Spatial difference measurement

What is claimed is: 1. A spatial difference measurement method, comprising: generating first key features of a first skeleton of a nominal 3D model of an object; extrapolating the first key features onto the nominal 3D model; creating an actual 3D model of the object during or after a construction process of the object; generating second key features of a second skeleton of the actual 3D model of the object; extrapolating the second key features onto the actual 3D model of the object; comparing the first key features extrapolated on the nominal 3D model to the second key features extrapolated on the actual 3D model to determine one or more distances between the first and second key features to measure a spatial difference between the nominal 3D model and the object during or after the construction process; receiving the nominal 3D model of an object, and generating the first skeleton based on the nominal 3D model, wherein the method includes generating the second skeleton based on the actual 3D model, wherein generating the first skeleton includes converting the nominal 3D model into a first finite element mesh using median axis method. 2. The method of claim 1 , wherein generating the second skeleton includes converting the actual 3D model into a second finite element mesh using median axis method. 3. The method of claim 1 , wherein generating the first key features and generating the second key features includes using nodes of the first skeleton and the second skeleton, respectively. 4. The method of claim 3 , wherein extrapolating the first key features and extrapolating the second key features includes projecting the first key features and second key features to a surface of the nominal 3D model and the actual 3D model, respectively. 5. The method of claim 4 , wherein the construction process is an additive manufacturing process and the method includes additively manufacturing the object based on the nominal 3D model. 6. The method of claim 5 , wherein comparing is done in real time and the method includes modifying one or more characteristics of the additive manufacturing process to account for the measured spatial difference. 7. A non-transitory computer readable medium comprising computer executable instructions configured to cause a computer to perform a method, the method comprising: generating first key features of a first skeleton of a nominal 3D model of an object; extrapolating the first key features onto the nominal 3D model; creating an actual 3D model of the object during or after a construction process of the object; generating second key features of a second skeleton of the actual 3D model of the object; extrapolating the second key features onto the actual 3D model of the object; and comparing the first key features extrapolated on the nominal 3D model to the second key features extrapolated on the actual 3D model to determine one or more distances between the first and second key features to measure a spatial difference between the nominal 3D model and the object during or after the construction process, wherein the method includes receiving the nominal 3D model of an object, and generating the first skeleton based on the nominal 3D model, wherein the method includes generating the second skeleton based on the actual 3D model, wherein generating the first skeleton includes converting the nominal 3D model into a first finite element mesh using median axis method. 8. The non-transitory computer readable medium of claim 7 , wherein generating the second skeleton includes converting the actual 3D model into a second finite element mesh using median axis method. 9. The non-transitory computer readable medium of claim 7 , wherein generating the first key features and generating the second key features includes using nodes of the first skeleton and the second skeleton, respectively. 10. The non-transitory computer readable medium of claim 9 , wherein extrapolating the first key features and extrapolating the second key features includes projecting the first key features and second key features to a surface of the nominal 3D model and the actual 3D model, respectively. 11. The non-transitory computer readable medium of claim 10 , wherein the construction process is an additive manufacturing process and the method includes additively manufacturing the object based on the nominal 3D model. 12. The non-transitory computer readable medium of claim 11 , wherein comparing is done in real time and the method includes modifying one or more characteristics of the additive manufacturing process to account for the measured spatial difference. 13. A system, comprising: a spatial difference measurement module configured to: generate first key features of a first skeleton of a nominal 3D model of an object; extrapolate the first key features onto the nominal 3D model; create an actual 3D model of the object during or after a construction process of the object; generate second key features of a second skeleton of the actual 3D model of the object; extrapolate the second key features onto the actual 3D model of the object; compare the first key features extrapolated on the nominal 3D model to the second key features extrapolated on the actual 3D model to determine one or more distances between the first and second key features to measure a spatial difference between the nominal 3D model and the object during or after the construction process; receive the nominal 3 D model of an object; generate the first skeleton based on the nominal 3D model, wherein generating the first skeleton includes converting the nominal 3D model into a first finite element mesh using median axis method; generate the second skeleton based on the actual 3D model, and output a spatial difference value. 14. The apparatus of claim 13 , wherein the spatial difference measurement module is configured control an additive manufacturing process, wherein the special difference measurement module is configured to modify at least one characteristic of the additive manufacturing process as a function of the spatial difference value.