Common mode noise suppression using channel data processing

What is claimed is: 1. An ultrasound processing system, comprising: an ultrasound interface that receives ultrasound imaging information; and processing electronics coupled to the ultrasound interface and configured to utilize the ultrasound imaging information to perform processing across a plurality of ultrasound channels by: selecting channels from the plurality of ultrasound channels to be combined based on at least one of: a type of noise in the channels, an origin of the noise in the channels, a function of time of a transmit event in the channels, a function of depth of a spatial dimension in range in the channels, and a spatial dimension in azimuth of the channels; combining digital ultrasound channel data of the selected channels of the ultrasound imaging information prior to beamforming, the digital ultrasound channel data corresponding to a transmit event; generating weighted ultrasound channel data by applying a weighting coefficient to the combined digital ultrasound channel data; generating modified ultrasound channel data for each of the selected channels for adaptively reducing common mode noise of the digital ultrasound channel data from the selected channels by (i) applying a first operation to the digital ultrasound channel data using the weighted ultrasound channel data based on the common mode noise being additive noise or (ii) applying a second operation to the digital ultrasound channel data using the weighted ultrasound channel data based on the common mode noise being multiplicative noise; and providing the modified ultrasound channel data to a beamformer. 2. The ultrasound processing system of claim 1 , wherein the processing electronics combine the digital ultrasound channel data by obtaining an arithmetic mean. 3. The ultrasound processing system of claim 1 , wherein the processing electronics combine the digital ultrasound channel data adaptively as a function of time of a transmit event. 4. The ultrasound processing system of claim 1 , wherein the processing electronics combine the digital ultrasound channel data adaptively as a function of depth of a spatial dimension in range. 5. The ultrasound processing system of claim 1 , wherein the processing electronics combine the digital ultrasound channel data adaptively as a function of a channel of spatial dimension in azimuth. 6. The ultrasound processing system of claim 1 , wherein the processing electronics combine the digital ultrasound channel data adaptively as a function of a combination of elements. 7. The ultrasound processing system of claim 1 , wherein the weighting coefficients are based on spatial distribution. 8. The ultrasound processing system of claim 1 , wherein the weighting coefficient is based on a function of combined elements. 9. The ultrasound processing system of claim 1 , wherein the processing electronics remove digital ultrasound channel data multiplied by the weighting coefficient from the digital ultrasound channel data to generate the modified ultrasound channel data. 10. The ultrasound processing system of claim 1 , wherein the processing electronics use the modified ultrasound channel data to determine which channels to eliminate from user. 11. An ultrasound processing system, comprising: an ultrasound interface that receives ultrasound imaging information; and processing electronics coupled to the ultrasound interface and configured to utilize the ultrasound imaging information to perform processing across a plurality of ultrasound channels by: selecting a channels from the plurality of ultrasound channels to be combined based on at least one of: a type of noise in the channels, an origin of the noise in the channels, a function of time of a transmit event in the channels, a function of depth of a spatial dimension in range in the channels, and a spatial dimension in azimuth of the channels; combining digital ultrasound channel data of the selected channels of the ultrasound imaging information prior to beamforming, the digital ultrasound channel data corresponding to a transmit event; generating weighted ultrasound channel data by applying a weighting coefficient to the combined digital ultrasound channel data; generating modified ultrasound channel data for each of the selected channels for adaptively reducing common mode noise of the digital ultrasound channel data from the selected channels by (i) applying a first operation to the digital ultrasound channel data using the weighted ultrasound channel data based on the common mode noise being additive noise or (ii) applying a second operation to the digital ultrasound channel data using the weighted ultrasound channel data based on the common mode noise being multiplicative noise; and providing the modified ultrasound channel data to a beamformer.