Systems and methods for image processing

We claim: 1. A system for determining a breast region in a breast image comprising: at least one storage device including a set of instructions; and at least one processor in communication with the at least one storage device, wherein when executing the set of instructions, the at least one processor is directed to perform operations including: obtaining the breast image of an object that is acquired by an imaging device; dividing the breast image into a body region and a background region, the body region including a breast; generating a binary image by designating pixel values of pixels in the body region as 1 and designating pixel values of pixels in the background region as 0; determining a chest-wall side of the binary image; and obtaining a projection curve by determining a plurality of sums each of which is a sum of pixel values of a row of pixels in the binary image, the row of pixels being arranged along a direction between the chest-wall side and a side of the binary image opposite to the chest-wall side; determining a first valley point and a second valley point of the projection curve based on a shape of the projection curve; determining a peak point of the projection curve between the first valley point and the second valley point of the projection curve; determining a first valley location, a second valley location, and a peak location in the breast image based on the peak point, the first valley point, and the second valley point of the projection curve, wherein the first valley location, the second valley location, and the peak location in the breast image correspond to the first valley point, the second valley point, and the peak valley point in the curve projection, respectively; and determining the breast region in the breast image by connecting the first valley location, the second valley location, and the peak location, wherein the determined breast region is configured to determine automatic exposure control (AEC) parameters for scanning a breast using the imaging device. 2. The system of claim 1 , wherein for each point on the projection curve, a first coordinate on a first coordinate axis of the point represents a position of a row of pixels in the binary image, and a second coordinate on a second coordinate axis of the point represents a sum of pixel values of the corresponding row of pixels. 3. The system of claim 2 , wherein the determining the first valley point and the second valley point of the projection curve includes: obtaining a preset distance between the first coordinates of the first valley point and the second valley point, and preset positions of the first valley point and the second valley point in the projection curve, the preset distance and the preset positions being set based on breast characteristics; determining whether there is any valley point or point whose second coordinate is 0 in the projection curve; and determining the first valley point and the second valley point in the projection curve based on the determination result, the preset distance, and the preset positions. 4. The system of claim 2 , wherein the determining the first valley location, the second valley location, and the peak location in the breast image based on the peak point, the first valley point, and the second valley point of the projection curve includes: determining whether the second coordinate of the first valley point or the second valley point is greater than the second coordinate of the peak point; in response to determining that the second coordinate of the first valley point or the second valley point is greater than the second coordinate of the peak point, rotating the binary image so that a straight line connecting points in the rotated binary image corresponding to the first valley point and the second valley point is parallel to or coincides with the second coordinate axis; determining a new projection curve based on the rotated binary image; and updating the first valley point, the second valley point, and the peak point based on the new projection curve; and determining the first valley location, the second valley location, and the peak location in the breast image based on the updated first valley point, the updated second valley point, and the updated peak point. 5. The system of claim 2 , wherein the determining the first valley location, the second valley location, and the peak location in the breast image based on the peak point, the first valley point, and the second valley point of the projection curve includes: determining whether there is no valley point in the projection curve and there is at least one point whose second coordinate is 0 on only one side of the peak point of the projection curve; in response to determining that there is no valley point in the projection curve and there is at least one point whose second coordinate is 0 on only one side of the peak point of the projection curve, rotating the binary image so that a straight line connecting points in the rotated binary image corresponding to the first valley point and the second valley point is parallel to or coincides with the second coordinate axis; determining a new projection curve based on the rotated binary image; updating the first valley point, the second valley point, and the peak point based on the new projection curve; and determining the first valley location, the second valley location, and the peak location in the breast image based on the updated first valley point, the updated second valley point, and the updated peak point. 6. The system of claim 1 , wherein the determining the breast region in the breast image by connecting the first valley location, the second valley location, and the peak location includes: determining a first straight line from the peak location, the first straight line being perpendicular to a second straight line connecting the first valley location and the second valley location; determining an intersection of the first straight line and a chest-wall side of the breast image; and determining the breast region in the breast image by connecting the first valley location, the second valley location, and intersection. 7. A method for determining a breast region in a breast image implemented on a machine having at least one storage device and at least one processor, comprising: obtaining the breast image of an object that is acquired by an imaging device; dividing the breast image into a body region and a background region, the body region including a breast; generating a binary image by designating pixel values of pixels in the body region as 1 and designating pixel values of pixels in the background region as 0; determining a chest-wall side of the binary image; and obtaining a projection curve by determining a plurality of sums each of which is a sum of pixel values of a row of pixels in the binary image, the row of pixels being arranged along a direction between the chest-wall side and a side of the binary image opposite to the chest-wall side; determining a first valley point and a second valley point of the projection curve based on a shape of the projection curve; determining a peak point of the projection curve between the first valley point and the second valley point of the projection curve; determining a first valley location, a second valley location, and a peak location in the breast image based on the peak point, the first valley point, and the second valley point of the projection curve, wherein the first valley location, the second valley location, and the peak location in the breast image correspond to the first valley point, the second valley point, and the peak valley point in the curve projection, respectively; and determining the breast region in the breast image by connecti