Singulation conveyor system with rollers of different roller cross-sectional profiles

What is claimed is: 1. A singulation conveyor comprising: a first roller of a first roller cross-sectional profile that comprises a protruded portion defined around a circumference of the first roller; and a second roller of a second roller cross-sectional profile different from the first roller cross-sectional profile, wherein the first roller and the second roller are configured to be rotated based on a pre-defined rotational pattern to cause singulation of a shingled item. 2. The singulation conveyor of claim 1 , wherein the first roller is configured to be rotated based on a first rotation pattern and the second roller is configured to be rotated based on a second rotation pattern and wherein the first rotation pattern and the second rotation pattern correspond to at least one of: a rotational speed and a time of rotation, of the first roller and the second roller respectively. 3. The singulation conveyor of claim 1 , comprising a conveyor surface defined by a plurality of rollers mounted on the conveyor frame, wherein the plurality of rollers comprises the first roller, the second roller, and a third roller of a third roller cross-sectional profile different from the first roller cross-sectional profile and the second roller cross-sectional profile. 4. The singulation conveyor of claim 3 , wherein the first roller, the second roller, and the third roller is configured to be selectively rotated based on a degree of shingling of the shingled item on the singulation conveyor. 5. The singulation conveyor of claim 3 , wherein the third roller cross sectional profile is defined by a third surface having a higher coefficient of friction than at least one of: a first surface of the first roller and a second surface of the second roller. 6. The singulation conveyor of claim 1 , wherein the second roller is configured to rotated for a second period of time different than a first period of time of rotation of the first roller, to de-shingle the shingled item on the singulation conveyor. 7. The singulation conveyor of claim 2 , wherein the second roller is configured to rotate in a second direction based on the second rotational pattern and the first roller is configured to rotate in a first direction opposite than the second direction, to de-shingle the shingled item on the singulation conveyor. 8. A singulation system comprising: a singulation conveyor comprising a first roller of a first roller cross-sectional profile and a second roller of a second roller cross-sectional profile different from the first roller cross-sectional profile; a control unit communicatively coupled to the singulation conveyor, the control unit configured to: identify a first item positioned on the singulation conveyor wherein the first item overlaps a second item; and cause to rotate at least one of, the first roller and the second roller, based on a pre-defined rotation pattern to singulate the first item from the second item. 9. The singulation system of claim 8 , wherein the pre-defined rotational pattern is related to at least one of: a rotational speed of rotation and a time of rotation, based on which the first roller and the second roller is configured to be rotated. 10. The singulation system of claim 8 , further comprising: a sensing unit communicatively coupled to the control unit, the sensing unit configured to capture an image of a zone of a singulation conveyor, wherein the control unit is configured to: process the captured image to identify a first feature of the first item and a second feature of the second item on the singulation conveyor; and identify, based on the processing, an overlapping of the first item with the second item on the singulation conveyor. 11. The singulation system of claim 8 , wherein the singulation conveyor comprises a conveyor surface defined by a plurality of rollers mounted on the conveyor frame, wherein the plurality of rollers comprise: the first roller, the second roller, and a third roller of a third roller cross-sectional profile different from the first roller cross-sectional profile and the second roller cross-sectional profile and wherein the first roller cross-sectional profile comprises a protruded portion defined around a circumference of the first roller. 12. The singulation system of claim 11 , wherein the first roller, the second roller, and the third roller is configured to be selectively caused to be rotated, by the control unit, based on a degree of overlapping of the first item with the second item on the singulation conveyor. 13. The singulation system of claim 11 , wherein the plurality of rollers comprises: the first roller, the second roller, the third roller, and a fourth roller, wherein a surface of the fourth roller is defined by a material of a higher coefficient of friction than that of a surface of at least one of, the first roller, the second roller, and the third roller. 14. The singulation system of claim 8 , wherein the control unit is configured to cause: the first roller to rotate at a first rotational speed; and the second roller to rotate at a second rotational speed different than the first rotational speed to initiate separation of the first item and the second item. 15. The singulation system of claim 8 , wherein the control unit is configured to cause: the first roller to rotate for a first period of time; and the second roller to rotate for a second period of time to initiate separation of the first item and the second item. 16. A method of de-shingling an item comprising: identifying, an overlapping of a first item and a second item on a conveyor; and selectively rotating a plurality of rollers of the conveyor based on a pre-defined rotational pattern associated with at least one of: a speed or a time of rotation of the plurality of rollers, wherein the plurality of rollers comprises at least, a first roller of a first roller cross-sectional profile and a second roller of a second roller cross-sectional profile different than the first rotational profile. 17. The method of claim 16 , further comprising: rotating a first set of rollers based on a first rotational pattern and a second set of rollers based on a second rotational pattern which is different than the first rotational pattern. 18. The method of claim 16 , wherein the second cross-sectional profile of the second roller comprises at least one of: a cross-sectional surface defined by a material of a higher friction co-efficient that of a cross-sectional surface of the first roller; and a protruded portion defined around a circumference of the first roller. 19. The method of claim 16 , comprising: rotating the first roller at a first rotational speed; and rotating the second roller at a second rotational speed, to separate the first item and second item, so that the first item and second item no longer overlaps with each other. 20. The method of claim 16 , comprising: rotating the first roller for a first period of time; and rotating the second roller for a second period of time different than the first period of time, to create a defined gap between the first item and the second item.