Moting Su
Chongqing University
10 Papers
86 Citations
Moting Su is an academic researcher from Chongqing University. The author has contributed to research in topics: Encryption & Keystream. The author has an hindex of 6, co-authored 8 publications.
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Papers
Cryptanalyzing a novel image fusion encryption algorithm based on DNA sequence operation and hyper-chaotic system
TL;DR: In this article, the authors proposed an image fusion encryption algorithm based on DNA sequence operation and hyper-chaotic system and cryptanalyze the algorithm and find that two chaotic keystream determined by the five keys keep unchanged for different image encryption processes.
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Data-Driven Natural Gas Spot Price Forecasting with Least Squares Regression Boosting Algorithm
TL;DR: The least squares regression boosting (LSBoost) algorithm was used for forecasting natural gas spot prices and showed better performance such as a higher R-square and lower mean absolute error, mean square error, and root-mean-square error.
Security evaluation of bilateral-diffusion based image encryption algorithm
TL;DR: Security evaluation of a novel bilateral-diffusion image encryption algorithm based on dynamical compound chaos function and LFSR shows that the whole keystream can be broken by using two images including a chosen image and a known image, with a combination of chosen-plain text attack and known-plaintext attack.
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Secure binary arithmetic coding based on digitalized modified logistic map and linear feedback shift register
TL;DR: This paper proposes a novel secure arithmetic coding based on digitalized modified logistic map (DMLM) and linear feedback shift register (LFSR), which ensures high sensitivity and strong randomness.
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Perturbation meets key-based interval splitting arithmetic coding: security enhancement and chaos generalization
TL;DR: The perturbation-based KAC not only avoids the flaw of KAC that the splitting keys are usually located at the endpoint of certain codeword or at the border of two codewords but also removes the restriction that the keys are only allowed in certain sub-intervals, which result in great convenience to the key scheduler.
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