Abstract: An apparatus for a communication device, the apparatus may include a processor configured to: obtain channel metrics for a plurality of radio communication channels, each obtained channel metric is associated with a respective radio communication channel of the plurality of radio communication channels, generate a plurality of channel hopping sequences, each channel hopping sequence is representative of an allocation of the plurality of radio communication channels for a plurality of time slots, wherein a number of time slots allocated for each radio communication channel within each channel hopping sequence is based on the respective obtained channel metric, and select one of the plurality of channel hopping sequences based on a predefined criterion to communicate with a further communication device.

Abstract: Embodiments of the disclosure are directed to methods of depositing a molybdenum film directly on a substrate surface (e.g., a low-K dielectric material) by exposing the substrate surface to a molybdenum-containing precursor and a plasma at a temperature of less than or equal to 400° C. The molybdenum-containing precursor comprises one or more of molybdenum pentachloride (MoCl5), molybdenum dioxide dichloride (MoO2Cl2), molybdenum oxytetrachloride (MoOCl4), molybdenum hexacarbonyl, bis(tert-butylimido)-bis(dimethylamido)molybdenum, or bis(ethylbenzene) molybdenum. The plasma comprises one or more of hydrogen (H2), nitrogen (N2), or a silane (SixHy). In some embodiments, when the molybdenum-containing precursor comprises molybdenum hexafluoride (MoF6), the plasma does not include hydrogen (H2).

Abstract: Apparatus and associated software and methods for improving medication adherence. A connected medication dispenser includes a robotic arm adapted to deliver a prescribed medication dose to a patient in their home, and software and sensors that analyze the patient's compliance, communicate with external health sensors to monitor the patient's response to the dose, and communicate with external servers to send the result of providing the medication dose to the patient. In an illustrative example, the patient may be a chronic, acute, or terminal illness patient, and the results may be communicated with physicians, payers, caregivers, a pharmacy, and/or the patient's electronic health record. The flow of information may allow the physician or caregiver to offer real-time adjustments to the medication type, dose, and schedule to provide improved therapeutic outcomes.

Abstract: An optical imaging and processing system includes an optical element and a processor configured to process the plurality of image frames to generate a three-dimensional model of at least a portion of the turbine component interior. The system may also include a display coupled to the processor to display the three-dimensional model. An operator may view and analyze the three-dimensional model on the display for defects. The processor may further be configured to automatically navigate the three-dimensional model to determine defects within the turbine component interior. The system may also include a repositioning device configured to reposition the optical element such that the optical element may capture the plurality of image frames from multiple vantage points within the turbine component interior.

Abstract: An optical imaging and processing system includes an optical element and a processor configured to process the plurality of image frames to generate a three-dimensional model of at least a portion of the turbine component interior. The system may also include a display coupled to the processor to display the three-dimensional model. An operator may view and analyze the three-dimensional model on the display for defects. The processor may further be configured to automatically navigate the three-dimensional model to determine defects within the turbine component interior. The system may also include a repositioning device configured to reposition the optical element such that the optical element may capture the plurality of image frames from multiple vantage points within the turbine component interior.

Abstract: An optical imaging and processing system includes an optical connection and an optical element disposed at a first end of the optical connection. The first end of the optical connection is configured to extend into a turbine component interior such that the optical element is disposed within the turbine component interior. The system also includes a photodiode array disposed at a second end of the optical connection, where the optical element is configured to transmit a video stream of the turbine component interior to the photodiode array as the optical element is moved within the turbine component interior between multiple vantage points. The system also includes a processor coupled to the photodiode array, wherein the processor is configured to process the video stream to generate a three-dimensional model of at least a portion of the turbine component interior without utilizing a previously defined three-dimensional model input of the turbine component interior.

Abstract: The present invention provides a traffic diversion system at a traffic intersection which comprises a traffic signal arrangement including a straight-through signal, a stop signal, a custom signal. The traffic diversion system at a traffic intersection further provides for two opposite straight-through signals to open at a time and direct right turn in a left-hand traffic system and a direct left turn in a right-hand traffic system is prohibited. According to an embodiment, the vehicle which intends to take right turn in a left-hand traffic system will be directed using custom signal to take a left turn and a ‘U’ turn. Similarly, in a right-hand traffic system, the vehicle which intends to take left turn will be directed to take a right turn and a ‘U’ turn upon the custom signal being enabled.

Abstract: The present invention provides a traffic diversion system at a traffic intersection which comprises a traffic signal arrangement including a straight-through signal, a stop signal, a ‘C’ signal or an inverse ‘C’ signal. The traffic diversion system at a traffic intersection further provides a provision for two opposite lanes to open at a time and direct right turn is prohibited. According to an embodiment, the vehicle which intends to take right turn will be first required to take a left turn and then a ‘U’ turn upon the ‘C’ signal indicator. The ‘C’ signal indicator will be introduced along with the other traffic signals so that a vehicle takes the ‘C’ turn only when the ‘C’ signals indicator is ‘green’.

Abstract: An optical imaging and processing system includes an optical connection and an optical element disposed at a first end of the optical connection. The first end of the optical connection is configured to extend into a turbine component interior such that the optical element is disposed within the turbine component interior. The system also includes a photodiode array disposed at a second end of the optical connection, where the optical element is configured to transmit a video stream of the turbine component interior to the photodiode array as the optical element is moved within the turbine component interior between multiple vantage points. The system also includes a processor coupled to the photodiode array, wherein the processor is configured to process the video stream to generate a three-dimensional model of at least a portion of the turbine component interior without utilizing a previously defined three-dimensional model input of the turbine component interior.

Abstract: Certain embodiments herein are directed to systems and methods to predict failures in power systems equipment. In one embodiment, one or more life-span models associated with power systems equipment may be received. Examples of such life-span models may include a left-censoring model, a right-censoring model, and an interval-censoring model. An accuracy of the life-span models may be determined based at least in part on statistical analysis, such as a Weibull distribution analysis. A stability of the life-span models may also be determined, in certain embodiments herein.

Abstract: Certain embodiments herein are directed to systems and methods to predict failures in power systems equipment. In one embodiment, one or more life-span models associated with power systems equipment may be received. Examples of such life-span models may include a left-censoring model, a right-censoring model, and an interval-censoring model. An accuracy of the life-span models may be determined based at least in part on statistical analysis, such as a Weibull distribution analysis. A stability of the life-span models may also be determined, in certain embodiments herein.

Abstract: A computer-readable medium including computer-executable instructions that, when executed by a processor, cause the processor to perform acts, via an associated method that includes selecting a fault tree based upon an architecture of a safety instrumented system. The method includes evaluating at least a failure probability due to dangerous detected failures and a failure probability due to dangerous undetected failures as a function of values of factors. A portion of the failure probability due to dangerous undetected failures is based on failures detected during proof testing and a remainder of the failure probability due to dangerous undetected failures is based on failures detected during refurbishment. The method includes generating a probability of failure on demand for the safety instrumented system by combining at least the failure probability due to dangerous detected failures and the failure probability due to dangerous undetected failures according to the fault tree.