Jul 9, 2020 · In this paper, we propose to train deep neural networks with biomechanical simulations, to predict the prostate motion encountered during ultrasound-guided ...
Sep 29, 2020 · In this paper, we propose to train deep neural networks with biomechanical simulations, to predict the prostate motion encountered during ultrasound-guided ...
In this paper, we propose to train deep neural networks with biomechanical simulations, to predict the prostate motion encountered during ultrasound-guided ...
Jul 9, 2020 · It is demonstrated that the trained networks generalise to unstructured point sets sampled directly from holdout patient segmentation, ...
Prostate Motion Modelling Using Biomechanically-Trained Deep Neural Networks on Unstructured Nodes ... Authors: Shaheer U. Saeed; Zeike A. Taylor; Mark A. Pinnock ...
2021. Prostate motion modelling using biomechanically-trained deep neural networks on unstructured nodes. SU Saeed, ZA Taylor, MA Pinnock, M Emberton, DC ...
Shaheer U. SAEED | Research Fellow | Doctor of Philosophy
www.researchgate.net › profile › Shaheer...
In this paper, we propose to train deep neural networks with biomechanical simulations, to predict the prostate motion encountered during ultrasound-guided ...
Prostate motion modelling using biomechanically-trained deep neural networks on unstructured nodes · no code implementations • 9 Jul 2020 • Shaheer U. Saeed, ...
Oct 10, 2022 · Most AI models for prostate cancer detection used new ultrasound-based imaging modalities (Table 3). These models used a variety of AI methods.
In this paper, we propose to train deep neural networks with biomechanical simulations, to predict the prostate motion encountered during ultrasound-guided ...