Automated production station and related methods

The invention claimed is: 1. A method of mass producing different products in an automated production station having a plurality of part-processing devices, comprising: a) identifying a first workpiece received in the production station; b) selecting control parameters associated with the first workpiece identified in (a); c) electronically synchronizing the part-processing devices based on the control parameters selected in (b) to perform coordinated operations on the first workpiece for producing a first product, the operations including mating the first workpiece with a respective second workpiece received in the production station for assembly of the first product; d) identifying a third workpiece received in the production station, the third workpiece shaped differently from the first workpiece; e) selecting control parameters associated with the third workpiece identified in (d); f) electronically synchronizing the part-processing devices based on the control parameters selected in (e) to perform coordinated operations on the third workpiece for producing a second product, the operations including mating the third workpiece with another respective second workpiece received in the production station for assembly of the second product, each second workpiece having a common shape different from that of the first and third workpieces; and g) repeating (a) to (c) to produce a plurality of the first products and repeating (d) to (f) to produce a plurality of the second products interchangeably with the first products in a continuous mass production process. 2. The method of claim 1 , wherein the first workpiece and the third workpiece are fed into the production station on a common input track, and received in the production station by a common part-processing device of the plurality of part-processing devices. 3. The method of claim 1 , wherein at least one of the part-processing devices performs operations on the first workpiece and on the third workpiece using common tooling. 4. The method of claim 1 , wherein at least one of the part-processing devices automatically switches between first tooling and second tooling for performing operations on the first workpiece and the third workpiece, respectively. 5. The method of claim 1 , wherein a first part-processing device of the plurality of part-processing devices comprises an indexing device and a second part-processing device of the plurality of part-processing devices comprises a workpiece transfer device, and the operations in (c) and (f) include receiving and indexing the first and third workpieces, respectively, using the indexing device, and transferring the first and third workpieces, respectively, from the indexing device to a third part-processing device of the plurality of part-processing devices for further processing using the workpiece transfer device. 6. The method of claim 5 , wherein the indexing device comprises an indexing table rotatable about a table axis, a plurality of first platforms mounted to the table and spaced apart from each other about the axis, and a plurality of second platforms mounted to the table and spaced apart from each other and the first platforms about the axis, and wherein the first and second workpieces are received on corresponding first and second platforms, respectively, for indexing. 7. The method of claim 6 , wherein each first platform has a first mount portion holding the first workpiece in a selected orientation and each second platform has a second mount portion holding the second workpiece in a selected orientation. 8. The method of claim 6 , wherein the indexing table has a plurality of retaining features to which the first and second platforms are mounted, each first platform and second platform removably mountable in any one of the retaining features. 9. The method of claim 8 , wherein the retaining features comprise a plurality of openings in a periphery of the table, and each platform has a locating portion spaced apart from the mount portion for sliding radially into and out from any one of the openings. 10. The method of claim 1 , wherein the identifying in (a) and (d) is based on identification data generated by a scanner of the production station. 11. The method of claim 10 , wherein the identification data comprises image data generated by an optical scanner of the production station. 12. The method of claim 10 , wherein the control parameters are selected in (b) and (e) based on the identification data. 13. The method of claim 1 , wherein the identifying in (a) and (d) comprises determining whether to process the first workpiece for producing the first product in the production station and determining whether to process the third workpiece for producing the second product in the production station, respectively. 14. The method of claim 13 , wherein determining whether to process the first workpiece and the third workpiece comprises determining whether the first and third workpieces correspond to components for producing the first and second products, respectively. 15. The method of claim 13 , wherein determining whether to process the first and third workpieces comprises determining whether the production station has capacity for producing the first and second products, respectively. 16. The method of claim 1 , wherein the production station comprises a transport track and a plurality of carriages mounted to the track, and wherein the first and third workpieces are transferred to one or more carriages for transport along the track to one or more downstream part-processing devices. 17. The method of claim 16 , wherein each carriage carries one or more first workpieces and one or more third workpieces. 18. The method of claim 17 , further comprising moving the carriage along the track to a downstream part-processing device while carrying the one or more first workpieces and the one or more third workpieces, and selecting either the one or more first workpieces or the one or more third workpieces for processing by the downstream part-processing device. 19. An automated production station for mass producing different products, comprising: a plurality of part-processing devices; and a processor configured to: a) identify a first workpiece received in the production station; b) select control parameters associated with the first workpiece identified in (a); c) electronically synchronize the part-processing devices based on the control parameters selected in (b) to perform coordinated operations on the first workpiece for producing a first product, the operations including mating the first workpiece with a respective second workpiece received in the production station for assembly of the first product; d) identify a third workpiece received in the production station, the third workpiece shaped differently from the first workpiece; e) select control parameters associated with the third workpiece identified in (d); f) electronically synchronize the part-processing devices based on the control parameters selected in (e) to perform coordinated operations on the third workpiece for producing a second product, the operations including mating the third workpiece with another respective second workpiece received in the production station for assembly of the second product, each second workpiece having a common shape different from that of the first and third workpieces; and g) repeat (a) to (c) to produce a plurality of the first products and repeat (d) to (f) to produce a plurality of the second products interchangeably with the first