Cozzi, A.; Cè, M.; De Padova, G.; Libri, D.; Caldarelli, N.; Zucconi, F.; Oliva, G.; Cellina, M.
Deep Learning-Based Versus Iterative Image Reconstruction for Unenhanced Brain CT: A Quantitative Comparison of Image Quality. Tomography 2023, 9, 1629-1637.
https://doi.org/10.3390/tomography9050130
AMA Style
Cozzi A, Cè M, De Padova G, Libri D, Caldarelli N, Zucconi F, Oliva G, Cellina M.
Deep Learning-Based Versus Iterative Image Reconstruction for Unenhanced Brain CT: A Quantitative Comparison of Image Quality. Tomography. 2023; 9(5):1629-1637.
https://doi.org/10.3390/tomography9050130
Chicago/Turabian Style
Cozzi, Andrea, Maurizio Cè, Giuseppe De Padova, Dario Libri, Nazarena Caldarelli, Fabio Zucconi, Giancarlo Oliva, and Michaela Cellina.
2023. "Deep Learning-Based Versus Iterative Image Reconstruction for Unenhanced Brain CT: A Quantitative Comparison of Image Quality" Tomography 9, no. 5: 1629-1637.
https://doi.org/10.3390/tomography9050130
APA Style
Cozzi, A., Cè, M., De Padova, G., Libri, D., Caldarelli, N., Zucconi, F., Oliva, G., & Cellina, M.
(2023). Deep Learning-Based Versus Iterative Image Reconstruction for Unenhanced Brain CT: A Quantitative Comparison of Image Quality. Tomography, 9(5), 1629-1637.
https://doi.org/10.3390/tomography9050130
