Horizontal switch scalability via load balancing
US Patent 10,326,799
June 18, 2019
Embodiments are directed to secure communication over a network. If a source node sends a communication to a target node, a source gateway may forward the communication to the target node. The source gateway may provide a gateway identifier (GID) that may be associated with one or more target gateways associated with the target node. Further, the source gateway may embed marker information that includes at least a portion of the GID in the communication. If the GID is associated with more than one target gateway, a TMD selects one target gateway from the more than one target gateways. Also, the TMD provides a gateway key associated with the selected target gateway that is associated with the communication. And, the TMD may provide the communication to the selected target gateway that provides the communication to the target node.
Secure communication secret sharing
US Patent 10,326,741
June 18, 2019
Embodiments are directed to sharing secure communication secrets with a network monitoring device (NMD). The NMD may passively monitor network packets communicated between client computers and server computers. If a secure communication session is established between a client computer and a server computer, a key provider may provide the NMD a session key that corresponds to the secure communication session. The NMD may buffer each network packet associated with the secure communication session until the NMD is provided a session key for the secure communication session. The NMD may use the session key to decrypt network packets communicated between the client computer and the server computer. The NMD may then proceed to analyze the secure communication session based on the contents of the decrypted network packets.
Hash based per subscriber DNS based traffic classification
US Patent 10,326,700
June 18, 2019
Embodiments are directed towards managing name service communications using traffic management computers (TMCs). TMCs may extract values from a name service reply received from one or more name service computers. TMCs may provide a name service key based on the values extracted from the name service reply. Accordingly, if a new flow may be detected further actions may be performed, including: TMCs may extract values from a network packet associated with the new flow; TMCs may provide a flow key based on one or more values from one or more fields of a network packet associated with the new flow; TMCs may compare the flow key to one or more name service keys; and if the comparison may be affirmative, TMCs may apply one or more traffic management policies associated with the affirmative comparison.
US Patent 10,326,676
June 18, 2019
Embodiments are directed to monitoring network traffic using a network computer. The network computer provides anomaly information associated with anomalies that may be associated with monitored network traffic. An inference engine may determine the users associated with the anomalies based on the monitored network traffic. A communication channel associated with the users may be determined based on the anomalies and the monitored network traffic such that the communication channel may be separate from the monitored network traffic. The communication channel may be employed to provide investigative agents to the users. Investigative information may be collected from the investigative agents over the communication channel. The inference engine may provide a risk value that is associated with the anomalies based on the investigative information.
Surface scattering antenna systems with reflector or lens
US Patent 10,326,203
June 18, 2019
A system for forming a beam includes one or more wave sources; one or more surface scattering antennas (for example, one or more holographic metasurface antennas) coupled to the one or more wave sources, wherein each of the one or more surface scattering antennas comprises an array of scattering elements that are dynamically adjustable in response to one or more waves provided by the one or more wave sources to produce a beam; and a beam shaper configured to receive the beam from each of the one or more surface scattering antennas and to redirect the beam, preferably, with gain.
(Alprazolam)
Augmented reality for enhancing sporting events
US Patent 10,325,410
June 18, 2019
Methods, systems, and techniques for enhancing a live sporting event using augmented reality are provided. Example embodiments provide an Augmented Reality Live Game Enhancement System ("ARLGES"), which enables users to see augmentations appear as if they are "live" on the sports field as they are watching the game. The user is able to see and interactive with these augmentations using his or her mobile device without taking his or her eyes off of the field. In some deployments, the mobile device is a cellular smartphone with an (optional) modified virtual headset. The user can view the augmentations using the camera of the phone. The ARLGES provides specific techniques for locating the user's position and for rendering augmentations that are specific to each user. This requires specialized rendering techniques because the user's mobile device positions and chroma values are determined dynamically as they do not originate from fixed or known cameras.
Machine vision for ego-motion, segmenting, and classifying objects
US Patent 10,325,376
June 18, 2019
Systems and methods for machine vision are presented. Such machine vision includes ego-motion, as well as the segmentation and/or classification of image data of one or more targets of interest. The projection and detection of scanning light beams that generate a pattern are employed. Real-time continuous and accurate spatial-temporal 3D sensing is achieved. The relative motion between an observer and a projection surface is determined. A combination of visible and non-visible patterns, as well as a combination of visible and non-visible sensor arrays is employed to sense 3D coordinates of target features, as well as acquire color image data to generate 3D color images of targets. Stereoscopic pairs of cameras are employed to generate 3D image data. Such cameras are dynamically aligned and calibrated. Information may be encoded in the transmitted patterns. The information is decoded upon detection of the pattern and employed to determine features of the reflecting surface.
Allocating heritage information in data models
US Patent 10,325,232
June 18, 2019
Various embodiments are directed towards including heritage information when allocating costs for a plurality of cost objects. A target object, a source object and heritage objects may be determined from a data model. At least one line item in the source object may be generated by allocating costs from the heritage objects with the generated source object line items corresponding to a line item from a heritage object. At least one line item in the target object may be generated based on allocating costs from the source object. And, at least one generated target object line item may be based on at least one source object line item and its corresponding heritage object line item. A final cost value for the target object may be generated based on a sum of each target object line item and displayed in the data model.
Tracking and viewing model changes based on time
US Patent 10,324,951
June 18, 2019
Embodiments are directed towards managing changes to data. A modeling engine may provide a data model based on objects comprised of one or more versions of one or more properties. Each version of the properties may be associated with separate validity ranges over time during which each version is valid. A report for visualizing the data model at a point-in-time may be provided. One or more report values may be provided based on each version of the properties that have a validity range that includes the point-in-time. The report may be displayed to provide provides one or more visualizations based on the one or more report values.
Three-dimensional triangulation and time-of-flight based tracking systems and methods
US Patent 10,324,187
June 18, 2019
A three-dimension position tracking system is presented. The system includes transmitters and receivers. A transmitter scans continuous or pulsed coherent light beams across a target. The receiver detects the reflected beams. The system recursively determines the location of the target, as a function of time, via triangulation and observation of the time-of-flight of the incoming and outgoing beams. The transmitter includes ultra-fast scanning optics to scan the receiver's field-of-view. The receiver includes arrays of ultra-fast photosensitive pixels. The system determines the angles of the incoming beams based on the line-of-sight of the triggered pixels. By observing the incoming angles and correlating timestamps associated with the outgoing and incoming beams, the system accurately, and in near real-time, determines the location of the target. By combining the geometry of the scattered beams, as well as the beams' time-of-flight, ambiguities inherent to triangulation and ambiguities inherent to time-of-flight location methods are resolved.
