Abstract: Systems, computer products, and methods are described herein for a shared capability system for improved logging of events that occur on systems and within applications on the systems. The present invention captures logged data, converts it into a format that is uniform across multiple systems and applications, and streams the logged data to a centralized storage database for analysis and reporting, without ever storing the logged data on the applications and/or systems on which the events occurred. As such, the shared capability provides a consistent mechanism, with minimal costs, to enable event capture across multiple applications while improving the storage memory, speed, and capacity of the applications and/or systems on which the events occurred because logged data is not stored locally on the applications and/or systems.

Abstract: Embodiments disclosed herein relate to data analytics system and more particularly relates to a system and method for assessing an individual in a computing environment. Accordingly, the system receives a first set of objects along with a first set of test inputs, from a user device; analyses received first set of objects and the first set of test inputs corresponding to the first set of objects; retrieves a set of relevant data corresponding to the first set of objects based on the analysis; determines first test results based on the set of relevant data and the first test inputs; provides build environment to the user device based on the first test results to receive a second set of objects; evaluates the second set of objects with the first set of objects; computes overall score based on a first score and a second score.

Abstract: A system may include an active first point of deployment (POD) configured to provide a specified business functionality and may include a first server and a first instance of a platform to provide the specified business function. A dark second POD may be configured to include a second server and a second instance of the platform template, where the first platform template instance comprises a different version than the second platform template instance. A POD management computing device may test an operation of the second POD in parallel with the operation of the first POD. The POD management computing device may upgrade the business functionality by deactivating the first POD and activating the second POD to provide the specified business function using the second instance of the platform template.

Abstract: The present disclosure generally relates to a method for performing industrial automation control in an industrial automation system. The method may include detecting, via a sensor system, positions and/or motions of a human. The method may then determine a possible automation command corresponding to the detected positions and/or motions, receive an automation system signal from at least one additional control component, and implement a control and/or notification action based upon the determined possible automation command and the received automation system signal.

Abstract: An energy-efficient industrial sensor is provided that optimizes power consumption based on characteristics of the requirements of the sensing application in which the sensor is used. Operating parameters of the sensor, such as sensing range, operating frequency, response time, noise immunity, or other such parameters, can be scaled to suit the sensing and response requirements and environmental conditions of the sensing application. This allows the sensor to consume less energy when used in sensing applications that do not require peak sensor performance. In some embodiments, the sensor can measure the environmental or machine operating conditions in its immediate vicinity and dynamically scale its operating parameters based on the measured information. By down-scaling the sensor's operating parameters from their maximum performance levels where appropriate, the overall energy footprint of a network of sensors can be reduced.

Abstract: A fiber distribution hub includes an enclosure defining an interior region and a frame body having a longitudinal axis. The frame body is rotatably mounted within the interior region of the enclosure such that the frame body can rotate about the longitudinal axis relative to the enclosure between a first terminal angular position and a second terminal angular position. The frame body is rotatably mounted within the interior region of the enclosure also such that the entire frame body remains within the interior region as the frame body rotates between the first terminal angular position and the second terminal angular position. The fiber distribution hub also includes a splitter coupled to the frame body, and having a splitter input and a splitter output.

Abstract: A fiber distribution hub (FDH) can include an enclosure defining an interior region and a frame body having a longitudinal axis. The frame body is rotatably mounted within the interior region of the enclosure such that the frame body can rotate about the longitudinal axis relative to the enclosure. The FDH further includes a plurality of splitters coupled to the frame body. Each splitter module has at least one splitter input and at least two splitter outputs. The FDH also includes a first plurality of adapters coupled to the frame body. The first plurality of adapters is configured to optically couple to splitter output cables. Additionally, the FDH can also include a storage retaining structure coupled to the frame body, the storage retaining structure being configured to selectively secure connectorized ends of splitter output cables.

Abstract: A system may include a first point of deployment (POD) and a second POD at a data center, where each of the first POD and the second POD may be configured to support a first version of a platform template. The first POD may a first set of servers based on a first hardware platform and the second POD may include a second set of servers based on a second hardware platform. A configuration manager may be configured to determine a difference between the first hardware platform and the second hardware platform and generate a second version of the platform template based on the difference between the first hardware platform associated and the second hardware platform.

Abstract: A system may include an active first point of deployment (POD) configured to provide a specified business functionality and may include a first server and a first instance of a platform to provide the specified business function. A dark second POD may be configured to include a second server and a second instance of the platform template, where the first platform template instance comprises a different version than the second platform template instance. A POD management computing device may test an operation of the second POD in parallel with the operation of the first POD. The POD management computing device may upgrade the business functionality by deactivating the first POD and activating the second POD to provide the specified business function using the second instance of the platform template.

Abstract: A system associated with a data center may include an active first point of deployment (POD) configured to provide a business functionality to users communicating via a network based on a first version of a platform template, a dark second POD configured with a different second version of the platform template and a switching tool to manage communication to and from the first POD and the second POD. The switching tool may send a received message the message to the destination based, at least in part, on the source of the received message, where the switching tool may send messages received from user devices to the first data center and may send messages received from testing devices to the second data center. The switching tool may, in response to a switching command, switch operation of the business functionality from the first POD to the second POD.

Abstract: Systems and methods are provided for utilizing time of flight sensors in an industrial automation environment. The method includes employing a multi pixel camera associated with a time of flight sensor to detect an object located within a defined or bounded target area, comparing pixels with adjacent pixels associated with an image of the object captured by the multi pixel camera, identifying the object as being a colored, texture, or highly reflective object, and controlling industrial machinery based on the identification of the object entering the target area.

Abstract: A power management module for a solenoid-driven industrial safety lock minimizes energy consumption, protects the power supply line, and improves reliability of the safety lock. The power management module comprises a capacitor bank that stores energy from the power supply line. The stored energy is discharged to the solenoid of the safety lock as needed to actuate the safety lock mechanism (e.g., armature or plunger). The capacitor bank shields the power supply line from high current fluctuations caused by actuation of the solenoid, and allows the safety lock to be operated even in the event of power loss. A discharge controller can closely control the duration of the discharge based on position sensors or a discharge timer to minimize the amount of energy used to transition the locking mechanism.

Abstract: A fiber optic collector and terminal assembly (CTA) can include a multi-fiber optic cable having a tail portion and first and second multi-fiber branches optically coupled to the tail portion. The first and second multi-fiber optic branches each have fewer fibers than the tail portion. The CTA also includes a plurality of single-fiber optic jumpers optically coupled to the first multi-fiber optic branch. Additionally, the CTA includes an adapter for securing a connection between a fiber of one of the plurality of single-fiber optic jumpers and a fiber of a single-fiber optic drop.

Abstract: A fiber distribution hub (FDH) can include an enclosure defining an interior region and a frame body having a longitudinal axis. The frame body is rotatably mounted within the interior region of the enclosure such that the frame body can rotate about the longitudinal axis relative to the enclosure. The FDH further includes a plurality of splitters coupled to the frame body. Each splitter module has at least one splitter input and at least two splitter outputs. The FDH also includes a first plurality of adapters coupled to the frame body. The first plurality of adapters is configured to optically couple to splitter output cables. Additionally, the FDH can also include a storage retaining structure coupled to the frame body, the storage retaining structure being configured to selectively secure connectorized ends of splitter output cables.

Abstract: The present disclosure generally relates to a method for performing industrial automation control in an industrial automation system. The method may include detecting, via a sensor system, positions and/or motions of a human. The method may then determine a possible automation command corresponding to the detected positions and/or motions, receive an automation system signal from at least one additional control component, and implement a control and/or notification action based upon the determined possible automation command and the received automation system signal.

Abstract: A system for calibrating a color sensing pixel based upon the distance between the color sensing pixel and an object. The distance is determined by measuring the phase shift of electromagnetic radiation as reflected from the surface of the object compared with the wave profile of the electromagnetic radiation incident on the object surface. The color sensing pixel is associated with a Time-of-Flight (ToF) pixel which is employed to determine the distance of the color sensing pixel. The electromagnetic radiation can be from any part of the electromagnetic spectrum, in particular the infrared and visible light portions of the electromagnetic spectrum. The color sensing pixel and the ToF pixel can reside on the same semiconductor or on disparate semiconductors.

Abstract: A system for calibrating a color sensing pixel based upon the distance between the color sensing pixel and an object. The distance is determined by measuring the phase shift of electromagnetic radiation as reflected from the surface of the object compared with the wave profile of the electromagnetic radiation incident on the object surface. The color sensing pixel is associated with a Time-of-Flight (ToF) pixel which is employed to determine the distance of the color sensing pixel. The electromagnetic radiation can be from any part of the electromagnetic spectrum, in particular the infrared and visible light portions of the electromagnetic spectrum. The color sensing pixel and the ToF pixel can reside on the same semiconductor or on disparate semiconductors.

Abstract: In a method for managing a plurality of neighboring base stations and handoff of a mobile station, a radio frequency equipment organizes the plurality of neighboring base stations into groups according to base station grouping characteristics associated with the plurality of neighboring base stations. The radio frequency equipment then manages the organized plurality of neighboring base stations for handoff of the mobile station.

Abstract: The present invention relates to an acoustic energy reflector comprising a microcellular rubber as inner liner and a fiber reinforced composite as outer casing, in a core-shell assembly, wherein the said microcellular rubber is selected from the group of natural and synthetic rubbers having glass transition temperature below 0° C. and the resin for the fiber reinforced composite is selected from a group having a glass transition temperature at least 50° C.

Abstract: A fiber optic collector and terminal assembly (CTA) can include a multi-fiber optic cable having a tail portion and first and second multi-fiber branches optically coupled to the tail portion. The first and second multi-fiber optic branches each have fewer fibers than the tail portion. The CTA also includes a plurality of single-fiber optic jumpers optically coupled to the first multi-fiber optic branch. Additionally, the CTA includes an adapter for securing a connection between a fiber of one of the plurality of single-fiber optic jumpers and a fiber of a single-fiber optic drop.