Method and printing system for depositing printing fluid on a sheet of corrugated media

What is claimed is: 1. A method of depositing printing fluid on a sheet of corrugated media with an array of nozzles, the method comprising: determining a height displacement of the sheet at multiple locations on the sheet with respect to a reference height; determining a gradient of the height displacements at multiple locations along the sheet: adjusting control parameters for each of multiple nozzles, including at least one of: increasing an angle of tilt of the nozzle at a location of a gradient that is more steep than another gradient; increasing a spray angle of the nozzle at a location of a height displacement that is smaller than another height displacement; increasing a spray angle of the nozzle at a location of a gradient that is less steep than another gradient; increasing a spray flow intensity of the nozzle at a location of a height displacement that is smaller than another height displacement; and increasing a spray flow intensity of the nozzle at a location of a gradient that is less steep than another gradient; and depositing printing fluid from the plurality of nozzles onto the sheet of corrugated media according to the adjusted control parameters. 2. The method of claim 1 , wherein determining height displacements comprises: measuring height displacements at multiple locations on the sheet; and estimating a height displacement of at least one additional location on the sheet based on the measured height displacements. 3. The method of claim 2 , wherein estimating the height displacement of an additional location on the sheet is based on at least one of: an extrapolation of the measured height displacements; and an interpolation of the measured height displacements. 4. The method of claim 1 , wherein determining height displacements and gradients comprises: capturing images of the sheet with multiple cameras; and generating a three-dimensional model of the sheet based on the captured images. 5. The method of claim 1 , wherein the printing fluid is at least one of: an ink; a gloss; and a varnish. 6. A printing system comprising: an array of nozzles arranged to deposit printing fluid on a sheet of corrugated media; multiple cameras to capture images of the sheet; a print controller configured to: generate a three-dimensional model of the sheet based on images from the cameras; determine from the model a height displacement of the sheet at multiple locations on the sheet with respect to a reference height; determine from the model a gradient of the height displacements at multiple locations along the sheet; adjust control parameters for the array of nozzles based on one or both of the height displacements and the gradients; and control the array of nozzles to deposit printing fluid onto the sheet of corrugated media based on the adjusted control parameters. 7. The printing system of claim 6 , wherein the print controller is configured to adjust control parameters for each of multiple nozzles, including at least one of: increasing an angle of tilt of the nozzle at a location of a gradient that is more steep than another gradient; increasing a spray angle of the nozzle at a location of a height displacement that is smaller than another height displacement; increasing a spray angle of the nozzle at a location of a gradient that is less steep than another gradient; increasing a spray flow intensity of the nozzle at a location of a height displacement that is smaller than another height displacement; and increasing a spray flow intensity of the nozzle at a location of a gradient that is less steep than another gradient. 8. A non-transitory computer-readable storage medium storing instructions that, when executed by one or more processors, cause the one or more processors, in a printing system, to: receive sensor data from a sensor device connected to, or integral with, the printing system; use the sensor data to determine a height displacement of a sheet of corrugated media at multiple locations on the sheet with respect to a reference height and to determine a gradient of the height displacements at multiple locations along the sheet; generate control data for multiple nozzles based on the determined height displacements and gradients; adjust control parameters for the nozzles based on the control data, including at least one of: increasing an angle of tilt of the nozzle at a location of a gradient that is more steep than another gradient; increasing a spray angle of the nozzle at a location of a height displacement that is smaller than another height displacement; increasing a spray angle of the nozzle at a location of a gradient that is less steep than another gradient; increasing a spray flow intensity of the nozzle at a location of a height displacement that is smaller than another height displacement; and increasing a spray flow intensity of the nozzle at a location of a gradient that is less steep than another gradient; and deposit printing fluid from the nozzles onto the sheet of corrugated media according to the adjusted control parameters. 9. The medium of claim 8 , wherein the sensor data includes images from multiple cameras and the instructions to use the sensor data include instructions to use the images to generate a three-dimensional model of the sheet to determine the height displacements and the gradients.