Watermark resistance to geometric attacks is an important issue in the image watermarking community. Most countermeasures proposed in the literature usually focus on the problem of global affine transforms such as rotation, scaling and translation (RST), but few are resistant to challenging cropping and random bending attacks (RBAs). The main reason is that in the existing watermarking algorithms, those exploited robust features are more or less related to the pixel position. In this paper, we present an image watermarking scheme by the use of two statistical features (the histogram shape and the mean) in the Gaussian filtered low-frequency component of images. The two features are i) mathematically invariant to scaling the size of images, ii) independent of the pixel position in the image plane, iii) statistically resistant to cropping, and iv) robust to interpolation errors during geometric transformations, and common image processing operations. As a result, the watermarking system ...