Abstract: A quantum block-chained authentication solution with quantum authentication processes for data transmissions passing through a peer-to-peer (P2P) network including a plurality of agent nodes comprises a system that is capable of not only performing a smart contract on a block-chained virtual-machine mechanism for transmitting a data from an agent node to another agent node passing through a plurality of paths in a secure way implemented via proprietary quantum authentication processes, but also detecting and reacting to a malicious behavior within a transmission in time.

Abstract: Data collection system for effectively processing big data is provided. The data collection system includes multiple risk filtering modules up to third order or higher and a specific data extractor, wherein the multiple risk filtering modules and the specific data extractor are connected in series. The data collection system is capable of filtering received raw data through the multiple risk filtering modules so as to remove data with cyber security risks or system security issues, and keeping required data by the specific data extractor. In addition, the system can assist the user automatically to carefully select raw data through a combination of means of data classification, data normalization, and data clustering analysis. Thereby the system effectively enhances usability and security of data collection.

Abstract: A system for a decentralized cloud-storage solution operated within a P2P network. The decentralized cloud-storage solution includes a system and specific operations that not only performs data-classification analysis on an end-user's data, but also enhances a data-distribution mechanism with route distances related to geographical factors and facilitates a block-chained technology implemented for decentralized cloud storages; thereby reducing the risks on data storage and facilitating a user's big data transactions through a shared P2P network.

Abstract: A system and method for generating quantum hash values through true-randomness hash functions to facilitate security on use of hash values, especially to a quantum hash value generator for providing a hash value with true randomness. Through operations of Borel-measure derivation, Lebesgue-dominated validation, and quantum-hash-value derivation, such technology not only provides hash functions with true randomness, but also enhances to implement a mechanism to generate various quantum hash functions instantly.

Abstract: A quantum-computing threats surveillance system for use in quantum communication environments is a quantum-surveillance technology which detects quantum computing threats based on free electron monitoring and entangled state measurement, and performs time-and-space analysis on quantum communication environments via making use of specific Fourier transforms, and then collaborate with a system of Lotka-Volterra competition models for variance analysis, so as to determine whether there is suspicious or potential quantum computing in a quantum communication environment. Furthermore, it can monitor different quantum-teleportation channels to achieve the effect of tracking specific quantum-computing behaviors for a long term.

Abstract: A system with methods to be integrated as a quantum-communication firewall solution. The system is implemented with technology in combination of background-noise analysis, phase-shifting operation, phase-combination operations, and a proprietary data-synchronization mechanism. Thereby, through an optical communication channel with such a quantum-communication firewall solution, a conventional quantum communication system is not only capable of resisting specific spectrum attacks within a quantum communication channel, but also capable of countering a malicious optical source.

Abstract: A system and method for resisting quantum perturbation threats to quantum communication devices, especially to a quantum cyber security technology for sensing external perturbations to a quantum communication device and for performing perturbation-bias correction in a non-Hermitian system. Through observing and analyzing on a resonant model, such technology not only senses suspicious potential variation which may make potential energy related to a quantum computing device be changed, but also enhances to implement a correction policy coupling to an information-correction sub-system. Meanwhile it patterns the detected perturbation threats with relative permeability so as to provide early protection on a quantum communication device for resisting a risky perturbation threat.

Abstract: A system with methods to enhance key strength for a quantum shared key which is derived by a conventional quantum key distribution protocol and the system provides a single optical communication channel with security protection mechanism for key distribution without relying on an authenticated public classical channel. The system is implemented with technology in combination of key-strength enhancement, re-encoding operation, density-matrix verification, and grating control for a single optical communication channel where the system can be integrated with a conventional Quantum-Key-Distribution protocol such as BB84 or B92, but excluding GHz-clocked QKD system. Thereby, the system can help a known QKD system to overcome current drawbacks of an apparatus implemented over a conventional QKD protocol so as to derive an enhanced quantum shared key.

Abstract: Artificial intelligence decision making neuro network core system and information processing method using the same include an electronic device linking to a unsupervised neural network interface module, a asymmetric hidden layers input module linking to the unsupervised neural network interface module and a neuron module formed with tree-structured data, a layered weight parameter module linking to the neuron module formed with tree-structured data and an non-linear PCA (Principal Component Analysis) module, an input module of the lead backpropagation unit linking to the non-linear PCA module and a tuning module, an output module of the lead backpropagation unit linking to tuning module and the non-linear PCA module; when the electronic device receives raw data, processing and learning the raw data via all the modules, and updating programs to generate decision results that accommodate a variety of scenarios, in order to elevate the reference value and practicality of the decision result.

Abstract: A quantum-attack resistant operating system for use in a key management mechanism which is a full solution of cyber-security for quantum transmission via optical paths, in order to detect and bypass quantum computing attacks, or to perform quantum counterattacks, during various procedures of quantum key managements; wherein the system avoids the attacks of key tampering, destroying, detecting, and blocking, from other quantum systems in a quantum key storage phase; meanwhile, it also avoids the sniffing from other quantum systems on key entangled properties, in a quantum key clearing phase; in addition, in a quantum key recycling phase, facing quantum computing attacks, it not only can disrupt the judgement of other systems on key verification, but also consumes the computing resources on the attacker side; thereby the present invention provides a protection mechanism which cannot be achieved by a conventional PQC (Post-quantum cryptography) solution.

Abstract: An artificial-intelligence decision-making core system with neural network implements asymmetric hidden layers which is constructed by neural network with a dynamic neuron adjusting mechanism via making use of a device with computing unit and storage media, coupled to an independent feedback sub-system which operates a residual-compensation mechanism, thereby the core system can receive various trained data and performs a non-linear analysis process according to the output data derived from the asymmetric hidden layers of an unsupervised neural network, so as to derive individual and applicable decision-making data.

Abstract: A quantum computing-threat-resistant system for cryptography key exchange comprises a linear-space computing module, a manifold computing module, and a Banach-space computing module. The system implements the technologies of homotopy morphing and key cloaking for facilitating the key-exchanging processes to perform quantum computing-threat-resistant operations in a mathematics space which is different from the spaces that generic quantum attacks work on, and then retrieve the original key in a Hilbert space after the processes of key exchange. The system not only avoids quantum attacks on key-exchanging processes, but also avoids the defects of current PQC solutions, the vulnerability of the main streamed symmetric & asymmetric encryption systems, and the limitation of quantum key operation in a Hilbert space. Both legacy key solution and quantum key solution are provided and implemented without requiring expensive devices.

Abstract: Data transmission system and method with high security are introduced for communicative connection of a transmitter device to a receiver device through a data transmission channel. The transmitter device includes multiple asymmetric encoding packers, and the receiver device includes a multiplex-decoding processor corresponding to the asymmetric encoding packers. After the transmitter device performs pre-processing on original data according to a source of the original data, the asymmetric encoding packers perform encoding packing on the pre-processed original data and generate multiple encoded data. The encoded data are sent to the receiver device through the data transmission channel, and are decoded by the multiplex-decoding processor to obtain restored data. Accordingly, enhancing security and convenience of data transmission are achieved.

Abstract: A data scan system is introduced, including an electronic device including a data scan module. The data scan module includes a data capture unit and a data processing control unit. The data capture unit is used to capture a target data and assign a plurality of corresponding labels to the target data. The data processing control unit is coupled to the data capture module, and includes an exception processing sub-unit for performing an exception processing mechanism on the target data, a control status switching sub-unit, a backup sub-unit, and a remote control sub-unit, an error report sub-unit, a flow monitoring sub-unit and a shortest path handling sub-unit. It can greatly improve the degree of control over the subsequent processing of data, thereby achieving the purpose of improving the security of data transmission.

Abstract: A quantum attack-resistant system for processes of cryptography key exchange comprises a linear space computing module, a manifold computing module, and a Banach space computing module. The system implements the technologies of homotopy morphing and key cloaking for facilitating the processes of key exchange to perform quantum attack-resistant operations in a mathematics space which is different from the spaces that generic quantum attacks work on, and then retrieve the original key in a Hilbert space after the processes of key exchange. The system not only avoids quantum attacks on key exchange processes, but also avoids the defects of current PQC solutions, the vulnerability of the main streamed symmetric & asymmetric encryption systems, and the limitation of quantum key operation in a Hilbert space. Both legacy key solution and quantum key solution are provided and implemented without requiring expensive devices.

Abstract: A system for use in quantum encryption, decryption, and encoding, comprises a photon production sub-system, a transmission channel sub-system, and a data encoding sub-system. The transmission channel sub-system makes use of the combination of quantum state vectors derived from the photon production sub-system for optical communication with quantum key. The data encoding sub-system includes a plurality of dynamic data encoding modules, and at least one of these modules performs to express the quantum key with bases in an individual Hilbert Space, and divides the transmitting data into segments for data encoding with the individual space bases. In addition to the use in data encoding, the sub-system can also improve the signal-decays and the eavesdropping issue within the quantum channel via implementation of the Laplace Transformation unit and the Quantum Fourier Transformation unit.