Abstract: A media-defined optical logic circuit composed of a set of light-transmitting polyhedral prisms arranged so that a pair of adjacent prisms can exchange photonic signals through adjacent surfaces. Each prism contains one or more quantum dots that, when excited by a photonic signal received from an adjacent prism, respond by emitting light that becomes an incoming photonic signal for an adjacent prism. Photonic signals are propagated through the circuit in this manner along light-guide paths created by shading certain surfaces to render them fully or partially opaque. The prisms and shading are arranged such that the circuit performs a certain logic function. When the circuit receives a set of photonic input signals representing a binary input value, the circuit responds by emitting a set of photonic output signals that represent a binary output value determined by performing the logic function upon the binary input value.

Abstract: Method of collision avoidance which includes: sensing parameters by a first vehicle with respect to relative movements of the first vehicle and a second vehicle; responsive to determining by the first vehicle, based on the sensed parameters, of an impending collision with the second vehicle, communicating, by the first vehicle, a query to the second vehicle as to if the second vehicle can perform a corrective action to avoid a collision with the first vehicle; and performing, by the first vehicle and independent of any corrective action performed by the second vehicle, a corrective action to avoid a collision with the second vehicle.

Abstract: Data indicating current driving characteristics of a driver driving a vehicle can be received in real time. A driving profile for the driver can be determined based on the data. The driving profile can be categorized into a driving pattern category. A plurality of candidate travel routes for the driver to reach an intended destination can be identified and, for each of the candidate travel routes, a plurality of route segments can be identified. Based on the driving pattern category, a probability that the current driving characteristics of the driver will cause a traffic accident can be determined for each of the plurality of route segments. Route segments for which the probability that the current driving characteristics of the driver will cause the traffic accident exceeds a threshold value can be determined. A notification can be communicated to the driver or vehicle indicating such probability.

Abstract: A media-defined optical logic circuit composed of a set of light-transmitting polyhedral prisms arranged so that a pair of adjacent prisms can exchange photonic signals through adjacent surfaces. Each prism contains one or more quantum dots that, when excited by a photonic signal received from an adjacent prism, respond by emitting light that becomes an incoming photonic signal for an adjacent prism. Photonic signals are propagated through the circuit in this manner along light-guide paths created by shading certain surfaces to render them fully or partially opaque. The prisms and shading are arranged such that the circuit performs a certain logic function. When the circuit receives a set of photonic input signals representing a binary input value, the circuit responds by emitting a set of photonic output signals that represent a binary output value determined by performing the logic function upon the binary input value.

Abstract: Data indicating current driving characteristics of a driver driving a vehicle can be received in real time. A driving profile for the driver can be determined based on the data. The driving profile can be categorized into a driving pattern category. A plurality of candidate travel routes for the driver to reach an intended destination can be identified and, for each of the candidate travel routes, a plurality of route segments can be identified. Based on the driving pattern category, a probability that the current driving characteristics of the driver will cause a traffic accident can be determined for each of the plurality of route segments. Route segments for which the probability that the current driving characteristics of the driver will cause the traffic accident exceeds a threshold value can be determined. A notification can be communicated to the driver or vehicle indicating such probability.

Abstract: A fiber optic light intensity encryption method is provided. The method includes determining light intensities associated with multi-frequency light pulses emitted by a laser transmitter apparatus in response to an encryptions process. An encryption type for application of an encryption algorithm to each light intensity is determined and a first light intensity associated with a first light pulse is selected. Data indicating results of the random selection is transmitted to the laser transmitter apparatus and an initial security key is transmitted over a signaling channel of the laser transmitter apparatus. The signaling channel is secured based on the initial security key resulting in a secure signaling channel. In response, a secure bundle comprising said the secure signaling channel and an additional group of channels is generated and the data is transmitted via the secure bundle.

Abstract: Method of collision avoidance which includes: sensing parameters by a first vehicle with respect to its movement in a first direction; sensing a second vehicle having a movement in the first direction and separated from the first vehicle by a spaced distance; sensing parameters with respect to the movement of the second vehicle; responsive to sensing by the first vehicle of an imminent need to stop the first vehicle to avoid a collision with the second vehicle, calculating a braking distance between the first vehicle and the second vehicle; determining that the braking distance is greater than the spaced distance; communicating by the first vehicle with the second vehicle; querying the second vehicle as to if the second vehicle can take a corrective action to avoid a collision with the first vehicle; and braking the first vehicle independent of any corrective action taken by the second vehicle.

Abstract: A fiber optic light intensity encryption method is provided. The method includes determining light intensities associated with multi-frequency light pulses emitted by a laser transmitter apparatus in response to an encryptions process. An encryption type for application of an encryption algorithm to each light intensity is determined and a first light intensity associated with a first light pulse is selected. Data indicating results of the random selection is transmitted to the laser transmitter apparatus and an initial security key is transmitted over a signaling channel of the laser transmitter apparatus. The signaling channel is secured based on the initial security key resulting in a secure signaling channel. In response, a secure bundle comprising said the secure signaling channel and an additional group of channels is generated and the data is transmitted via the secure bundle.

Abstract: A message requesting a transfer of management responsibilities for a digital object, representing an asset, from a first digital object management system to a second digital object management system can be received from the first digital object management system. Responsive to receiving the message requesting the transfer of the management responsibilities for the digital object, the digital object can be received from the first digital object management system, at least one operation updating data contained within the digital object can be performed by executing at least a first application contained within the digital object, and the digital object can be communicated to the second digital object management system for storage in a digital object database.

Abstract: A computer generates a navigation profile corresponding to a user by identifying one or more user preferences within an associated social media network. The computer receives a user input identifying a starting location and a destination, from which the computer identifies one or more potential routes between the starting location and destination. The computer generates one or more route profiles corresponding to the one or more potential routes detailing one or more characteristics associated with each of the potential routes. The computer then compares the navigation profile associated with the user to the route profiles associated with the one or more potential routes and, based on the comparison, determines an optimal route of the one or more potential routes.

Abstract: A bandwidth throttling method is provided. The method includes receiving by a receiver from a QD Vcel cannon, a plurality of multi-frequency light pulses via a plurality of channels. The receiver determines that the plurality of multi-frequency light pulses comprises an out of band (OOB) signal transmitted over a first channel of the plurality of channels. The receiver receives from a first laser device of the QD Vcel cannon, a first light pulse of the plurality of multi-frequency light pulses. The first light pulse includes a first frequency for testing a visibility of the first light pulse at the receiver. The receiver determines if the first light pulse is visible at the receiver.

Abstract: A bandwidth throttling method is provided. The method includes receiving by a receiver from a QD Vcel cannon, a plurality of multi-frequency light pulses via a plurality of channels. The receiver determines that the plurality of multi-frequency light pulses comprises an out of band (OOB) signal transmitted over a first channel of the plurality of channels. The receiver receives from a first laser device of the QD Vcel cannon, a first light pulse of the plurality of multi-frequency light pulses. The first light pulse includes a first frequency for testing a visibility of the first light pulse at the receiver. The receiver determines if the first light pulse is visible at the receiver.

Abstract: A bandwidth throttling method is provided. The method includes receiving by a receiver from a QD Vcel cannon, a plurality of multi-frequency light pulses via a plurality of channels. The receiver determines that the plurality of multi-frequency light pulses comprises an out of band (OOB) signal transmitted over a first channel of the plurality of channels. The receiver receives from a first laser device of the QD Vcel cannon, a first light pulse of the plurality of multi-frequency light pulses. The first light pulse includes a first frequency for testing a visibility of the first light pulse at the receiver. The receiver determines if the first light pulse is visible at the receiver.

Abstract: A computer generates a navigation profile corresponding to a user by identifying one or more user preferences within an associated social media network. The computer receives a user input identifying a starting location and a destination, from which the computer identifies one or more potential routes between the starting location and destination. The computer generates one or more route profiles corresponding to the one or more potential routes detailing one or more characteristics associated with each of the potential routes. The computer then compares the navigation profile associated with the user to the route profiles associated with the one or more potential routes and, based on the comparison, determines an optimal route of the one or more potential routes.

Abstract: A fiber optic encryption method is provided. The method includes transmitting an initial security key to a laser receiver apparatus over an out of band (OOB) signaling channel of a plurality of channels of a laser transmitter apparatus. The OOB signaling channel is secured based on the initial security key resulting in a secure OOB signaling channel. A secure bundle is generated. The secure bundle includes the secure OOB signaling channel and a group of channels and associated transmission frequencies. Data is transmitted via the secure bundle and it is determined if any channels do not transmit the data.

Abstract: A fiber optic light intensity encryption method is provided. The method includes determining light intensities associated with multi-frequency light pulses emitted by a laser transmitter apparatus in response to an encryptions process. An encryption type for application of an encryption algorithm to each light intensity is determined and a first light intensity associated with a first light pulse is selected. Data indicating results of the random selection is transmitted to the laser transmitter apparatus and an initial security key is transmitted over a signaling channel of the laser transmitter apparatus. The signaling channel is secured based on the initial security key resulting in a secure signaling channel. In response, a secure bundle comprising said the secure signaling channel and an additional group of channels is generated and the data is transmitted via the secure bundle.

Abstract: Traffic flow control. A method identifies traffic in an area. The traffic includes traffic objects. The identifying obtains identifiers of traffic objects in the area. Each traffic object is identified by a respective identifier of the traffic object identifiers. The method also dynamically assigns weights to the traffic objects based on pre-established traffic criteria. Each traffic object is assigned a respective weight of the dynamically assigned weights. The pre-established traffic criteria each include at least one weight value. The weight assigned to a traffic object is based on the weight values of a set of traffic criteria, of the pre-established traffic criteria, applicable to the traffic object and reflects a level of prioritization of a right-of-way of the traffic object. The method also controls flow of the traffic in the area. The controlling the flow includes controlling at least one traffic control signal based on the dynamically assigned weights.

Abstract: Method of collision avoidance which includes: sensing parameters by a first vehicle with respect to its movement in a first direction; sensing a second vehicle having a movement in the first direction and separated from the first vehicle by a spaced distance; sensing parameters with respect to the movement of the second vehicle; responsive to sensing by the first vehicle of an imminent need to stop the first vehicle to avoid a collision with the second vehicle, calculating a braking distance between the first vehicle and the second vehicle; determining that the braking distance is greater than the spaced distance; communicating by the first vehicle with the second vehicle; querying the second vehicle as to if the second vehicle can take a corrective action to avoid a collision with the first vehicle; and braking the first vehicle independent of any corrective action taken by the second vehicle.

Abstract: Computing systems, methods and tools for performing a secure electronic transaction between buyer and merchant. The transaction being able to be implemented without either party having to transmit confidential information between the parties of the transaction. The secure electronic transaction is mediated by a transaction system operating as part of a remotely accessible network or cloud computing environment. The buyer and the merchant register identifying information, payment information, shipping/billing information along with other confidential information to be stored by the transaction system prior to commencing the transaction. The buyer and merchant use assigned ID numbers or truncated versions thereof when transmitting transactional data and transactional approvals through the transaction system.

Abstract: A fiber optic encryption method is provided. The method includes transmitting an initial security key to a laser receiver apparatus over an out of band (OOB) signaling channel of a plurality of channels of a laser transmitter apparatus. The OOB signaling channel is secured based on the initial security key resulting in a secure OOB signaling channel. A secure bundle is generated. The secure bundle includes the secure OOB signaling channel and a group of channels and associated transmission frequencies. Data is transmitted via the secure bundle and it is determined if any channels do not transmit the data.