In the field of image encryption and decryption, in order to solve the problem of small key space in the encryption process caused by low dimension of one-dimensional chaotic map and few initial values and control parameters, the present disclosure provides an image encryption and decryption communication algorithm based on two-dimensional lag complex Logistic map, which expands the variables of one-dimensional Logistic map from the real number domain to the complex number domain, improves the dimension of the mapping system, increases the number of keys, and expands the mapping range, wherein the new mapping system is more sensitive to small disturbances of initial values and parameters, which can break the strong correlation between pixels in the original image, so that the pixels of the encrypted image are uniformly distributed in the whole plane, and the features of the original image are hidden.

An electronic control unit comprises circuitry to receive a combined signal via a vehicle bus of a vehicle, wherein the combined signal contains a combination of a data signal and a watermark signal, which can be a radio frequency (RF) signal or an analog baseband signal, wherein the data signal includes a message, circuitry to extract a watermark from the watermark signal, circuitry to verify the watermark based on a comparison of the watermark with a pre-defined watermark, circuitry to extract the data signal from the combined signal and obtain the message from the data signal, and circuitry to authenticate the message based on the verification of the watermark.

A device for providing side-channel protection to a data processing circuit is provided and includes a chaotic oscillator and a counter. The data processing circuit has an input for receiving an input signal, a power supply terminal, and an output for providing an output signal. The chaotic oscillator circuit has an input coupled to receive a control signal, and an output coupled to provide an output signal for controlling a voltage level of a power supply voltage of the data processing circuit. The counter has an input coupled to receive a clock signal, and an output coupled to control a variable parameter of the chaotic oscillator in response to the clock signal. In another embodiment, a method is provided providing the side-channel protection to the device.

An encryption device includes: an encryption key generation unit that generates an encryption key on the basis of photoelectric random numbers that are random numbers obtained on the basis of photoelectric conversion performed by an array sensor in which a plurality of pixels having light-receiving elements for visible light or non-visible light are one-dimensionally or two-dimensionally arranged; and an encryption unit that performs encryption of a target signal on the basis of the encryption key generated by the encryption key generation unit. Accordingly, it is possible to realize encryption that makes deciphering of an encryption key more difficult as compared to a case in which pseudo-random numbers are used, and thus it is possible to promote improvement of security.

The present invention relates to a trusted measurement and control network authentication method based on double cryptographic values and chaotic encryption. The specific method comprises realizing identity authentication and key negotiation processes through double cryptographic values and chaotic public key ciphers and realizing secure transmission and verification of user identity credentials on the basis of building a trust chain through trusted computation for realizing a secure and trusted operating environment, thereby building a secure and trusted data transmission channel. The identity authentication method in the present invention comprises multiple links such as secure generation of user identity identifiers, read protection encapsulation, secure transmission and key negotiation. Each link adopts a unique and confidential cryptographic function for secure data generation, thereby ensuring the security of the authentication device access in an industrial measurement and control network.

A data diode provides a flexible device for collecting data from a data source and transmitting the data to a data destination using one-way data transmission across a main channel. On-board processing elements allow the data diode to identify automatically the type of connectivity provided to the data diode and configure the data diode to handle the identified type of connectivity. Either or both of the inbound and outbound side of the data diode may comprise one or both of wired and wireless communication interfaces. A secure reverse channel, separate from the main channel, allows carefully predetermined communications from the data destination to the data source.

A method for sequentially encrypting and decrypting doubly linked lists based on double key stream ciphers comprises: establishing a plaintext set M according to a plaintext file; using the plaintext set M as an initial value and performing iterative decryption to obtain a ciphertext set C, wherein a key set P and an algorithm set A are used during the iterative decryption; for the ciphertext set C, performing multiple decryptions by calling the key set P and keys in the key set P, wherein a key set P and an algorithm set A are used during the decryptions; and, converting the obtained result of decryption into a plaintext file.

A method of printing and of authenticating a marking, having a visible printed anti-copy pattern produced by pseudorandom noise that is generated on the basis of a secret generation key, includes processing at least one image of the printed anti-copy pattern. The anti-copy pattern is printed onto a marking substrate using predetermined printing conditions. The phase of marking control involves: regenerating the pseudorandom noise on the basis of the secret generation key; creating, computationally, a digital file of an image of a simulated printed anti-copy pattern which corresponding to a projected printing quality of the regenerated pseudorandom noise; capturing at least one image of the printed anti-copy pattern; and comparing the captured image of the printed anti-copy pattern with the image of the simulated anti-copy pattern in order to determine, computationally, a mathematical distance between the image of the printed anti-copy pattern and the image of the simulated anti-copy pattern.

Provided here are systems and method for non-intrusive authentication of a user. Such systems and methods may include in an embodiment a waveform generator to generate a message, encrypt the message, and transmit the encrypted message to one or more transmitters. The system may include a decryption engine to receive a bone conduction signal from one or more receivers, process the bone conduction signal, decrypt the processed bone conduction signal, and separate a bone conduction token portion from the decrypted bone conduction signal. The system may include an authentication engine to analyze the bone conduction signal, authenticate a user for the operation detected based on a comparison of the analyzed bone conduction signal and the pilot portion of the message exceeding a preselected threshold, and verify bone conduction signal authenticity via the bone conduction token portion and the token portion.

The invention discloses a sequential encryption method based on multi-key stream ciphers, comprising the following steps of: acquiring plaintext data, and storing the acquired plaintext data in the form of a circular linked list; storing a plurality of key sequences in the form of a circular linked list, respectively; performing a bitwise operation on the key sequences according to a specified starting bit to generate a stream random sequence; and, reconstructing the plaintext data according to the stream random sequence to generate encrypted ciphertext data. The method of the invention is simple in encryption and decryption, difficult to decipher, easy to implement by a computer without auxiliary hardware devices, fast in encryption and decryption speed, strong in the diffusion property of the generated ciphertext, and good in anti-interception performance and the like.