I'm currently trying to implement a silhouette algorithm in my project (using Open GLES, it's for mobile devices, primarily iPhone at the moment). One of the requirements is that a set of 3D lines be drawn. The issue with the default OpenGL lines is that they don't connect at an angle nicely when they are thick (gaps appear). Other subtle artifacts are also evident, which detract from the visual appeal of the lines.
Now, I have looked into using some sort of quad strip as an alternative to this. However, drawing a quad strip in screen space requires some sort of visibility detection - lines obscured in the actual 3D world should not be visible.
There are numerous approaches to this problem - i.e. quantitative invisibility. But such an approach, particularly on a mobile device with limited processing power, is difficult to implement efficiently, considering raycasting needs to be employed. Looking around some more I found this paper, which describes a couple of methods for using z-buffer sampling to achieve such an effect. However, I'm not an expert in this area, and while I understand the theory behind the techniques to an extent, I'm not sure how to go about the practical implementation. I was wondering if someone could guide me here at a more technical level - on the OpenGLES side of things. I'm also open to any suggestions regarding 3D line visibility in general.