Program Information
New Quality Assurance Method Using Motion Tracking for 6D Robotic Couches
W Cheon1, J Cho1 , S Ahn2 , Y Han3* , D Choi3 , (1) SungKyunKwan University, Seoul, Korea, (2) Samsung Medical Center, Seoul, Korea, (3) Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea
Presentations
SU-E-T-570 (Sunday, July 12, 2015) 3:00 PM - 6:00 PM Room: Exhibit Hall
Purpose: To accommodate geometrically accurate patient positioning, a robotic couch that is capable of 6-degrees of freedom has been introduced. However, conventional couch QA methods are not sufficient to enable the necessary accuracy of tests. Therefore, we have developed a camera based motion detection and geometry calibration system for couch QA.
Methods: Employing a Visual-Tracking System (VTS, BonitaB10, Vicon, UK) which tracks infrared reflective(IR) markers, camera calibration was conducted using a 5.7 x 5.7 x 5.7 cm³ cube attached with IR markers at each corner. After positioning a robotic-couch at the origin with the cube on the table top, 3D coordinates of the cube’s eight corners were acquired by VTS in the VTS coordinate system. Next, positions in reference coordinates (room-coordinates) were assigned using the known relation between each point. Finally, camera calibration was completed by finding a transformation matrix between VTS and reference coordinate systems and by applying a pseudo inverse matrix method. After the calibration, the accuracy of linear and rotational motions as well as couch sagging could be measured by analyzing the continuously acquired data of the cube while the couch moves to a designated position. Accuracy of the developed software was verified through comparison with measurement data when using a Laser tracker (FARO, Lake Mary, USA) for a robotic-couch installed for proton therapy.
Results: VTS system could track couch motion accurately and measured position in room-coordinates.
The VTS measurements and Laser tracker data agreed within 1% of difference for linear and rotational motions. Also because the program analyzes motion in 3-Dimension, it can compute couch sagging.
Conclusion: Developed QA system provides sub-millimeter/degree accuracy which fulfills the high-end couch QA.
Funding Support, Disclosures, and Conflict of Interest: This work was supported by the National Research Foundation of Korea funded by Ministry of Science, ICT & Future Planning. (2013M2A2A7043507 and 2012M3A9B6055201)
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