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Denoising of images is one of the Sparky subjects in image manipulating. The goal behind new design approaches to the denoising of image chains is to alleviation the superinduced noise into minimal rate after adopting spatial and temporal areas. However, eliciting edges from denoising images consider the largest trouble that facing many of researchers. Many wavelet-based images denoising methods been proposed to elicit edges from the corrupted images. In this paper, denoising images can be actualized by thresholding the wavelets coefficients at the low - low - subbands. In addition, a new technique approach to the edge detection of images corrupted by the "White-Gaussian Noise" been proposed. This technique comprises two treads: First, all likely edge points elicited with the applying of the first and second partial derivatives. Second, edge detection based-gradients which, relying on the two-dimensional convolution-based on the theory of the finite impulse response (FIR) filter been attained. Here, the histograms of the V/H image gradients can be exploited to create the essential threshold. This will facilitate the access to the convincing simulations in the process of image gradients detection. Experimental results show that the performance efficiency of our proposed technique was best comparing with the classical detection method in terms of blurriness and artifacts specifically, with areas that contain the edges.