Feasibility of using the Kinect for surface tracking in Radiation Oncology (2014)
Type of ContentConference Contributions - Other
PublisherUniversity of Canterbury. Physics and Astronomy
CitationMarsh, S., Eagle, J., Meyer, J. (2014) Feasibility of using the Kinect for surface tracking in Radiation Oncology. Christchurch, New Zealand: New Zealand branch meeting of the ACPSEM, Nov 2014.
This citation is automatically generated and may be unreliable. Use as a guide only.
ANZSRC Fields of Research32 - Biomedical and clinical sciences::3211 - Oncology and carcinogenesis::321110 - Radiation therapy
Showing items related by title, author, creator and subject.
Meyer J; Stewart R; Smith D; Eagle J; Lee E; Marsh SH (2017)The biological effectiveness of proton beams varies with depth, spot size and lateral distance from the beam central axis. The aim of this work is to incorporate proton relative biological effectiveness (RBE) and ...
Hubley L; Roberts J; Meyer J; Moggré A; Marsh S (MDPI AG, 2019)Digital holographic interferometry (DHI) radiation dosimetry has been proposed as an experimental metrology technique for measuring absorbed radiation doses to water with high spatial resolution via noninvasive optical ...
Ackerley EJ; Cavan AE; Wilson PL; Berbeco RI; Meyer J (AMER ASSOC PHYSICISTS MEDICINE AMER INST PHYSICS, 2013)Purpose: The treatment efficacy of radiation therapy for lung tumors can be increased by compensating for breath-induced tumor motion. In this study, we quantitatively examine a mathematical model of pseudomechanical ...