结构光测量中快速相位解包裹算法的讨论

对Schofield等提出的快速傅里叶变换（采用4次傅里叶变换和4次逆傅里叶）解包裹算法和Volkov等提出的相位重建算法（仅采用两次傅里叶变换和一次逆傅里叶变换）进行了讨论,提出基于离散余弦变换的快速相位解包裹算法.指出前两种算法在处理一般带噪音的模拟相位图时具有明显的优势,其处理结果非常接近理想值,而在处理相位变化剧烈或不连续区域的实验相位图（采用四步相移法测量雕刻佛像的三维面形）时出现较大误差,甚至无法处理,而基于离散余弦变换算法能很好的解决这个问题,并且拥有比前两种算法更快的运算速度.在实际应用中,针对不同的相位图把Schofield所提出的算法与基于离散余弦变换的算法结合起来,可以解决大部分相位解包裹问题.

Fast Phase-unwrapping Algorithms Used for Structural-light Measurement

Two kinds of fast phase-unwrapping algorithms were studied,namely,Schofield's 4-FFT algorithm and Volkov's deterministic 2-FFT algorithm.Then a DCT-based phase-unwrapping algorithm is proposed.The former two algorithms were proved to enjoy an obvious advantage in processing phase maps with much stochastic noise.Their final unwrapped-phase results are very close to the ideal ones.But,there appear some big errors in unwrapping the experimental phase map with large gradient and some inconsistent regions.It is ...