Method and system for performing retrospective dynamic transmit focussing beamforming on ultrasound signals

1 . An ultrasound imaging system comprising: an ultrasound probe including an array of transducer elements transforming electric input signals in acoustic transmit signals and transforming acoustic echo signals in electric receive signals; a transmit beamformer generating the driving input signals for the transducer elements according to a transmit scheme for driving the transducer array to transmit a plurality of transmit beams from an array transducer, each transmit beam being centered at a different position along the array and each transmit beam having a width or an aperture encompassing a plurality of laterally spaced line positions, each transmit beam width or aperture overlapping at least partially at least the width or the aperture of the immediately adjacent transmit beam or of more laterally spaced transmit beams; the transmit beamformer including a memory configured to store time delays to synchronise contributions of transmit signals of the transducer elements of the array according to the said transmission scheme; a receive beamformer including a receive signals processing unit configured to process the echo signals received in response to one transmit beam to produce a plurality of receive lines of echo signals at the laterally spaced line positions within the width or the aperture of each of the transmit beams of the said plurality of transmit beams; a focalization delay and phase equalization delay module which applies to each receive signal contribution of each channel or transducer element the corresponding focalization and phase shift equalization delays for re-aligning the time of arrival of the receive signal contributions at the transducer elements of the transducer array from each reflecting or focus point and for equalizing the phase shift variance among receive line signals for each reflecting or focus point at a common line position, the said receive line signals resulting from transmit beams of different transmit beam positions based on stored delay and phase shift values among receive lines at a common line; a summer for summing for each receive line at each receive line position within the width or aperture of a transmit beam the re-aligned and phase shift equalized receive signal contributions of the transducer elements from focus points on the said receive line position after having applied to them the focalization delay and the phase shift equalization delay; a memory connected to the receive beamformer and configured to store the said plurality of processed received lines of echo signals along a common receive line position resulting from transmit beams of different transmit beam positions; a line combination module connected to the said memory and configured to combine echo signals of receive lines from different transmit beams which are spatially related to a common line position to produce line image data; an image generation unit producing an image producing using the said line image data; wherein equalizing the phase shift via the focalization delay and phase equalization delay module is carried out contemporaneously with processing via the receive signals processing unit the echo signals received in response to the one transmit beam and additional ones of the plurality of transmit beams by applying to each of the contribution of the receive signals at the transducer elements of the transducer array from each reflecting or focus point at a common line position a combined delay parameter determined by a sum of a focalization delay consisting in a delay of each receive signal contribution received by the transducer elements realigning the time of arrivals of the said signal contribution from a receive signal from a reflecting point or focus at the said transducer elements and a phase shift equalization delay determined by the phase shift between the wave fronts of the different transmit beams centered at different transmission lines at the said reflecting point or focus; and, for each receive signal along a receive line position, the focalization delays and the phase shift equalization delays are applied to the receive signal contributions of the transducer elements or channels before their summation. 2 . An ultrasound imaging system according to claim 1 , wherein an apodization weight multiplying module is provided applying anodization weights to the receive signals. 3 . An ultrasound imaging system according to claim 1 , further comprising a pre-calculated table, stored in a memory, the pre-calculated table comprising real times of arrival of the receive signals at the transducer elements of a transducer array relative to a predetermined reflection point or optionally a processor configured to calculate the focalization delay for each receive signal and the phase shift among receive lines at a common line position resulting from transmit beams of different transmit beam positions and to add the focalization delays of each of the receive signals relative to a predetermined reflection point with the corresponding phase shift and apply the result of the said summation as a combined delay parameter to the said received signals. 4 . A system according to claim 1 , wherein a processor is provided which is configured to provide parallel multi-line receive (PMR) beamforming in connection with individual view lines acquired in parallel contemporaneously with a focusing function. 5 . A system according to claim 1 , wherein the beamformer is a multiline beamformer comprising a multiline processor for each receive line encompassed by the aperture or the width of each transmit beam centered on a certain transmit line position. 6 . A system according to claim 1 , further comprising a motion detector and/or an image mode selector and/or an image condition selector which are combined with a beam width or aperture controller and causing the said beam width or aperture controller to modify the beam width or aperture as a function of the motion detected and/or of the image mode selected and/or of the imaging condition selected. 7 . A system according to claim 1 , comprising a transmit line spacing controller and/or a transmit line number controller cooperating with a motion detector and/or an image mode selector and/or an image condition selector. 8 . A system according to claim 1 , comprising a receive line spacing controller and/or a transmit line number controller cooperating with a motion detector and/or an image mode selector and/or an image condition selector. 9 . A beamforming processor comprising: a plurality of multiline processors each one for one of the receive lines encompassed by the aperture or the width of each transmit beam centered on a certain transmit line position; each multiline processor comprising a plurality of processing channels each one for processing the receive signal of a corresponding transducer element of a transducer array; an analog-digital converter for converting the receive signals of each channel; each multiline processor comprising a unit for determining and applying the focalization delays and the phase shift corrections with respect to the signal components of the individual channels; the unit for determining the focalization delays and the phase shift corrections comprises: a calculation unit or a pre-calculated table of the real times of arrival of the receive signal components deriving from a predetermined reflection point on a certain receive line corresponding to the multiline processor; a unit for calculating the phase shift of the receive line contributions deriving from a reflection point on the said certain receive line corresponding to the multiline processor and from a certain number of transmit beams of the plurality of transmit beams which aperture or width