Abstract:
A system and/or a method based on a scalable requirement, active compliance and resource management for enhancing real-time and/or near real-time Cyber security, utilizing a learning (self-learning) computer integrated with (a) one or more learning/quantum learning/fuzzy/neuro-fuzzy logic algorithms in real-time or near real-time and/or (b) one or more software agents in real-time or near real-time and/or (c) encrypted data or a set of encrypted data blocks identified with a blockchain, further coupled with a (quantum computing resistant) public key/private cryptosystem and/or semantic web and/or hardware authentication is disclosed.
Abstract:
A fast optical (with or without a photonic crystal) switch is fabricated/constructed, utilizing a phase transition material/Mott insulator, activated by either an electrical pulse (a voltage pulse or a current pulse) and/or a light pulse and/or pulses in terahertz (THz) frequency of a suitable field strength and/or hot electrons. The applications of such a fast optical switch for an on-demand optical add-drop subsystem, integrating with (a) a light slowing/light stopping component (based on metamaterials and/or nanoplasmonic structures) and (b) with or without a wavelength converter are also described.
Abstract:
A fast optical switch can be fabricated/constructed, when a vanadium dioxide (VO2) and a two-dimensional (2-D) material is activated by either an electrical pulse (a voltage pulse or a current pulse) or a light pulse just to induce an insulator-to-metal phase transition (IMT) in vanadium dioxide. The applications of such a fast optical switch for an on-demand optical add-drop subsystem, integrating with (a) a light slowing/light stopping component (based on metamaterials and/or nanoplasmonic structures) and (b) with or without a wavelength converter are also described.
Abstract:
A system and/or a method based on a scalable requirement, compliance and resource management methodology for designing a product/service, optimizing relevant processes and enhancing real time and/or near real time collaboration between many users is disclosed. Utilizing, a learning (self-learning) computer, a requirement, compliance and resource management methodology is further integrated with (a) a machine learning/fuzzy/neuro-fuzzy logic algorithm and/or (b) statistical algorithm and/or (c) weighting logic algorithm and/or (d) game theory algorithm and/or (e) a blockchain and enhanced with a graphical user interface.
Abstract:
A system and/or a method based on a scalable requirement, compliance and resource management methodology for designing a product/service, optimizing relevant processes and enhancing real time and/or near real time collaboration between many users is disclosed. The requirement, compliance and resource management methodology is further integrated with a fuzzy/neuro-fuzzy logic algorithm module and/or statistical algorithm module and/or weighting logic algorithm module and enhanced with a graphical user interface.
Abstract:
System on chips (SoCs) based a microprocessor or a neural processor (e.g., brain-inspired processor) electrically coupled with electronic memory devices and/or optically coupled with an optical memory device, along with embodiment(s) of building block (an element) of the microprocessor/neural processor, electronic memory device and optical memory device are disclosed. It should be noted that a microprocessor can be replaced by a graphical processor.
Abstract:
A system and/or a method based on a scalable requirement, compliance and resource management methodology for designing a product/service, optimizing relevant processes and enhancing real time and/or near real time collaboration between many users. The requirement, compliance and resource management methodology is further integrated with a fuzzy/neuro-fuzzy logic algorithm module and/or statistical algorithm module and/or weighting logic algorithm module and enhanced with a graphical user interface.
Abstract:
System on chips (SoCs) based on a microprocessor or a neural processor (e.g., brain-inspired processor) electrically coupled with electronic memory devices and/or optically coupled with an optical memory device, along with embodiment(s) of a building block (an element) of the microprocessor/neural processor, the electronic memory device and the optical memory device are disclosed. It should be noted that a microprocessor can be replaced by a graphical processor.
Abstract:
A system and/or a method based on a scalable requirement, compliance and resource management methodology for designing a product/service, optimizing relevant processes and enhancing real time and/or near real time collaboration between many users is disclosed. Utilizing, a learning (self-learning) computer, a requirement, compliance and resource management methodology is further integrated with (a) a machine learning/fuzzy/neuro-fuzzy logic algorithm and/or (b) statistical algorithm and/or (c) weighting logic algorithm and/or (d) game theory algorithm and/or (e) a blockchain and enhanced with a graphical user interface/chatbot interface.
Abstract:
A fast optical switch can be fabricated/constructed, when vanadium dioxide (VO2) ultra thin-film or vanadium dioxide (VO2)/two-dimensional (2-D) material or a cluster of vanadium dioxide particles (less than 0.5 microns in diameter) embedded in an ultra thin-film of a polymeric material or in a mesh of metal nanowires is activated by either an electrical pulse (a voltage pulse or a current pulse) or a light pulse just to induce rapid insulator-to-metal phase transition (IMT) in vanadium dioxide ultra thin-film or vanadium dioxide particles embedded in an ultra thin-film of a polymeric material or in a mesh of metal nanowires. The applications of such a fast optical switch for an on-Demand optical add-drop subsystem, integrating with or without a wavelength converter are also described.