Quality Metrics of Digitally Derived Imagery and Their Relation to Interpreter Performance. 2. Effects of Blur and Noise on Hard-Copy Interpretability
Abstract
Ten medium scale (1:2700 to 1:4400) aerial photographs, typical of the imagery viewed by Air Force photointerpreters, were digitized to 4096 x 4096 files (20- micron aperture by 11 bits intensity) on a scanning microdensitometer. The image files were then multiplied by two Gaussian filter functions (Fourier domain) to yield two blurred and one ground truth level of each image and transformed to eight bits of intensity for output. One of four weightings of a 4096 x 4096 Gaussian noise file was added to each image file, yielding 3 Blur x 5 Noise x 10 Image combinations (150 images, total). Positive transparencies then served as the database for an information extraction task. Fifteen photointerpreters (PIs) from the 548th Reconnaissance Technical Group, Hickam AFB, Hawaii, served as subjects. Blur was a between-subjects variable with five PIs at each of three levels. Noise was a within-subjects variable (five levels). The Noise main effect was significant (p < .01). The Blur main effect and the Blur x Noise interaction were not found to be statistically significant, although the Blur main effect was of the expected form. The data were correlated with image quality scaling values from a separate study using the same images and PIs. A significant correlation was found (r = .898).
Document Details
- Document Type
- Technical Report
- Publication Date
- Sep 01, 1980
- Accession Number
- ADA115150
Entities
People
- Harry L. Snyder
- James A. Turpin
- Michael E. Maddox
Organizations
- Virginia Tech