Quality indicators for collection of and automated measurement on ultrasound images

What is claimed is: 1. A processing device including processing circuitry, usable with an ultrasound device, being configured to: receive real-time input signals from the ultrasound device during an imaging operation; cause a display device to display a sequence of ultrasound images in real-time during the imaging operation, the sequence of ultrasound images corresponding to the input signals; calculate a live quality of the sequence of ultrasound images in real-time; cause the display device to display a live quality indicator together with the sequence of ultrasound images; wherein the live quality indicator comprises: a frame having a first end and a second end; a color bar within the frame and configured to: indicate a first color when the live quality is in a first quality range, and indicate a second color when the live quality is in a second quality range, and an acceptability indicator at a location between a first end and a second end of the frame, wherein a distance from the first end of the frame to the location of the acceptability indicator relative to a distance from the first end to the second of the frame is proportional to a threshold quality for performing an automatic measurement. 2. The processing device of claim 1 , wherein: the first color is a reddish color, and the second color is a greenish color. 3. The processing device of claim 1 , wherein a length of the color bar indicates a quality level of the live quality such that an increase in the quality level corresponds to an increase in the length of the color bar. 4. The processing device of claim 3 , further configured to: calculate the live quality using at least one trained statistical model. 5. The processing device of claim 4 , wherein the at least one trained statistical model includes a deep-learning-trained neural network. 6. The processing device of claim 5 , wherein the at least one trained statistical model includes a convolutional neural network. 7. The processing device of claim 1 , further configured to: cause the display device to display guidance for a user to move the ultrasound device, the guidance being displayed in real-time during the imaging operation. 8. The processing device of claim 1 , further configured to: record a portion of the input signals; calculate an ejection fraction from the recorded portion of the input signals; and cause the display device to display the ejection fraction calculated from the recorded portion of the input signals. 9. The processing device of claim 8 , further configured to: calculate the ejection fraction using at least one trained statistical model. 10. The processing device of claim 9 , wherein the at least one trained statistical model includes a deep-learning-trained neural network. 11. The processing device of claim 9 , wherein the at least one trained statistical model includes a convolutional neural network. 12. The processing device of claim 1 , wherein: the first color is a yellowish color, and the second color is a greenish color. 13. The processing device of claim 1 , wherein the processing device is one of a smartphone and a tablet computing device.