Abstract: An example of the instant solution comprises at least one of receiving an encrypted data and an encryption key, generating a randomized matrix, dispersing the encrypted data based on the randomized matrix resulting in a fragmented encrypted data and dispersing the encryption key based on the randomized matrix and the fragmented encrypted data.

Abstract: An example of the instant solution comprises at least one of receiving an encrypted data and an encryption key, generating a randomized matrix, dispersing the encrypted data based on the randomized matrix resulting in a fragmented encrypted data and dispersing the encryption key based on the randomized matrix and the fragmented encrypted data.

Abstract: An example of the instant solution comprises at least one of receiving an encrypted data and an encryption key, generating a randomized matrix, dispersing the encrypted data based on the randomized matrix resulting in a fragmented encrypted data and dispersing the encryption key based on the randomized matrix and the fragmented encrypted data.

Abstract: A system and method automatically links security events associated with a computer network and system calls of plural networked computers interfaced with the computer network. System call information of the system calls of the plural networked computers are communicated to a network location to associate security events with system calls across the networked computers and provide a causal graph that reconstructs a sequence of events with precise attribution and timing to comprehend entities and actions associated with the security event.

Abstract: One example method includes, receiving a plurality of disparate sensor readings from a device, determining a plurality of noise signals based on the plurality of disparate sensor readings, correlating the plurality of noise signals, generating a preliminary string of integers based on the correlated noise signals, sampling the preliminary string of integers, testing the sampled preliminary string of integers for randomness, randomizing the tested preliminary string of integers, utilizing outputs from the device, if the tested preliminary string of integers are not random and validating a string of random integers based on the tested preliminary string of integers.

Abstract: An example of the instant solution comprises at least one of receiving a plurality of disparate sensor readings from a device, determining a plurality of noise signals based on the plurality of disparate sensor readings, correlating the plurality of noise signals, generating a preliminary string of integers based on the correlated noise signals, sampling the preliminary string of integers, testing the sampled preliminary string of integers for randomness, randomizing the tested preliminary string of integers, utilizing outputs from the device, if the tested preliminary string of integers are not random and validating a string of random integers based on the tested preliminary string of integers.

Abstract: An example of the instant solution comprises at least one of receiving an encrypted data and an encryption key, generating a randomized matrix, dispersing the encrypted data based on the randomized matrix resulting in a fragmented encrypted data and dispersing the encryption key based on the randomized matrix and the fragmented encrypted data.

Abstract: An interactive display system comprises a white board which communicates with a PC. A projector receives signals from the PC which are translated into corresponding project image which is projected on to the white board. The image projected on to the white board is the same as that shown on a computer screen. By using an electronic pen the position of which can be detected electronically by means of a plurality of wires embedded beneath the surface of the white board and using methods already known in the art, the electronic pen can function in the same way as a computer mouse. The image projected on to the white board may also be manipulated by means of a remote control device, which uses Infra red communication to transmit signals to a transponder built within the white board.

Abstract: An interactive display system comprises a white board which communicates with a PC. A projector receives signals from the PC which are translated into corresponding projection image which is projected on to the white board. The image projected on to the white board is the same as that shown on a computer screen. By using an electronic pen the position of which can be detected electronically by means of a plurality of wires embedded beneath the surface of the white board and using methods already known in the art, the electronic pen can function the same way as a computer mouse. The image projected on to the white board may also be manipulated by means of a remote control device, which uses infra red communication to transmit signals to a transponder built within the white board.

Abstract: Disclosed embodiments of the apparatus address the challenges of rotary PSA systems, both axial and radial flow, with M>1 by providing interpenetrating, layered manifolds to accommodate all of the steps of a complex PSA cycle, suitable with equal compactness for any value of “M”. This approach extends readily to accommodate a plurality of rotary PSA modules and their cooperating compression machinery within a single layered manifold assembly for a single PSA plant train. Described embodiments of the rotary PSA apparatus include stators that define fluid ports. In particular embodiments of the described apparatus, a second stator defines pressure swing adsorption cycle sectors, each sector being defined by a light product delivery port, light product withdrawal ports, and light reflux return ports. The adsorber elements may directly contact one or more of the stators in a fluidly sealing manner (i.e., have a clearance gap of from about 0 to about 50 microns) using described reinforced adsorbers.

Abstract: An improved method for consistent updates of redundant data in a database is achieved advantageously by providing a dependency model identifying source fields and respective derived fields. The model having the necessary information for dependent data to be identified and calculated on a change of respective source data according to some predetermined rules. Further, by recording changes, i.e., modifications to data involved in a redundancy, and propagating changes including cascaded changes directed to the derived fields using the rules defied in said dependency model. Advantageously, the dependency model is stored as a database table (2) and the changes are recorded in a change table in the database. The step of recording changes is separated from the step of propagating changes to derived fields in order to improve performance.

Abstract: Disclosed embodiments of the apparatus address the challenges of rotary PSA systems, both axial and radial flow, with M>1 by providing interpenetrating, layered manifolds to accommodate all of the steps of a complex PSA cycle, suitable with equal compactness for any value of “M”. This approach extends readily to accommodate a plurality of rotary PSA modules and their cooperating compression machinery within a single layered manifold assembly for a single PSA plant train. Described embodiments of the rotary PSA apparatus include stators that define fluid ports. In particular embodiments of the described apparatus, a second stator defines pressure swing adsorption cycle sectors, each sector being defined by a light product delivery port, light product withdrawal ports, and light reflux return ports. The adsorber elements may directly contact one or more of the stators in a fluidly sealing manner (i.e., have a clearance gap of from about 0 to about 50 microns) using described reinforced adsorbers.