Abstract: Methods are provided to secure a mutual Transport Layer Security (TLS) verification between a client computer and a server computer, using an authorized viewer. Methods may include intercepting a file at the authorized viewer. Methods may include using a content inspection Artificial Intelligence (AI) module to inspect the data. Methods may include preventing the transmission of malicious data to a server computer.

Abstract: Systems, devices, and methods for machine learning based processing of service requests is described. A user device may send a service request to a service management platform. Based on keywords in the request and a knowledge base, the service management platform may send indications of one or more prospective solutions to the user device. The service management platform may update the knowledge base based on success or failure of the prospective solution.

Abstract: Systems, computer program products, and methods are described herein for network traffic discovery and analysis. The present invention is configured to capture data traffic across network ports in a computing environment; retrieve source code from code repositories; determine that the data traffic and the source code are associated with application programming interface (API) traffic; determine a first API associated with the API traffic; determine, using a machine learning (ML) subsystem, whether the first API meets supervisory requirements; and invoke a remediation protocol in an instance when the first API does not meet supervisory requirements.

Abstract: Systems, computer program products, and methods are described herein for network traffic discovery and routing. The present invention is configured to capture data traffic across network ports in a computing environment; retrieve source code from code repositories; determine that the data traffic and the source code are associated with application programming interface (API) traffic; determine one or more end-point devices associated with the API traffic; determine a first API capable of processing the API traffic, wherein the first API meets supervisory requirements; and transmit a notification to the one or more end-point devices, wherein the notification comprises a recommendation to use the first API to process the API traffic.

Abstract: Methods are provided to secure a mutual Transport Layer Security (TLS) verification between a client computer and a server computer, using an authorized viewer. Methods may include intercepting a file at the authorized viewer. Methods may include using a content inspection Artificial Intelligence (AI) module to inspect the data. Methods may include preventing the transmission of malicious data to a server computer.

Abstract: An application server system and a method for generating a three-Dimensional (3D) model from 2D humanoid sketches is provided. The method includes receiving, by a parameterized humanoid engine, the 2D humanoid sketches from a user device associated with a user, predicting 3D vertices that correspond to the 2D humanoid sketches based on a pose, shape, and camera orientation of a subject in the 2D humanoid sketches, plotting, using a 3D vertex plotting engine, the 3D vertices to obtain a rough 3D model, rendering the rough 3D model onto a user interface of an application server system or the user device, enabling the user to realign the rough 3D model, thereby obtaining a realigned 3D model that is accurately fit the rough 3D model to the 2D humanoid sketches, and adding textures to the realigned 3D model to generate the 3D model of the subject in the 2D humanoid sketches.

Abstract: A method for managing a storage system includes initiating, by a hardware resource manager, a boot-up of a storage controller managing the storage system comprising a plurality of storage devices, making a determination, by the storage controller, that the storage controller is in a secured mode, based on the determination: identifying a security state of each of the plurality of storage devices, determining that a storage device of the plurality of storage devices is in an unsecured state, and based on the unsecured state, sending, by the storage controller, a security operation request for securing the storage device, obtaining a secure state response from the hardware resource manager corresponding to securing the storage device, and based on the secure state response, resuming operation of the storage controller based on the secure mode.

Abstract: An application server system and a method for generating a three-Dimensional (3D) model from 2D humanoid sketches is provided. The method includes receiving, by a parameterized humanoid engine, the 2D humanoid sketches from a user device associated with a user, predicting 3D vertices that correspond to the 2D humanoid sketches based on a pose, shape, and camera orientation of a subject in the 2D humanoid sketches, plotting, using a 3D vertex plotting engine, the 3D vertices to obtain a rough 3D model, rendering the rough 3D model onto a user interface of an application server system or the user device, enabling the user to realign the rough 3D model, thereby obtaining a realigned 3D model that is accurately fit the rough 3D model to the 2D humanoid sketches, and adding textures to the realigned 3D model to generate the 3D model of the subject in the 2D humanoid sketches.

Abstract: What is disclosed is a method for wireless communication comprising receiving a wireless communication via a receiver of the mobile communication device, deriving a demodulation reference signal from a first plurality of symbols of the wireless communication; creating a channel estimation matrix using the demodulation reference signal; inverting the channel estimation matrix to obtain a channel pseudo-inverse matrix; deriving a tracking reference signal from a second plurality of symbols of the wireless communication; calculating a phase shift for one or more additional symbols based on the tracking reference signal; determining a corrected channel pseudo-inverse matrix for the one or more additional symbols by adjusting the channel pseudo-inverse matrix according to the calculated phase shift; and controlling the receiver to accomplish data detection using the corrected channel pseudo-inverse matrix on one or more orthogonal frequency division multiplexing subcarriers.

Abstract: What is disclosed is a method for wireless communication comprising receiving a wireless communication via a receiver of the mobile communication device, deriving a demodulation reference signal from a first plurality of symbols of the wireless communication; creating a channel estimation matrix using the demodulation reference signal; inverting the channel estimation matrix to obtain a channel pseudo-inverse matrix; deriving a tracking reference signal from a second plurality of symbols of the wireless communication; calculating a phase shift for one or more additional symbols based on the tracking reference signal; determining a corrected channel pseudo-inverse matrix for the one or more additional symbols by adjusting the channel pseudo-inverse matrix according to the calculated phase shift; and controlling the receiver to accomplish data detection using the corrected channel pseudo-inverse matrix on one or more orthogonal frequency division multiplexing subcarriers.

Abstract: What is disclosed is a method for wireless communication comprising receiving a wireless communication via a receiver of the mobile communication device, deriving a demodulation reference signal from a first plurality of symbols of the wireless communication; creating a channel estimation matrix using the demodulation reference signal; inverting the channel estimation matrix to obtain a channel pseudo-inverse matrix; deriving a tracking reference signal from a second plurality of symbols of the wireless communication; calculating a phase shift for one or more additional symbols based on the tracking reference signal; determining a corrected channel pseudo-inverse matrix for the one or more additional symbols by adjusting the channel pseudo-inverse matrix according to the calculated phase shift; and controlling the receiver to accomplish data detection using the corrected channel pseudo-inverse matrix on one or more orthogonal frequency division multiplexing subcarriers.

Abstract: What is disclosed is a method for wireless communication comprising receiving a wireless communication via a receiver of the mobile communication device, deriving a demodulation reference signal from a first plurality of symbols of the wireless communication; creating a channel estimation matrix using the demodulation reference signal; inverting the channel estimation matrix to obtain a channel pseudo-inverse matrix; deriving a tracking reference signal from a second plurality of symbols of the wireless communication; calculating a phase shift for one or more additional symbols based on the tracking reference signal; determining a corrected channel pseudo-inverse matrix for the one or more additional symbols by adjusting the channel pseudo-inverse matrix according to the calculated phase shift; and controlling the receiver to accomplish data detection using the corrected channel pseudo-inverse matrix on one or more orthogonal frequency division multiplexing subcarriers.

Abstract: A method, non-transitory computer-readable storage device, and apparatus for providing a proactive customer care service. For example, the method collects data from a plurality of communication channels related to a plurality of touchpoints, determines a plurality of journeys from the plurality of touchpoints, where at least one of the plurality of journeys is classified as a negative journey, determines a start of the negative journey by a user, and interacts with an endpoint device of the user before a next touchpoint for the negative journey is reached by the user.

Abstract: Aspects of a method and system for compensation of interference cancellation delay are provided. In this regard, a wireless communication device may receive one or more signals and may be operable to select, whether dynamically or statically, a processing path for processing the one or more received signals. The selected processing path may comprise one of an interference cancellation processing path and a pass-through processing path. A delay introduced by the pass-through processing path may be approximately equal to a processing delay introduced by the interference cancellation processing path. The one or more received signals may comprise HSDPA signals. The selection of processing path may be based on a measure of interference present in the one or more received signals.

Abstract: Aspects of a method and system for a delay-locked loop for closely spaced multipath may include determining a difference signal computed from one or more early energies and one or more late energies associated with one or more channel taps selected from a plurality of channel taps. A fat finger timing may be adjusted based on the difference signal, the fat finger comprising the plurality of channel taps that are spaced contiguously at chip period intervals. The one or more early energies and the one or more late energies may be determined based on an offset of Tc/2 or 3Tc/8, where Tc denotes the chip period interval. The offset may be measured from an energy peak associated with a multipath component that may be associated with the fat finger.

Abstract: Aspects of a method and system for compensation of interference cancellation delay are provided. In this regard, a wireless communication device may receive one or more signals and may be operable to select, whether dynamically or statically, a processing path for processing the one or more received signals. The selected processing path may comprise one of an interference cancellation processing path and a pass-through processing path. A delay introduced by the pass-through processing path may be approximately equal to a processing delay introduced by the interference cancellation processing path. The one or more received signals may comprise HSDPA signals. The selection of processing path may be based on a measure of interference present in the one or more received signals.

Abstract: Aspects of a method and system for a delay-locked loop for closely spaced multipath may include determining a difference signal computed from one or more early energies and one or more late energies associated with one or more channel taps selected from a plurality of channel taps. A fat finger timing may be adjusted based on the difference signal, the fat finger comprising the plurality of channel taps that are spaced contiguously at chip period intervals. The one or more early energies and the one or more late energies may be determined based on an offset of Tc/2 or 3Tc/8, where Tc denotes the chip period interval. The offset may be measured from an energy peak associated with a multipath component that may be associated with the fat finger.

Abstract: A semiconductor fabrication process includes forming a gate dielectric layer (120) overlying a substrate (101) that includes a III-V semiconductor compound. The gate dielectric layer is patterned to produce a gate dielectric structure (121) that has a substantially vertical sidewall (127), e.g., a slope of approximately 45° to 90°. A metal contact structure (130) is formed overlying the wafer substrate. The contact structure is laterally displaced from the gate dielectric structure sufficiently to define a gap (133) between the two. The wafer (100) is heat treated, which causes migration of at least one of the metal elements to form an alloy region (137) in the underlying wafer substrate. The alloy region underlies the contact structure and extends across all or a portion of the wafer substrate underlying the gap. An insulative or dielectric capping layer (140,150) is then formed overlying the wafer and covering the portion of the substrate exposed by the gap.

Abstract: A method of forming a semiconductor structure includes forming a channel layer; forming a superlattice barrier layer overlying the channel layer, and forming a gate dielectric overlying the superlattice barrier layer. The superlattice barrier layer includes alternating first and second layers of barrier material. In addition, the superlattice barrier layer is configured for increasing a transconductance of the semiconductor device by at least a factor of three over a semiconductor device absent such superlattice barrier layer.

Abstract: A method of forming a III-V compound semiconductor structure (10) comprises providing a III-V compound semiconductor substrate including a semi-insulating substrate (12) having at least one epitaxial layer formed thereon and further having a gate insulator (14) overlying the at least one epitaxial layer. The at least one epitaxial layer formed on the semi-insulating substrate comprises an epi-structure suitable for use in the formation of a channel of a III-V compound semiconductor MOSFET device, wherein the channel (30) having a first polarity. The method further comprises forming a charge layer (22) at a surface of the gate insulator, the charge layer having a second polarity, wherein the second polarity is opposite to the first polarity.