Title :
Sensor Fused Night Vision : Assessing Image Quality in the Lab and in the Field
Author :
Waxman, A. ; Fay, D. ; Ilardi, P. ; Savoye, D. ; Biehl, R. ; Grau, D.
Author_Institution :
Fusion Technol. & Syst. Div., BAE Syst. Adv. Inf. Technol., Burlington, MA
Abstract :
Generating real-time fused combinations of VNIR, SWIR and LWIR imagery enhances situational awareness, task performance, and overall image quality. However, no quantitative means to link image quality metrics with task performance exist for fused imaging, the way it does for single modality imaging. We illustrate how fused image quality is affected by multiple dimensions, including scene illumination, reflectance contrast, thermal contrast, sensor resolution, noise-limited resolution, local adaptive gain & contrast enhancement, noise cleaning, and fusion methodology. Task performance has also been assessed in two field collection campaigns, and multiple human performance tests in the lab using field data. Though image fusion clearly improves subjective image quality, a means to predict task performance improvement is still lacking
Keywords :
image enhancement; image fusion; image resolution; image sensors; night vision; LWIR imagery; SWIR imagery; VNIR imagery; contrast enhancement; field collection campaign; image quality assessment; local adaptive gain; multiple human performance tests; noise cleaning; noise-limited resolution; reflectance contrast; scene illumination; sensor fused night vision; sensor resolution; situational awareness; task performance; thermal contrast; Cleaning; Image quality; Image resolution; Image sensors; Layout; Lighting; Night vision; Reflectivity; Sensor fusion; Thermal sensors; Image fusion; fused night vision; image quality; image quality assessment;
Conference_Titel :
Information Fusion, 2006 9th International Conference on
Conference_Location :
Florence
Print_ISBN :
1-4244-0953-5
Electronic_ISBN :
0-9721844-6-5
DOI :
10.1109/ICIF.2006.301767
