Optimization of Image Tracking Algorithm Used in 4D Radiation Therapy.
- Author:
Jongin PARK
1
;
Eunhyuk SHIN
;
Youngyih HAN
;
Heechul PARK
;
Jaiki LEE
;
Doo Ho CHOI
Author Information
1. Department of Biomedical Engineering, Gachon University of Medicine and Science, Korea.
- Publication Type:Original Article
- Keywords:
4DRT;
RPM signal;
Gating radiation therapy;
Respiration analysis
- MeSH:
Biofeedback, Psychology;
Humans;
Track and Field
- From:Korean Journal of Medical Physics
2012;23(1):8-14
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
In order to develop a Patient respiratory management system includinga biofeedback function for4-dimentional radiation therapy, this study investigated anoptimal tracking algorithmfor moving target using IR (Infra-red) camera as well as commercial camera. A tracking system was developed by LabVIEW 2010. Motion phantom images were acquired using a camera (IR or commercial). After image process were conducted to convert acquired image to binary image by applying a threshold values, several edge enhance methods such as Sobel, Prewitt, Differentiation, Sigma, Gradient, Roberts, were applied. The targetpattern was defined in the images, and acquired image from a moving targetwas tracked by matching pre-defined tracking pattern. During the matching of imagee, thecoordinateof tracking point was recorded. In order to assess the performance of tracking algorithm, the value of score which represents theaccuracy of pattern matching was defined. To compare the algorithm objectively, we repeat experiments 3 times for 5 minuts for each algorithm. Average valueand standard deviations (SD) of score were automatically calculatedsaved as ASCII format. Score of threshold only was 706, and standard deviation was 84. The value of average and SD for other algorithms which combined edge detection method and thresholdwere 794, 64 in Sobel, 770, 101 in Differentiation, 754, 85 in Gradient, 763, 75 in Prewitt, 777, 93 in Roberts, and 822, 62 in Sigma, respectively. According to score analysis, the most efficient tracking algorithm is the Sigma method. Therefore, 4-dimentional radiation threapy is expected tobemore efficient if threshold and Sigma edge detection method are used together in target tracking.
