Synthetic aperture sonar (SAS) processing system with multi-aspect imaging for acoustic identification

What is claimed is: 1 . A synthetic aperture sonar (SAS) processing system for acoustic identification and multi-aspect imaging, the SAS processing system comprising: processing circuitry and memory, the processing circuitry configured to: perform a first instance of stripmap processing on raw SAS data to generate an initial image; identify a region of interest within the initial image; perform a second instance of stripmap processing on the raw SAS data to generate higher-resolution SAS data of at least the region of interest, the second instance of stripmap processing comprises performing beamforming on the higher-resolution SAS data with a full aperture to produce a closest point of approach (CPA) image with an aspect that is orthogonal to an azimuthal path; and perform multi-aspect processing on the raw SAS data to generate multiple images of the region of interest, the multi-aspect processing comprising performing beamforming on the higher-resolution SAS data with a series of overlapping sub-apertures to generate the multiple images of the region of interest, wherein each of the multiple images are generated to present the region of interest with a different aspect and in a different time window. 2 . The SAS processing system of claim 1 , wherein the first instance of strip map processing comprises lower-resolution SAS processing, the first instance of stripmap processing generating a lower resolution image comprising a single-aspect seabed image across an entire sonar swath. 3 . The SAS processing system of claim 2 , wherein the second instance of stripmap processing comprises higher-resolution SAS processing and includes performing SAS processing operations on raw SAS data from the region of interest. 4 . The SAS processing system of claim 3 , wherein the beamforming is performed on the higher-resolution SAS data with the series of overlapping sub-apertures in chronological order to generate the multiple images of the region of interest. 5 . The SAS processing system of claim 4 , wherein the multi-aspect processing comprises performing SAS processing operations on the higher-resolution SAS data on a per-frame basis, wherein each overlapping sub-aperture of the series of overlapping sub-apertures is smaller than the full aperture used to produce the CPA image, and wherein the series of overlapping sub-apertures in chronological order comprise overlapping sliding windows. 6 . The SAS processing system of claim 5 , wherein the raw SAS data is collected by a SAS data collection device, wherein the CPA image is generated to have an aspect that is orthogonal to an azimuthal path of the SAS data collection device, and wherein the multiple images are generated to present the region of interest with aspects that are non-orthogonal to the azimuthal path and to present region of interest at the non-orthogonal aspects at different times. 7 . The SAS processing system of claim 6 , wherein after performing beamforming with the series of overlapping sub-apertures, the processing circuitry is further configured to perform an image normalization process that comprises normalizing beam-pattern effects that vary from sub-aperture to sub-aperture. 8 . The SAS processing system of claim 7 , wherein the multi-aspect processing further comprises generating video from the multiple images of the region of interest. 9 . The SAS processing system of claim 8 , wherein the processing circuitry is configured to perform acoustic identification to identify or classify a target in the region of interest by processing both the CPA image generated by second instance of stripmap processing and the multiple images generated by the multi-aspect processing. 10 . The SAS processing system of claim 8 , wherein the processing circuitry is configured to display both the CPA image generated by second instance of stripmap processing and the video generated from the multiple images generated by the multi-aspect processing. 11 . A non-transitory computer-readable storage medium that stores instructions for execution by processing circuitry of a synthetic aperture sonar (SAS) processing system for acoustic identification and multi-aspect imaging, the processing circuitry configured to: perform a first instance of stripmap processing on raw SAS data to generate an initial image; identify a region of interest within the initial image; perform a second instance of stripmap processing on the raw SAS data to generate higher-resolution SAS data of at least the region of interest, the second instance of stripmap processing comprises performing beamforming on the higher-resolution SAS data with a full aperture to produce a closest point of approach (CPA) image with an aspect that is orthogonal to an azimuthal path; and perform multi-aspect processing on the raw SAS data to generate multiple images of the region of interest, the multi-aspect processing comprising performing beamforming on the higher-resolution SAS data with a series of overlapping sub-apertures to generate the multiple images of the region of interest, wherein each of the multiple images are generated to present the region of interest with a different aspect and in a different time window. 12 . The non-transitory computer-readable storage medium of claim 11 , wherein the first instance of strip map processing comprises lower-resolution SAS processing, the first instance of stripmap processing generating a lower resolution image comprising a single-aspect seabed image across an entire sonar swath. 13 . The non-transitory computer-readable storage medium of claim 12 , wherein the second instance of stripmap processing comprises higher-resolution SAS processing and includes performing SAS processing operations on raw SAS data from the region of interest. 14 . The non-transitory computer-readable storage medium of claim 13 , wherein the beamforming is performed on the higher-resolution SAS data with the series of overlapping sub-apertures in chronological order to generate the multiple images of the region of interest. 15 . The non-transitory computer-readable storage medium of claim 14 , wherein the multi-aspect processing comprises performing SAS processing operations on the higher-resolution SAS data on a per-frame basis, wherein each overlapping sub-aperture of the series of overlapping sub-apertures is smaller than the full aperture used to produce the CPA image, and wherein the series of overlapping sub-apertures in chronological order comprise overlapping sliding windows. 16 . The non-transitory computer-readable storage medium of claim 15 , wherein the raw SAS data is collected by a SAS data collection device, wherein the CPA image is generated to have an aspect that is orthogonal to an azimuthal path of the SAS data collection device, and wherein the multiple images are generated to present the region of interest with aspects that are non-orthogonal to the azimuthal path and to present region of interest at the non-orthogonal aspects at different times. 17 . The non-transitory computer-readable storage medium of claim 16 , wherein after performing beamforming with the series of overlapping sub-apertures, the processing circuitry is further configured to perform an image normalization process that comprises normalizing beam-pattern effects that vary from sub-aperture to sub-aperture. 18 . The non-transitory computer-readable storage medium of claim 17 , wherein the multi-aspect processing further comprises generating video from the multiple images of the region of interest.