Porous structure and methods of making same

What is claimed is: 1. A method for fabricating a porous structure with a machine, the method comprising the steps of: creating a model of said porous structure to be fabricated by said machine, wherein said model defines a strut of said porous structure comprising a first node, a second node, and a body between said first node and said second node; assigning a local coordinate system to said strut, said local coordinate system different from a machine coordinate system that defines a build plane of said machine; correcting a directional discrepancy of said machine by modifying a dimension of said strut in a direction perpendicular to said build plane, wherein said modifying step does not affect any changes to locations of said first node and said second node and comprises the steps of: transforming said local coordinate system to said machine coordinate system of said build plane; applying a scaling factor to said dimension of said strut in response to transforming said local coordinate system to said machine coordinate system; and transforming said machine coordinate system of said build plane to said local coordinate system in response to applying the scaling factor; and fabricating, by the machine, the porous structure according to the model having the modified strut by exposing fusible material to an energy source. 2. The method of claim 1 , wherein the dimension is selected from the group consisting of thickness and length. 3. The method of claim 1 , wherein transforming said local coordinate system to said machine coordinate system comprises projecting a three-dimensional volume of said strut to said build plane in said machine coordinate system such that said first and second nodes lie in said build plane; wherein applying the scaling factor to said dimension comprises applying a scaling factor to said dimension of said strut projected to said build plane to generate a scaled three-dimensional volume; and wherein transforming said machine coordinate system of said build plane to said local coordinate system comprises projecting said scaled three-dimensional volume in said build plane back to an original position in said local coordinate system. 4. The method of claim 3 , wherein the scaling factor is based at least on an error associated with the directional discrepancy to be compensated in said machine used to expose said fusible material to said energy source. 5. The method of claim 1 , wherein correcting the directional discrepancy of said machine comprises modifying a dimension of said strut in a direction perpendicular to said build plane for each strut of a plurality of struts. 6. The method of claim 1 , wherein the scaling factor is based on a gradient function that varies from said energy source to said build plane based on a distance of said strut relative to said energy source. 7. The method of claim 1 , wherein said build plane is a build platform of said machine. 8. The method of claim 1 , wherein creating said model of said porous structure comprises creating an ideal model of an ideal porous structure to be fabricated by said machine; wherein correcting said directional discrepancy of said machine comprises modifying a dimension of said strut of said ideal model in a direction perpendicular to said build plane for each strut of a plurality of struts of said ideal model to generate a scaled model; and wherein fabricating said porous structure comprises fabricating said ideal porous structure based on said scaled model. 9. The method of claim 1 , wherein correcting said directional discrepancy comprises modifying the dimension of said strut by a factor dependent on an angle of said strut relative to said build plane. 10. The method of claim 9 , wherein said factor is equal to a scaling factor of the dimension of said strut when said strut is parallel to said build plane multiplied by a cosine of the angle of said strut relative to said build plane. 11. A method for fabricating a porous structure with a machine, the method comprising the steps of: creating a model of said porous structure to be fabricated by said machine, wherein said model defines a strut of said porous structure comprising a first node, a second node, and a body between said first node and said second node; assigning a local coordinate system to said strut, said local coordinate system different from a machine coordinate system that defines a build plane of said machine; correcting a directional discrepancy of said machine by modifying a dimension of said strut in a direction perpendicular to said build plane, wherein said modifying step comprises the steps of: transforming said local coordinate system to said machine coordinate system of said build plane; applying a scaling factor to said dimension of said strut in response to transforming said local coordinate system to said machine coordinate system; and transforming said machine coordinate system of said build plane to said local coordinate system in response to applying the scaling factor; and fabricating, by the machine, the porous structure according to the model having the modified strut by exposing fusible material to an energy source. 12. The method of claim 11 , wherein transforming said local coordinate system to said machine coordinate system comprises projecting a three-dimensional volume of said strut to said build plane in said machine coordinate system such that said first and second nodes lie in said build plane; wherein applying the scaling factor to said dimension comprises applying a scaling factor to said dimension of said strut projected to said build plane to generate a scaled three-dimensional volume; and wherein transforming said machine coordinate system of said build plane to said local coordinate system comprises projecting said scaled three-dimensional volume in said build plane back to an original position in said local coordinate system. 13. The method of claim 12 , wherein the scaling factor varies based at least on a distance of said strut relative to said build plane. 14. The method of claim 11 , wherein the modifying step is based at least on an error associated with the directional discrepancy to be compensated in said machine used to expose said fusible material to said energy source. 15. The method of claim 11 , wherein the dimension is selected from the group consisting of thickness and length. 16. The method of claim 11 , wherein the scaling factor varies based at least on a distance of said strut relative said first plane. 17. A method for fabricating a porous structure with a machine, the method comprising the steps of: creating a model of said porous structure to be fabricated by said machine, wherein said model defines a strut of said porous structure comprising a first node, a second node, and a body between said first node and said second node; assigning a local coordinate system to said strut, said local coordinate system different from a machine coordinate system that defines a build plane of said machine; correcting a directional discrepancy of said machine by modifying a dimension of said strut in a direction perpendicular to said build plane, wherein the modifying step is based at least on an error to be compensated for in said machine, and wherein the modifying step comprises the steps of: transforming said local coordinate system to said machine coordinate system of said build plane; applying a scaling factor to said dimension of said strut in response to transforming said local coordinate system to said machine coordinate system; and transforming said machine