Systems and methods for a mosquito fitness tester are disclosed. In one embodiment, a system includes: a rotatable enclosure comprising an enclosed cavity; a powertrain to rotate the rotatable enclosure in one or more axes; and one or more sensors to monitor one or more insects in the enclosed cavity.

A motion-sensitive acoustic speaker may include a housing; a transmitter associated with the housing, a receiver associated with the housing, a interface component associated with the housing, and a processing device. The processing device is configured to: cause the transmitter to emit a first motion detection signal having an active phase and an idle phase; detect movement in an environment of the primary motion-sensitive acoustic speaker; cause a change in a state of the interface component in response to detection of movement in the environment of the motion-sensitive acoustic speaker; detect a presence of a secondary motion-sensitive acoustic speaker in the environment of the motion sensitive acoustic speaker; determine an idle period associated with the idle phase of the second motion detection signal during which a transmitter associated with the secondary motion-sensitive acoustic speaker is not actively transmitting; and cause the transmitter of the motion-sensitive acoustic speaker to emit the first motion detection signal such that the active phase of the first motion detection signal occurs within the idle period.

An eye tracking unit that includes one or more transmitters that transmit a signal (e.g., a radar signal or an ultrasonic sound) at an eye, one or more receivers that receive a reflection of the signal generated by interaction of the signal with the eye, and an eye orientation estimation module that estimates an orientation of the eye based on the reflected signal received by the one or more ultrasonic receivers and based on a model of the eye. The eye tracking unit may be part of a head-mounted display (HMD) that includes a display element configured to display content to a user wearing the HMD. The model of the eye may be trained by displaying a visual indicator on the electronic element and detecting a reflected signal corresponding to the eye looking at the visual indicator.

Systems and methods are provided for segmenting a data frame to be acquired into a number of incremental data of equal data length. A first incremental data of the data frame can be acquired from one or more sensors. The first incremental data of the data frame can be processed while a next incremental data of the data frame is being acquired from the one or more sensors. The acquiring and processing of incremental data of the data frame can continue until a last incremental data of the data frame is acquired and processed. Processed incremental data can be outputted as a processed data frame.

In an embodiment, a method of interference mitigation in a device that includes a millimeter-wave radar, includes transmitting radar signals with the millimeter-wave radar; receiving reflected radar signals with the millimeter-wave radar, the reflected radar signals corresponding to the transmitted radar signals; generating a first spectrogram based on the reflected radar signals; generating a second spectrogram indicative of movement of a non-target object; generating a compensated radar spectrogram based on the first and second spectrograms to compensate for an influence of the movement of the non-target object in the first spectrogram; and detecting a target or a property of the target based on the compensated radar spectrogram.

A detection apparatus that includes correlation processing systems that each find a correlation between a predetermined code sequence and a wave detection signal obtained by detecting a phase-modulated input wave at a frequency different from a frequency used by a different one of the correlation processing systems, and thereby generate a correlation signal, level reduction processors that each receive the correlation signal from a corresponding one of the plurality of correlation processing systems and reduce a level of the received correlation signal when the correlation signal is not to be used for detection of the target or do not reduce the level of the received correlation signal when the correlation signal is to be used for detection of the target, and a detector that detects at least presence or absence of the target based on the correlation signal processed by each of the plurality of level reduction processors.

A detection apparatus that includes correlation processing systems that each find a correlation between a predetermined code sequence and a wave detection signal obtained by detecting a phase-modulated input wave at a frequency different from a frequency used by a different one of the correlation processing systems, and thereby generate a correlation signal, level reduction processors that each receive the correlation signal from a corresponding one of the plurality of correlation processing systems and reduce a level of the received correlation signal when the correlation signal is not to be used for detection of the target or do not reduce the level of the received correlation signal when the correlation signal is to be used for detection of the target, and a detector that detects at least presence or absence of the target based on the correlation signal processed by each of the plurality of level reduction processors.

Disclosed is a boarding bridge having a transparent display. The boarding bridge includes a first tunnel connected to a terminal gate, a second tunnel connected to be capable of overlapping with the first tunnel, and a control unit. The first tunnel and the second tunnel each have a plurality of transparent displays, and include at least one overlap detecting sensor unit. Through the overlap detecting sensor unit which detects whether a transparent display of the first tunnel and a transparent display of the second tunnel overlap, the controller can selectively control the playback of images on the transparent displays of the first and second tunnels.

A device and method for determining the three-dimensional position of an object. The device comprises at least one transmitter that is adapted to emit a signal; at least three receivers, wherein the at least three receivers and the at least one transmitter are preferably arranged within a first plane, wherein a first receiver and a second receiver are preferably arranged along a first straight line, and a third receiver is preferably arranged at a distance from the first straight line; and a processor that is configured to determine at least three propagation times, wherein the respective propagation time is a time required by the signal from the transmitter via the object to the respective receiver, and wherein the processor is further configured to determine the three-dimensional position of the object on the basis of the determined propagation times as well as on the basis of the arrangement of the transmitter and the receivers.

Provided are a low-power ultrasound sensor that detects whether an object exists at a high speed, an object detecting method of the ultrasound sensor, and a computer-readable storage medium. The ultrasound sensor may include: a transmitter that outputs a plurality of first ultrasound beams having different frequencies; a receiver that receives a first reflection signal that is output when the output plurality of first ultrasound beams are reflected from an object; and a controller that determines a first area in a space, controls the transmitter to respectively output the plurality of first ultrasound beams to a plurality of first sub-areas that are included in the first area, and determines whether the object is included in each of the plurality of first sub-areas, based on the first reflection signal.