Abstract: Implantable medical devices (IMDs), and methods for use therewith, reduce how often an IMD accepts false messages. Such a method can include receiving a message and performing error detection and correction on the message. Such a method can also include determining a quality measure indicative of a quality of the message and/or a quality of a channel over which the message was received, and determining whether to reject the message based on the quality measure.

Abstract: A keyboard apparatus including a key module and a detection circuit is provided. The key module includes a plurality of keys, a plurality of scan lines, and a plurality of return lines. The scan lines and the return lines are crossed to each other and coupled to the keys respectively. The detection circuit is coupled to the return lines and configured to detect a current flowing through each of the return lines and indicate that a switch of each of the keys is in an on state or in an off state according to a value of the current.

Abstract: A device for the measurement of electrical properties on a surface. Sensor consists of several conductive elements arranged at vertices of a three-dimensional geometry. As such, the device achieves a favorable sensing configuration regardless of initial orientation. The device includes circuitry for interfacing with the conductive elements. This circuitry determines the electrical properties of the surface. The measurement has many uses, one of which is to discriminate between dry and wet surfaces. This patent presents various analysis methods to determine the electrical property.

Abstract: An adaptive algorithm based battery-powered long distance wireless temperature and humidity sensor module. The sensor module uses an adaptive algorithm to transmit data on an event basis and/or a reduced basis to extend battery life to more than 10 years. It also uses a low power wireless transmitter which has frequency of sub-1 GHz and an effective transfer distance of up to 250 meters, a low power temperature and humidity sensor, and a long lasting lithium battery which has shelf life of 20 years.

Abstract: A system and method for predicting aircraft nonlinear instability includes the steps of: (1) a pre-built aircraft state parameters for all possible flight conditions, (2) real time measuring flight parameters to determine aircraft state, (3) calculating the inertial coupling frequencies and periods as well as the nonlinear instability threshold based on the nonlinear instability theory recently developed by the inventor, (4) providing a first warning signal if the threshold is approached, (5) providing a second warning signal if the threshold has been exceeded.

Abstract: The present subject matter provides various technical solutions to technical problems facing UAV detection and mitigation. Information received from UAV detection sensors may be analyzed or matched against known UAV characteristics. The analysis or matching may be used to identify the UAV, analyze the UAV characteristics or navigational behavior, and classify the UAV behavior and the UAV itself. The UAV may be classified as either compliant, ignorant (e.g., unintentional) and noncompliant, or purposeful (e.g., intentional) and noncompliant. The UAV classification may be improved by using UAV characteristic analysis performed by an artificial neural network (ANN) algorithm using specific UAV classifiers. A UAV mitigation command or mitigation response may be generated based on the UAV characteristic analysis combined with a UAV safety risk assessment. The mitigation command may cause nondestructive interference, destruction, capture, or another UAV mitigation response.

Abstract: The handle of the flagger's stop paddle is combined with computing and communications technologies so that the presence of the road construction flagger can be established and the details of the flagger's efforts to manage traffic flow through the construction site can be transmitted to traffic management centers.

Abstract: At least one embodiment of the invention relates to a temperature and heat monitoring device comprising a housing, at least one microcontroller disposed in the housing, at least one sensor configured to determine an amount of heat adjacent to the device, at least one memory configured to store a predetermined set of values relating to heat and at least one power source in communication with the microcontroller. There is also at least one transmitter configured to communicate with an adjacent electronic device, wherein said at least one microcontroller is configured to read signals from said at least one sensor, and to determine whether the information from said sensor is outside of said predetermined set of values relating to heat and then to selectively send a signal to the adjacent electronic device to indicate a heat or temperature condition.

Abstract: A rotary pulser for transmitting information in a mud pulse telemetry system of a drilling operation. The pulser has two rotors mounted adjacent each other so that obstruction of the passages formed between the blades in one pulser by the blades of the other pulser creates pressure pulses in the drilling fluid. Each rotor is separately controlled and can be rotated continuously in one direction or oscillated. The ability to rotate each rotor separately provides flexibility in the pulser's operating mode, so as to allow more efficient generation of pulses, and also enhances the ability of the pulser to clear debris that would otherwise jam or obstruct the pulser.

Abstract: A modular leak detection and notification unit comprised of a self powered leak sensor and a remote relay transmitter. It presents a local audible alarm and a text alarm message signaling the location of the leak to the all cell phones/smart devices that it is directed to notify. Notification may be routed in two different ways via the internet and RF transmission. It can accommodate any number of leak sensors, that can be positioned at a plethora of different potential leak sites.

Abstract: A virtual preemption system for emergency and non-emergency vehicles to provide a priority safe route for an emergency vehicle, wherein the in-vehicle software can predict the predefined upcoming intersections on the priority route based on the heading of the emergency vehicle and the segment orientation. Therefore, the emergency vehicle knows the latitude/longitude of the upcoming intersections ahead of time to calculate a threshold start time associated with each one of the predefined upcoming intersections and transmit them to all vehicles approaching any of the predefined intersections on the priority route to start a safe transition of traffic signal phases associated with each one of these intersections just before the arrival of the emergency vehicle. Also to allow all vehicles on the priority route to slow down and pull over to the side of the road just before meeting the emergency vehicle.

Abstract: An electrical metering system capable of performing multiple metering functions, collecting data, and wirelessly provides the collected metering data to a utility operator. In the electrical metering system, at least one computing device for initiating a request for data. A first modem connects the computing device to an infrastructure. A wireless embedded modem for wirelessly connects an electric meter to an infrastructure, and the wireless electric modem receives a request from the computing device and wirelessly transmits the metering data to the computing device, thereby initiating the request.

Abstract: The disclosure generally relates to power over fiber technology configured to provide electrical power and communications via fiber to one or more sensors of one or more varieties. More particularly, the disclosure relates to a sensor system comprising a laser data module operatively connected to a powered sensor module, wherein the powered sensor module receives a light, converts the light to electrical power, and powers a sensor with the electrical power, and wherein the powered sensor module transmits signals from the sensor to a laser data module.

Abstract: An athletic wear includes at least one of an athlete garment, a helmet, a glove, a wristband, a headband, a mouth guard, and a pad. A plurality of sensors and at least one camera are integrated into the at least one of the athlete garment, the helmet, the glove, the wristband, the headband, the mouth guard, and the pad. A processor is in signal communication with the plurality of sensors and the at least one camera for receiving, analyzing, and transmitting data signals obtained by the plurality of sensors and the at least one camera. The plurality of sensors are configured to obtain a wearer's physiological data, position data and movement data.

Abstract: Disclosed are a method and system for operating an unmanned delivery device. One embodiment of the method includes setting at least one sampling section with respect to a travel path to a destination of at least one delivery item, determining a type of the sampling section based on location information and altitude information of the sampling section, setting a traveling range including the at least one sampling section based on the type of the sampling section, generating route information including the at least one traveling range, and providing the route information to the unmanned delivery device.

Abstract: Examples of techniques for anonymizing data are disclosed. In one example implementation according to aspects of the present disclosure, a computer-implemented method includes receiving, by a processing device, raw data from a wellbore operation. The raw data can be associated with depths. The method further includes anonymizing, by the processing device, the raw data to convert the raw data to anonymized data. One or more techniques can be implemented to anonymize the data, such as shuffling the raw data, normalizing the raw data, and/or non-dimensionalizing the raw data. The method further includes analyzing, by the processing device, the anonymized data. The method further includes performing an action at the wellbore operation based at least in part on the analysis of the anonymized data.

Abstract: Examples of techniques for anonymizing data are disclosed. In one example implementation according to aspects of the present disclosure, a computer-implemented method includes receiving, by a processing device, raw data from a wellbore operation. The raw data can be associated with depths. The method further includes anonymizing, by the processing device, the raw data to convert the raw data to anonymized data. One or more techniques can be implemented to anonymize the data, such as shuffling the raw data, normalizing the raw data, and/or non-dimensionalizing the raw data. The method further includes analyzing, by the processing device, the anonymized data. The method further includes performing an action at the wellbore operation based at least in part on the analysis of the anonymized data.

Abstract: A sensing system includes: a wireless sensor terminal that includes a sensor, a processor, and a memory; and a concentrator that includes a processor and a memory and is connected to the wireless sensor terminal. In the sensing system, the wireless sensor terminal includes a first signal processing unit that processes sensor data measured by the sensor, and a first wireless communication unit that transmits the data output by the first signal processing unit. The concentrator includes a second wireless communication unit that communicates with the first wireless communication unit, and a second signal processing unit that calculates a feature quantity based on the data received from the wireless sensor terminal, determines a principal component according to the feature quantity by a principal component analysis, and generates a principal component list corresponding to the principal component.

Abstract: Apparatus is provided to electronically operate the hot water and/or cold water supply lines connected to any manual faucet, which can be utilized for any home or business's kitchen and/or bathroom. The electronic water distribution center is a universal device that can connect to any faucet system or water spout to control the water temperature and pressure electronically, hence still allow the users preferred faucet's hot and cold manual controls to move the temperature and pressure up or down manually for the water which is outputted from the spout. The said apparatus has one or two main units in total, which is a central control system and/or a main mcu system.

Abstract: A coordinate measurement device and method for hover sensing are disclosed. According to the present invention, the coordinate measurement device comprises: a channel electrode unit including a plurality of electrodes, wherein a capacitance of at least one of the plurality of electrodes variably changes by the approach of a contact object; a driving unit for applying a positive voltage to a first electrode group among the plurality of electrodes and applying a negative voltage to a second electrode group among the plurality of electrodes; a reception unit for receiving reception signals from a plurality of electrodes in the first electrode group and a plurality of electrodes in the second electrode group, respectively; and a processor for determining the position of the contact object on the basis of the received signals.