Abstract
The classification of erythrocyte plays an important role in clinic diagnosis. In terms of the fact that the shape deformability of red blood cell brings more difficulty in detecting and recognize for operating automatically, we believed that the recovered 3D shape surface feature would give more information than traditional 2D intensity image processing methods. This paper proposed a combined approach for complex surface segmentation of red blood cell based on shape‐from‐shading technique and multiscale surface fitting. By means of the image irradiance equation under SEM imaging condition, the 3D height field could be recovered from the varied shading. Afterwards the depth maps of each point on the surfaces were applied to calculate Gaussian curvature and mean curvature, which were used to produce surface‐type label image. Accordingly the surface was segmented into different parts through multiscale bivariate polynomials function fitting. The experimental results showed that this approach was easily implemented and promising.
Highlights
The erythrocyte shape deformability is critical to the filterability of blood
We aimed to develop a satisfied algorithm to classify the red blood cells into different groups accurately
We divided the cells into different categories according to their distribution of surface type
Summary
The erythrocyte shape deformability is critical to the filterability of blood. It has drawn considerable attentions into the pathology research in clinical relevant blood diseases. The diagnosing is usually performed by a human expert, and it shows some drawbacks such as time-cost consuming and inaccuracy. The experts deal with erythrocyte images segmentation issue with 2D gray scale image. In order to obtain a satisfied performance, the classification and recognition should be based on the real shape of RBCs. the shape feature of red blood cell provides more useful information for diagnosing accurately than intensity level image. It is necessary to take the shape
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