imaging systems.
|
| |
 Track 3: Image Acquisition and Management |
| |
| Applied Learning Sessions |
| |
|
|
|
| |
|