Seed sorting

What is claimed is: 1. A seed sorting system for sorting seeds, the system comprising: a seed transfer station configured to move seeds through the system, wherein the seed transfer station comprises a conveyor including a belt having a flat upper surface and configured to transport the seeds in a substantially linear horizontal direction at a speed of at least about 40 in/sec, and wherein the belt is transparent or semi-transparent; a loading assembly comprising a loading station positioned at a longitudinal end of the belt of the conveyor and an accelerator disposed at an outlet of the loading station, the loading station configured to deliver the seeds to the belt of the conveyor and spread the seeds across a width of the belt of the conveyor, and the accelerator configured to compress the seeds against the flat upper surface of the belt of the conveyor to thereby match a speed of the seeds to the speed of the belt of the conveyor as the seeds leave the outlet of the loading station; an imaging assembly comprising a first camera mounted above the seed transfer station and configured to acquire images of the seeds as the seeds move through the system and a second camera mounted below the seed transfer station and configured to acquire images of the seeds as the seeds move through the system; a sorting assembly configured to sort the seeds, from the belt of the conveyor, into separate bins based on the acquired images of the seeds; an air float system configured to support the flat upper surface of the belt of the conveyor between the loading station and the sorting assembly at a same height regardless of a weight of seeds on the belt, the air float system including air bars configured to support the flat upper surface of the belt of the conveyor with air at said same height without physically touching the belt; and a controller configured to determine, using a seed analysis algorithm, at least one of circularity, solidity, and smoothness data of the seeds from the acquired images of the seeds. 2. The seed sorting system of claim 1 , wherein the controller is configured to further determine length and width dimensions, and volume of the seeds from the acquired images, and to control the sorting assembly to sort the seeds based on the determined length and width dimensions, volume, and the determined circularity, solidity, and smoothness data of the seeds. 3. The seed sorting system of claim 2 , wherein the controller incorporates machine learning methods to analyze the acquired images and to classify the images into different categories. 4. The seed sorting system of claim 1 , wherein each camera has a focal axis extending in a substantially vertical direction. 5. The seed sorting system of claim 1 , wherein the first and second cameras are 2D cameras. 6. The seed sorting system of claim 1 , wherein the imaging assembly further comprises a third camera mounted above the seed transfer station and configured to acquire images of the seeds as the seeds move through the system and a fourth camera mounted below the seed transfer station and configured to acquire images of the seeds as the seeds move through the system. 7. The seed sorting system of claim 1 , wherein the sorting assembly comprises at least one valve bank and a plurality of sorting bins, the at least one valve bank being operable by the controller to sort the seeds into the sorting bins as the seeds leave the seed transfer station, and wherein the at least one valve bank is mounted over a first sorting bin and is directed downward in a substantially vertical orientation, the seed transfer station being configured to direct seeds into the second sorting bin, the at least one valve bank being operable to direct seeds away from the second sorting bin and into the first sorting bin. 8. The seed sorting system of claim 1 , wherein the accelerator includes a roller in contact with the belt of the conveyor to thereby match a rotational speed of the roller to the speed of the belt of the conveyor, the roller configured to compress the seeds against the flat upper surface of the belt of the conveyor and accelerate the seeds as they are delivered to the belt of the conveyor. 9. The seed sorting system of claim 1 , further comprising a light assembly comprising a pair of white lights disposed on one side of the seed transfer station, and a blue light disposed on an opposite side of the seed transfer station. 10. The seed sorting system of claim 1 , wherein the second camera is disposed to acquire images of a portion of the seed path located upstream from a portion of a seed path the first camera is disposed to acquire. 11. The seed sorting system of claim 1 , further comprising ionizers to dissipate static charges on the system. 12. The seed sorting system of claim 1 , further comprising a vibratory feeder disposed between the loading station and the accelerator for singulating the seeds as they are dispensed from the outlet of the loading station. 13. A method of sorting seeds, the method comprising: delivering seeds from a loading station of a seed sorting system to a longitudinal end portion of a conveyor of a seed transfer station of the system such that the seeds are spread across a width of the conveyor; accelerating the seeds as they leave an outlet of the loading station and are delivered to the conveyor by compressing the seeds against the conveyor, to thereby substantially match a speed of the delivered seeds to a speed of the conveyor; moving the seeds through the seed sorting system using the conveyor of the seed transfer station at a speed of at least about 40 in/sec, the conveyor including a transparent or semi-transparent belt configured to transport the seeds in a substantially linear horizontal direction; acquiring, using a first camera mounted above the seed transfer station, images of the seeds as the seeds move through the system via the seed transfer station; acquiring, using a second camera mounted below the seed transfer station, images of the seeds as the seeds move through the system via the seed transfer station; analyzing the images of the seeds to determine, for each of the seeds, a circularity of the seed, a solidity of the seed, and a smoothness of the seed; categorizing, by a controller using machine learning and one or more training sets comprising different categories of seeds, each of the seeds into one of the different categories of the one or more training sets based on the determined circularity of the seed, solidity of the seed, and/or smoothness of the seed; and sorting, using a sorting assembly, each of the seeds based on the category of the seed. 14. The method of claim 13 , wherein analyzing the images further comprises determining, using the controller, length, width and thickness dimensions, and volume of the seeds from the acquired images. 15. The method of claim 14 , wherein the different categories of the one or more training sets include a healthy seed category and a defective seed category. 16. The method of claim 13 , wherein sorting the seeds comprises operating at least one valve bank to sort the seeds into at least two separate sorting bins, a first sorting bin representing a healthy seed category and a second sorting bin representing a defective seed category. 17. The method of claim 13 , wherein accelerating the seeds includes matching a speed of a roller, in contact with the belt of the conveyor, to a speed of the belt of the conveyor; and wherein compressing the seeds against the conveyor includes compressing the seeds, by the roller, against the belt of the conveyor an