Method of additive manufacturing an internal wave sparse structure with varying geometry for localized tunable structural properties throughout a part

The invention claimed is: 1. A method for printing a three-dimensional part with an additive manufacturing system, the method comprising: obtaining part requirements data for the three-dimensional part; generating a digital model of the three-dimensional part using the part requirements data, the digital model defining a shape of the three-dimensional part; defining required structural properties of different regions of the three-dimensional part; generating toolpath instructions for each of a plurality of layers of the three-dimensional part such that the three-dimensional part includes first and second boundary walls, defining a contour of the part, and a sinusoidal wave pattern infill structure formed between the first and second boundary walls to provide the required structural properties for the different regions of the part, and wherein generating the toolpath instructions for each of the plurality of layers further comprises generating a predefined non-interrupted toolpath for the sinusoidal wave pattern infill structure portion of the layer, wherein at least one property of the sinusoidal wave pattern infill structure is varied to provide the required structural properties for the different regions of the part. 2. The method of claim 1 , wherein generating the toolpath instructions for each of the plurality of layers further comprises generating the toolpath instructions such that the sinusoidal wave pattern infill structure has a wave pattern at an orientation normal to the first and second boundary walls. 3. The method of claim 1 , wherein the at least one property which is varied to provide the required structural properties for the different regions of the part comprises at least one of a sinusoidal wave pattern amplitude corresponding to part thickness, a beadwidth of the sinusoidal wave pattern infill structure, a frequency of the sinusoidal wave pattern infill structure, and interference of the sinusoidal wave pattern infill structure with the first and second boundary walls. 4. The method of claim 3 , wherein the at least one property which is varied to provide the required structural properties for the different regions of the part comprises the frequency of the sinusoidal wave pattern infill structure. 5. The method of claim 1 , and further comprising: outputting the toolpath instructions for each of a plurality of layers of the three-dimensional part; and printing the three-dimensional part using the toolpath instructions with the additive manufacturing system. 6. The method of claim 1 , wherein the three-dimensional part is an orthotic or prosthetic part for a patient, and wherein obtaining part requirements data for the three-dimensional part further comprises obtaining measured or scanned data for the patient. 7. A method for printing a three-dimensional part with an additive manufacturing system, the method comprising: obtaining part requirements data for the three-dimensional part; generating a digital model of the three-dimensional part using the part requirements data, the digital model defining a shape of the three-dimensional part; defining required structural properties of at least a first region and a second region of the three-dimensional part; and generating toolpath instructions for each of a plurality of layers of the three-dimensional part such that the three-dimensional part includes first and second boundary walls, defining a contour of the part, and a sinusoidal wave pattern infill structure formed between the first and second boundary walls to provide different structural properties to at least the first and second regions of the three-dimensional part, wherein generating the toolpath instructions for each of the plurality of layers further comprises generating the toolpath instructions for the at least first and second regions such that at least one property of the sinusoidal wave pattern infill structure is varied to provide the required structural properties for the different regions of the part, wherein the at least one property which is varied to provide the required structural properties for the different regions of the part comprises at least one of a sinusoidal wave pattern amplitude corresponding to part thickness, a beadwidth of the sinusoidal wave pattern infill structure, a frequency of the sinusoidal wave pattern infill structure, and interference of the sinusoidal wave pattern infill structure with the first and second boundary walls. 8. The method of claim 7 , wherein generating the toolpath instructions for each of the plurality of layers further comprises generating the toolpath instructions such that the sinusoidal wave pattern infill structure has a wave pattern at an orientation normal to the first and second boundary walls in the at least first region and the second region. 9. The method of claim 7 , wherein the at least one property which is varied to provide the required structural properties for the different regions of the part comprises the frequency of the sinusoidal wave pattern infill structure. 10. The method of claim 7 , and further comprising: outputting the toolpath instructions for each of a plurality of layers of the three-dimensional part; and printing the three-dimensional part using the toolpath instructions with the additive manufacturing system. 11. The method of claim 7 , wherein the three-dimensional part is an orthotic or prosthetic part for a patient, and wherein obtaining part requirements data for the three-dimensional part further comprises obtaining measured or scanned data for the patient. 12. The method of claim 11 , wherein generating the toolpath instructions for each of the plurality of layers further comprises generating the toolpath instructions such that the sinusoidal wave pattern infill structure has a wave pattern at an orientation normal to the first and second boundary walls in the at least first region and the second region. 13. The method of claim 11 , and further comprising: outputting the toolpath instructions for each of a plurality of layers of the three-dimensional part; and printing the three-dimensional part using the toolpath instructions with the additive manufacturing system. 14. A method for printing a three-dimensional part with an additive manufacturing system, the method comprising: obtaining part requirements data for the three-dimensional part; generating a digital model of the three-dimensional part using the part requirements data, the digital model defining a shape of the three-dimensional part; defining required structural properties of at least a first region and a second region of the three-dimensional part; and generating toolpath instructions for each of a plurality of layers of the three-dimensional part such that the three-dimensional part includes first and second boundary walls, defining a contour of the part, and a sinusoidal wave pattern infill structure formed between the first and second boundary walls to provide different structural properties to at least the first and second regions of the three-dimensional part by varying a frequency of the sinusoidal wave pattern infill structure, wherein generating the toolpath instructions for each of the plurality of layers further comprises generating a predefined non-interrupted toolpath for the sinusoidal wave pattern infill structure portion of the layer. 15. A method for printing a three-dimensional part with an additive manufacturing system, the method comprising: obtaining part requirements data for the three-dimensional part; generating a digital model of the three-dimensional part using the part requirements data, the