TY - JOUR ID - 17197 TI - {Application of the optimized 1-bit tensor completion method in the recovery of noisy digital images JO - Journal of Advanced Mathematical Modeling JA - JAMM LA - en SN - 2251-8088 AU - shahrezaei, mohsen AU - shojaeifard, alireza AU - yazdani, hamidreza AD - Faculty of Defense and Engineering, Imam Hossein University, Tehran, Iran AD - Department of Mathematics and Statistics, Imam Hossein Comprehensive University, Tehran, Iran, Y1 - 1400 PY - 1400 VL - 11 IS - 4 SP - 686 EP - 698 KW - Digital Image Recovery KW - Higher-order tensor KW - Tensor KW - Tensor Completion DO - 10.22055/jamm.2021.38887.1971 N2 - Higher-order tensor structured data appear in many imaging scenarios, including hyperspectral imaging and colorful video. The recovery of a tensor from an incomplete set of its entries, known as tensor completion (TC), is significant in applications like compression. Moreover, in many illustrations, observations are not only incomplete but also highly quantized. Quantization is a critical step for high dimensional data transmission and storage in order to reduce storage requirements and power consumption, especially for energy-limited systems. In this paper, we propose a novel approach for the recovery of low-rank tensors from a small number of binary (1-bit) measurements. The proposed method called $1- bit$ Tensor Completion relies on the application of 1-bit matrix completion over different matricizations of the underlying tensor. Experimental results on hyperspectral images confirm that directly operating with the binary measurements, rather than treating them as real values, results in lower recovery error. Here a given third-order tensor with binary arrays is recovered. In practice, we open the tensor as a 3-matrix and apply the quantified tensor completion algorithm to all models of the matrix tensor. The data space here is distorted satellite spectral images for the purpose of image recovery. UR - https://jamm.scu.ac.ir/article_17197.html L1 - https://jamm.scu.ac.ir/article_17197_86cc321cedd7540157742d6149dd26cb.pdf ER -