Process planning of meniscus shapes for fabricating smooth surfaces in mask image projection based additive manufacturing

The invention claimed is: 1. A system for producing a three dimensional object comprising: a tank that holds a liquid that solidifies upon exposure to light; a controllable stage that controllably moves within the tank; a controllable light source that emits a light image in a controllable pattern; and a controller that controls the controllable stage and the controllable light source based on data indicative of the shape of at least a portion of the three dimensional object so as to cause a series of cascaded layers in the liquid to be formed and solidified to match the appearance of at least a corresponding portion of the three dimensional object and, as part of this, has a configuration that computes one or more of the following so as to cause the at least portion of the finished object to match the at least a corresponding portion of the three dimensional object: a number of cascaded layers that should simultaneously have a meniscus of liquid formed and solidified on them; or an adjustment to the entire layer thickness of at least one of the cascaded layers. 2. The system of claim 1 wherein the controller computes the number of sequentially solidified cascaded layers in which the meniscus is formed to cause the outer surface that remains after solidification of the meniscus to conform to the section of the outer surface of the three dimensional object. 3. The system of claim 1 wherein the controller computes the width of each of the sequentially solidified cascaded layers in which the meniscus is formed to cause the outer surface that remains after solidification of the meniscus to conform to the section of the outer surface of the three dimensional object. 4. The system of claim 3 wherein the controller computes the number of the sequentially solidified cascaded layers in which the meniscus is formed to cause the outer surface that remains after solidification of the meniscus to conform to the section of the outer surface of the three dimensional object. 5. The system of claim 4 wherein the controller computes the number and width of the sequentially solidified cascaded layers using a greedy algorithm. 6. The system of claim 4 wherein the controller computes the number and the width of the sequentially solidified cascaded layers using an algorithm derived from one or more simulations of the process recited in claim 4 . 7. The system of claim 1 wherein the controller includes a calibration subsystem that allows a user to calibrate a relationship between locations of light above a surface of the liquid from the light source with a command signal to the light source that is needed to effectuate illumination at each location. 8. The system of claim 1 wherein the controller includes information indicative of the shape of the meniscus. 9. The system of claim 8 wherein the controller includes information indicative of the shape of the meniscus for each of multiple types of liquid. 10. The system of claim 1 wherein the controller causes multiple, cascaded layers of meniscus to sequentially form and solidify. 11. A non-transitory, tangible, computer-readable storage media containing a program of instructions that cause a controller running the program of instructions to a control a controllable stage that controllably moves within a tank containing a liquid that solidifies upon exposure to light and a controllable light source that emits a light image in a controllable pattern based on data indicative of the shape of at least a portion of a three dimensional object to cause a series of cascaded layers in the liquid to be formed and solidified to match the appearance of at least a corresponding portion of the three dimensional object and, as part of this, to compute one or more of the following so as to cause the at least portion of the finished object to match the at least corresponding portion of the three dimensional object: a number of cascaded layers that should simultaneously have a meniscus of liquid formed and solidified on them; or an adjustment to the entire layer thickness of at least one of the cascaded layers. 12. The storage media of claim 11 wherein the program of instructions cause the controller to compute the number of sequentially solidified cascaded layers in which the meniscus is formed to cause the outer surface that remains after solidification of the meniscus to conform to the section of the outer surface of the three dimensional object. 13. The storage media of claim 11 wherein the program of instructions cause the controller to compute the width of each of the sequentially solidified cascaded layers in which the meniscus is formed to cause the outer surface that remains after solidification of the meniscus to conform to the section of the outer surface of the three dimensional object. 14. The storage media of claim 13 wherein the program of instructions cause the controller to compute the number of the sequentially solidified cascaded layers in which the meniscus is formed to cause the outer surface that remains after solidification of the meniscus to conform to the section of the outer surface of the three dimensional object. 15. The storage media of claim 14 wherein the program of instructions cause the controller to compute the number and width of the sequentially solidified cascaded layers using a greedy algorithm. 16. The storage media of claim 14 wherein the program of instructions cause the controller to compute the number and the width of the sequentially solidified cascaded layers using an algorithm derived from one or more simulations of the process recited in claim 14 . 17. The storage media of claim 11 wherein the program of instructions cause the controller to allow a user to calibrate a relationship between locations of light above a surface of the liquid from the light source with a command signal to the light source that is needed to effectuate illumination at each location. 18. The storage media of claim 11 wherein the program of instructions cause the controller to include information indicative of the shape of the meniscus. 19. The storage media of claim 18 wherein the program of instructions cause the controller to include information indicative of the shape of the meniscus for each of multiple types of liquid. 20. The storage media of claim 11 wherein the program of instructions cause the controller to cause multiple, cascaded layers of meniscus to sequentially form and solidify. 21. A process of producing a three dimensional object using the system of claim 1 in which the viscosity of the liquid is adjusted to cause the meniscus to have a shape.