Gravity-assisted wall registration system

What is claimed is: 1. A gravity-assisted wall registration system comprising: a transport member including a surface on which an associated sheet is translated in a process direction, the surface defining an angle with respect to horizontal in a cross-process direction of at least 1 degree; a registration wall adjacent a lower end of the surface which defines a registration edge for registering the sheet; a drive mechanism; at least one rotation mechanism, driven by the drive mechanism, for translating the sheet in the process direction, each rotation mechanism including at least one drive member, positioned above the sheet, with an axis of rotation parallel to the surface in the cross-process direction, each drive member including a sliding mechanism, at a periphery of the drive member, enabling the sheet to slide, under gravity, on the surface, toward the registration wall into an alignment position, in contact with the registration wall; and a registration assist mechanism which applies a force to the sheet to assist the sheet in sliding towards the wall. 2. A gravity-assisted wall registration system comprising: a transport member including a surface on which an associated sheet is translated in a process direction, the surface defining an angle with respect to horizontal in a cross-process direction of at least 1 degree; a registration wall adjacent a lower end of the surface which defines a registration edge for registering the sheet; a drive mechanism; and at least one rotation mechanism, driven by the drive mechanism, for translating the sheet in the process direction, each rotation mechanism including at least one drive member with an axis of rotation parallel to the surface in the cross-process direction, each drive member including a sliding mechanism, at a periphery of the drive member, enabling the sheet to slide, under gravity, on the surface, toward the registration wall into an alignment position, in contact with the registration wall, wherein the sliding members include flexible members which extend radially outward from the at least one drive member, and wherein each flexible member has a width of up to 2 mm, in the cross-process direction and/or wherein the flexible members are defined by annular portions of first disks having a first radius, which are spaced, in the cross-process direction, by second disks of a smaller radius than the first disks. 3. The system of claim 2 , wherein each drive member includes at least three flexible members. 4. The system of claim 1 , wherein the sliding members include a plurality of rollers, carried by a core of the drive members, the rollers having an axis of rotation which is perpendicular to the axis of rotation of the drive member. 5. The system of claim 4 , wherein each drive member includes a plurality of core members with a collinear axis of rotation, each of the core members carrying a plurality of the rollers. 6. The system of claim 1 , wherein the angle is at least 5 degrees. 7. The system of claim 1 , wherein the angle is no more than 45 degrees. 8. The system of claim 1 , wherein the at least one rotation mechanism includes at least two rotation mechanisms which are spaced in the cross-process direction. 9. The system of claim 8 , wherein the at least two rotation mechanisms which are spaced in the cross-process direction are driven by the same drive mechanism. 10. The system of claim 1 , wherein the at least one rotation mechanism includes at least two rotation mechanisms which are spaced in the process direction. 11. The system of claim 10 , wherein the at least two rotation mechanisms which are spaced in the process direction are driven by the same drive mechanism. 12. The system of claim 1 , wherein the at least one rotation mechanism includes at least six rotation mechanisms which are spaced in at least one of the process direction and the cross-process direction. 13. The system of claim 2 , further comprising a registration assist mechanism which applies a force to the sheet to assist the sheet in sliding towards the wall. 14. A printing system comprising a sheet transport system including the gravity-assisted registration system of claim 1 . 15. A printing system comprising a sheet transport system, the sheet transport system comprising: a first registration system, the first registration system being a gravity-assisted wall registration system, comprising: a transport member including a surface on which an associated sheet is translated in a process direction, the surface defining an angle with respect to horizontal in a cross-process direction of at least 1 degree; a registration wall adjacent a lower end of the surface which defines a registration edge for registering the sheet; a drive mechanism; and at least one rotation mechanism, driven by the drive mechanism, for translating the sheet in the process direction, each rotation mechanism including at least one drive member with an axis of rotation parallel to the surface in the cross-process direction, each drive member including a sliding mechanism, at a periphery of the drive member, enabling the sheet to slide, under gravity, on the surface, toward the registration wall into an alignment position, in contact with the registration wall; and a second registration system, which receives sheets registered by the gravity-assisted wall registration system. 16. The printing system of claim 15 , further comprising a sensor, downstream of the gravity-assisted registration system, for detecting at least one of a lateral shift and a skew of sheets being transported from the gravity-assisted registration system to the second registration system. 17. A printing system comprising: a marking device which applies a marking material to associated sheets of print media; a sheet transport system which transports the sheets in a process direction to the marking device, the sheet transport system including a gravity-assisted registration system comprising: a transport member including a surface on which the sheets are translated in the process direction, the surface defining an angle with respect to horizontal in a cross-process direction of at least 1 degree; a registration wall adjacent a lower end of the surface which defines a registration edge for registering the sheets; a drive mechanism; and at least one rotation mechanism, each rotation mechanism including: at least one first rotatable member, driven by the drive mechanism, the first rotatable member being positioned above the sheet, with an axis of rotation parallel to the surface in the cross-process direction, which translates the sheets in the process direction, each drive member including a sliding mechanism, at a periphery of the drive member, enabling each of the sheets to slide, under gravity, on the surface, toward the registration wall into an alignment position, in contact with the registration wall, and at least one second rotatable member, positioned below the sheet to provide a nip with one of the at least one first rotatable members, and having an axis of rotation parallel to the surface in the cross-process direction. 18. A method of printing comprising: transporting a sheet of print media in a process direction on a print media path; registering the sheet of print media with a gravity-assisted registration system to reduce at least one of skew and lateral shift; and applying a marking material to the sheet with a marking device positioned on the paper path, upstream or downstream of the gravity-assisted registration system; wherein the gravi