【摘 要】
:
Based on the two-dimensional (2D) tan-sin-cos-coupling (2D-TSCC),a new image protection method is designed,this method includes steganography and encryption.First,a 2D-TSCC system is designed.The 2D-TSCC has a large parameter space in a hyperchaotic state
【机 构】
:
School of Information Science and Technology,Dalian Maritime University,Dalian 116026,China;School o
论文部分内容阅读
Based on the two-dimensional (2D) tan-sin-cos-coupling (2D-TSCC),a new image protection method is designed,this method includes steganography and encryption.First,a 2D-TSCC system is designed.The 2D-TSCC has a large parameter space in a hyperchaotic state.The chaotic trajectory fills the entire window.The chaotic sequence generated by the 2D-TSCC has a good pseudorandomness,so it can be used in steganography and encryption.Then,the amount of information contained in each bit of the cover image is analyzed,and the three bits which carry the least amount of information are selected.The secret image is hidden in these three bits base on the 2D-TSCC.Finally,the carrier image is scrambled and diffused by the 2D-TSCC.The ciphertext is generated in this way.Send the ciphertext to the recipient through channel transmission,and the recipient obtains the secret image by decrypting twice.
其他文献
Capacity of dense coding via correlated noisy channel is greater than that via uncorrelated noisy channel.It is shown that the weak measurement and reversal measurement need to further improve their quantum dense coding capacity in cor-related amplitude d
Using coupled Gross-Pitaevksii (GP) equations,we simulate the output of one-dimensional pulsed atom laser in space station.We get two atom laser pulses propagating in opposite directions with one pulsed RF coupling.Compared with atom laser under gravity,t
We study the property of magnetopolaron in a parabolic quantum dot under the Rashba spin-orbit interaction (RSOI)by adopting an unitary transformation of Lee-Low-Pines type and the variational method of Pekar type with and without considering the temperat
The supersymmetric properties of a charged planar Dirac oscillator coupling to a uniform perpendicular magnetic field are studied.We find that there is an N 2 supersymmetric structure in both commutative and noncommutative cases.We construct the generator
We have developed an electronic hardware system for the control and readout of multi-superconducting qubit devices.The hardware system is based on the design ideas of good scalability,high synchronization and low latency.The system,housed inside a VPX-6U
In order to understand our previous numerical finding that steady-state entanglement along the instability boundary remains unchanged in a three-mode optomechanical system[Phys.Rev.A 101023838 (2020)],we investigate in detail the boundary entanglement in
We investigate the dynamics of entanglement through negativity and witness operators in a system of four non-interacting qubits driven by a classical phase noisy laser characterized by a classical random external field (CREF).The qubits are initially prep
The open quantum system can be described by either a Lindblad master equation or a non-Hermitian Hamiltonian(NHH).However,these two descriptions usually have different exceptional points (EPs),associated with the degeneracies in the open quantum system.He
The ground state properties of the rotating Bose-Einstein condensates (BECs) with SU(3) spin-orbit coupling (SOC)in a two-dimensional harmonic trap are studied.The results show that the ferromagnetic and antiferromagnetic systems present three half-skyrmi
By introducing a discrete memristor and periodic sinusoidal functions,a two-dimensional map with coexisting chaos and hyperchaos is constructed.Various coexisting chaotic and hyperchaotic attractors under different Lyapunov exponents are firstly found in