Intelligent Approach to Robotic Respiratory Motion Compensation for Radiosurgery and other Interventions

Intelligent Approach to Robotic Respiratory Motion Compensation for Radiosurgery and other Interventions

Radiosurgery involves delivering a precise, high dose of radiation to diseased tissue. In radiosurgery for cancer treatment, the radiation dose must optimally fit the shape of the tumor while minimizing the destruction of normal tissue. One of the challenges in precision radiosurgery is treating tum...

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Bibliographische Detailangaben
Hauptverfasser: Nguyen, C.C., Cleary, K.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Biomedical imaging
Fuzzy logic
Intelligent approach
Intelligent robots
lesion identification
Lesions
Medical robotics
Motion compensation
moving target tracking
Neoplasms
neural network
radiosurgery
Robot control
Robot kinematics
Robot motion
robot motion control
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Beschreibung
Zusammenfassung:Radiosurgery involves delivering a precise, high dose of radiation to diseased tissue. In radiosurgery for cancer treatment, the radiation dose must optimally fit the shape of the tumor while minimizing the destruction of normal tissue. One of the challenges in precision radiosurgery is treating tumors that move with respiration such as those in the lung and pancreas. Intelligent methods that employ fuzzy logic and neural networks have great potential for respiration compensation in medicine. This paper explores at the system level the application of intelligent approaches for radiosurgery, especially for respiration compensation. The CyberKnife radiosurgery system from Accuray Inc. is used as an example system to focus the discussion.
ISSN:2154-4824
2154-4832
DOI:10.1109/WAC.2006.376055