Abstract: An agricultural trench depth sensing system having a trench implement adapted to be disposed in a soil trench opened in a soil surface. In one embodiment an ultrasonic sensor detects a distance to an upper surface of said trench implement or a target disposed thereon. In another embodiment, said trench implement includes one or more fingers which rotate with respect to said trench implement to detect the soil surface relative to said trench implement. In another embodiment, said trench implement includes side sensors for detecting the sidewall of the soil trench.

Abstract: After a data packet containing an active medium access control (MAC) address of a connected device enters a customer-premises equipment (CPE), the active MAC address of the connected device is replaced with an earlier MAC address of the connected device. Before the data packet with the earlier MAC address exits the CPE, the earlier MAC address of the connected device is replaced with the active MAC address of the connected device.

Abstract: Systems and methods are provided for optimizing hemodynamics within a patient's heart, e.g., to improve the patient's exercise capacity. In one embodiment, a system is configured to be implanted in a patient's body to monitor and/or treat the patient that includes at least one sensor configured to provide sensor data that corresponds to a blood pressure within or near the patient's heart; at least one adjustable component designed to cause blood to flow in a direction opposite to the normal direction (regurgitation) within the patient's heart; and a controller configured for adjusting the function of the at least one adjustable component based at least in part on sensor data from the at least one sensor.

Abstract: A transducer interface system/method allowing conversion from an analog sensor input to a standardized analog output interface is disclosed. In some preferred embodiments the system/method permits a fiber optic pressure sensor to be interfaced to a standard patient care monitor (PCM) system using standardized Wheatstone Bridge analog interface inputs. Within this context the Wheatstone Bridge sensed output is defined by stimulus from the PCM and modulation of bridge element values by the conditioned output of an analog pressure sensor. The use of analog-to-digital-to-analog conversion in this transducer interface permits retrofitting of PCM devices having analog Wheatstone Bridge inputs with advanced patient monitoring sensors without the need for specialized modifications to the baseline PCM data collection framework. Methods disclosed herein include techniques to connect arbitrary types/numbers of analog sensors to traditional PCM systems without the need for PCM system hardware/software modifications.

Abstract: A lamp for a vehicle includes brackets designed to break in response to a force, or load, to the lamp. Based in part on the breaking of the brackets, the lamp may move relative to the vehicle. As a result, when a pedestrian provides the force, the impact by the lamp to the pedestrian is reduced, thus decreasing the likelihood of injury to the pedestrians. A lamp may further include one or more clips that secure to a front end module of the vehicle. In the event of impact to the lamp, the clip(s) promote movement of the lamp relative to the vehicle. A lamp may further include a damper designed to absorb energy from the force to the lamp.

Abstract: A tong positioning system includes a positioning device configured to move a tong assembly. The positioning device includes a first actuator, a second actuator, and a control attachment attachable to the positioning device. The control attachment includes a shutoff valve fluidly coupled to a hydraulic supply, a control valve block, and a control device. The control valve block includes a hydraulic input fluidly coupled to the shutoff valve, a hydraulic output fluidly coupled to a hydraulic return, a first valve fluidly coupled to the first actuator, the first valve configured to actuate the first actuator, and a second valve fluidly coupled to the second actuator, the second valve configured to actuate the second actuator. The control device is configured to control the first valve and to control the second valve to actuate the first and second actuators to move the tong assembly.

Abstract: A dolly frame includes a rectangular-shaped body having a first component and a second component coupled to the first component. The body movable between a retracted position and an expanded position. The dolly frame also includes a plurality of casters coupled to a first side of the body and configured to allow the body to roll on a surface. When the body moves from the retracted position to the expanded position, the first component slides with respect to the second component, thereby increasing a perimeter of the body.

Abstract: The present disclosure relates to branched proximal connectors for high density neural interfaces and methods of microfabricating the branched proximal connectors. Particularly, aspects of the present disclosure are directed to a branched connector that includes a main body having a base portion of a supporting structure and a plurality of conductive traces formed on the base portion, and a plurality of plugs extending from the main body. Each plug of the plurality of plugs include an end portion of the supporting structure comprised of the one or more layers of dielectric material, and a subset of conductive traces from the plurality of conductive traces. Each trace from the subset of conductive traces terminates at a bond pad exposed on a surface of the end portion of the supporting structure.

Abstract: A control system for a vehicle having an internal combustion engine with an exhaust system includes one or more oxygen (O2) sensors disposed proximate to a catalytic converter, a first bias circuit configured to provide a first bias voltage to the one or more O2 sensors, and a second bias circuit configured to provide a second bias voltage to the one or more O2 sensors. A controller is programmed to: upon detecting a cold start condition, connect the one or more O2 sensors to the first bias circuit to receive the first bias voltage to rapidly detect a usable signal indicating light off of the one or more O2 sensors, to thereby facilitate initiation of a closed loop feedback control to reduce exhaust emissions; and subsequently connect the one or more O2 sensors to the second bias circuit to receive the second bias voltage to operate in the closed loop feedback control.

Abstract: The disclosed system may include (1) a processor that generates an artificial environment that includes a virtual object, (2) a display that presents the artificial environment, (3) an input subsystem that detects tracks positioning of a body, and (4) a plurality of haptic actuators that are arranged to apply haptic feedback to a first plurality of locations on the body, where the processor (a) determines, based on the positioning of the body, a virtual contact of one of a second plurality of locations on the body with the virtual object, where the second plurality of locations is different from the first plurality of locations, and (b) activates, in response to the virtual contact, at least one of the plurality of haptic actuators based on a mapping of the second plurality of locations to the plurality of haptic actuators. Various other systems and methods are also disclosed.

Abstract: A system for using mobile data to improve weather information is provided. The system includes a weather prediction station configured to receive stationary observation data provided by a plurality of stationary weather stations along with data from a plurality of input weather models and generate unified weather model estimates based on the stationary observation data, the input weather model data, and a processor. The processor is configured to aggregate mobile observation data provided by a plurality of non-stationary sensors and use the aggregated mobile observation data to adjust the weather model estimates.

Abstract: An electronic vaping device includes a liquid storage portion, an electric heater and electronic circuitry. The liquid storage portion is configured to store liquid vapor-forming substrate. The electric heater includes at least one heating element, the at least one heating element configured to heat the liquid vapor-forming substrate. The electronic circuitry is configured to self-activate the electric heater for a first time interval during a period of inactivity of the electric heater to determine depletion of the liquid vapor-forming substrate based on a relationship between a power applied to the at least one heating element and a resulting temperature change of the at least one heating element.

Abstract: Embodiments described herein are directed to an adaptive AI model for 3D object detection using synthetic training data. For example, an ML model is trained to detect certain items of interest based on a training set that is synthetically generated in real time during the training process. The training set comprises a plurality of images depicting containers that are virtually packed with items of interest. Each image of the training set is a composite of an image comprising a container that is packed with items of non-interest and an image comprising an item of interest scanned in isolation. A plurality of such images is generated during any given training iteration of the ML model. Once trained, the ML model is configured to detect items of interest in actual containers and output a classification indicative of a likelihood that a container comprises an item of interest.

Abstract: An example may include detecting, via a controller, one or more microphones and one or more speakers in an area, measuring, via the one or more microphones, an initial frequency response of an audio signal generated by the one or more speakers inside the area and generating an initial room performance rating, comparing the initial frequency response to a target frequency response, creating audio compensation values to apply to the one or more speakers based on the comparison, and applying the audio compensation values to the one or more speakers.

Abstract: A wireless device receives one or more configuration parameters for a cell. The one or more configuration parameters indicate control resource set (coreset) groups, and each of the coreset groups comprises one or more respective coresets. The wireless device selects, for radio link monitoring of the cell and based on the one or more configuration parameters, a coreset group among the coreset groups. The wireless device measures, for the radio link monitoring of the cell, a reference signal indicated by a transmission configuration indication (TCI) state of a coreset in the coreset group.

Abstract: The disclosure provides a botanical processing module, comprising a housing, wherein the housing comprises a plurality of surfaces, wherein there is an internal cavity defined between the plurality of surfaces; a first inlet disposed on a top surface of the housing; a second inlet disposed on a first side surface of the housing, wherein the first side surface is orthogonal to the top surface; a first outlet disposed on the first side surface; a controller, wherein the controller comprises a processor; a memory; and a display, wherein the display is disposed on a second side surface of the housing, wherein the second side surface is orthogonal to both the top surface and the first side surface; a grinder; and a first heating chamber; wherein the grinder and the first heating chamber are disposed within the internal cavity of the housing, wherein the first heating chamber is coupled to the grinder.