Abstract: Various methods and systems are provided for a guided at-home ultrasound imaging session. In one example, a system for ultrasonically scanning a tissue sample includes a hand-held ultrasound probe including a transducer array of transducer elements, a probe position tracking device including one or more position sensors coupled to the ultrasound probe, and a controller. The controller is configured to, during an imaging session, determine a position of the ultrasound probe relative to a target position based on position data collected by the probe position tracking device, and responsive to an indication that the ultrasound probe is at the target position, acquire image data with the transducer array.

Abstract: A system and method for adapting user interface elements based on real-time anatomical structure recognition in acquired ultrasound image views is provided. The method includes acquiring, by an ultrasound system, an ultrasound image view. The method includes automatically detecting, by at least one processor of the ultrasound system, a target view from a set of target views. The target view corresponds with the ultrasound image view. The method includes automatically determining, by the at least one processor, one or both of a presence or absence of a plurality of anatomical features associated with the target view in the ultrasound image view. The method includes presenting, by the at least one processor, at least one user interface element indicating the one or both of the presence or absence of each of the plurality of anatomical features at a display system.

Abstract: Various methods and systems are provided for a guided at-home ultrasound imaging session. In one example, a system for ultrasonically scanning a tissue sample includes a hand-held ultrasound probe including a transducer array of transducer elements, a probe position tracking device including one or more position sensors coupled to the ultrasound probe, and a controller. The controller is configured to, during an imaging session, determine a position of the ultrasound probe relative to a target position based on position data collected by the probe position tracking device, and responsive to an indication that the ultrasound probe is at the target position, acquire image data with the transducer array.

Abstract: Various methods and systems are provided for a guided at-home ultrasound imaging session. In one example, a system for ultrasonically scanning a tissue sample includes a hand-held ultrasound probe including a transducer array of transducer elements, a probe position tracking device including one or more position sensors coupled to the ultrasound probe, and a controller. The controller is configured to, during an imaging session, determine a position of the ultrasound probe relative to a target position based on position data collected by the probe position tracking device, and responsive to an indication that the ultrasound probe is at the target position, acquire image data with the transducer array.

Abstract: Various embodiments include systems and methods for detecting amniotic fluid position based on shear wave propagation. Ultrasound image data may be acquired, and shear wave related data for an area corresponding to the acquired ultrasound image data may also be acquired. Identification data associated with one or more particular structures or elements within the area may be generated based on the shear wave related data, and ultrasound imaging during an ultrasound examination may then be controlled based on the identification data. The ultrasound imaging may comprise generating and rendering one or more ultrasound images based on the acquired ultrasound image. The ultrasound examination may be obstetric (OB) ultrasound examination, with the area comprising one or more of: at least portion of a fetus, amniotic fluid surrounding the fetus, and tissue of a mother carrying the fetus.

Abstract: Various methods and systems are provided for a guided at-home ultrasound imaging session. In one example, a system for ultrasonically scanning a tissue sample includes a hand-held ultrasound probe including a transducer array of transducer elements, a probe position tracking device including one or more position sensors coupled to the ultrasound probe, and a controller. The controller is configured to, during an imaging session, determine a position of the ultrasound probe relative to a target position based on position data collected by the probe position tracking device, and responsive to an indication that the ultrasound probe is at the target position, acquire image data with the transducer array.

Abstract: Various embodiments include systems and methods for detecting amniotic fluid position based on shear wave propagation. Ultrasound image data may be acquired, and shear wave related data for an area corresponding to the acquired ultrasound image data may also be acquired. Identification data associated with one or more particular structures or elements within the area may be generated based on the shear wave related data, and ultrasound imaging during an ultrasound examination may then be controlled based on the identification data. The ultrasound imaging may comprise generating and rendering one or more ultrasound images based on the acquired ultrasound image. The ultrasound examination may be obstetric (OB) ultrasound examination, with the area comprising one or more of: at least portion of a fetus, amniotic fluid surrounding the fetus, and tissue of a mother carrying the fetus.

Abstract: Methods and systems for a display interface are provided. The systems and methods receive ultrasound image acquisition settings for an ultrasound probe, and acquire ultrasound image data from the ultrasound probe based on the ultrasound image acquisition settings. The systems and methods determine one or more image characteristics of the ultrasound image data, and adjust one or more image display settings corresponding to a first interface component based on the one or more image characteristics. Further, the systems and methods display on a display the interface component and may additionally display the ultrasound image.

Abstract: Systems and methods for ultrasound beamforming are provided. One method includes obtaining ultrasound data using receive line spacing that changes as a function of depth, determining a number of transmit events to combine at each of a plurality of points for use in combining the obtained ultrasound data, and aligning the ultrasound data with time delays computed from a probe geometry used to obtain the ultrasound data. The method also includes combining the aligned ultrasound data to generate an ultrasound image.

Abstract: Systems and methods for ultrasound beamforming are provided. One method includes obtaining ultrasound data using receive line spacing that changes as a function of depth, determining a number of transmit events to combine at each of a plurality of points for use in combining the obtained ultrasound data, and aligning the ultrasound data with time delays computed from a probe geometry used to obtain the ultrasound data. The method also includes combining the aligned ultrasound data to generate an ultrasound image.