Multi-sensor quality inference and control for additive manufacturing processes

What is claimed is: 1. A manufacturing method comprising: depositing a layer of material on a build plane; melting a build region of the layer of material using a heat source that scans across the build region, wherein the heat source generates a weld pool at the layer of material; monitoring an area of the build region with a first sensor; monitoring the weld pool using a second sensor having a moving field of view that is co-linear with the heat source; and calibrating, based on a phase change material property of the material, the second sensor with data acquired from the first sensor. 2. The manufacturing method of claim 1 wherein the calibrating is performed when the weld pool is within a field of view of the first sensor. 3. The manufacturing method of claim 1 wherein the layer of material comprises a metal. 4. The manufacturing method of claim 1 wherein the heat source comprises a laser. 5. The manufacturing method of claim 1 wherein the heat source is emitted from a scanning head that also receives optical radiation from the weld pool. 6. The manufacturing method of claim 5 wherein the received optical radiation is reflected to the second sensor via a partially reflective optic. 7. The manufacturing method of claim 1 wherein the first sensor is a pyrometer and the second sensor is a photodiode. 8. A manufacturing system, comprising: a moving heat source configured to direct energy into a layer of material within a build region, the heat source generating a liquid pool where the heat source impinges the material; a first sensor configured to acquire first sensor data associated with a portion of the build region; a second optical sensor having a moving field of view that is co-linear with the heat source and configured to acquire second sensor data associated with the build region; and a processor configured to receive first optical sensor data and second optical sensor data, and to calibrate, based on a phase change temperature of the material, the second optical sensor using the first sensor data. 9. The manufacturing system of claim 8 wherein the calibrating is performed when the liquid pool is within the portion of the build region. 10. The manufacturing system of claim 8 wherein the layer of material comprises a metal. 11. The manufacturing system of claim 8 wherein the moving heat source comprises a laser. 12. The manufacturing system of claim 8 wherein the heat source is emitted from a scanning head that also receives optical radiation from the liquid pool. 13. The manufacturing system of claim 12 wherein the received optical radiation is reflected to the second optical sensor via a partially reflective optic. 14. The manufacturing system of claim 8 wherein the first sensor is a pyrometer and the second sensor is a photodiode. 15. An additive manufacturing method, the method comprising: depositing a layer of metal powder on a build plane; moving a heat source across a processing region of the layer of metal powder, the heat source creating a moving molten region that fuses the layer of metal powder within the processing region; recording first sensor data from a first sensor configured to receive optical input from a portion of the processing region; recording second sensor data from a second sensor having a moving field of view that is co-linear with the heat source; and adjusting the second sensor data based on the first sensor data, wherein the adjusting is based on a phase change temperature of the metal powder. 16. The method of claim 15 wherein the adjusting is performed when the molten region is within the portion of the processing region. 17. The method of claim 15 wherein the heat source comprises a laser. 18. The method of claim 15 wherein the heat source is emitted from a scanning head that also receives optical radiation from the molten region. 19. The method of claim 18 wherein the received optical radiation is reflected to the second sensor via a partially reflective optic. 20. The method of claim 15 wherein the first sensor is a pyrometer and the second sensor is a photodiode.