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Learning to Scan: A Deep Reinforcement Learning Approach for Personalized Scanning in CT Imaging

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arxiv 2006.02420 v5 pith:ENFU3VQT submitted 2020-06-03 physics.med-ph cs.LGeess.IV

Learning to Scan: A Deep Reinforcement Learning Approach for Personalized Scanning in CT Imaging

classification physics.med-ph cs.LGeess.IV
keywords scanningdosepersonalizedreconstructionstrategyangleslearningselect
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Computed Tomography (CT) takes X-ray measurements on the subjects to reconstruct tomographic images. As X-ray is radioactive, it is desirable to control the total amount of dose of X-ray for safety concerns. Therefore, we can only select a limited number of measurement angles and assign each of them limited amount of dose. Traditional methods such as compressed sensing usually randomly select the angles and equally distribute the allowed dose on them. In most CT reconstruction models, the emphasize is on designing effective image representations, while much less emphasize is on improving the scanning strategy. The simple scanning strategy of random angle selection and equal dose distribution performs well in general, but they may not be ideal for each individual subject. It is more desirable to design a personalized scanning strategy for each subject to obtain better reconstruction result. In this paper, we propose to use Reinforcement Learning (RL) to learn a personalized scanning policy to select the angles and the dose at each chosen angle for each individual subject. We first formulate the CT scanning process as an MDP, and then use modern deep RL methods to solve it. The learned personalized scanning strategy not only leads to better reconstruction results, but also shows strong generalization to be combined with different reconstruction algorithms.

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