Abstract: A method of operating a power tool having a motor and a controller is provided. The method includes: setting a protection time limit associated with a condition of the motor; taking protective action to shut down the motor if the condition of the motor persists for a duration of the protection time limit; and in response to occurrence of the condition during a start-up period of operation of the motor, extending the protection time limit for a duration of a constant-clutch time period to allow an output speed of the motor to reach or exceed a speed threshold, and taking protective action to shut down the motor if the output speed of the motor remains below the speed threshold for the duration of the constant-clutch time period.

Abstract: Methods, apparatuses, and systems are presented for generating natural language models using a novel system architecture for feature extraction. A method for extracting features for natural language processing comprises: accessing one or more tokens generated from a document to be processed; receiving one or more feature types defined by user; receiving selection of one or more feature types from a plurality of system-defined and user-defined feature types, wherein each feature type comprises one or more rules for generating features; receiving one or more parameters for the selected feature types, wherein the one or more rules for generating features are defined at least in part by the parameters; generating features associated with the document to be processed based on the selected feature types and the received parameters; and outputting the generated features in a format common among all feature types.

Abstract: A sensor system that obtains and processes time-of-flight data (TOF) obtained in an arbitrary orientation is provided. A TOF sensor obtains distance data describing various surfaces. A processor identifies a horizontal Z-plane in the environment, and transforms the data to align with the Z-plane. In some embodiments, the environment includes a box, and the processor identifies a bottom and a top of the box in the transformed data. The processor can further determine dimensions of the box, e.g., the height between the top and bottom of the box, and the length and width of the box top.

Abstract: Activity monitors and smart watches utilizing optical measurements are becoming widely popular, and users expect to get an increasingly accurate estimate of their heart rate (HR) from these devices. These devices are equipped with a light source and an optical sensor which enable estimation of HR using a technique called photoplethysmography (PPG). One of the main challenges of HR estimation using PPG is the coupling of motion into the optical PPG signal when the user is moving randomly or exercising. The present disclosure describes a computationally feasible and fast HR estimation algorithm to be executed at instances of little or no motion. Resulting HR readings may be useful on their own, or be provided to systems that monitor HR continuously to prevent the problem of such systems being locked on an incorrect HR for long periods of time. Implementing techniques described herein leads to more accurate HR measurements.

Abstract: Techniques for configuring a test system that enable simple specification of a degree of concurrency in testing separate functional portions of a semiconductor device. For a test flow with multiple sub-flows, the pins accessed in connection with each sub-flow may define a flow domain. Site regions, each associated with a flow domain, may be defined. Tester sites may be associated with each of these flow domain specific site regions and independently operating resources may be assigned to these tester sites. A second portion of the defined site regions may be associated with tester sites, but resources assigned to these site regions may be accessed from multiple flow domains. Test blocks, even if not developed for concurrent execution, may be executed concurrently using resources in the flow domain specific site regions. Flexibility is provided to share resources through the use of the second portion of the site regions.

Abstract: Activity monitors and smart watches utilizing optical measurements are becoming widely popular, and users expect to get an increasingly accurate estimate of their heart rate (HR) from these devices. These devices are equipped with a light source and an optical sensor which enable estimation of HR using a technique called photoplethysmography (PPG). One of the main challenges of HR estimation using PPG is the coupling of motion into the optical PPG signal when the user is moving randomly or exercising. The present disclosure describes a computationally feasible and fast HR estimation algorithm to be executed at instances of little or no motion. Resulting HR readings may be useful on their own, or be provided to systems that monitor HR continuously to prevent the problem of such systems being locked on an incorrect HR for long periods of time. Implementing techniques described herein leads to more accurate HR measurements.

Abstract: Techniques for configuring a test system that enable simple specification of a degree of concurrency in testing separate functional portions of a semiconductor device. For a test flow with multiple sub-flows; the pins accessed in connection with each sub-flow may define a flow domain. Site regions, each associated with a flow domain, may be defined. Tester sites may be associated with each of these flow domain specific site regions and independently operating resources may be assigned to these tester sites. A second portion of the defined site regions may be associated with tester sites, but resources assigned to these site regions may be accessed from multiple flow domains. Test blocks, even if not developed for concurrent execution, may be executed concurrently using resources in the flow domain specific site regions. Flexibility is provided to share resources through the use of the second portion of the site regions.