Graphics processing unit-based high performance computing in radiation therapy / edited by Xun Jia, Steve B. Jiang.
Contributor(s): Jia, Xun [editor.] | Jiang, Steve B [editor.].
Material type: BookSeries: Series in medical physics and biomedical engineering.Publisher: Boca Raton : CRC Press, 2018Edition: 1st.Description: 1 online resource : illustrations (black and white, and colour).Content type: text | still image Media type: computer Carrier type: online resourceISBN: 9781351231664; 1351231669; 9781351230537; 1351230530; 9781351229289; 1351229281.Subject(s): Radiotherapy -- Technological innovations | Graphics processing unitsDDC classification: 615.842 Online resources: Taylor & Francis | OCLC metadata license agreementPreviously issued in print: 2017.
<P>Introduction <BR><I>Xun Jia and Steve B. Jiang</P><P></P></I><P>Digitally Reconstructed Radiographs <BR><I>Michael M. Folkerts</P><P></P></I><P>Analytic Cone-Beam CT Reconstructions <BR><I>Bongyong Song, Wooseok Nam, Justin C. Park, and William Y. Song</P><P></P></I><P>Iterative Cone-Beam CT Reconstruction on GPUs: A Computational Perspective <BR><I>Wei Xu, Ziyi Zheng, Eric Papenhausen, Sungsoo Ha, and Klaus Mueller</P><P></P></I><P>4DCT and 4D Cone-Beam CT Reconstruction Using Temporal Regularizations <BR><I>Hao Gao, Minghao Guo, Ruijiang Li, and Lei Xing</P><P></P></I><P>Multi-GPU Cone-Beam CT Reconstruction <BR><I>Hao Yan and Xiaoyu Wang</P><P></P></I><P>Tumor Tracking and Real-Time Volumetric Imaging via One Cone-Beam CT Projection <BR><I>Ruijiang Li and Steve B. Jiang</P><P></P></I><P>GPU Denoising for Computed Tomography <BR><I>Andreas Maier and Rebecca Fahrig </P><P></P></I><P>GPU-Based Unimodal Deformable Image Registration in Radiation Therapy <BR><I>Sanjiv S. Samant, Soyoung Lee, and Sonja S.A. Samant</P><P></P></I><P>Inter-Modality Deformable Registration <BR><I>Yifei Lou and Allen Tannenbaum</P><P></P></I><P>CT-to-Cone-Beam CT Deformable Registration <BR><I>Xin Zhen and Xuejun Gu</P><P></P></I><P>Reconstruction in Positron Emission Tomography <BR><I>Franck P. Vidal and Jean-Marie Rocchisani</P><P></P></I><P>Implementation of Convolution Superposition Methods on a GPU <BR><I>Todd R. McNutt and Robert A. Jacques</P><P></P></I><P>Photon and Proton Pencil Beam Dose Calculation <BR><I>Xuejun Gu</P><P></P></I><P>Photon Monte Carlo Dose Calculation <BR><I>Sami Hissoiny</P><P></P></I><P>Monte Carlo Dose Calculations for Proton Therapy <BR><I>Xun Jia</P><P></P></I><P>Treatment Plan Optimization for Intensity-Modulated Radiation Therapy (IMRT) <BR><I>Chunhua Men</P><P></P></I><P>Treatment Plan Optimization for Volumetric-Modulated Arc Therapy (VMAT) <BR><I>Fei Peng, Zhen Tian, H. Edwin Romeijn, and Chunhua Men</P><P></P></I><P>Non-Voxel-Based Broad Beam Framework: A Summary <BR><I>Weiguo Lu and Mingli Chen</P><P></P></I><P>Gamma Index Calculations<BR><I>Xuejun Gu</P><P></P></I><P>SCORE System for Online Adaptive Radiotherapy <BR><I>Zhen Tian, Quentin Gautier, Xuejun Gu, Chunhua Men, Fei Peng, Masoud Zarepisheh, Yan Jiang Graves, Andres Uribe-Sanchez, Xun Jia, and Steve B. Jiang</P><P></P></I><P>TARGET: A GPU-Based Patient-Specific Quality Assurance System for Radiation Therapy <BR><I>Yan Jiang Graves, Michael M. Folkerts, Zhen Tian, Quentin Gautier, Xuejun Gu, Xun Jia, and Steve B. Jiang</P></I>
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