熔融沉積成型(Fused Deposition Modeling,FDM) 是一種積層製造的技術，列印方式是將材料加熱到一定的熔點後，形成半熔融狀態，將材料擠出於平面基板上後利用常溫溫度使其迅速回復成固態。如此反覆進行堆疊印出立體物件達到三維列印的效果。在現今市面上FDM列印技術是較為受到歡迎的技術因其成本較低以及較容易操作，只是使用者許多受限於三維圖檔的繪製。因此本論文在樹莓派中使用了Python撰寫了將平面影像轉為3D STL檔在將其轉為G-Code檔案，最後配合腳本程式讓其可以自動化。
論文中撰寫軟體將平面影像利用像素讀取與資料型態變換加上後處理的方式將平面影像轉為三維STL檔案，並且在輸出後將其轉為FDM三維列印技術所需要之G-Code路徑檔，在三維檔案生成以及切層部分須考慮到不同圖片需求不同，包含精細度要求，景物與邊界的像素差異導致必須要讓交界處在建立三維檔案資料時後處理使其邊界斜率更為柔和。切層方面則必須考量檔案大小以及運作時間加上是否可以讓硬體方面都可以承受其運算。

FDM is a technique of additive manufacturing. The printing method is to heat the material to a certain melting point and form a semi-molten state. After extruding the material on the flat platform, due to the rapid temperature change makes it promptly returned to the solid state. By repeating the process above, the three-dimensional objects are performed.
Today, FDM printing technology is a relatively popular technology because of its low cost and easy to operate, but many users are limited by the drawing of 3D files. Base on the reasons above, this research builds a STL-to-G-code program and makes this process automatic automated. The program reads 2D image's pixels of each coordinate, and modeling the image depend on the gray scale value of each coordinate. After exporting STL file, it will be imported to the slicing program and transfer into G-code file.
As the 2D image being modeled, the program must accommodate different requirements as different types of image import. After STL importing the slicing program, the whole process must accommodate the file size of image and output STL in order to prevent the microprocessor from overheating in the slicing process.

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