This document discusses a proposed method for multi-image deblurring using complementary sets of fluttering patterns and an alternating direction multiplier method. Existing methods for coded exposure and multi-image deblurring have limitations like generating complex fluttering patterns, low signal-to-noise ratio, and loss of spectral information. The proposed method uses a multiplier algorithm to optimize a latent image and generate simple binary fluttering patterns for single or multiple input images. This helps reduce spectral loss and recover spatially consistent deblurred images with minimum noise. The method involves preprocessing the input image, setting regularization parameters, performing deconvolution iteratively using matrices, and outputting a deblurred image with sharp details and low noise.