Abstract: A detector device includes a light source disposed within a chamber, a sensor disposed within the chamber, a compensator circuit electrically coupled with the sensor, and a controller. The controller is operable to receive a sensor signal generated by the sensor, determine a compensation factor to adjust the sensor signal, and generate a compensation offset signal based on the compensation factor. The controller is further operable to output the compensation offset signal to the compensator circuit to produce a compensated sensor signal as an adjustment to the sensor signal, energize the light source, monitor the compensated sensor signal with respect to an alarm limit, and trigger an alarm event based on the compensated sensor signal exceeding the alarm limit.

Abstract: A method of tracking an animal in a population of animals is disclosed that includes applying a visual identifier to the animal, associating reference identifier data of the visual identifier to animal data of the animal, capturing a digital image of the visual identifier applied to the animal, recognizing the visual identifier by digitally processing the captured digital image, and identifying the animal upon recognition of the visual identifier.

Abstract: A radio-frequency identification (RFID) antenna for a vending machine includes a controller and configured to selectively provide an item stored therein to a user. The RFID antenna includes a pair of short-circuited emitters, an antenna divider disposed between said pair of short-circuited emitters, a pair of cables each comprising a pair of low signal attenuation and feed points and each connecting respective one of said pair of short-circuited emitters to said antenna divider; and a connector coupled to said antenna divider for connecting said antenna divider to the controller of the vending machine.

Abstract: There is provided an unmanned roadside signage vehicle comprising an autonomous, semiautonomous and/or remotely controllable roadside signage vehicle for various roadside signage, emergency response and maintenance applications. In accordance with one aspect, the unmanned roadside signage vehicle comprises drive motors operably coupled to driven wheels; steering coupled to the driven wheels; a controller for controlling the drive motors and steering; at least one electronic signage board for displaying roadside signage; and a data interface for receiving at least remote control instructions, the data interface operably coupled to the controller and wherein the controller is configured for controlling the drive motors and steering in accordance with the remote control instructions.

Abstract: A crossbore detection system. The system is located in a downhole tool proximate a drill bit. The system comprises circuitry sensitive to a subsurface environment and a sensor that detects changes in the circuitry. The sensor detects changes in the circuitry that indicates that the drill bit has struck an underground pipe. The sensor may detect a series of electromagnetic signals indicative of the strike or may detect changes to an impedance bridge at a capacitive sensor.

Abstract: The present disclosure provides a rear cross collision detection system and method. The rear cross collision detection system includes an obstacle detection unit configured to receive an electromagnetic wave reflected from a reflection point of an obstacle in order to detect the position of the obstacle, an identity determination unit configured to, when a plurality of obstacles is detected by the obstacle detection unit, determine whether the plurality of obstacles is the same object based on the positions or speeds of the detected obstacles, and a collision determination unit configured to determine the possibility of a collision with the plurality of obstacles detected by the obstacle detection unit based on the result of the determination by the identity determination unit.

Abstract: For efficient presentation of pseudo force sense, a pseudo force sense generation apparatus includes: a base mechanism; and a contact mechanism that performs periodical asymmetric motion relative to the base mechanism and gives force based on the asymmetric motion to skin or mucous membrane with which the contact mechanism is in direct or indirect contact. A mass of the contact mechanism is smaller than a mass of the base mechanism, or the mass of the contact mechanism is smaller than a sum of the mass of the base mechanism and a mass of a mechanism that is attached to the base mechanism.

Abstract: An error monitoring apparatus and method are provided. The error monitoring method includes collecting an Event-Related Potential (ERP) for at least one passenger in a first mobility for a predetermined amount of time, analyzing the ERP collected for the predetermined amount of time, and transmitting error information of the first mobility to a traffic control server based on a result of analysis. The error information of the first mobility includes at least one of information on a time when the ERP is generated, a waveform of the ERP, position information of the first mobility or operation information of a second mobility, and the second mobility is different from the first mobility and has caused the ERP.

Abstract: An information processing method includes: obtaining, from vehicles, sensor data obtained from sensors of the vehicles; performing object detection processes each using a different one of the sensor data; determining a style of a presentation for monitoring or controlling the vehicles, using results of the object detection processes; and controlling the presentation made by a presentation device according to the style determined.

Abstract: Dynamically controlling output from a device, such as an automated assistant device. Control of the output can be based on, for example, a condition and/or physiological attribute(s) of a user of the device. Various implementations dynamically control the output to improve sleep quality for the user and/or mitigate waste of computational and/or network resources.

Abstract: In accordance with a first aspect of the present disclosure, an ultra-wideband (UWB) communication device is provided, comprising: a UWB communication unit being configured to establish and perform UWB radio communication with an external device, a radio frequency (RF) communication device being a radio frequency identification (RFID) tag, wherein the RF communication device is configured to receive at least one command from an external reader and to initiate a wake-up or a power-up of the UWB communication unit in response to receiving said command. In accordance with a second aspect of the present disclosure, a corresponding method of operating an ultra-wideband (UWB) communication device is conceived.

Abstract: An RFID system includes an antenna of a reader/writer and an antenna of an RFID tag. Transmission and reception of a high-frequency signal of a UHF band is performed between the antenna of the reader/writer and the antenna of the RFID tag that are arranged so as to be adjacent to each other. A loop antenna including a loop conductor is used as the antenna of the reader/writer, and coil antennas including a plurality of laminated coil conductors are used as the antenna of an RFID tag. In addition, the conductor width of the loop conductor in the loop antenna is greater than the conductor widths of the coil conductors in the coil antennas.

Abstract: Disclosed herein are system, method, and computer program product embodiments for the detection of human presence in front of a plurality of sensors such as those of speakers and a device with a processor, such as a television. Data gathered from the plurality of sensors may be analyzed by the processor to determine if one or more humans are present proximate to the device. Based on the determined presence or absence of one or more humans, further actions including, inter alia, activating a sleep mode for the one or more humans, shutting off the device in a green mode, or alerting an owner-user to the presence of an intruder can be taken.

Abstract: A method for employing cycle counting is presented. The method includes interrogating, by an RFID reader, RFID tags by using a plurality of antenna ports, determining, by an activation sequencer, an activation sequence of the plurality of antenna ports that have been enabled, collecting RFID tag responses from each of the RFID tags, and matching one or more of the RFID tag responses to a particular antenna port of the plurality of antenna ports in an activation cycle.

Abstract: Methods of assessing driver behavior include monitoring vehicle systems and driver monitoring systems to accommodate for a driver's slow reaction time, attention lapse and/or alertness. When it is determined that a driver is drowsy, for example, the response system may modify the operation of one or more vehicle systems. The systems that may be modified include: visual devices, audio devices, tactile devices, antilock brake systems, automatic brake prefill systems, brake assist systems, auto cruise control systems, electronic stability control systems, collision warning systems, lane keep assist systems, blind spot indicator systems, electronic pretensioning systems and climate control systems.

Abstract: A vehicle alert apparatus includes: a drowse detector that detects drowse of a driver; an inattention detector that detects inattention of the driver; a vehicle speed detector that detects the vehicle speed; a notification portion that executes alert for the driver; and an alert controller that controls the alert executed by the notification portion based on a detection result of the drowse of the driver, a detection result of the inattention of the driver, or a detection result of the vehicle speed.

Abstract: A portable compliance dispenser provides a compliance module that is removably attached to a replaceable refill container, which carries any suitable liquid material, such as sanitizer. The compliance module is configured to be worn or carried by an individual and communicates hygiene compliance data to a remote monitoring station when material from the refill container is dispensed.

Abstract: An electrical converter assembly includes a sensing device coupled to one or more wires of a towing vehicle. The sensing device is configured to detect the current flow in the one or more wires and generate a signal in response to the current flow. The converter assembly further includes an electrical component in communication with the sensing device. The electrical component may generate a signal to a towed vehicle in response to the current flow detected by the sensing device. The sensing device may be a non-invasive sensing device. The non-invasive sensing device may detect current flow in the one or more wires of the towing vehicle without direct contact with the conducting element of the wires.

Abstract: A rearing place management device according to an embodiment of the present invention includes a photographing unit for photographing a rearing place; a control unit for detecting abnormal signs in the rearing place by comparing behavior patterns in image data obtained by the photographing unit with behavior patterns in normal image data; and a communication unit for transmitting the abnormal signs, wherein the control unit extracts a region of interest including the abnormal signs from the obtained image data, transmits information on the region of interest to the photographing unit, receives, from the photographing unit, image data obtained by photographing the region of interest, and extracts an abnormal region which is narrower than the region of interest from the behavior patterns in the image data of the region of interest.

Abstract: Proximity-based vehicle security systems and methods are provided herein. An example method includes determining a napping event of a vehicle occupant within a vehicle, determining, based on signals of external sensors of the vehicle, when an object has entered one of a plurality of distance-based zones during the napping event, each of the distance-based zones being associated with a unique security response, and invoking the unique security response of the one of a plurality of distance-based zones.