Method and apparatus for controlling ink curing

The invention claimed is: 1. A printing device comprising: a printing module comprising: a printhead interface for receiving a printhead to print a swath of a printed image; and a print controller to generate image data and print control data for use in printing the swath by the printhead; and a curing module comprising a heating component and a processor to receive the image data and print control data and to control, for the swath before a printed region of a print medium corresponding to the swath arrives at the heating component, an operating temperature of the heating component based on a data value within the image data and a printing parameter within the print control data, the controlling of the operating temperature of the heating component comprising setting the operating temperature to a temperature higher than a temperature used to dry ink deposited by the printhead for the swath, the heating component when operated according to the controlled operating temperature to cure the ink, the curing comprising coalescing particles of the ink. 2. A printing device according to claim 1 , wherein the print controller is to generate the image data and print control data comprising ink densities for respective portions of the swath, and the processor of the curing module is to control the operating temperature of the heating component based on the ink densities. 3. A printing device according to claim 1 , wherein the curing module comprises a plurality of heating components, and the processor of the curing module is to: set a first temperature of a first heating component of the plurality of heating components for a first region of the swath, and set a second, different temperature of a second heating component of the plurality of heating components for a second region of the swath. 4. A printing device according to claim 1 , wherein the printing parameter within the print control data is selected from among: a media transport speed for a media transport of the printing device; a delay parameter that indicates whether any time delays have occurred during the printing; and an airflow parameter that indicates an airflow characteristic within the printing device, wherein the processor of the curing module is to control the operating temperature of the heating component based on one or more of the media transport speed, the delay parameter, and the airflow parameter. 5. A printing device according to claim 1 , wherein, for the swath, the printing parameter has a value that represents a property of the printing device at the time the print controller instructs the printhead to print the swath. 6. A printing device according to claim 1 , wherein the printing module is to deposit the ink comprising an ink vehicle, a pigment, and polymer particles, and wherein the curing comprises coalescing the polymer particles. 7. A printing device according to claim 1 , wherein the printing module comprises a heating component and the printing module is to control an operating parameter of the heating component in the printing module based on the image data and print control data. 8. A printing device according to claim 1 , wherein one of the printing module and the curing module is to perform drying of the ink separate from the curing. 9. A printing device according to claim 1 , wherein the controlling comprises retrieving, from a look-up data structure that maps different ink densities to respective different values of the operating temperature of the heating component, a value of the operating temperature that corresponds to a given ink density included in the image data and print control data. 10. A printing device according to claim 9 , wherein the print controller is to calculate the given ink density by counting a number of times that a value corresponding to printing of a pattern occurs. 11. The printing device of claim 1 , wherein the printhead is to print a plurality of regions of the swath across a width of the print medium, the curing module comprising a plurality of heating components that are arranged across the width of the print medium, the processor to: determine different data values within the image data for respective regions of the plurality of regions, and set different operating temperatures of the plurality of heating components to cure the ink in the plurality of regions at the different operating temperatures. 12. A method of controlling an ink curing process for a printing device, comprising: receiving image and print control data including an ink density for a swath corresponding to an image to be printed on a print medium; communicating, before a printed region of the print medium corresponding to the swath arrives at a heating component in a curing module, the image and print control data including the ink density to a controller associated with the curing module; and controlling, by the controller, an operating temperature of the heating component in the curing module to cure ink by coalescing particles of the ink deposited on the print medium, based on the image and print control data including the ink density, the controlling of the operating temperature of the heating component comprising setting the operating temperature to a curing temperature higher than a temperature used to dry the ink deposited on the print medium, and the controlling comprising retrieving, from a look-up data structure that maps different ink densities to respective different values of the operating temperature of the heating component, a value of the operating temperature that corresponds to the ink density included in the image and print control data. 13. A method according to claim 12 , comprising: printing the swath on the print medium; setting a temperature of the heating component according to the operating temperature; transporting the print medium along a media transport; and curing ink in the printed swath using the set temperature of the heating component. 14. A method according to claim 12 , wherein the image and print control data includes a plurality of ink densities for a plurality of respective portions of the swath, the portions extending along a width of the swath; and controlling operating temperatures of a plurality of heating components in the curing module based on the plurality of ink densities for the plurality of respective portions of the swath. 15. A method according to claim 12 , wherein the printing device is an inkjet printer to print the ink comprising an ink vehicle, a pigment, and polymer particles, and the curing comprises coalescing the polymer particles. 16. A method according to claim 12 , further comprising: calculating the ink density included in the image and print control data by counting a number of times that a value corresponding to printing of a pattern occurs. 17. A method according to claim 12 , wherein controlling the operating temperature of the heating component in the curing module is further based on an airflow parameter that indicates a characteristic of an airflow in the printing device. 18. The method of claim 12 , further comprising controlling, by the controller, an airflow parameter relating to airflow used by the curing module to cure the ink, the controlling of the airflow parameter comprising retrieving, from the look-up data structure, a value of the airflow parameter mapped to the ink density included in the image and print control data by the look-up data structure. 19. The method of claim 12 , wherein the image and print control data further includes a first inpu