Abstract: A method for balancing sensors within a sensor system, the method including receiving, at a gateway, data from a plurality of sensors, each of the plurality of sensors being connected to one of a plurality of sensor modules or the gateway; determining, at the gateway, that a signal strength from a first sensor falls below a threshold, the first sensor being one of the plurality of sensors; and based on the determining, allocating the first sensor to connect to a different one of the plurality of sensor modules, or to the gateway if connected to one of the plurality of sensor modules.

Abstract: A system for discharging or charging a capacitor of a hybrid vehicle according to the present disclosure includes a target state of charge (SOC) module and a capacitor charge/discharge module. The target SOC module determines a target state of charge of the capacitor based on a speed of the vehicle. The capacitor charge/discharge module determines whether a state of charge of a capacitor is greater than a target state of charge. The capacitor charge/discharge module dissipates power from the capacitor to at least one of a battery of the vehicle and an electrical load of the vehicle when the state of charge of the capacitor is greater than the target state of charge.

Abstract: According to one embodiment, a method, computer system, and computer program product for cryptojacking prevention is provided. The embodiment may include capturing a plurality of processor usage information. The embodiment may also include identifying a process or a program using processing power above a preconfigured threshold based on the plurality of captured processor usage information. The embodiment may further include, in response to determining the identified process or the identified program is not approved by a system administrator, performing an action using operating system workload managers based on preconfigured preferences.

Abstract: Alignment features for an optical fibre assembly are formed directly into an ion trap chip to align an optical module with respect to the ion trap chip. This is achieved using microfabrication techniques to etch alignment elements into the surface of the ion trap chip, advantageously carried out with lithographic precision achieving the alignment accuracy required of the optical beam geometries for the application, with an alignment accuracy of a few micrometres. The alignment elements are advantageously etched along defined crystal planes of the silicon substrate of the chip. An external microstructure can be micromachined with lithographic precision to contain locating features that will fit, or “plug”, into the recesses of the chip, for instance ion microtrap chip.

Abstract: A method at a sensor apparatus affixed to a transportation asset, the method including detecting a trigger at the sensor apparatus; taking a threshold number of samples of a displacement-related value of the transportation asset over time; determining that a variance of the threshold number of samples exceeds a threshold; analyzing a frequency property based on the threshold number of samples; and based on the frequency property, determining whether the transportation asset is loaded or unloaded.

Abstract: A screen drive for a mobile material processing screen which can be at a travel width without having to fold or disable the screen drive. The screen drive system includes a drive motor, which is tucked at least partially under the vibrating screen; a sheave, having a double row ball bearing being supported by a shaft; a belt, coupling sheave and drive motor; a drive shaft coupled to a first universal joint, and a second universal joint, which is coupled to an opposing end of the drive shaft and to sheave.

Abstract: Facility layouts and configurations for an automated crop production system for controlled environment agriculture. In particular implementations the core of the facility comprises a controlled growth environment and a central processing system. The controlled growth environment includes systems for exposing crops housed in modules, such as grow towers, to Controlled environmental conditions. The central processing system may include various stations and functionality both for preparing crop-bearing modules to be inserted in the controlled growth environment, for harvesting crops from the crop-bearing modules after they have been extracted from the controlled growth environment, and for cleaning or washing crop-hearing modules for re-use.

Abstract: An automated crop production system for controlled environment agriculture that includes a horizontal-to-vertical grow tower interface between a vertical grow structure that includes vertical grow towers and associated conveyance mechanisms for moving the vertical grow towers through a controlled environment, and a processing system that performs one or more processing operations—such as harvesting, cleaning and/or transplanting—on the grow towers in a substantially horizontal orientation. The present disclosure also describes an automated crop production system for controlled environment agriculture that selectively routes grow towers through various processing stages of an automated crop production system.

Abstract: A method for transmitting message frames, comprising: generating, by an end device comprising a processor, a first message frame portion comprising a first plain header; obtaining a device identifier (DevEUI) and a header blinding key (HdrBKey); generating a first header mask using the DevEUI and the HdrBKey; obtaining a first blinded header by applying the first header mask to the first plain header; obtaining a first updated message frame portion by updating the first message portion using the first blinded header; generating a first blinded message frame comprising the first updated message frame portion; and transmitting the first blinded message frame to a network gateway.

Abstract: In some examples, a first wireless device transmits, within a first band designated for vehicle-related communications, service information for a service, the service information comprising information of a channel in a second band for communication of data of the service, the second band being outside of the first band.

Abstract: An FMCW radar system in which the patterns of chirp pairs for master and slave radar devices are selected such that when one of the chirps in a chirp pair (A, B) from the master coincides in time with one of the chirps in a chirp pair (C, D) from the slave, the other chirps in those pairs do not coincide in time. This allows for background subtraction and for the slave to self-synchronise to the master by detecting an in-band tone in the difference between spectral responses obtained by mixing signals from the master and the slave at the times of the slave's chirps, and driving that tone, once detected, to a particular set point.

Abstract: A method at a module within a sensor system for updating a timing profile, the method including: turning on a radio of the sensor module for a first time duration; detecting signals from other modules within the sensor system; for each signal, storing data comprising a time such signal is received and an identifier for a module sending such signal; sending the data to a server; and receiving the timing profile from the server.

Abstract: A wallet assembly that receives a contactless payment card includes a wallet arranged as at least a bifold wallet with first and second wallet sides, one side configured to receive the contactless card and the other configured to receive additional items and payment cards. RFID shielding eliminates electromagnetic signals from the additional payment cards. A flap attached to the wallet side holding the contactless card has a hole or window that physically exposes a portion of the payment card.

Abstract: Methods and systems for providing feedback during a medical procedure. The 3D position and orientation of a tracked tool are determined, relative to a site of the medical procedure, based on tracking information received from a tracking system. The 3D position and orientation are mapped to a common coordinate space, to determine the 3D position and orientation relative to a field-of-view (FOV) of an optical camera that is capturing an optical image of the site. Navigational information associated with the 3D position and orientation is determined. A virtual representation of the navigational information overlaid on the FOV and displayed. The displayed virtual representation is updated when the 3D position and orientation of the tracked tool changes or when the FOV changes, in accordance with the change.

Abstract: A disclosed method of determining operating states of a fan uses a digital image of the fan and at least one operating parameter-specific algorithm. In a first stage, the method includes generating the digital image of the fan as a representation of the fan's properties, the representation based on one or more mathematical calculation models and optionally known data. The method further includes generating the at least one operating parameter-specific algorithm based on at least one of known relationships and characteristic curves, and calculating component states of the fan via the digital image, wherein the calculation of component states is based on virtual sensors. The method further includes generating a system behavior algorithm that calculates operating parameters of the fan based on the component states and optionally generates predictions relating to the operation of the fan.

Abstract: A method for balancing sensors within a sensor system, the method including receiving, at a gateway, data from a plurality of sensors, each of the plurality of sensors being connected to one of a plurality of sensor modules or the gateway; determining, at the gateway, that a signal strength from a first sensor falls below a threshold, the first sensor being one of the plurality of sensors; and based on the determining, allocating the first sensor to connect to a different one of the plurality of sensor modules, or to the gateway if connected to one of the plurality of sensor modules.

Abstract: A digital delta-sigma modulator (DDSM) is disclosed with an input signal x[n], an output signal y[n], a quantization error signal e[n] and a dither signal d[n], having an equation described in the z-domain by Y(z)=STF(z)X(z)+DTF(z)D(z)?NTF(z)E(z) wherein Y(z), X(z), D(z) and E(z) are z-transforms of the output signal, the input signal, the dither signal, and the quantization error signal, and wherein STF(z), DTF(z) and NTF(z) correspond to a transfer function of the input signal, a transfer function of the dither signal, and a transfer function of the quantization error signal, and wherein the transfer function of the quantization error signal is of the form: NTF ? ( z ) = Az - Q ( 1 + ? i = 1 K c i ? z - i ) where A, Q and K are constants, coefficients ci are real valued and cK?0 and wherein at least one of the zeroes zj of ( 1 + ? i = 1 K c i ? z - i ) satisfies zj?+1 for j=1, 2, . . .

Abstract: A multispectral synchronized imaging system is provided. A multispectral light source of the system comprises: blue, green and red LEDs, and one or more non-visible light sources, each being independently addressable and configured to emit, in a sequence: at least visible white light, and non-visible light in one or more given non-visible frequency ranges. The system further comprises a camera and an optical filter arranged to filter light received at the camera, by: transmitting visible light from the LEDs; filter out non-visible light from the non-visible light sources; and otherwise transmit excited light emitted by a tissue sample excited by non-visible light. Images acquired by the camera are output to a display device. A control unit synchronizes acquisition of respective images at the camera for each of blue light, green light, visible white light, and excited light received at the camera, as reflected by the tissue sample.

Abstract: A method at a sensor module within a sensor system for communicating with a gateway, the method including storing a timing profile for communications with the gateway; waking a radio core of the sensor module at a threshold time prior to a beacon signal being expected from the gateway; sampling a channel for the beacon signal at the radio core; if the beacon signal is detected: waking a processor on the sensor module; exchanging communication with the gateway; and powering down the processor and radio core upon completion of the exchanging communication.

Abstract: A method for optimal time-to-event (TTE) modeling includes obtaining a forecast request requesting performance of a TTE forecast forecasting an amount of time an event will occur after a starting point in time. The method includes obtaining a cutoff value representing an amount of time after the starting point in time that the event has not occurred. The method also includes forecasting, using an uncertainty forecasting model, the amount of time the event will occur after the starting point in time and updating the forecasted amount of time based on the cutoff value. The method also includes returning the updated forecasted amount of time the event will occur after the starting point in time.