Ultrasound (US) imaging is a medical imaging modality that uses the reflection of sound in the range of 2–18 MHz to image internal body structures. In US, the frequency bandwidth (BW) is directly associated with image resolution. BW is a property of the transducer and more bandwidth comes at a higher cost. Thus, methods that can transform strongly bandlimited ultrasound data into broadband data are essential. In this work, we propose a deep learning (DL) technique to improve the image quality for a given bandwidth by learning features provided by broadband data of the same field of view. Therefore, the performance of several DL architectures and conventional state-of-the-art techniques for image quality improvement and artifact removal have...
Ultrasound speed-of-sound reconstruction has been proven to provide images of higher quality in some...
Biomedical imaging is unequivocally dependent on the ability to reconstruct interpretable and high-q...
Deep learning for ultrasound image formation is rapidly garnering research support and attention, qu...
Ultrasound (US) imaging is a medical imaging modality that uses the reflection of sound in the range...
Ultrasound (US) is a widely used medical imaging modality mostly because of its non-invasive and rea...
The problem of improving image quality in ultrafast ultrasound (US) imaging by means of regularized ...
In this article, we consider deep learning strategies in ultrasound systems, from the front end to a...
Medical ultrasound imaging relies heavily on high-quality signal processing to provide reliable and ...
Over the past years, deep learning has established itself as a powerful tool across a broad spectrum...
Biomedical imaging is unequivocally dependent on the ability to reconstruct interpretable and high-q...
Ultrasound offers a safe, non-invasive, and inexpensive way of imaging. However, due to its natural ...
The real-time nature that makes diagnostic ultrasonography so appealing to clinicians imposes strong...
Ultrasound speed-of-sound reconstruction has been proven to provide images of higher quality in some...
Biomedical imaging is unequivocally dependent on the ability to reconstruct interpretable and high-q...
Deep learning for ultrasound image formation is rapidly garnering research support and attention, qu...
Ultrasound (US) imaging is a medical imaging modality that uses the reflection of sound in the range...
Ultrasound (US) is a widely used medical imaging modality mostly because of its non-invasive and rea...
The problem of improving image quality in ultrafast ultrasound (US) imaging by means of regularized ...
In this article, we consider deep learning strategies in ultrasound systems, from the front end to a...
Medical ultrasound imaging relies heavily on high-quality signal processing to provide reliable and ...
Over the past years, deep learning has established itself as a powerful tool across a broad spectrum...
Biomedical imaging is unequivocally dependent on the ability to reconstruct interpretable and high-q...
Ultrasound offers a safe, non-invasive, and inexpensive way of imaging. However, due to its natural ...
The real-time nature that makes diagnostic ultrasonography so appealing to clinicians imposes strong...
Ultrasound speed-of-sound reconstruction has been proven to provide images of higher quality in some...
Biomedical imaging is unequivocally dependent on the ability to reconstruct interpretable and high-q...
Deep learning for ultrasound image formation is rapidly garnering research support and attention, qu...