Abstract: A computer-implemented method for adaptive display brightness adjustment, the method comprising: obtaining current state data characterizing a current state of a device having a display with an adjustable brightness; providing the current state data as input to a brightness prediction machine learning model, wherein the model is configured to process the current state data in accordance with current values of a set of model parameters to generate as output a proposed display brightness for the display of the device; setting the brightness of the display to a brightness that is lower than the proposed display brightness in accordance with an exploration policy; determining whether a user of the device manually adjusts the display brightness; and in response to determining that the user did not manually adjust the display brightness, using the lower brightness as a target output for adjusting the current values of the set of model parameters.

Abstract: A method and system for monitoring people, projects, objects and properties to validate the status and quality of work completed, services provided and safety issues. The methods and systems described herein provides for a business solution (B2B, B2C and B2G) and consumer solution (C2C and C2B) that will receive data relating to tracking the onsite/offsite time of people assigned to perform a service or complete a task within a specified location, time-interval visual/audio status updates of work completed, map view to monitor multiple people, projects, objects and properties simultaneously, emergency and safety alerts for workers, safety ratings and reporting safety issues for schools/public/private spaces, tracking the delivery of mailed objects, smart mailbox and smart lockbox components, and white labeling of the mobile application to allow business users to brand it for their customers.

Abstract: Electrode materials for electrochemical cells and batteries and methods of producing such materials are disclosed herein. The electrode materials comprise an active lithium metal oxide material prepared by: (a) contacting the lithium metal oxide material with an aqueous acidic solution containing one or more metal cations; and (b) heating the so-contacted lithium metal oxide from step (a) to dryness at a temperature below 200° C. The metal cations in the aqueous acidic solution comprise one or more metal cations selected from the group consisting of an alkaline earth metal ion, a transition metal ion, and a main group metal ion.

Abstract: Disclosed herein are anti-Galectin-9 antibodies and methods of using such for inhibiting a signaling pathway mediated by Galectin-9 or eliminating pathologic cells expressing Galectin-9. Such anti-Galectin-9 antibodies may also be used to diagnose and/or to treat diseases associated with Galectin-9, such as autoimmune diseases and solid tumors.

Abstract: Various methods and systems are provided for a medical imaging system C-arm. In one embodiment, an imaging system comprises a C-arm including an inner circumferential wall forming a first pair of grooved flanges and the outer circumferential wall forming a second pair of grooved flanges, where each of the first pair of grooved flanges and second pair of grooved flanges comprises a composite material. A C-shaped portion of the C-arm may be configured to rotate isocentrically around a rotational axis.

Abstract: According to the invention, there is provided seed and plants of the corn variety designated CV459525. The invention thus relates to the plants, seeds and tissue cultures of the variety CV459525, and to methods for producing a corn plant produced by crossing a corn plant of variety CV459525 with itself or with another corn plant, such as a plant of another variety. The invention further relates to corn seeds and plants produced by crossing plants of variety CV459525 with plants of another variety, such as another inbred line. The invention further relates to the inbred and hybrid genetic complements of plants of variety CV459525.

Abstract: Systems and methods for providing power search and harvesting in a drone device provide execution of one or more tasks, wherein one of the tasks has a higher priority than the remaining tasks. A power mode is determined for executing the highest priority task by sequentially determining whether the highest priority task can be executed in one of a plurality of execution scenarios including from a charging pad associated with the drone, from another location using energy harvested from an existing energy source, from another location using energy harvested from an energy source enabled by the drone, or from another location using battery power alone. The highest priority task is executed in keeping with the first usable execution scenario found during the sequential determination.

Abstract: An agricultural vehicle header includes a frame, a front conveyor, and a rear conveyor. The frame extends in a lateral direction from a first end to a second end and has a leading edge, and a feeder housing opening positioned behind the leading edge with respect to a forward direction. The front conveyor is attached to the frame behind the leading edge with respect to the forward direction, and includes a front movable surface configured to move an adjacent portion of crop material towards the feeder housing opening. The rear conveyor is attached to the frame behind the front conveyor, and has a rear belt having an operative surface that faces in the forward direction and is configured to move an adjacent portion of crop material towards the feeder housing opening.

Abstract: Disclosed herein are apparatuses and methods for iteratively mapping a layout of an environment. The implementations include receiving a visual stream from a camera installed in the environment, wherein the visual stream depicts a view of the environment, and wherein positional parameters of the camera and dimensions of the environment are set to arbitrary values. The implementations include monitoring a plurality of persons in the visual stream. For each person in the plurality of persons, the implementations further includes identifying a respective path that the person moves along in the view, updating the dimensions of the environment captured in the view, based on an estimated height of the person and movement speed along the respective path, and updating the positional parameters of the camera based on the updated dimensions of the environment. The implementations further includes mapping a layout of the environment captured in the view of the camera.

Abstract: In some examples, a method includes downloading, from an application provider, a patch to be applied to a first application element and a stripped version of the application that does not include one or more application elements to be reused during installation of the application, decompressing the first application element to generate a decompressed version of the first application element, and decompressing the patch to generate a decompressed version of the patch. The method may also include applying the decompressed version of the patch to the decompressed version of the first application element to generate a patched application element, compressing the patched application element to generate a compressed patched application element, and installing the application using the compressed patched application element, the stripped version of the application, and the one or more application elements other than the first application element.

Abstract: A manned/unmanned aerial vehicle adapted for vertical takeoff and landing using the same set of engines for takeoff and landing as well as for forward flight. An aerial vehicle which is adapted to takeoff with the wings in a vertical as opposed to horizontal flight attitude which takes off in this vertical attitude and then transitions to a horizontal flight path. A tailless airplane which uses a control system that takes inputs for a traditional tailed airplane and translates those inputs to provide control utilizing non-traditional control methods.

Abstract: An apparatus for applying an engagement collar to a group of articles, which includes an application area defining a horizontal support surface for receiving a group of articles, a horizontal press plate positioned above the support surface and mounted for vertical movement relative to the support surface, and an actuation assembly operatively connected to the press plate for moving the press plate relative to the support surface to apply an engagement collar to the group of articles positioned on the support surface within the application area, wherein the actuation assembly includes an actuation lever that is located below the press plate and in front of the application area to provide an ergonomic work environment.

Abstract: Methods and systems are provided for controlling engine oil dilution in automotive vehicles. The method comprises heating coolant by operating an exhaust gas heat recovery device and circulating the heated coolant via a first coolant loop between the exhaust gas heat recovery device and a heat exchanger; and heating coolant by operating an exhaust gas recirculation cooler and circulating the heated coolant via a second coolant loop between the exhaust gas recirculation cooler and the heat exchanger, wherein the heated coolant from both the exhaust gas heat recovery device and the exhaust gas recirculation cooler mix at the heat exchanger and allows heating of an engine oil via the heat exchanger. In one example, the method prevents excessive accumulation of water and/or fuel in the engine oil.

Abstract: Methods for demodulating wireless messages in 5G and 6G include comparing signal parameters of the message to a demodulation reference that is placed in close proximity to the message. The demodulation reference and the message may be transmitted in a concatenated fashion on a series of subcarriers at a single symbol-time, or on a series of symbol-times at a single subcarrier. The receiver may measure and record waveform parameters of the message signal as it is received, for subsequent separation and demodulation of the various message elements. The message may be modulated using classical amplitude-phase modulation, or pulse-amplitude modulation, or other modulation scheme. In each version, the receiver can measure the wave properties (amplitude and phase, branch amplitudes, etc.) of the demodulation reference, and then compare the same parameters of the message elements, thereby demodulating the message regardless of the modulation scheme.